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Aspire one Series User Guide Copyright 2008. Acer Incorporated. All Rights Reserved. Aspire one Series User Guide Original Issue: 07/2008 Changes may be made periodically to the information in this publication without obligation to notify any person of such revisions or changes. Such changes will be incorporated in new editions of this manual or supplementary documents and publications. This company makes no representations or warranties, either expressed or implied, with respect to the contents hereof and specifically disclaims the implied warranties of merchantability or fitness for a particular purpose. Record the model number, serial number, purchase date and place of purchase information in the space provided below. The serial number and model number are recorded on the label affixed to your computer. All correspondence concerning your unit should include the serial number, model number and purchase information. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, electronically, mechanically, by photocopy, recording or otherwise, without the prior written permission of Acer Incorporated. Aspire one Series Notebook PC Model number: __________________________________ Serial number: ___________________________________ Date of purchase: ________________________________ Place of purchase: ________________________________ Acer and the Acer logo are registered trademarks of Acer Incorporated. Other companies'
product names or trademarks are used herein for identification purposes only and belong to their respective companies. Information for your safety and comfort iii Safety instructions Read these instructions carefully. Keep this document for future reference. Follow all warnings and instructions marked on the product. Turning the product off before cleaning Unplug this product from the wall outlet before cleaning. Do not use liquid cleaners or aerosol cleaners. Use a damp cloth for cleaning. CAUTION for plug as disconnecting device Observe the following guidelines when connecting and disconnecting power to the power supply unit:
Install the power supply unit before connecting the power cord to the AC power outlet. Unplug the power cord before removing the power supply unit from the computer. If the system has multiple sources of power, disconnect power from the system by unplugging all power cords from the power supplies. CAUTION for Accessibility Be sure that the power outlet you plug the power cord into is easily accessible and located as close to the equipment operator as possible. When you need to disconnect power to the equipment, be sure to unplug the power cord from the electrical outlet. CAUTION for bundled dummy cards Your computer shipped with plastic dummies installed in the card slots. Dummies protect unused slots from dust, metal objects or other particles. Save the dummies for use when no cards are in the slots. CAUTION for Listening To protect your hearing, follow these instructions. Increase the volume gradually until you can hear clearly and comfortably. Do not increase the volume level after your ears have adjusted. Do not listen to music at high volumes for extended periods. Do not increase the volume to block out noisy surroundings. Decrease the volume if you can't hear people speaking near you. iv Warnings Do not use this product near water. Do not place this product on an unstable cart, stand or table. If the product falls, it could be seriously damaged. Slots and openings are provided for ventilation to ensure reliable operation of the product and to protect it from overheating. These openings must not be blocked or covered. The openings should never be blocked by placing the product on a bed, sofa, rug or other similar surface. This product should never be placed near or over a radiator or heat register, or in a built-in installation unless proper ventilation is provided. Never push objects of any kind into this product through cabinet slots as they may touch dangerous voltage points or short-out parts that could result in a fire or electric shock. Never spill liquid of any kind onto or into the product. To avoid damage of internal components and to prevent battery leakage, do not place the product on a vibrating surface. Never use it under sporting, exercising, or any vibrating environment which will probably cause unexpected short current or damage rotor devices, HDD, Optical drive, and even exposure risk from lithium battery pack. Using electrical power This product should be operated from the type of power indicated on the marking label. If you are not sure of the type of power available, consult your dealer or local power company. Do not allow anything to rest on the power cord. Do not locate this product where people will walk on the cord. If an extension cord is used with this product, make sure that the total ampere rating of the equipment plugged into the extension cord does not exceed the extension cord ampere rating. Also, make sure that the total rating of all products plugged into the wall outlet does not exceed the fuse rating. Do not overload a power outlet, strip or receptacle by plugging in too many devices. The overall system load must not exceed 80% of the branch circuit rating. If power strips are used, the load should not exceed 80% of the power strip's input rating. This product's AC adapter is equipped with a three-wire grounded plug. The plug only fits in a grounded power outlet. Make sure the power outlet is properly grounded before inserting the AC adapter plug. Do not insert the plug into a non-grounded power outlet. Contact your electrician for details. Warning! The grounding pin is a safety feature. Using a power outlet that is not properly grounded may result in electric shock and/or injury. v Note: The grounding pin also provides good protection from unexpected noise produced by other nearby electrical devices that may interfere with the performance of this product. Use the product only with the supplied power supply cord set. If you need to replace the power cord set, make sure that the new power cord meets the following requirements: detachable type, UL listed/CSA certified, type SPT-2, rated 7 A 125 V minimum, VDE approved or its equivalent, 4.6 meters (15 feet) maximum length. Product servicing Do not attempt to service this product yourself, as opening or removing covers may expose you to dangerous voltage points or other risks. Refer all servicing to qualified service personnel. Unplug this product from the wall outlet and refer servicing to qualified service personnel when:
the power cord or plug is damaged, cut or frayed liquid was spilled into the product the product was exposed to rain or water the product has been dropped or the case has been damaged the product exhibits a distinct change in performance, indicating a need for service the product does not operate normally after following the operating instructions Note: Adjust only those controls that are covered by the operating instructions, since improper adjustment of other controls may result in damage and will often require extensive work by a qualified technician to restore the product to normal condition. Guidelines for safe battery usage This notebook uses a Lithium-ion battery. Do not use it in a humid, wet or corrosive environment. Do not put, store or leave your product in or near a heat source, in a high temperature location, in strong direct sunlight, in a microwave oven or in a pressurized container, and do not expose it to temperatures over 60C (140F). Failure to follow these guidelines may cause the battery to leak acid, become hot, explode or ignite and cause injury and/or damage. Do not pierce, open or disassemble the battery. If the battery leaks and you come into contact with the leaked fluids, rinse thoroughly with water and seek medical attention immediately. For safety reasons, and to prolong the lifetime of the battery, charging will not occur at temperatures below 0C (32F) or above 40C
(104F). The full performance of a new battery is achieved only after two or three complete charge and discharge cycles. The battery can be charged and vi discharged hundreds of times, but it will eventually wear out. When the operation time becomes noticeably shorter than normal, buy a new battery. Use only Acer approved batteries, and recharge your battery only with Acer approved chargers designated for this device. Use the battery only for its intended purpose. Never use any charger or battery that is damaged. Do not short-circuit the battery. Accidental short-circuiting can occur when a metallic object such as a coin, clip or pen causes direct connection of the positive (+) and negative (-) terminals of the battery. (These look like metal strips on the battery.) This might happen, for example, when you carry a spare battery in your pocket or purse. Short-circuiting the terminals may damage the battery or the connecting object. The capacity and lifetime of the battery will be reduced if the battery is left in hot or cold places, such as in a closed car in summer or winter. Always try to keep the battery between 15C and 25C (59F and 77F). A device with a hot or cold battery may not work temporarily, even when the battery is fully charged. Battery performance is especially limited in temperatures well below freezing. Do not dispose of batteries in a fire as they may explode. Batteries may also explode if damaged. Dispose of batteries according to local regulations. Please recycle when possible. Do not dispose as household waste. Wireless devices may be susceptible to interference from the battery, which could affect performance. Replacing the battery pack The notebook uses lithium batteries. Replace the battery with the same type as that which came bundled with your product. Use of another battery may present a risk of fire or explosion. Warning! Batteries may explode if not handled properly. Do not disassemble or dispose of them in fire. Keep them away from children. Follow local regulations when disposing of used batteries. Telephone line safety Disconnect all telephone lines from the equipment when not in use and/or before servicing. To avoid the remote risk of electric shock from lightning, do not connect the telephone line to this equipment during lightning or thunderstorms. Warning! For safety reasons, do not use non-compliant parts when adding or changing components. Consult your reseller for purchase options. Additional safety information Your device and its enhancements may contain small parts. Keep them out of the reach of small children. Operating environment vii Warning! For safety reasons, turn off all wireless or radio transmitting devices when using your laptop under the following conditions. These devices may include, but are not limited to:
wireless lan (WLAN), Bluetooth and/or 3G. Remember to follow any special regulations in force in any area, and always switch off your device when its use is prohibited or when it may cause interference or danger. Use the device only in its normal operating positions. This device meets RF exposure guidelines when used normally, and it and its antenna are positioned at least 1.5 centimeters (5/8 inches) away from your body (refer to the figure below). It should not contain metal and you should position the device the above-stated distance from your body. To successfully transmit data files or messages, this device requires a good quality connection to the network. In some cases, transmission of data files or messages may be delayed until such a connection is available. Ensure that the above separation distance instructions are followed until the transmission is completed. Parts of the device are magnetic. Metallic materials may be attracted to the device, and persons with hearing aids should not hold the device to the ear with the hearing aid. Do not place credit cards or other magnetic storage media near the device, because information stored on them may be erased. Medical devices Operation of any radio transmitting equipment, including wireless phones, may interfere with the functionality of inadequately protected medical devices. Consult a physician or the manufacturer of the medical device to determine if they are adequately shielded from external RF energy or if you have any questions. Switch off your device in health care facilities when any regulations posted in these areas instruct you to do so. Hospitals or health care facilities may be using equipment that could be sensitive to external RF transmissions.. Pacemakers. Pacemaker manufacturers recommend that a minimum separation of 15.3 centimeters (6 inches) be maintained between wireless devices and a pacemaker to avoid potential interference with the pacemaker. These recommendations are consistent with the independent research by and recommendations of Wireless Technology Research. Persons with pacemakers should do the following:
Always keep the device more than 15.3 centimeters (6 inches) from the pacemaker Not carry the device near your pacemaker when the device is switched o. If you suspect interference, switch off your device, and move it. Hearing aids. Some digital wireless devices may interfere with some hearing aids. If interference occurs, consult your service provider. viii Vehicles RF signals may affect improperly installed or inadequately shielded electronic systems in motor vehicles such as electronic fuel injection systems, electronic antiskid (antilock) braking systems, electronic speed control systems, and air bag systems. For more information, check with the manufacturer, or its representative, of your vehicle or any equipment that has been added. Only qualified personnel should service the device, or install the device in a vehicle. Faulty installation or service may be dangerous and may invalidate any warranty that may apply to the device. Check regularly that all wireless equipment in your vehicle is mounted and operating properly. Do not store or carry flammable liquids, gases, or explosive materials in the same compartment as the device, its parts, or enhancements. For vehicles equipped with an air bag, remember that air bags inflate with great force. Do not place objects, including installed or portable wireless equipment in the area over the air bag or in the air bag deployment area. If in-vehicle wireless equipment is improperly installed, and the air bag inflates, serious injury could result. Using your device while flying in aircraft is prohibited. Switch off your device before boarding an aircraft. The use of wireless teledevices in an aircraft may be dangerous to the operation of the aircraft, disrupt the wireless telephone network, and may be illegal. Potentially explosive environments Switch off your device when in any area with a potentially explosive atmosphere and obey all signs and instructions. Potentially explosive atmospheres include areas where you would normally be advised to turn off your vehicle engine. Sparks in such areas could cause an explosion or fire resulting in bodily injury or even death. Switch off the device at refueling points such as near gas pumps at service stations. Observe restrictions on the use of radio equipment in fuel depots, storage, and distribution areas; chemical plants;
or where blasting operations are in progress. Areas with a potentially explosive atmosphere are often, but not always, clearly marked. They include below deck on boats, chemical transfer or storage facilities, vehicles using liquefied petroleum gas (such as propane or butane), and areas where the air contains chemicals or particles such as grain, dust or metal powders. Do not switch the notebook on when wireless phone use is prohibited or when it may cause interference or danger. Emergency calls Warning: You cannot make emergency calls through this device. To make an emergency call you shall dial out through your mobile phone or other telephone call system. Disposal instructions Do not throw this electronic device into the trash when discarding. To minimize pollution and ensure utmost protection of the global environment, please recycle. For more information on the Waste from Electrical and Electronics Equipment (WEEE) regulations, visit http://global.acer.com/about/sustainability.htm ix Mercury advisory For projectors or electronic products containing an LCD/CRT monitor or display:
Lamp(s) inside this product contain mercury and must be recycled or disposed of according to local, state or federal laws. For more information, contact the Electronic Industries Alliance at wwww.eiae.org. For lamp-specific disposal information, check wwww.lamprecycle.org. x ENERGY STAR is a government program (public/private partnership) that gives people the power to protect the environment in a cost effective way and without sacrificing quality or product features. Products that earn the ENERGY STAR prevent greenhouse gas emissions by meeting strict energy efficiency guidelines set by the US Environmental Protection Agency (EPA) and the US Department of Energy (DOE). In the average home, 75% of all electricity used to power home electronics is consumed while the products are turned off. ENERGY STAR qualified home electronic products in the off position use up to 50% less energy than conventional equipment. More information refers to http://www.energystar.gov and hhttp://www.energystar.gov/
powermanagement. Note: The statement above is applicable only to Acer notebooks with an ENERGY STAR sticker located in the bottom right-hand corner of the palm rest. As an ENERGY STAR partner, Acer Inc. has determined that this product meets the ENERGY STAR guidelines for energy efficiency. This product has been shipped enabled for power management:
Activate display Sleep mode within 15 minutes of user inactivity. Activate computers Sleep mode within 30 minutes of user inactivity. Wake the computer from Sleep mode by pushing power button. More power management settings can be done through Acer ePower Management. Tips and information for comfortable use Computer users may complain of eyestrain and headaches after prolonged use. Users are also at risk of physical injury after long hours of working in front of a computer. Long work periods, bad posture, poor work habits, stress, inadequate working conditions, personal health and other factors greatly increase the risk of physical injury. Incorrect computer usage may lead to carpal tunnel syndrome, tendonitis, tenosynovitis or other musculoskeletal disorders. The following symptoms may appear in the hands, wrists, arms, shoulders, neck or back:
If you have these symptoms, or any other recurring or persistent discomfort and/or pain related to computer use, consult a physician immediately and inform your company's health and safety department. numbness, or a burning or tingling sensation aching, soreness or tenderness pain, swelling or throbbing stiffness or tightness coldness or weakness The following section provides tips for more comfortable computer use. xi Finding your comfort zone Find your comfort zone by adjusting the viewing angle of the monitor, using a footrest, or raising your sitting height to achieve maximum comfort. Observe the following tips:
refrain from staying too long in one fixed posture avoid slouching forward and/or leaning backward stand up and walk around regularly to remove the strain on your leg muscles take short rests to relax your neck and shoulders avoid tensing your muscles or shrugging your shoulders install the external display, keyboard and mouse properly and within comfortable reach if you view your monitor more than your documents, place the display at the center of your desk to minimize neck strain Taking care of your vision Long viewing hours, wearing incorrect glasses or contact lenses, glare, excessive room lighting, poorly focused screens, very small typefaces and low-contrast displays could stress your eyes. The following sections provide suggestions on how to reduce eyestrain. Eyes Rest your eyes frequently. Give your eyes regular breaks by looking away from the monitor and focusing on a distant point. Blink frequently to keep your eyes from drying out. Keep your display clean. Keep your head at a higher level than the top edge of the display so your eyes point downward when looking at the middle of the display. Adjust the display brightness and/or contrast to a comfortable level for enhanced text readability and graphics clarity. Eliminate glare and reflections by:
placing your display in such a way that the side faces the window or any light source minimizing room light by using drapes, shades or blinds using a task light changing the display's viewing angle using a glare-reduction filter using a display visor, such as a piece of cardboard extended from the display's top front edge Avoid adjusting your display to an awkward viewing angle. Display xii Avoid looking at bright light sources, such as open windows, for extended periods of time. Developing good work habits Develop the following work habits to make your computer use more relaxing and productive:
Take short breaks regularly and often. Perform some stretching exercises. Breathe fresh air as often as possible. Exercise regularly and maintain a healthy body. Warning! We do not recommend using the computer on a couch or bed. If this is unavoidable, work for only short periods, take breaks regularly, and do some stretching exercises. Note: For more information, please refer to ""Regulations and safety notices" on page 28 in the AAcerSystem User Guide. First things first We would like to thank you for making an Acer notebook your choice for meeting your mobile computing needs. xiii Your guides To help you use your Acer notebook, we have designed a set of guides:
First off, the JJust for Starters...poster helps you get started with setting up your computer. The printed AAspire One Series User Guide contains useful information applying to all models in the Aspire product series. It covers basic topics such as Acers Empowering Technology, using the keyboard, Audio, etc. Please understand that due to its nature, the GGeneric User Guide as well as the AAcerSystem User Guide mentioned below will occasionally refer to functions or features which are only contained in certain models of the series, but not necessarily in the model you purchased. Such instances are marked in the text with language such as "only for certain models". The printed QQuick Guide introduces you to the basic features and functions of your new computer. For more on how your computer can help you to be more productive, please refer to the AAcerSystem User Guide. This guide contains detailed information on such subjects as system utilities, data recovery, expansion options and troubleshooting. In addition it contains warranty information and the general regulations and safety notices for your notebook. It is available in Portable Document Format (PDF) and comes preloaded on your notebook. Follow these steps to access it:
1 Click on SStart, AAll Programs, AAcerSystem. 2 Click on AAcerSystem User Guide. Note: Viewing the file requires Adobe Reader. If Adobe Reader is not installed on your computer, clicking on AAcerSystem User Guide will run the Adobe Reader setup program first. Follow the instructions on the screen to complete the installation. For instructions on how to use Adobe Reader, access the HHelp and Support menu. Basic care and tips for using your computer Turning your computer on and off To turn on the computer, simply press and release the power button below the LCD screen beside the easy-launch buttons. Please refre to ""Quick Guide" for the location of the power button. xiv To turn the power off, do any of the following:
Use the Windows shutdown command Click on SStart then click on SShut Down. Use the power button You can also put the computer in sleep mode by pressing the sleep hotkey
<Fn> + <F4>. Note: If you cannot power off the computer normally, press and hold the power button for more than four seconds to shut down the computer. If you turn off the computer and want to turn it on again, wait at least two seconds before powering up. Taking care of your computer Your computer will serve you well if you take care of it. Do not expose the computer to direct sunlight. Do not place it near sources of heat, such as a radiator. Do not expose the computer to temperatures below 0 C (32 F) or above 50 C (122 F). Do not subject the computer to magnetic fields. Do not expose the computer to rain or moisture. Do not spill water or any liquid on the computer. Do not subject the computer to heavy shock or vibration. Do not expose the computer to dust or dirt. Never place objects on top of the computer. Do not slam the computer display when you close it. Never place the computer on uneven surfaces. Taking care of your AC adapter Here are some ways to take care of your AC adapter:
Do not connect the adapter to any other device. Do not step on the power cord or place heavy objects on top of it. Carefully route the power cord and any cables away from foot traffic. When unplugging the power cord, do not pull on the cord itself but pull on the plug. The total ampere ratings of the equipment plugged in should not exceed the ampere rating of the cord if you are using an extension cord. Also, the total current rating of all equipment plugged into a single wall outlet should not exceed the fuse rating. xv Taking care of your battery pack Here are some ways to take care of your battery pack:
Use only batteries of the same kind as replacements. Turn the power off before removing or replacing batteries. Do not tamper with batteries. Keep them away from children. Dispose of used batteries according to local regulations. Recycle if possible. Turn off the computer and remove the battery pack. Disconnect the AC adapter. Use a soft, moist cloth. Do not use liquid or aerosol cleaners. Cleaning and servicing When cleaning the computer, follow these steps:
1 2 3 If either of the following occurs:
Please refer to ""Frequently asked questions" on page 10 . the computer has been dropped or the body has been damaged;
the computer does not operate normally xvi s t n e t n o C Information for your safety and comfort Safety instructions Additional safety information Operating environment Medical devices Vehicles Potentially explosive environments Emergency calls Disposal instructions Tips and information for comfortable use First things first Your guides Basic care and tips for using your computer Turning your computer on and off Taking care of your computer Taking care of your AC adapter Taking care of your battery pack Cleaning and servicing Acer eRecovery Management Acer eRecovery Management Launching Acer eRecovery Management Indicators Touchpad Touchpad basics (with two-click buttons) Using a computer security lock Using the keyboard Lock keys and embedded numeric keypad Windows keys Hotkeys Special keys (only for certain models) Frequently asked questions Requesting service International Travelers Warranty (ITW) Before you call Battery pack Battery pack characteristics Maximizing the battery's life Installing and removing the battery pack Charging the battery Checking the battery level Optimising battery life Battery-low warning Taking your notebook PC with you Disconnecting from the desktop iii iii vii vii vii viii viii viii ix x xiii xiii xiii xiii xiv xiv xv xv 1 1 1 3 4 4 5 6 6 7 8 9 10 12 12 12 13 13 13 14 15 15 15 16 17 17 Moving around Preparing the computer What to bring to meetings Taking the computer home Preparing the computer What to take with you Special considerations Setting up a home office Traveling with the computer Preparing the computer What to take with you Special considerations Traveling internationally with the computer Preparing the computer What to bring with you Special considerations Securing your computer Using a computer security lock Using passwords Entering passwords Setting passwords Expanding through options Connectivity options Built-in network feature Universal Serial Bus (USB) BIOS utility Boot sequence Enable disk-to-disk recovery Password Power management Troubleshooting Troubleshooting tips Error messages Regulations and safety notices FCC notice LCD pixel statement Radio device regulatory notice General European Union (EU) The FCC RF safety requirement Canada Low-power license-exempt radio communication devices (RSS-210) LCD panel ergonomic specifications Index 17 17 18 18 18 18 19 19 19 19 19 20 20 20 20 20 21 21 21 22 22 23 23 23 24 24 24 24 25 25 26 26 26 28 28 29 29 29 30 30 32 32 33 Acer eRecovery Management 1 Note: The following content is for general reference only. Actual product specifications may vary. Acer eRecovery Management backs up and recovers data flexibly, reliably and completely. Acer eRecovery Management Acer eRecovery Management allows you to restore or reinstall applications and drivers. Acer eRecovery Management provides you with:
Restore system to factory default Reinstall applications/drivers Launching Acer eRecovery Management 1 You may also launch Acer eRecovery Management by running the program from the Acer Empowering Technology program group in the Start menu, E m p o w e r i n g T e c h n o o g y l l y g o o n h c e T g n i r e w o p m E 2 or by double-clicking the shortcut. icon if you have created a desktop 2 3 You can choose to restore the system from a factory default image or reinstall applications and drivers. Follow the instructions on screen to complete the process. 3 E n g l i s h Indicators The computer has serveral easy-to-read status indicators.The front panel indicators are visible even when the computer cover is closed up. Icon Function Description HDD Indicates when the hard disk drive is active. Num Lock Lights up when Num Lock is activated. Caps Lock Lights up when Caps Lock is activated. Battery Indicates the computer's batttery status. 1. Charging: The light shows amber when the battery is charging. 2. Fully charged: The light shows green when in AC mode. h s i l g n E 4 Touchpad The built-in touchpad is a pointing device that senses movement on its surface. This means the cursor responds as you move your finger across the surface of the touchpad. The central location on the palmrest provides optimum comfort and support. Touchpad basics (with two-click buttons) The following items show you how to use the touchpad with two-click buttons. 1 2 3 Move your finger across the touchpad ((1) to move the cursor. Press the left ((2) and right ((3) buttons located beneath the touchpad to perform selection and execution functions. These two buttons are similar to the left and right buttons on a mouse. Tapping on the touchpad is the same as clicking the left button. Function Left button (2) Execute Quickly click twice. Select Drag Click once. Click and hold, then use finger on the touchpad to drag the cursor. Right button (3) Main touchpad (1) Tap twice (at the same speed as double-clicking a mouse button). Tap once. Tap twice (at the same speed as double-clicking a mouse button); rest your finger on the touchpad on the second tap and drag the cursor. Access context menu Click once. Note: Illustrations for reference only. The exact configuration of your PC depends on the model purchased. 5 E n g l i s h Note: When using the touchpad, keep it and your fingers dry and clean. The touchpad is sensitive to finger movement; hence, the lighter the touch, the better the response. Tapping harder will not increase the touchpad's responsiveness. Note: By default, vertical and horizontal scrolling is enabled on your touchpad. It can be disabled under Mouse settings in Windows Control Panel. Using a computer security lock The notebook comes with a Kensington-compatible security slot for a security lock. Wrap the computer security lock cable around an immovable object such as a table or handle of a locked drawer. Insert the lock into the notch and turn the key to secure the lock. Some keyless models are also available. h s i l g n E 6 Using the keyboard The keyboard has full-sized keys and an embedded numeric keypad, separate cursor, lock, Windows, function and special keys. Lock keys and embedded numeric keypad The keyboard has three lock keys which you can toggle on and off. Lock key Caps Lock When Caps Lock is on, all alphabetic characters typed are in uppercase. Description Num Lock
<Fn> + <F11>
When Num Lock is on, the embedded keypad is in numeric mode. The keys function as a calculator (complete with the arithmetic operators
+, -, *, and /). Use this mode when you need to do a lot of numeric data entry. A better solution would be to connect an external keypad. Note: <Fn> + <F11> only for certain models. Scroll Lock
<Fn> + <F12>
When Scroll Lock is on, the screen moves one line up or down when you press the up or down arrow keys respectively. Scroll Lock does not work with some applications. The embedded numeric keypad functions like a desktop numeric keypad. It is indicated by small characters located on the upper right corner of the keycaps. To simplify the keyboard legend, cursor-control key symbols are not printed on the keys. Desired access Number keys on embedded keypad Cursor-control keys on embedded keypad Main keyboard keys Hold <<Shift> while using cursor-
control keys. Type numbers in a normal manner. Hold <<Fn> while using cursor-control keys. Num Lock off Num Lock on Hold <Fn> while typing letters on embedded keypad. Type the letters in a normal manner. 7 E n g l i s h Windows keys The keyboard has two keys that perform Windows-specific functions. Key Description Windows key Pressed alone, this key has the same effect as clicking on the Windows Start button; it launches the Start menu. It can also be used with other keys to provide a variety of functions:
<
> : Open or close the Start menu
<
<
<
> + <D>: Display the desktop
> + <E>: Open Windows Explore
> + <F>: Search for a file or folder
> + <L>: Lock your computer (if you are connected to a
<
network domain), or switch users (if you're not connected to a network domain)
<
> + <M>: Minimizes all windows
<
<
<
<
> + <R>: Open the Run dialog box
> + <U>: Open Ease of Access Center
> + <BREAK>: Display the System Properties dialog box
> + <TAB>: Cycle through programs on the taskbar
<CTRL> + <
network)
> + <F>: Search for computers (if you are on a Note: Depending on your edition of Windows XP, some shortcuts may not function as described. Application key This key has the same effect as clicking the right mouse button;
it opens the application's context menu. 8 h s i l g n E Hotkeys The computer employs hotkeys or key combinations to access most of the computer's controls like screen brightness, volume output and the BIOS utility. To activate hotkeys, press and hold the <<Fn> key before pressing the other key in the hotkey combination. Hotkey
<Fn> + <F1>
Icon Function Hotkey help Description Displays help on hotkeys.
<Fn> + <F2>
<Fn> + <F3>
System Properties Display the System Properties dialog box. Power Options Properties Display the Power Options Properties dialog box.
<Fn> + <F4>
Sleep Puts the computer in Sleep mode.
<Fn> + <F5>
Display toggle
<Fn> + <F6>
Screen blank Switches display output between the display screen, external monitor (if connected) and both. Turns the display screen backlight off to save power. Press any key to return.
<Fn> + <F7>
Touchpad toggle Turns the internal touchpad on and off.
<Fn> + <F8>
Speaker toggle Turns the speakers on and off.
<Fn> + < >
Brightness up Increases the screen brightness.
<Fn> + < >
Brightness down Decreases the screen brightness.
<Fn> + < >
<Fn> + < >
Volume up Volume down Increases the sound volume
(only for certain models). Decreases the sound volume
(only for certain models). Special keys (only for certain models) You can locate the Euro symbol and the US dollar sign at the upper-center and/or bottom-right of your keyboard. E n g l i s h 9 The Euro symbol 1 2 Open a text editor or word processor. Either press <
and then press the <<5> key at the upper-center of the keyboard.
> at the bottom-right of the keyboard, or hold <AAlt Gr>
Note: Some fonts and software do not support the Euro symbol. Please refer to wwww.microsoft.com/typography/faq/faq12.htm for more information. The US dollar sign 1 2 Open a text editor or word processor. Either press <
and then press the <<4> key at the upper-center of the keyboard.
> at the bottom-right of the keyboard, or hold <<Shift>
Note: This function varies according to the language settings. 10 h s i l g n E Frequently asked questions The following is a list of possible situations that may arise during the use of your computer. Easy solutions are provided for each one. I turned on the power, but the computer does not start or boot up. Look at the power indicator:
If it is not lit, no power is being supplied to the computer. Check the following:
If you are using on the battery, it may be low and unable to power the computer. Connect the AC adapter to recharge the battery pack. Make sure that the AC adapter is properly plugged into the computer and to the power outlet. If it is lit, check the following:
Is a non-bootable (non-system) disk in the external USB floppy drive?
Remove or replace it with a system disk and press <<Ctrl> + <Alt> +
<Del> to restart the system. Nothing appears on the screen. The computer's power management system automatically blanks the screen to save power. Press any key to turn the display back on. If pressing a key does not turn the display back on, three things might be the cause:
The brightness level might be too low. Press <<Fn> + <(cid:111)> (increase) to adjust the brightness level. The display device might be set to an external monitor. Press the display toggle hotkey <<Fn> + <F5> to toggle the display back to the computer. If the Sleep indicator is lit, the computer is in Sleep mode. Press and release the power button to resume. No audio is heard from the computer. Check the following:
The volume may be muted. In Windows, look at the volume control
(speaker) icon on the taskbar. If it is crossed-out, click on the icon and deselect the MMute all option. The volume level may be too low. In Windows, look at the volume control icon on the taskbar. You can also use the volume control buttons to adjust the volume. See "Hotkeys" on page 8 for more detail. E n g l i s h 11 If headphones, earphones or external speakers are connected to the line-
out port on the computer, the internal speakers automatically turn off. The keyboard does not respond. Try attaching an external keyboard to a USB port on the(cid:33)computer. If it works, contact your dealer or an authorized service center as the internal keyboard cable may be loose. The printer does not work. Check the following:
Make sure that the printer is connected to a power outlet and that it is turned on. Make sure that the printer cable is connected securely to the computer's parallel port or a USB port and the corresponding port on the printer. I want to restore my computer to its original settings without recovery CDs. Note: If your system is the multilingual version, the operating system and language you choose when you first turn on the system will be the only option for future recovery operations. This recovery process helps you restore the C: drive with the original software content that is installed when you purchase your notebook. Follow the steps below to rebuild your C: drive. (Your C: drive will be reformatted and all data will be erased.) It is important to back up all data files before using this option. Before performing a restore operation, please check the BIOS settings. Check to see if AAcer disk-to-disk recovery is enabled or not. 1 2 Make sure the DD2D Recovery setting in MMain is EEnabled. 3 Exit the BIOS utility and save changes. The system will reboot. Note: To activate the BIOS utility, press <<F2> during POST. To start the recovery process:
1 2 While the Acer logo is showing, press <<Alt> + <F10> at the same time to Restart the system. enter the recovery process. Refer to the onscreen instructions to perform system recovery. 3 12 h s i l g n E Important! This feature occupies 15 GB in a hidden partition on your hard disk Requesting service International Travelers Warranty (ITW) Your computer is backed by an International Travelers Warranty (ITW) that gives you security and peace of mind when traveling. Our worldwide network of service centers are there to give you a helping hand. An ITW passport comes with your computer. This passport contains all you need to know about the ITW program. A list of available, authorized service centers is in this handy booklet. Read this passport thoroughly. Always have your ITW passport on hand, especially when you travel, to receive the benefits from our support centers. Place your proof-of-purchase in the flap located inside the front cover of the ITW passport. If the country you are traveling in does not have an Acer-authorized ITW service site, you can still get in contact with our offices worldwide. Please consult http://global.acer.com. Before you call Please have the following information available when you call Acer for online service, and please be at your computer when you call. With your support, we can reduce the amount of time a call takes and help solve your problems efficiently. If there are error messages or beeps reported by your computer, write them down as they appear on the screen (or the number and sequence in the case of beeps). You are required to provide the following information:
Name: __________________________________________________________________ Address: _________________________________________________________________ Telephone number: ______________________________________________________ Machine and model type: _________________________________________________ Serial number: ___________________________________________________________ Date of purchase: ________________________________________________________ Battery pack The computer uses a battery pack that gives you long use between charges. 13 E n g l i s h Battery pack characteristics The battery pack has the following characteristics:
Employs current battery technology standards. Delivers a battery-low warning. The battery is recharged whenever you connect the computer to the AC adapter. Your computer supports charge-in-use, enabling you to recharge the battery while you continue to operate the computer. However, recharging with the computer turned off results in a significantly faster charge time. The battery will come in handy when you travel or during a power failure. It is advisable to have an extra fully charged battery pack available as backup. Contact your dealer for details on ordering a spare battery pack. Maximizing the battery's life Like all other batteries, your computer's battery will degrade over time. This means that the battery's performance will diminish with time and use. To maximize your battery's life, you are advised to adhere to the recommendations set out below. Conditioning a new battery pack Before you use a battery pack for the first time, there is a
"conditioning" process that you should follow:
1 Insert the new battery without turning the computer on. 2 3 4 5 6 Connect the AC adapter and fully charge the battery. Disconnect the AC adapter. Turn on the computer and operate using battery power. Fully deplete the battery until the battery-low warning appears. Reconnect the AC adapter and fully charge the battery again. 14 h s i l g n E Follow these steps again until the battery has been charged and discharged three times. Use this conditioning process for all new batteries, or if a battery hasn't been used for a long time. If the computer is to be stored for more than two weeks, you are advised to remove the battery pack from the unit. Warning: Do not expose battery packs to temperatures below 0C
(32F) or above 45C (113F). Extreme temperatures may adversely affect the battery pack. By following the battery conditioning process you condition your battery to accept the maximum possible charge. Failure to follow this procedure will prevent you from obtaining the maximum battery charge, and will also shorten the effective lifespan of the battery. In addition, the useful lifespan of the battery is adversely affected by the following usage patterns:
Using the computer on constant AC power with the battery inserted. If you want to use constant AC power, you are advised to remove the battery pack after it is fully charged. Not discharging and recharging the battery to its extremes, as described above. Frequent use; the more you use the battery, the faster it will reach the end of its effective life. A standard computer battery has a life span of about 300 charges. Installing and removing the battery pack Important! Before removing the battery from the unit, connect the AC adapter if you want to continue using your computer. Otherwise, turn off the computer first. To install a battery pack:
1 Align the battery with the open battery bay; make sure that the end with the contacts will enter first, and that the top surface of the battery is facing up. 2 Slide the battery into the battery bay and gently push until the battery locks in place. To remove a battery pack:
1 2 Slide the battery release latch to release the battery. Pull the battery from the battery bay. 15 E n g l i s h Charging the battery To charge the battery, first make sure that it is correctly installed in the battery bay. Plug the AC adapter into the computer, and connect to a mains power outlet. You can continue to operate your computer on AC power while your battery is charging. However, charging the battery with the computer turned off results in a significantly faster charge time. Note: You are advised to charge the battery before retiring for the day. Charging the battery overnight before traveling enables you to start the next day with a fully charged battery. Checking the battery level The Windows power meter indicates the current battery level. Rest the cursor over the battery/power icon on the taskbar to see the battery's present charge level. Optimising battery life Optimizing battery life helps you get the most out of battery operation, prolonging the charge/recharge cycle and improving recharging efficiency. You are advised to follow the suggestions set out below:
Purchase an extra battery pack. Use AC power whenever possible, reserving battery for on-the-go use. Eject a PC Card if it is not being used, as it will continue to draw power (for selected model). Store the battery pack in a cool, dry place. The recommended temperature is 10C (50F) to 30C (86F). Higher temperatures cause the battery to self-discharge faster. Excessive recharging decreases the battery life. Look after your AC adapter and battery. 16 h s i l g n E Battery-low warning When using battery power pay attention to the Windows power meter. Warning: Connect the AC adapter as soon as possible after the battery-low warning appears. Data will be lost if the battery to become fully depleted and the computer shuts down. When the battery-low warning appears, the recommended course of action depends on your situation:
Situation Recommended Action The AC adapter and a power outlet are available. 1. Plug the AC adapter into the computer, and then connect to the mains power supply. 2. Save all necessary files. 3. Resume work. Turn off the computer if you want to recharge the battery rapidly. An extra fully charged battery pack is available. 1. Save all necessary files. 2. Close all applications. 3. Shut down the operating system to turn off the computer. 4. Replace the battery pack. 5. Turn on the computer and resume work. The AC adapter or a power outlet is unavailable. You have no spare battery pack. 1. Save all necessary files. 2. Close all applications. 3. Shut down the operating system to turn off the computer. Taking your notebook PC with you This section gives you tips and hints to consider when moving around or traveling with your computer. E n g l i s h 17 Disconnecting from the desktop Follow these steps to disconnect your computer from external accessories:
1 2 3 4 5 6 7 Save any open files. Remove any media, floppy disks or compact disks from the drive(s). Shut down the computer. Close the display cover. Disconnect the cord from the AC adapter. Disconnect the keyboard, pointing device, printer, external monitor and other external devices. Disconnect the Kensington lock if you are using one to secure the computer. Moving around When you are just moving within short distances, for example, from your office desk to a meeting room. Preparing the computer Before moving the computer, close and latch the display cover to place it in Sleep mode. You can now safely take the computer anywhere you go within the building. To bring the computer out of Sleep mode, open the display; then press and release the power button. If you are taking the computer to a client's office or a different building, you may choose to shut down the computer:
Click on SStart, TTurn Off Computer, then click on TTurn Off (Windows XP). Or:
You can put the computer in Sleep mode by pressing <<Fn> + <F4>. Then close and latch the display. When you are ready to use the computer again, unlatch and open the display;
then press and release the power button. 18 h s i l g n E Note: If the Sleep indicator is off, the computer has entered Hibernation mode and is turned off. If the power indicator is off but the Sleep indicator is on, the computer has entered Sleep mode. In both cases, press and release the power button to turn the computer back on. Note that the computer may enter Hibernation mode after being in Sleep mode for a period of time. What to bring to meetings If your meeting is relatively short, you probably do not need to bring anything with you other than your computer. If your meeting will be longer, or if your battery is not fully charged, you may want to bring the AC adapter with you to plug in your computer in the meeting room. If the meeting room does not have an electrical outlet, reduce the drain on the battery by putting the computer in Sleep mode. Press <<Fn> + <F4> or close the display cover whenever you are not actively using the computer. To resume, open the display (if closed), then press and release the power button. Taking the computer home When you are moving from your office to your home or vice versa. Preparing the computer After disconnecting the computer from your desktop, follow these steps to prepare the computer for the trip home:
Check that you have removed all media and compact disks from the drive(s). Failure to remove the media can damage the drive head. Pack the computer in a protective case that can prevent the computer from sliding around and cushion it if it should fall. Caution: Avoid packing items next to the top cover of the computer. Pressure against the top cover can damage the screen. What to take with you Unless you have some items at home, take the following items with you:
AC adapter and power cord The printed User's Guide E n g l i s h 19 Special considerations Follow these guidelines to protect your computer while traveling to and from work:
Minimize the effects of temperature changes by keeping the computer with you. If you need to stop for an extended period of time and cannot carry the computer with you, leave the computer in the trunk of the car to avoid exposing the computer to excessive heat. Changes in temperature and humidity can cause condensation. Allow the computer to return to room temperature, and inspect the screen for condensation before turning on the computer. If the temperature change is greater than 10 C (18 F), allow the computer to come to room temperature slowly. If possible, leave the computer for 30 minutes in an environment with a temperature between outside and room temperature. Setting up a home office If you frequently work on your computer at home, you may want to purchase a second AC adapter for use at home. With a second AC adapter, you can avoid carrying the extra weight to and from home. If you use your computer at home for significant periods of time, you might also want to add an external keyboard, monitor or mouse. Traveling with the computer When you are moving within a larger distance, for instance, from your office building to a client's office building or traveling locally. Preparing the computer Prepare the computer as if you were taking it home. Make sure that the battery in the computer is charged. Airport security may require you to turn on your computer when carrying it into the gate area. What to take with you Take the following items with you:
AC adapter Spare, fully-charged battery pack(s) Additional printer driver files if you plan to use another printer h s i l g n E 20 Special considerations In addition to the guidelines for taking the computer home, follow these guidelines to protect your computer while traveling:
Always take the computer as carry-on luggage. If possible, have the computer inspected by hand. Airport security X-ray machines are safe, but do not put the computer through a metal detector. Avoid exposing floppy disks to hand-held metal detectors. Traveling internationally with the computer When you are moving from country to country. Preparing the computer Prepare the computer as you would normally prepare it for traveling. What to bring with you Bring the following items with you:
AC adapter Power cords that are appropriate for the country to which you are traveling Spare, fully-charged battery packs Additional printer driver files if you plan to use another printer Proof of purchase, in case you need to show it to customs officials International Travelers Warranty passport Special considerations Follow the same special considerations as when traveling with the computer. In addition, these tips are useful when traveling internationally:
When traveling in another country, check that the local AC voltage and the AC adapter power cord specifications are compatible. If not, purchase a power cord that is compatible with the local AC voltage. Do not use converter kits sold for appliances to power the computer. If you are using the modem, check if the modem and connector is compatible with the telecommunications system of the country you are traveling in. Securing your computer Your computer is a valuable investment that you need to take care of. Learn how to protect and take care of your computer. Security features include hardware and software locks a security notch and passwords. 21 E n g l i s h Using a computer security lock The notebook comes with a Kensington-compatible security slot for a security lock. Wrap a computer security lock cable around an immovable object such as a table or handle of a locked drawer. Insert the lock into the notch and turn the key to secure the lock. Some keyless models are also available. Using passwords Passwords protect your computer from unauthorized access. Setting these passwords creates several different levels of protection for your computer and data:
Supervisor Password prevents unauthorized entry into the BIOS utility. Once set, you must enter this password to gain access to the BIOS utility. See "BIOS utility" on page 24. User Password secures your computer against unauthorized use. Combine the use of this password with password checkpoints on boot-up and resume from Hibernation for maximum security. Password on Boot secures your computer against unauthorized use. Combine the use of this password with password checkpoints on boot-up and resume from Hibernation for maximum security. Important! Do not forget your Supervisor Password! If you forget your password, please get in touch with your dealer or an authorized service center. h s i l g n E 22 Entering passwords When a password is set, a password prompt appears in the center of the display screen. When the Supervisor Password is set, a prompt appears when you press
<FF2> to enter the BIOS utility at boot-up. Type the Supervisor Password and press <EEnter> to access the BIOS utility. If you enter the password incorrectly, a warning message appears. Try again and press <EEnter>. When the User Password is set and the password on boot parameter is enabled, a prompt appears at boot-up. Type the User Password and press <EEnter> to use the computer. If you enter the password incorrectly, a warning message appears. Try again and press <EEnter>. Important! You have three chances to enter a password. If you fail to enter the password correctly after three tries, the system halts. Press and hold the power button for four seconds to shut down the computer. Then turn on the computer again, and try again. Setting passwords You can set passwords using the BIOS utility. Expanding through options Your notebook PC offers you a complete mobile computing experience. 23 E n g l i s h Connectivity options Ports allow you to connect peripheral devices to your computer as you would with a desktop PC. For instructions on how to connect different external devices to the computer, read the following section. Built-in network feature The built-in network feature allows you to connect your computer to an Ethernet-based network. To use the network feature, connect an Ethernet cable from the Ethernet
(RJ-45) port on the chassis of the computer to a network jack or hub on your network. 24 Universal Serial Bus (USB) The USB 2.0 port is a high-speed serial bus which allows you to connect USB peripherals without taking up precious system resources. h s i l g n E BIOS utility The BIOS utility is a hardware configuration program built into your computer's BIOS. Your computer is already properly configured and optimized, and you do not need to run this utility. However, if you encounter configuration problems, you may need to run it. To activate the BIOS utility, press <FF2> during the POST; while the notebook PC logo is being displayed. Boot sequence To set the boot sequence in the BIOS utility, activate the BIOS utility, then select Boot from the categories listed at the top of the screen. Enable disk-to-disk recovery To enable disk-to-disk recovery (hard disk recovery), activate the BIOS utility, then select MMain from the categories listed at the top of the screen. Find DD2D Recovery at the bottom of the screen and use the <<F5> and <<F6> keys to set this value to EEnabled. E n g l i s h 25 Password To set a password on boot, activate the BIOS utility, then select SSecurity from the categories listed at the top of the screen. Find PPassword on boot: and use the <<F5> and <<F6> keys to enable this feature. Power management This computer has a built-in power management unit that monitors system activity. System activity refers to any activity involving one or more of the following devices: keyboard, mouse, hard disk, peripherals connected to the computer, and video memory. If no activity is detected for a period of time
(called an inactivity timeout), the computer stops some or all of these devices in order to conserve energy. This computer employs a power management scheme that supports the advanced configuration and power interface (ACPI), which allows for maximum power conservation and maximum performance at the same time. Windows handles all power-saving chores for your computer. h s i l g n E 26 Troubleshooting This chapter shows you how to deal with common system problems. Read it before calling a technician if a problem occurs. Solutions to more serious problems require opening up the computer. Do not attempt to open the computer yourself; contact your dealer or authorized service center for assistance. Troubleshooting tips This notebook PC incorporates an advanced design that delivers onscreen error message reports to help you solve problems. If the system reports an error message or an error symptom occurs, see "Error messages" below. If the problem cannot be resolved, contact your dealer. See
"Requesting service" on page 12. Error messages If you receive an error message, note the message and take the corrective action. The following table lists the error messages in alphabetical order together with the recommended course of action. Error messages Corrective action CMOS battery bad Contact your dealer or an authorized service center. CMOS checksum error Contact your dealer or an authorized service center. Disk boot failure Insert a system (bootable) disk into the floppy drive
(A:), then press <EEnter> to reboot. Equipment configuration error Press <<F2> (during POST) to enter the BIOS utility, then press EExit in the BIOS utility to reboot. Hard disk 0 error Contact your dealer or an authorized service center. Hard disk 0 extended type error Contact your dealer or an authorized service center. I/O parity error Contact your dealer or an authorized service center. Keyboard error or no keyboard connected Keyboard interface error Contact your dealer or an authorized service center. Contact your dealer or an authorized service center. Memory size mismatch Press <<F2> (during POST) to enter the BIOS utility, then press EExit in the BIOS utility to reboot. If you still encounter problems after going through the corrective measures, please contact your dealer or an authorized service center for assistance. Some problems may be solved using the BIOS utility. E n g l i s h 27 h s i l g n E 28 Regulations and safety notices FCC notice This device has been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This device generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this device does cause harmful interference to radio or television reception, which can be determined by turning the device off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
(cid:127)
(cid:127) Reorient or relocate the receiving antenna. Increase the separation between the device and receiver. Connect the device into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/television technician for help.
(cid:127) Notice: Shielded cables All connections to other computing devices must be made using shielded cables to maintain compliance with FCC regulations. Notice: Peripheral devices Only peripherals (input/output devices, terminals, printers, etc.) certified to comply with the Class B limits may be attached to this equipment. Operation with non-certified peripherals is likely to result in interference to radio and TV reception. Caution Changes or modifications not expressly approved by the manufacturer could void the user's authority, which is granted by the Federal Communications Commission, to operate this computer. Operation conditions This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. This Transmitter must not be co-located or operating in conjunction with any other antenna or transmitters. 29 E n g l i s h Notice: Canadian users This Class B digital apparatus complies with Canadian ICES-003. Remarque l'intention des utilisateurs canadiens Cet appareil numrique de la classe B est conforme a la norme NMB-003 du Canada. Declaration of Conformity for EU countries Hereby, Acer, declares that this notebook PC series is in compliance with the essential requirements and other relevant provisions of Directive 1999/5/EC.
(Please visit hhttp://global.acer.com/products/notebook/reg-nb/index.htm for complete documents.) Compliant with Russian regulatory certification LCD pixel statement The LCD unit is produced with high-precision manufacturing techniques. Nevertheless, some pixels may occasionally misfire or appear as black or red dots. This has no effect on the recorded image and does not constitute a malfunction. Radio device regulatory notice Note: Below regulatory information is for models with wireless LAN and / or Bluetooth only. General This product complies with the radio frequency and safety standards of any country or region in which it has been approved for wireless use. Depending on configurations, this product may or may not contain wireless radio devices (such as wireless LAN and/or Bluetooth modules). Below information is for products with such devices. h s i l g n E European Union (EU) R&TTE Directive 1999/5/EC as attested by conformity with the followingharmonized standard:
(cid:127) 30
(cid:127)
(cid:127)
(cid:127) Article 3.1(a) Health and Safety EN60950-1:2001+ A11:2004 EN50371:2002
(cid:127) Article 3.1(b) EMC
(cid:127)
(cid:127) EN301 489-1 V1.6.1 EN301 489-3 V1.4.1 Article 3.2 Spectrum Usages
(cid:127)
(cid:127)
(cid:127) EN300 220-3 V1.1.1 EN300 440-2 V1.1.2 EN301 893 V1.2.3 List of applicable countries EU member states as of May 2004 are: Belgium, Denmark, Germany, Greece, Spain, France, Ireland, Italy, Luxembourg, the Netherlands, Austria, Portugal, Finland, Sweden, United Kingdom Estonia, Latvia, Lithuania, Poland, Hungary, Czech Republic, Slovak Republic, Slovenia, Cyprus and Malta. Usage allowed in the countries of European Union, as well as Norway, Switzerland, Iceland and Liechtenstein. This device must be used in strict accordance with the regulations and constraints in the country of use. For further information, please contact local office in the country of use. 31 E n g l i s h h s i l g n E 32 Canada Low-power license-exempt radio communication devices (RSS-210) a b Common information Operation is subject to the following two conditions:
1. This device may not cause interference, and 2. This device must accept any interference, including interference that may cause undesired operation of the device. Operation in 2.4 GHz band To prevent radio interference to the licensed service, this device is intended to be operated indoors and installation outdoors is subject to licensing. Operation in 5 GHz band c The device for the band 5150-5250 MHz is only for indoor usage to reduce potential for harmful interference to co-channel Mobile Satellite systems. High power radars are allocated as primary users (meaning they have priority) of 5250-5350 MHz and 5650-5850 MHz and these radars could cause interference and/or damage to LELAN (Licence-Exempt Local Area Network) devices.
(cid:127)
(cid:127) LCD panel ergonomic specifications Design viewing distance Design inclination angle Design azimuth angle Viewing direction range class Screen tilt angle Design screen illuminance 500 mm 0.0 90.0 Class IV 85.0
(cid:127) Reflection class of LCD panel
(positive and negative polarity)
(cid:127)
(cid:127)
(cid:127) Illuminance level:
[250 + (250cos(cid:68))] lx where (cid:68) = 85 Color: Source D65 Ordinary LCD: Class I Protective or Acer CrystalBrite LCD:
Class III Image polarity Reference white:
Pre-setting of luminance and color temperature @ 6500K
(tested under BM7) Pixel fault class Both
(cid:127)
(cid:127)
(cid:127) Yn u'n v'n Class II Index A AC adapter caring for xiv audio troubleshooting 10 B battery pack battery-low warning 16 caring for xv characteristics 13 charging 15 checking charge level 15 installing 14 low conditions 16 maximizing life 13 optimizing 15 removing 15 using the first time 13 BIOS utility 24 brightness hotkeys 8 C caps lock 6 care on indicator 3 AC adapter xiv battery pack xv computer xiv charging checking level 15 cleaning computer xv computer caring for xiv cleaning xv disconnecting 17 indicators 3 keyboards 6 moving around 17 security 21 setting up a home office 19 taking home 18 traveling internationally 20 traveling on local trips 19 troubleshooting 26 turning off xiv 33 connections network 23 D display hotkeys 8 troubleshooting 10 E error messages 26 Euro 9 F FAQ. See frequently-asked questions frequently-asked questions 10 H Hibernation mode hotkey 8 hotkeys 8 K keyboard 6 embedded numeric keypad 6 hotkeys 8 lock keys 6 troubleshooting 11 Windows keys 7 M media access on indicator 3 messages error 26 N network 23 Notebook Manager hotkey 8 num lock 6 on indicator 3 numeric keypad embedded 6 P password 21 types 21 ports 23 printer troubleshooting 11 problems 10 display 10 keyboard 11 printer 11 startup 10 34 troubleshooting 26 S scroll lock 6 security keylock 5, 21 passwords 21 speakers hotkey 8 troubleshooting 10 support information 12 T touchpad 4 hotkey 8 travel international flights 20 local trips 19 troubleshooting 26 tips 26 U universal serial bus 24 W Windows keys 7
1 2 | Authorization Letter | Cover Letter(s) | 22.21 KiB |
Acer Incorporated 8F, 88, Sec. 1, Hsin Tai Wu Rd., Hsichih Taipei Hsien 221, Taiwan, R.O.C. Tel : 886-2-2696-1234 Fax : 886-2-2696-3535 www.acer.com Designated Agent Agreement This agreement is to designate:
A Test Lab Techno Corp. No. 140-1, Changan Street, Bade City, Taoyuan County 334, Taiwan, R.O.C Acting as the agent on behalf of:
Acer Incorporated 8F, 88, Sec. 1, Hsin Tai Wu Rd., Hsichih Taipei Hsien 221, Taiwan, R.O.C. Any and all acts carried out by A Test Lab Techno Corp., on the matters of relating to all processes required in the FCC approval and any communication needed with the national authority, shall have the same legal authority as acts on our own behalf. This authorization is limited to the product of as following:
FCC ID: HLZZG53GQ Any acknowledgement and response please send it to A Test Lab Techno Corp. directly. Should you have any questions or comments regarding this matter, please have my best attention. Sincerely yours,
---------------------------
Easy Lai Acer Inc. 2009.01.21
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Date
1 2 | C2PC Letter | Cover Letter(s) | 16.83 KiB |
Federal Communications Commission 7435 Oakland Mills Road Columbia MD 21046 C.C.: Compliance Certification Services Certification Division Acer Incorporated 8F, 88, Sec. 1, Hsin Tai Wu Rd., Hsichih Taipei Hsien 221, Taiwan, R.O.C. Tel : 886-2-2696-1234 Fax : 886-2-2696-3535 www.acer.com Subject:
Requesting Class II permissive change for FCC ID: HLZZG53GQ To Whom It May Concern:
The purpose of this letter is to request a Class II Permissive change for FCC ID:
HLZZG53GQ Original 1. Brand Name : acer Model No. : ZG5 , Aspire One HW Version : F SW Version : 3114 Change made 1. Brand Name : acer Model No.: ZG5, Aspire One HW Version: F SW Version: 3.5 2. Enable HSUPA Function by changed software. Best Regards __________________ Jan. 22, 2009____ Easy Lai Regulation Center/ Acer In Date
1 2 | External Photos | External Photos | 659.93 KiB |
Exterior Photographs of EUT Model No.: ZG5, Aspire One FCC ID: HLZZG3GQ EUT Photo _ 1 of 13 EUT Photo _ 2 of 13 EUT Photo _ 3 of 13 EUT Photo _ 4 of 13 EUT Photo _ 5 of 13 EUT Photo _ 6 of 13 EUT Photo _ 7 of 13 EUT Photo _ 8 of 13 EUT Photo _ 9 of 13 EUT Photo _ 10 of 13 EUT Photo _ 11 of 13 EUT Photo _ 12 of 13 EUT Photo _ 13 of 13
1 2 | FCC ID Label | ID Label/Location Info | 3.89 MiB |
FCC ID:HLZZG53GQ Federal Communications Commission Notice This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired operation. HCZG5001010 211,Wen Hwa 2nd Rd., Kuei Shan, Tao Yuan 33377, Taiwan,R.O.C. ZG5 RATING LABEL 0.1 V 2008.05.23 CYNTHIA 1:1 2008.05.23 HCZG5001 CYNTHIA 3A Bottom of the EUT Label location
1 2 | Request for Confidentiality | Cover Letter(s) | 120.14 KiB |
Acer Incorporated HLZZG53GQ Request for Confidentiality Federal Communications Commission 7435 Oakland Mills Road Columbia MD 21046 Subject:
FCC ID:
To Whom It May Concern:
Pursuant to the provisions of Sections 0.457 and 0.459 of the Commissions rules (47 CFR 0.457, 0.459), we are requesting the Commission to withhold the following attachments as confidential document from public disclosure indefinitely. Schematic Diagram, Block Diagram, Theory of Operation, Parts List, Tune-Up Procedure Above mentioned document contains detailed system and equipment description are considered as proprietary information in operation of the equipment. The public disclosure of above documents might be harmful to our company and would give competitor an unfair advantage in the market. It is our understanding that all measurement test reports, FCC ID label format and correspondent during certification review process cannot be granted as confidential documents and those information will be available for public review once the grant of equipment authorization is issued. Best Regards Easy Lai Regulation Center Manager Acer Incorporated 2009/01/21
1 2 | SAR Report | RF Exposure Info | 2.09 MiB |
A Test Lab Techno Corp. Changan LabNo. 140 -1, Changan Street, Bade City, Taoyuan County, Taiwan R.O.C. Tel886-3-271-0188 / Fax886-3-271-0190 Test Report No. Applicant FCC ID Trade Name Model Number Product Type SAR EVALUATION REPORT 0901FS14 Acer Incorporated HLZZG53GQ acer ZG5, Aspire One Notebook PC Sep. 05 ~ 08, 2008 ; Jan. 17 ~ 21, 2009 Relative Humidity40 - 70 %
Dates of Test Test Environment Ambient Temperature 22 2 C Test Specification Standard C95.1-2005 Max. SAR Test Lab 0.123 W/kg Body SAR Chang-an Lab 2.1093;FCC/OET Bulletin 65 Supplement C [July 2001]
IEEE Std. 1528-2003 1. The test operations have to be performed with cautious behavior, the test results are as attached. 2. The test results are under chamber environment of A Test Lab Techno Corp. A Test Lab Techno Corp. does not assume responsibility for any conclusions and generalizations drawn from the test results with regard to other specimens or samples. 3. The measurement report has to be written approval of A Test Lab Techno Corp. It may only be reproduced or published in full. Country Huang 20090123 Measurement Center Manager Sam Chuang 20090123 Testing Engineer Page 1 of 53 2009 A Test Lab Techno Corp. This report shall not be reproduced except in full, without the written approval of A Test Lab Techno Corp. Rev.00 This document may be altered or revised by A Test Lab Techno. Corp. personnel only, and shall be noted in the revision section of the document Contents 6.1 6.2 6.3 6.4 6.5 6.6 6.7 1. Description of Equipment Under Test (EUT) .............................................................................3 2. Other Accessories .......................................................................................................................5 3. Introduction ..................................................................................................................................9 4. SAR Definition............................................................................................................................10 5. SAR Measurement Setup ..........................................................................................................11 6. System Components .................................................................................................................13 DASY5 E-Field Probe System............................................................................................................ 13 Data Acquisition Electronic (DAE) System......................................................................................... 16 Robot .................................................................................................................................................. 16 Measurement Server.......................................................................................................................... 16 Device Holder for Transmitters........................................................................................................... 17 Phantom - SAM v4.0 .......................................................................................................................... 18 Data Storage and Evaluation.............................................................................................................. 18 7. Test Equipment List...................................................................................................................21 8. Tissue Simulating Liquids.........................................................................................................22 Liquid Confirmation............................................................................................................................. 23 9. Measurement Process...............................................................................................................25 Device and Test Conditions ........................................................................................................... 25 System Performance Check .......................................................................................................... 31 Dosimetric Assessment Setup....................................................................................................... 36 Spatial Peak SAR Evaluation......................................................................................................... 38 10. Measurement Uncertainty .........................................................................................................39 11. SAR Test Results Summary ......................................................................................................41 11.1 GPRS/EGPRS 850 Results _ EUT Bottom to phantom 2mm space ................................................. 41 11.2 GPRS/EGPRS 1900 Results _ EUT Bottom to phantom 2mm space ............................................... 43 11.3 WCDMA/HSDPA Band V _ EUT Bottom to phantom 2mm space ..................................................... 44 11.4 WCDMA Band II _ EUT Bottom to phantom 2mm space................................................................... 47 11.5 Setup Photo........................................................................................................................................ 50 Std. C95.1-1999 RF Exposure Limit................................................................................................... 51 11.6 12. Conclusion..................................................................................................................................52 13. References..................................................................................................................................53 9.1 9.2 9.3 9.4 8.1 Appendix Appendix A - System Performance Check Appendix B - SAR Measurement Data Appendix C - Calibration Test Report No0901FS14 Page 2 of 53 2009A Test Lab Techno Corp. Rev.00 1. Description of Equipment Under Test (EUT) Applicant Acer Incorporated 8F, 88, Sec.1, Hsin Tai Wu Rd. Hsichih, Taipei Hsien 221 Taiwan, R.O.C. Manufacturer Manufacturer Address Product Type Trade Name Model Number FCC ID Test Device Tx Frequency Max. RF Conducted Power Max. SAR Measurement HW Version SW Version Antenna Type Antenna Gain Device Category RF Exposure Environment Battery Option Application Type
- 846.4 MHz Quanta Computer Inc. No.211, Wen Hwa 2nd Rd., Kuei Shan Hsiang, Tao Yuan Shien, Taiwan, R.O.C. Notebook PC acer ZG5, Aspire One HLZZG53GQ Production Unit 824.2
- 848.8 MHz (GPRS/EGPRS 850) 1850.2 - 1909.8 MHz (GPRS/EGPRS 1900) 826.6
(WCDMA/HSDPA/HSUPA Band V) 1852.6 - 1907.4 MHz
(WCDMA/HSDPA/HSUPA Band II) 1.738 W (32.40 dBm) GPRS 850 Class 10 0.454 W (26.57 dBm) EGPRS 850 Class 10 0.767 W (28.85 dBm) GPRS 1900 Class 10 0.378 W (25.78 dBm) EGPRS 1900 Class 10 0.253 W (24.03 dBm) WCDMA Band V 0.135 W (21.30 dBm) HSDPA Band V 0.226 W (23.55 dBm) HSUPA Band V 0.228 W (23.58 dBm) WCDMA Band II 0.145 W (21.60 dBm) HSDPA Band II 0.236 W (23.73 dBm) HSUPA Band II 0.123 W/kg Body SAR F 3.5 Internal Type 0.56 dBi GPRS/EGPRS 850 / WCDMA Band V
-0.65 dBi GPRS/EGPRS 1900 / WCDMA Band II Portable General Population / Uncontrolled Standard Certification This wireless portable device has been shown to be capable of compliance for localized specific absorption rate
(SAR) for uncontrolled environment / general population exposure limits specified in Standard C95.1-1999 and had been tested in accordance with the measurement procedures specified in IEEE Std. 1528-2003. Test Report No0901FS14 Page 3 of 53 2009A Test Lab Techno Corp. Rev.00 Class 2 permissive change description The model (acer_ZG5, Aspire One_0901FS14) is the variant product of acer_ZG5, Aspire One_0809FS12;
acer_ZG5, Aspire One_0809FS12 FCC ID is HLZZG53GQ. acer_ZG5, Aspire One_0901FS14 is changed from acer_ZG5, Aspire One_0809FS12; The RF module is the same as acer_ZG5, Aspire One_0809FS12. The difference from acer_ZG5 is that Aspire One_0901FS14 adds HSUPA function because of the difference of software. Add test mode of HSUPA Band II and Band V. The other test mode reference original report (Report number:
0809FS12) Figure 1. EUT Photo Test Report No0901FS14 Page 4 of 53 2009A Test Lab Techno Corp. Rev.00 2. Other Accessories Figure 2. Li-ion Battery_ UM08B74 5200mAh Test Report No0901FS14 Page 5 of 53 2009A Test Lab Techno Corp. Rev.00 Figure 3. Li-ion Battery_ UM08A73 2200mAh Test Report No0901FS14 Page 6 of 53 2009A Test Lab Techno Corp. Rev.00 Figure 4. Li-ion Battery_UM08B72 4400mAh Test Report No0901FS14 Page 7 of 53 2009A Test Lab Techno Corp. Rev.00 Figure 5. AC Adapter Test Report No0901FS14 Page 8 of 53 2009A Test Lab Techno Corp. Rev.00 Introduction 3. The A Test Lab Techno Corp. has performed measurements of the maximum potential exposure to the user of Acer Incorporated Trade Nameacer Model(s)ZG5, Aspire One. The test procedures, as described in American National Standards, Institute C95.1 - 20051, FCC/OET Bulletin 65 Supplement C [July 2001] were employed and they specify the maximum exposure limit of 1.6mW/g as averaged over any 1 gram of tissue for portable devices being used within 20cm between user and EUT in the uncontrolled environment. A description of the product and operating configuration, detailed summary of the test results, methodology and procedures used in the equipment used are included within this test report. Test Report No0901FS14 Page 9 of 53 2009A Test Lab Techno Corp. Rev.00 SAR Definition 4. Specific Absorption Rate (SAR) is defined as the time derivative (rate) of the incremental energy (dw) absorbed by (dissipated in) an incremental mass (dm) contained in a volume element (dv) of a given density ( ). It is also defined as the rate of RF energy absorption per unit mass at a point in an absorbing body (see Figure 6). d dt SAR =
Figure 6. SAR Mathematical Equation dw dv dw dm d dt
=
SAR is expressed in units of Watts per kilogram (W/kg) SAR =
E 2 Where
= conductivity of the tissue (S/m)
= mass density of the tissue (kg/m3) E = RMS electric field strength (V/m) Note The primary factors that control rate of energy absorption were found to be the wavelength of the incident field in relations to the dimensions and geometry of the irradiated organism, the orientation of the organism in relation to the polarity of field vectors, the presence of reflecting surfaces, and whether conductive contact is made by the organism with a ground plane2 Test Report No0901FS14 Page 10 of 53 2009A Test Lab Techno Corp. Rev.00 SAR Measurement Setup 5. These measurements were performed with the automated near-field scanning system DASY5 from Schmid &
Partner Engineering AG (SPEAG). The system is based on a high precision robot (working range greater than 0.9m) which positions the probes with a positional repeatability of better than 0.02mm. Special E- and H-field probes have been developed for measurements close to material discontinuity, the sensors of which are directly loaded with a Schottky diode and connected via highly resistive lines (length = 300mm) to the data acquisition unit. A cell controller system contains the power supply, robot controller, teach pendant (Joystick), and remote control, is used to drive the robot motors. The Measurement Server is based on a PC/104 CPU board with a 400MHz intel ULV Celeron, 128MB chipdisk and 128MB RAM. The necessary circuits for communication with either the DAE4 (or DAE3) electronic box as well as the 16-bit AD-converter system for optical detection and digital I/O interface are contained on the DASY5 I/O-board, which is directly connected to the PC/104 bus of the CPU board. The PC consists of the Intel Core(TM)2 CPU @1.86GHz computer with Windows XP system and SAR Measurement Software DASY5, Post Processor SEMCAD, monitor, mouse, and keyboard. The Staubli Robot is connected to the cell controller to allow software manipulation of the robot. A data acquisition electronic (DAE) circuit performs the signal amplification, signal multiplexing, AD-conversion, offset measurements, mechanical surface detection, collision detectionetc. is connected to the Electro-optical converter (EOC). The EOC performs the conversion from the optical into digital electric signal of the DAE and transfers data to the Measurement Server. Test Report No0901FS14 Page 11 of 53 2009A Test Lab Techno Corp. Rev.00 Figure 5. SAR Lab Test Measurement Setup The DAE4 (or DAE3) consists of a highly sensitive electrometer-grade preamplifier with auto-zeroing, a channel and gain-switching multiplexer, a fast 16 bit AD-converter and a command decoder and control logic unit. Transmission to the PC-card is accomplished through an optical downlink for data and status information and an optical uplink for commands and clock lines. The mechanical probe mounting device includes two different sensor systems for frontal and sidewise probe contacts. They are also used for mechanical surface detection and probe collision detection. The robot uses its own controller with a built in VME-bus computer. The system is described in detail in3. Test Report No0901FS14 Page 12 of 53 2009A Test Lab Techno Corp. Rev.00 System Components 6. 6.1 DASY5 E-Field Probe System The SAR measurements were conducted with the dosimetric probe ES3DV3 or ET3DV6 (manufactured by SPEAG), designed in the classical triangular configuration3and optimized for dosimetric evaluation. The probes is constructed using the thick film technique; with printed resistive lines on ceramic substrates. The probe is equipped with an optical multi-fiber line ending at the front of the probe tip. It is connected to the EOC box on the robot arm and provides an automatic detection of the phantom surface. Half of the fibers are connected to a pulsed infrared transmitter, the other half to a synchronized receiver. As the probe approaches the surface, the reflection from the surface produces a coupling from the transmitting to the receiving fibers. This reflection increases first during the approach, reaches maximum and then decreases. If the probe is flatly touching the surface, the coupling is zero. The distance of the coupling maximum to the surface is independent of the surface reflectivity and largely independent of the surface to probe angle. The DASY5 software reads the reflection during a software approach and looks for the maximum using a 2nd order fitting. The approach is stopped when reaching the maximum. Test Report No0901FS14 Page 13 of 53 2009A Test Lab Techno Corp. Rev.00 6.1.1 E-Field Probe Specification Construction Symmetrical design with triangular core Built-in optical fiber for surface detection System Built-in shielding against static charges PEEK enclosure material
(resistant to organic solvents, e.q., glycol) In air from 10 MHz to 6 GHz In brain and muscle simulating tissue at frequencies of 900MHz, 1800MHz, 1950MHz, 2000MHz and 2450MHz (accuracy 8%) Calibration for other liquids and frequencies upon request 10 MHz to > 6 GHz; Linearity: 0.2 dB
(30 MHz to 3 GHz) 0.3 dB in brain tissue (rotation around probe axis) 0.5 dB in brain tissue (rotation normal probe axis) 10W/g to > 100mW/g; Linearity: 0.2dB 0.2 mm repeatability in air and clear liquids over diffuse reflecting surface(EX3DV3 only) Overall length: 330mm Tip length: 20mm Body diameter: 12mm Tip diameter: 2.5mm Distance from probe tip to dipole centers: 1.0mm General dosimetry up to 6GHz Compliance tests of mobile phones Fast automatic scanning in arbitrary phantoms Calibration Frequency Directivity Dynamic Range Surface Detection Dimensions Application Figure 6. E-field Probe Figure 7. Probe setup on robot Test Report No0901FS14 Page 14 of 53 2009A Test Lab Techno Corp. Rev.00 6.1.2 E-Field Probe Calibration Each probe is calibrated according to a dosimetric assessment procedure described in4with accuracy better than 10%. The spherical isotropy was evaluated with the procedure described in5and found to be better than 0.25dB. The sensitivity parameters (NormX, NormY, and NormZ), the diode compression parameter (DCP) and the conversion factor (ConvF) of the probe are tested. The free space E-field from amplified probe outputs is determined in a test chamber. This is performed in a TEM cell for frequencies bellow 1GHz, and in a wave guide above 1GHz for free space. For the free space calibration, the probe is placed in the volumetric center of the cavity and at the proper orientation with the field. The probe is then rotated 360 degrees. E-field temperature correlation calibration is performed in a flat phantom filled with the appropriate simulated brain tissue. The measured free space E-field in the medium correlates to temperature rise in a dielectric medium. For temperature correlation calibration a RF transparent thermistor-based temperature probe is used in conjunction with the E-field probe. SAR = C T t Where t = Exposure time (30 seconds), C T = Temperature increase due to RF exposure.
= Heat capacity of tissue (head or body), Or SAR =
|
E 2|
Where
= Simulated tissue conductivity,
= Tissue density (kg/m3). Test Report No0901FS14 Page 15 of 53 2009A Test Lab Techno Corp. Rev.00 6.2 Data Acquisition Electronic (DAE) System Cell Controller Processor Clock Speed Operating System Data Converter Features Software Connecting Lines Intel Core(TM)2 CPU
@ 1.86GHz Windows XP Professional Signal Amplifier, multiplexer, A/D converter, and control logic DASY5 v5.0 (Build 119) & SEMCAD X Version 13.2 Build 87 Optical downlink for data and status info Optical uplink for commands and clock 6.3 Robot Positioner Repeatability No. of Axis 6.4 Measurement Server Processor I/O-board Stubli Unimation Corp. Robot Model: TX90XL 0.02 mm 6 PC/104 with a 400MHz intel ULV Celeron Link to DAE4(or DAE3) 16-bit A/D converter for surface detection system Digital I/O interface Serial link to robot Direct emergency stop output for robot Test Report No0901FS14 Page 16 of 53 2009A Test Lab Techno Corp. Rev.00 6.5 Device Holder for Transmitters In combination with the SAM Twin Phantom V4.0, the Mounting Device (POM) enables the rotation of the mounted transmitter in spherical coordinates whereby the rotation points is the ear opening. The devices can be easily, accurately, and repeat ably positioned according to the IEEE SCC34-SC2 and CENELEC specifications. The device holder can be locked at different phantom locations (left head, right head, and flat phantom). NoteA simulating human hand is not used due to the complex anatomical and geometrical structure of the hand that may produced infinite number of configurations6. To produce the worst-case condition (the hand absorbs antenna output power), the hand is omitted during the tests. Larger DUT cannot be tested using this device holder. Instead a support of bigger polystyrene cubes and thin polystyrene plates is used to position the DUT in all relevant positions to find and measure spots with maximum SAR values. Therefore those devices are normally only tested at the flat part of the SAM. Figure 8. Device Holder Test Report No0901FS14 Page 17 of 53 2009A Test Lab Techno Corp. Rev.00 6.6 Phantom - SAM v4.0 The shell corresponds to the specifications of the Specific Anthropomorphic Mannequin (SAM) phantom defined in IEEE 1528-2003, CENELEC 50361 and IEC 62209. It enables the dosimetric evaluation of left and right hand phone usage as well as body mounted usage at the flat phantom region. A cover prevents evaporation of the liquid. Reference markings on the phantom allow the complete setup of all predefined phantom positions and measurement grids by manually teaching three points with the robot. Figure 9. SAM Twin Phantom Shell Thickness 2 0.2 mm Filling Volume Approx. 25 liters Dimensions 8101000500 mm (HLW) Table 1. Specification of SAM v4.0 6.7 Data Storage and Evaluation 6.7.1 Data Storage The DASY5 software stores the assessed data from the data acquisition electronics as raw data (in microvolt readings from the probe sensors), together with all the necessary software parameters for the data evaluation
(probe calibration data, liquid parameters and device frequency and modulation data) in measurement files with the extension .DA5. The postprocessing software evaluates the desired unit and format for output each time the data is visualized or exported. This allows verification of the complete software setup even after the measurement and allows correction of erroneous parameter settings. For example, if a measurement has been performed with an incorrect crest factor parameter in the device setup, the parameter can be corrected afterwards and the data can be reevaluated. Test Report No0901FS14 Page 18 of 53 2009A Test Lab Techno Corp. Rev.00 6.7.2 Data Evaluation The DASY5 post processing software (SEMCAD) automatically executes the following procedures to calculate the field units from the microvolt readings at the probe connector. The parameters used in the evaluation are stored in the configuration modules of the software Probe parameters - Sensitivity
- Conversion factor
- Diode compression point Device parameters - Frequency
- Crest factor Media parameters - Conductivity
- Density Normi, ai0, ai1, ai2 ConvFi dcpi f cf These parameters must be set correctly in the software. They can be found in the component documents or they can be imported into the software from the configuration files issued for the DASY components. In the direct measuring mode of the multimeter option, the parameters of the actual system setup are used. In the scan visualization and export modes, the parameters stored in the corresponding document files are used. The first step of the evaluation is a linearization of the filtered input signal to account for the compression characteristics of the detector diode. The compensation depends on the input signal, the diode type and the DC-transmission factor from the diode to the evaluation electronics. If the exciting field is pulsed, the crest factor of the signal must be known to correctly compensate for peak power. The formula for each channel can be given as UUV i
+
=
i 2 i cf dcp i with Vi = compensated signal of channel i (i = x, y, z) Ui = input signal of channel i (i = x, y, z) cf = crest factor of exciting field (DASY parameter) dcpi = diode compression point (DASY parameter) From the compensated input signals the primary field data for each channel can be evaluated E-field probes E i
=
V i ConvF Norm i Test Report No0901FS14 Page 19 of 53 2009A Test Lab Techno Corp. Rev.00 with H-field probes H i
=
aV i i 0
+
fa i 1 f
+
fa i 2 2 Vi = compensated signal of channel i (i = x, y, z) Normi = sensor sensitivity of channel i (i = x, y, z) V/(V/m)2 for E-field Probes ConvF = sensitivity enhancement in solution aij = sensor sensitivity factors for H-field probes f Ei = electric field strength of channel i in V/m Hi = magnetic field strength of channel i in A/m
= carrier frequency [GHz]
The RSS value of the field components gives the total field strength (Hermitian magnitude) E tot
=
E 2 x
+
E 2 y
+
E 2 z The primary field data are used to calculate the derived field units. SAR
=
totE 2 1000 with SAR = local specific absorption rate in mW/g Etot = total field strength in V/m
= conductivity in [mho/m] or [Siemens/m]
= equivalent tissue density in g/cm3 Notethat the density is set to 1, to account for actual head tissue density rather than the density of the tissue simulating liquid. The power flow density is calculated assuming the excitation field to be a free space field. P =
pwe E 2 tot 3770 or P =
pwe H 2 tot 7.37 with Ppwe = equivalent power density of a plane wave in mW/cm2 Etot = total electric field strength in V/m Htot = total magnetic field strength in A/m Test Report No0901FS14 Page 20 of 53 2009A Test Lab Techno Corp. Rev.00 7. Test Equipment List Manufacturer Name of Equipment Type/Model Serial Number Calibration Last Cal. Due Date SPEAG SPEAG Dosimetric E-Filed Probe Dosimetric E-Filed Probe ES3DV3 EX3DV4 3150 3578 Jan. 09, 2008 Jan. 09, 2009 May. 20, 2008 May. 20, 2009 SPEAG 900MHz System Validation Kit D900V2 SN:1d053 Dec. 12, 2007 Dec. 12, 2008 SPEAG 900MHz System Validation Kit D900V2 SN:073 Mar. 17, 2008 Mar. 17, 2009 SPEAG 1800MHz System Validation Kit D1950V2 1117 Dec. 20, 2007 Dec. 20, 2008 SPEAG 1800MHz System Validation Kit D1900V2 SN:5d018 May. 08, 2008 May. 08, 2009 SPEAG Data Acquisition Electronics SPEAG Data Acquisition Electronics SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG SPEAG Agilent Agilent Device Holder Phantom Robot Software Software Software Measurement Server Wireless Communication Test Set Wireless Communication Test Set DAE4 DAE4 N/A 779 779 N/A SAM V4.0 TP-1150 Staubli TX90XL F07/564ZA1/C/01 N/A N/A N/A 1025 DASY5 V5.0 Build 119 DASY5 V5.0 Build 120 SEMCAD X V13.2 Build 87 SE UMS 011 AA CMU200 CMU200 Nov. 30, 2007 Nov. 30, 2008 Nov. 11, 2008 Nov. 11, 2009 NCR NCR NCR NCR NCR NCR NCR NCR NCR NCR NCR NCR NCR NCR 112387 Oct. 24, 2007 Oct. 24, 2008 112387 Oct. 31, 2008 Oct. 31, 2009 Agilent ENA Series Network Analyzer E5071B MY42402996 Oct. 23, 2007 Oct. 23, 2008 Agilent ENA Series Network Analyzer E5071B MY42402996 Nov. 04, 2008 Nov. 04, 2009 Dielectric Probe Kit 85070C US99360094 NCR NCR Power Sensor NRP-Z22 100179 May. 03, 2008 May. 03, 2009 Signal Generator E8257D MY44320425 Jul. 03, 2008 Jul. 03, 2009 Dual Directional Coupler 778D 50334 Mini-Circuits Power Amplifier ZHL-42W-SMA Mini-Circuits Power Amplifier ZVE-8G-SMA D111103#5 D042005 671800514 Table 2. Test Equipment List NCR NCR NCR NCR NCR NCR Agilent R&S Agilent Agilent Test Report No0901FS14 Page 21 of 53 2009A Test Lab Techno Corp. Rev.00 Tissue Simulating Liquids 8. The mixture is calibrated to obtain proper dielectric constant (permittivity) and conductivity of the tissue. The dielectric parameters of the liquids were verified prior to the SAR evaluation using an 85070C Dielectric Probe Kit and an 8720ES Network Analyzer. IEEE SCC-34/SC-2 in 1528 recommended Tissue Dielectric Parameters The head tissue dielectric parameters recommended by the IEEE SCC-34/SC-2 in 1528 have been incorporated in the following table. These head parameters are derived from planar layer models simulating the highest expected SAR for the dielectric properties and tissue thickness variations in human head. Other head and body tissue parameters that have not been specified in 1528 are derived from the tissue dielectric parameters computed from the 4-Cole-Cole equation and extrapolated according to the head parameter specified in 1528. Target Frequency Head Body
(MHz) 150 300 450 835 900 915 1450 1610 1800 - 2000 r 52.3 45.3 43.5 41.5 41.5 41.5 40.5 40.3 40.0 39.2 38.5 35.3
(S/m) 0.76 0.87 0.87 0.90 0.97 0.98 1.20 1.29 1.40 1.80 2.40 5.27 r 61.9 58.2 56.7 55.2 55.0 55.0 54.0 53.8 53.3 52.7 52.0 48.2
(S/m) 0.80 0.92 0.94 0.97 1.05 1.06 1.30 1.40 1.52 1.95 2.73 6.00 2450 3000 5800
( r = relative permittivity, = conductivity and = 1000 kg/m3 ) Table 3. Tissue dielectric parameters for head and body phantoms Test Report No0901FS14 Page 22 of 53 2009A Test Lab Techno Corp. Rev.00 8.1 Liquid Confirmation 8.1.1 Parameters Liquid Verify Ambient Temperature 22 2 CRelative Humidity40 -70%
Liquid Type Frequency Temp (C) Parameters Target Value Measured Value Deviation (%) Limit (%) Measured Date 900MHz 22.0 900MHz 22.0 900MHz 22.0 1900MHz 22.0 1900MHz 22.0 1950MHz 22.0 r r r r r r 55.0 1.05 55.0 1.05 55.0 1.05 53.3 1.52 53.3 1.52 53.3 1.52 53.9 1.04 53.9 1.04 55.4 1.03 53.1 1.50 53.1 1.50 51.6 1.56
-2.00
-0.95
-2.00
-0.95 0.73
-1.90
-0.38
-1.32
-0.38
-1.32
-3.19 2.63 5 5 5 5 5 5 5 5 5 5 5 5 Sep. 05, 2008 Sep. 08, 2008 Jan. 17, 2009 Jan. 17, 2009 Jan. 21, 2009 Sep. 07, 2008 Table 4. Measured Tissue dielectric parameters for head and body phantoms 900MHz Body 900MHz Body 900MHz Body 1900MHz Body 1900MHz Body 1950MHz Body Test Report No0901FS14 Page 23 of 53 2009A Test Lab Techno Corp. Rev.00 8.1.2 Liquid Depth The liquid level was during measurement 15cm 0.5cm. Figure 10. Head-Tissue-Simulating-Liquid Figure 11. Body-Tissue-Simulating-Liquid Test Report No0901FS14 Page 24 of 53 2009A Test Lab Techno Corp. Rev.00 9. Measurement Process 9.1 Device and Test Conditions The Test Device was provided by Acer Incorporated for this evaluation. The spatial peak SAR values were assessed for the lowest, middle and highest channels defined by GSM/GPRS 850 (#128=824.2MHz,
#190=836.6MHz, #251=848.8MHz
(#512=1850.2MHz, #661=1880.0MHz,
#4183=836.6MHz,
(#4132=826.4MHz,
#810=1909.8MHz)
#4233=846.6MHz), WCDMA/HSDPA/HSUAP
(#9262=1852.4MHz,
#9400=1880.0MHz,
#9538=1907.6MHz) systems . The antenna(s), battery and accessories shall be those specified by the manufacturer. The battery shall be fully charged before each measurement and there shall be no external connections.
, WCDMA/HSDPA/HSUPA Band
/ GPRS 1900
), PCS Band V II to the UE category of a HSDPA Date Devices setup for SAR Measurement. HSDPA should be configured according The number of HS-DSCH/HS-PDSCHs, HARQ processes, minimum inter-TTI interval, transport block sizes and RV coding sequence are defined by the H-set. To maintain a consistent test configuration and stable transmission conditions, QPSK is used in the H-set for SAR testing. HS-DPCCH should be configured with a CQI feedback cycle of 4 ms with a CQI repetition factor of 2 to maintain a constant rate of active CQI slots. DPCCH and DPDCH gain factors(c, d), and HS-DPCCH power offset parameters (ACK, NACK, CQI) should be set according to values indicated in the Table below.32 The CQI value is determined by the UE category, transport block size, number of HS-PDSCHs and modulation used in the H-set.33 test device. Sub-test c 1 2 3 4 2/15 12/15(3) 15/15 15/15 d 15/15 15/15(3) 8/15 4/15 d
(SF) 64 64 64 64 c/d 2/15 12/15(3) 15/8 15/4 hs(1) 4/15 24/15 30/15 30/15 CM (dB) (2) 0.0 1.0 1.5 1.5 Note 1. ACK, NACK and CQI = 8 Ahs = hs/c = 30/15 hs= 30/15 *c 2. CM = 1 for c/d =12/15, hs/c=24/15. 3. For subtest 2 the c/d ratio of 12/15 for the TFC during the measurement period (TF1, TF0) is achieved by setting the signaled gain factors for the reference TFC (TF1, TF1) to c = 11/15 and d = 15/15. Table 5. Setup for Release 5 HSDPA Table 6. The antenna(s), battery and accessories shall be those specified by the manufacturer. The battery shall be fully charged before each measurement and there shall be no external connections. Test Report No0901FS14 Page 25 of 53 2009A Test Lab Techno Corp. Rev.00 HSPA Date Devices setup for SAR Measurement. The following procedures are applicable to HSPA (HSUPA/HSDPA) data devices operating under 3GPP Release 6. Body exposure conditions generally apply to these devices, including handsets and data modems operating in various electronic devices. HSUPA operates in conjunction with WCDMA and HSDPA. SAR is initially measured in WCDMA test configurations without HSPA. The default test configuration is to establish a radio link between the DUT and a communication test set to configure a 12.2 kbps RMC (reference measurement channel) in Test Loop Mode 1. SAR for HSPA is selectively measured with HS-DPCCH, EDPCCH and E-DPDCH, all enabled, along with a 12.2 kbps RMC using the highest SAR configuration in WCDMA with 12.2 kbps RMC only. An FRC is configured according to HSDPCCH Sub-test 1 using H-set 1 and QPSK. HSPA is configured according to E-DCH Subtest 5 requirements. SAR for other HSPA sub-test configurations is also confirmed selectively according to output power, exposure conditions and E-DCH UE Category. Maximum output power is verified according to procedures in applicable versions of 3GPP TS 34.121 and SAR must be measured according to these maximum output conditions. The UE Categories for HSDPCCH and HSPA should be clearly identified in the SAR report. The following procedures are applicable only if Maximum Power Reduction (MPR) is implemented according to Cubic Metric (CM) requirements. When voice transmission and head exposure conditions are applicable to a WCDMA/HSPA data device, head exposure is measured according to the Head SAR Measurements procedures in the WCDMA Handsets section of this document. SAR for body exposure configurations are measured according to the Body SAR Measurements procedures in the WCDMA Handsets section of this document. In addition, body SAR is also measured for HSPA when the maximum average output of each RF channel with HSPA active is at least dB higher than that measured without HSPA using 12.2 kbps RMC or the maximum SAR for 12.2 kbps RMC is above 75% of the SAR limit. Body SAR for HSPA is measured with E-DCH Sub-test 5, using H-Set 1 and QPSK for FRC and a 12.2 kbps RMC configured in Test Loop Mode 1 with power control algorithm 2, according to the highest body SAR configuration in 12.2 kbps RMC without HSPA. When VOIP is applicable for head exposure, SAR is not required when the maximum output of each RF channel with HSPA is less than dB higher than that measured using 12.2 kbps RMC; otherwise, the same HSPA configuration used for body measurements should be used to test for head exposure. Due to inner loop power control requirements in HSPA, a commercial communication test set should be used for the output power and SAR tests. The 12.2 kbps RMC, FRC H-set 1 and E-DCH configurations for HSPA should be configured according to the values indicated below as well as other applicable procedures described in the WCDMA Handset and Release 5 HSDPA Data Devices sections of this document. Test Report No0901FS14 Page 26 of 53 2009A Test Lab Techno Corp. Rev.00 The highest body SAR measured in Antenna Extended & Retracted configurations on a channel in 12.2 kbps RMC. The possible channels are the High, Middle & Low channel. Contact the FCC Laboratory for test and approval requirements if the maximum output power measured in E-DCH Sub-test 2 - 4 is higher than Sub-test 5. Sub-
test 1 2 11/15(3) 15/15(3) 64 11/15(3) 22/15 209/225 1039/225 6/15 94/75 CM(2)
(dB) 1.0 3.0 AG(4) Index 20 12 MPR
(dB) 0.0 2.0 E-
TFCI 75 67 ed
(SF) 4 4 c/d hs(1) 6/15 12/15 d
(SF)
(codes) 15/15 12/15 1 1 ed ec ed d c 64 15/15 9/15 64 15/9 30/15 30/15 ed1: 47/15 ed2: 47/15 15/15 2/15 4/15 2/15 15/15(4) 15/15(4) 64 15/15(4) 30/15 64 2/15 24/15 56/75 134/15 3 4 5 4 4 4 2 1 1 2.0 3.0 1.0 1.0 2.0 0.0 15 17 21 92 71 81 Note 1: ACK, NACK and CQI = 8 Ahs = hs/c = 30/15 hs= 30/15 *c. Note 2: CM = 1 for c/d =12/15, hs/c=24/15. For all other combinations of DPDCH, DPCCH, HS- DPCCH, E-DPDCH and E-DPCCH the MPR is based on the relative CM difference. Note 3: For subtest 1 the c/d ratio of 11/15 for the TFC during the measurement period (TF1, TF0) is achieved by setting the signaled gain factors for the reference TFC (TF1, TF1) to c = 10/15 and d = 15/15. Note 4: For subtest 5 the c/d ratio of 15/15 for the TFC during the measurement period (TF1, TF0) is achieved by setting the signaled gain factors for the reference TFC (TF1, TF1) to c = 14/15 and d = 15/15. Note 5: Testing UE using E-DPDCH Physical Layer category 1 Sub-test 3 is not required according to TS 25.306 Table 5.1g. Note 6: ed can not be set directly; it is set by Absolute Grant Value. Usage Simulating human Head/Body EUT Battery Operates with a Normal mode by client (GSM/PCS/WCDMA) Operates with a built-in test mode by client (802.11b/g) Head & Body Fully-charged with Li-ion batteries. Test Report No0901FS14 Page 27 of 53 2009A Test Lab Techno Corp. Rev.00 Band Date Rate CH GPRS850 EGPRS850 GPRS1900 EGPRS1900 3Down 2up 3Down 1up 3Down 2up 3Down 1up 3Down 2up 3Down 1up 3Down 2up 3Down 1up Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Conducted Power Before 32.25 32.28 32.40 31.95 32.00 32.10 26.35 26.40 26.57 26.30 26.30 26.40 28.85 28.75 28.65 28.35 28.25 28.15 25.78 25.65 25.60 25.55 25.30 25.30 After 32.24 32.27 32.39 31.93 31.99 32.09 26.34 26.48 26.56 26.29 26.29 26.39 28.85 28.74 28.64 28.34 28.24 28.14 25.77 25.64 25.59 25.54 25.28 25.29 Worst Test Report No0901FS14 Page 28 of 53 2009A Test Lab Techno Corp. Rev.00 Band Date Rate or Sub-test WCDMA V
---
HSDPA V HSUPA V 1 2 3 4 1 2 3 4 5 CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Conducted Power Before 23.63 24.03 23.99 20.90 21.30 20.30 20.00 20.30 20.30 18.30 18.60 18.60 17.70 17.90 17.90 23.51 23.56 23.26 21.45 21.59 21.28 22.62 22.60 22.35 21.52 21.62 21.38 23.38 23.56 23.19 After 23.62 24.02 23.98 20.89 21.29 20.29 20.00 20.29 20.29 18.29 18.59 18.58 17.69 17.89 17.89 23.50 23.54 23.25 21.44 21.57 21.27 22.60 22.58 22.33 21.50 21.59 21.35 23.35 23.54 23.18 Worst Test Report No0901FS14 Page 29 of 53 2009A Test Lab Techno Corp. Rev.00 Band Date Rate or Sub-test WCDMA II
---
HSDPA II HSUPA II 1 2 3 4 1 2 3 4 5 CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Conducted Power Before 23.58 23.31 23.07 21.50 21.60 21.40 20.50 20.70 20.30 18.80 19.00 18.60 18.20 18.40 18.08 23.36 23.07 23.41 21.43 21.18 21.42 22.50 22.20 22.52 21.43 21.16 21.35 23.24 22.98 23.38 After 23.57 23.30 23.06 20.49 21.59 21.39 20.49 20.69 20.29 18.79 18.99 18.59 18.19 18.39 18.06 23.34 23.05 23.40 21.42 21.17 21.40 22.48 22.19 22.50 21.41 21.15 21.33 23.22 22.95 23.36 Worst Note: The EUT take Li-ion batteries as its power source. Each test was preceded under the condition of fully-charged EUT. Test Report No0901FS14 Page 30 of 53 2009A Test Lab Techno Corp. Rev.00 9.2 System Performance Check 9.2.1 Symmetric Dipoles for System Validation Construction Symmetrical dipole with l/4 balun enables measurement of feed point impedance with NWA matched for use near flat phantoms filled with head simulating solutions Includes distance holder and tripod adaptor Calibration Calibrated SAR value for specified position and input power at the flat phantom in head simulating solutions. Frequency 450, 900, 1800, 1950, 2000 and 2450MHz Return Loss
> 20 dB at specified validation position Power Capability > 100 W (f < 1GHz); > 40 W (f > 1GHz) Options Dipoles for other frequencies or solutions and other calibration conditions are available upon request Dimensions D450V2dipole length 270 mm; overall height 330 mm D900V2dipole length 149 mm; overall height 330 mm D1800V2dipole length 72 mm; overall height 300 mm D1950V2dipole length 62 mm; overall height 300 mm D2000V2dipole length 65 mm; overall height 300 mm D2450V2dipole length 51.5 mm; overall height 300 mm Figure 12. Validation Kit Test Report No0901FS14 Page 31 of 53 2009A Test Lab Techno Corp. Rev.00 9.2.2 Validation Prior to the assessment, the system validation kit was used to test whether the system was operating within its specifications of 7%. The validation was performed at 900MHz and 1950MHz. Validation kit D900V2-SN1d053 D900V2-SN073 D1950V2-SN1117 D1900V2-SN5d018 Mixture Type Body Body Body Body SAR1g
[mW/g]
11.56 11.28 41.2 38.4 Frequency
(MHz) Power SAR1g
(mW/g) SAR10g
(mW/g) Drift
(dB) SAR10g
[mW/g]
7.48 7.28 21.76 20.16 Difference percentage 1g 10g Date of Calibration Dec. 12, 2007 Mar. 17, 2008 Dec. 20, 2007 May. 22, 2008 Date 900
(Body) 900
(Body) 900
(Body) 1900
(Body) 1900
(Body) 1950
(Body) 250mW Normalize to 1 Watt 250mW Normalize to 1 Watt 250mW Normalize to 1 Watt 250mW Normalize to 1 Watt 250mW Normalize to 1 Watt 250mW Normalize to 1 Watt 2.82 11.28 2.9 11.6 2.7 10.8 9.8 39.2 9.57 38.28 10.5 42 1.8 7.2 1.89 7.56 1.78 7.12 5.06 20.24 4.97 19.88 5.39 21.56 Detail results see Appendix A.
-0.020
-2.4 %
-3.7 %
Sep. 05, 2008
-0.057 0.3 %
1.1 %
Sep. 08, 2008
-0.094
-4.3 %
-2.2 %
Jan. 17, 2009
-0.10700 2.1 %
0.4 %
Jan. 17, 2009
-0.033
-0.3 %
-1.4 %
Jan. 21, 2009
-0.031 1.9 %
-0.9 %
Sep. 07, 2008 Test Report No0901FS14 Page 32 of 53 2009A Test Lab Techno Corp. Rev.00 Z-axis Plot of System Performance Check 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=3, Y=3 Markers 3.0 2.5 2.0
/
g W m 1.5 1.0 0.5 0.0 3.0 2.5 2.0
/
g W m 1.5 1.0 0.5 0.0 0.005 0.010 0.015 0.020 m 0.025 0.030 0.035 Head-Tissue-Simulating-Liquid 900MHz (2008.09.05) 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=3, Y=3 Markers 0.005 0.010 0.015 0.020 m 0.025 0.030 0.035 Head-Tissue-Simulating-Liquid 900MHz (2008.09.08) Test Report No0901FS14 Page 33 of 53 2009A Test Lab Techno Corp. Rev.00 Z-axis Plot of System Performance Check 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=3, Y=3 Markers 3.0 2.5 2.0
/
g W m 1.5 1.0 0.5 0.0 g
/
W m 12 11 10 9 8 7 6 5 4 3 2 1 0 0.005 0.010 0.015 0.020 m 0.025 0.030 Body-Tissue-Simulating-Liquid 900MHz(2009.01.17) 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=3, Y=3 Markers 0.005 0.010 0.015 0.020 m 0.025 0.030 Body-Tissue-Simulating-Liquid 1900MHz(2009.01.17) Test Report No0901FS14 Page 34 of 53 2009A Test Lab Techno Corp. Rev.00 Z-axis Plot of System Performance Check
/
g W m g
/
W m 12 11 10 9 8 7 6 5 4 3 2 1 0 12 11 10 9 8 7 6 5 4 3 2 1 0 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=3, Y=4 Markers 0.005 0.010 0.015 0.020 m 0.025 0.030 Body-Tissue-Simulating-Liquid 1900MHz(2009.01.21) 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=3, Y=3 Markers 0.005 0.010 0.015 0.020 m 0.025 0.030 0.035 Body-Tissue-Simulating-Liquid 1950MHz Test Report No0901FS14 Page 35 of 53 2009A Test Lab Techno Corp. Rev.00 9.3 Dosimetric Assessment Setup 9.3.1 Body Worn Test Position Body-Worn Configuration Body-worn operating configurations should be tested with the belt-clips and holsters attached to the device and positioned against a flat phantom in normal use configurations. Devices with a handset output should be tested with a handset connected to the device. Body-worn accessories may not always be supplied or available as options for some devices that are intended to be authorized for body-worn use. A separation distance of 1.5 cm between the back of the device and a flat phantom is recommended for testing body-worn SAR compliance under such circumstances. For this test The EUT is placed into the holster/belt clip and the holster is positioned against the surface of the phantom in a normal operating position. Since this EUT doesnt supply any body-worn accessory to the end user, for EUT Bottom to phantom mode the distance of 2 mm was tested to confirm the necessary minimum SAR separation distance.
(NoteThis distance includes the 2 mm phantom shell thickness.) Test Report No0901FS14 Page 36 of 53 2009A Test Lab Techno Corp. Rev.00 9.3.2 Measurement Procedures The evaluation was performed with the following procedures Surface Check A surface checks job gathers data used with optical surface detection. It determines the distance from the phantom surface where the reflection from the optical detector has its peak. Any following measurement jobs using optical surface detection will then rely on this value. The surface check performs its search a specified number of times, so that the repeatability can be verified. The probe tip distance is 1.3mm to phantom inner surface during scans. Reference Area Scan Zoom Scan Drift The reference job measures the field at a specified reference position, at 4 mm from the selected sections grid reference point. The area scan is used as a fast scan in two dimensions to find the area of high field values, before doing a finer measurement around the hot spot. The sophisticated interpolation routines can find the maximum locations even in relatively coarse grids. When an area scan has measured all reachable points, it computes the field maxima found in the scanned area, within a range of the global maximum. Any following zoom scan within the same procedure will then perform fine scans around these maxima. The area covered the entire dimension of the EUT and the horizontal grid spacing was 15 mm 15 mm. Zoom scans are used to assess the highest averaged SAR for cubic averaging volumes with 1 g and 10 g of simulated tissue. The zoom scan measures 5 x 5 x 7 points in a 32 x 32 x 30 mm cube whose base faces are centered around the maxima returned from a preceding area scan within the same procedure. The drift job measures the field at the same location as the most recent reference job within the same procedure, with the same settings. The drift measurement gives the field difference in dB from the last reference measurement. Several drift measurements are possible for each reference measurement. This allows monitoring of the power drift of the device in the batch process. If the value changed by more than 5%, the evaluation was repeated. Test Report No0901FS14 Page 37 of 53 2009A Test Lab Techno Corp. Rev.00 9.4 Spatial Peak SAR Evaluation The DASY5 software includes all numerical procedures necessary to evaluate the spatial peak SAR values. Based on the Draft: SCC-34, SC-2, WG-2 - Computational Dosimetry, IEEE P1529/D0.0 (Draft Recommended Practice for Determining the Spatial-Peak Specific Absorption Rate (SAR) Associated with the Use of Wireless Handsets - Computational Techniques), a new algorithm has been implemented. The spatial-peak SAR can be computed over any required mass. The base for the evaluation is a cube measurement in a volume of (323230)mm3 (557 points). The measured volume must include the 1g and 10g cubes with the highest averaged SAR values. For that purpose, the center of the measured volume is aligned to the interpolated peak SAR value of a previously performed area scan. If the 10g cube or both cubes are not entirely inside the measured volumes, the system issues a warning regarding the evaluated spatial peak values within the Postprocessing engine (SEMCAD). This means that if the measured volume is shifted, higher values might be possible. To get the correct values you can use a finer measurement grid for the area scan. In complicated field distributions, a large grid spacing for the area scan might miss some details and give an incorrectly interpolated peak location. The entire evaluation of the spatial peak values is performed within the Postprocessing engine (SEMCAD). The system always gives the maximum values for the 1g and 10g cubes. The algorithm to find the cube with highest averaged SAR is divided into three stages:
Interpolation and Extrapolation The probe is calibrated at the center of the dipole sensors which is located 1 to 2.7mm away from the probe tip. During measurements, the probe stops shortly above the phantom surface, depending on the probe and the surface detecting system. Both distances are included as parameters in the probe configuration file. The software always knows exactly how far away the measured point is from the surface. As the probe cannot directly measure at the surface, the values between the deepest measured point and the surface must be extrapolated. In DASY5, the choice of the coordinate system defining the location of the measurement points has no influence on the uncertainty of the interpolation, Maxima Search and SAR extrapolation routines. The interpolation, Maxima Search and extrapolation routines are all based on the modified Quadratic Shepards method [7]. Test Report No0901FS14 Page 38 of 53 2009A Test Lab Techno Corp. Rev.00 10. Measurement Uncertainty Measurement uncertainties in SAR measurements are difficult to quantify due to several variables including biological, physiological, and environmental. However, we estimate the measurement uncertainties in SAR to be less than 21.9 %8. According to Std. C95.39, the overall uncertainties are difficult to assess and will vary with the type of meter and usage situation. However, accuracys of 1 to 3 dB can be expected in practice, with greater uncertainties in near-field situations and at higher frequencies (shorter wavelengths), or areas where large reflecting objects are present. Under optimum measurement conditions, SAR measurement uncertainties of at least 2dB can be expected. According to CENELEC10, typical worst-case uncertainty of field measurements is 5 dB. For well-defined modulation characteristics the uncertainty can be reduced to 3 dB. Test Report No0901FS14 Page 39 of 53 2009A Test Lab Techno Corp. Rev.00 Error Description Uncertainty value Prob. Dist. Div.
(ci) 1g
(ci) 10g Std. Unc.
(1g) Std. Unc.
(10g)
(vi) veff Measurement System Probe Calibration Axial Isotropy Hemispherical Isotropy Boundary Eects Linearity System Detection Limits Readout Electronics Response Time Integration Time RF Ambient Noise RF Ambient Reections Probe Positioner Probe Positioning Max. SAR Eval. Test Sample Related Device Positioning Device Holder Power Drift Phantom and Setup Phantom Uncertainty Liquid Conductivity (target) Liquid Conductivity (meas.) Liquid Permittivity (target) Liquid Permittivity (meas.) 5.9 %
4.7 %
9.6 %
1.0 %
4.7 %
1.0 %
0.3 %
0.8 %
2.6 %
3.0 %
3.0 %
0.4 %
2.9 %
1.0 %
2.9 %
3.6 %
5.0 %
4.0 %
5.0 %
2.5 %
5.0 %
2.5 %
Combined Std. Uncertainty Expanded STD Uncertainty N R R R R R N R R R R R R R N N R R R N R N 1 3 3 3 3 1 3 3 3 3 3 3 3 1 1 3 3 3 1 3 1 1 0.7 0.7 1 0.7 0.7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0.64 0.64 0.6 0.6 0.43 0.43 0.49 0.49 Table 7. Uncertainty Budget of DASY 5.9 %
1.9 %
3.9 %
0.6 %
2.7 %
0.6 %
0.3 %
0.5 %
1.5 %
1.7 %
1.7 %
0.2 %
1.7 %
0.6 %
5.9 %
1.9 %
3.9 %
0.6 %
2.7 %
0.6 %
0.3 %
0.5 %
1.5 %
1.7 %
1.7 %
0.2 %
1.7 %
0.6 %
2.9 %
3.6 %
2.9 %
2.9 %
3.6 %
2.9 %
145 5 1.1 %
1.2 %
2.3 %
2.3 %
1.8 %
1.6 %
1.7 %
1.5 %
10.9 % 10.7 % 387 21.9 % 21.4 %
1.2 %
1.4 %
Test Report No0901FS14 Page 40 of 53 2009A Test Lab Techno Corp. Rev.00 11. SAR Test Results Summary The model is tested for all frequency with 5500mAh battery. The most test data make of 4400mAh and 2200mAh battery test. Some frequency is tested again with 4400 and 2200mAh batteries. 11.1 GPRS/EGPRS 850 Results _ EUT Bottom to phantom 2mm space Ambient Temperature () Liquid Mixture Type Measurement Crest Factor 22 2 MSL900 4.2(3Down2Up) 8.3(3Down1up) Band Power
(dBm) Frequency MHz CH GPRS 850 128 824.2 GPRS 850 190 836.6 251 848.8 GPRS 850 251 EGPRS 850 848.8 251 848.8 GPRS 850 251 EGPRS 850 848.8 Std. C95.1-1999 - Safety Limit 32.25 32.28 32.40 26.40 32.10 26.40 Spatial Peak Phantom Position Flat Flat Flat Flat Flat Flat Uncontrolled Exposure/General Population Relative HUMIDITY (%) Liquid Temperature () Depth of liquid (cm) Probe S/N Antenna Position Accessory Internal Internal Internal Internal Internal Internal N/A N/A N/A N/A N/A N/A SAR1g
[mW/g]
0.035 0.046 0.066 0.021 0.035 0.010 40-70 22.0 15 3150 Remark Power Drift
(dB) 0.040 3Down2Up 0.156 3Down2Up 0.020 3Down2Up 0.000 3Down2Up
-0.137 3Down1Up 0.000 3Down1Up 1.6 W/kg (mW/g) Averaged over 1 gram Detail results see Appendix B. Test Report No0901FS14 Page 41 of 53 2009A Test Lab Techno Corp. Rev.00 Z-axis Plot of SAR Measurement 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=2, Y=2 Markers 0.07 0.06 0.05
/
g W m 0.04 0.03 0.02 0.01 0.00 0.005 0.010 0.015 Figure 13. Z-axis Plot of Flat GPRS 850 CH251 (3Down2Up) 0.020 m 0.025 0.030 0.035 Test Report No0901FS14 Page 42 of 53 2009A Test Lab Techno Corp. Rev.00 11.2 GPRS/EGPRS 1900 Results _ EUT Bottom to phantom 2mm space Ambient Temperature () Liquid Mixture Type Measurement Crest Factor 22 2 MSL1950 4.2(3Down2Up) 8.3(3Down1up) Band Power
(dBm) Frequency CH MHz 512 GPRS 1900 1850.2 1850.2 512 EGPRS 1900 512 GPRS 1900 1850.2 512 EGPRS 1900 1850.2 661 GPRS 1900 1880.0 1909.8 810 GPRS 1900 Std. C95.1-1999 - Safety Limit 28.85 25.78 28.35 25.55 28.75 28.65 Spatial Peak Phantom Position Flat Flat Flat Flat Flat Flat Uncontrolled Exposure/General Population Relative HUMIDITY (%) Liquid Temperature () Depth of liquid (cm) Probe S/N Antenna Position Accessory Internal Internal Internal Internal Internal Internal N/A N/A N/A N/A N/A N/A SAR1g
[mW/g]
0.100 0.040 0.052 0.021 0.094 0.079 40-70 22.0 15 3150 Remark Power Drift
(dB)
-0.049 3Down2Up
-0.021 3Down2Up 0.176 3Down1Up 0.000 3Down1Up 0.115 3Down2Up 0.071 3Down2Up 1.6 W/kg (mW/g) Averaged over 1 gram Detail results see Appendix B. Z-axis Plot of SAR Measurement
/
g W m 0.11 0.10 0.09 0.08 0.07 0.06 0.05 0.04 0.03 0.02 0.01 0.00 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=2, Y=2 Markers 0.005 0.010 0.015 0.025 0.030 0.035 0.020 m Figure 14. Z-axis Plot of Flat GPRS1900 CH512 (3Down2Up) Test Report No0901FS14 Page 43 of 53 2009A Test Lab Techno Corp. Rev.00 11.3 WCDMA/HSDPA Band V _ EUT Bottom to phantom 2mm space Ambient Temperature () Liquid 22 2 MSL900 Mixture Type 1 Power
(dBm) Band Measurement Crest Factor Frequency CH MHz 4132 WCDMA V 826.6 836.6 4183 WCDMA V 4183 HSDPA V 836.6 4183 HSUPA V 836.6 846.6 4233 WCDMA V Std. C95.1-1999 - Safety Limit 23.63 24.03 21.30 23.56 23.99 Spatial Peak Phantom Position Flat Flat Flat Flat Flat Uncontrolled Exposure/General Population Relative HUMIDITY (%) 40-70 Liquid Temperature () Depth of liquid (cm) Probe S/N Antenna Position Accessory Internal Internal Internal Internal Internal N/A N/A N/A N/A N/A SAR1g
[mW/g]
0.025 0.034 0.031 0.017 0.030 22.0 15 3150/3578 Power Drift
(dB) 0.139 0.097 0.196 0.096 0.180 Remark
-
-
-
-
-
1.6 W/kg (mW/g) Averaged over 1 gram Detail results see Appendix B. Test Report No0901FS14 Page 44 of 53 2009A Test Lab Techno Corp. Rev.00 Z-axis Plot of SAR Measurement 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=2, Y=2 Markers
/
g W m 0.030 0.025 0.020 0.015 0.010 0.005 0.000 0.005 0.010 0.015 Figure 15. Z-axis Plot of Flat WCDMA Band V CH4180 0.020 m 0.025 0.030 0.035 Spectrum Analyzer Setup Photo Figure 16. Spectrum Analyzer Flat HSDPA Band V CH4183 Test Report No0901FS14 Page 45 of 53 2009A Test Lab Techno Corp. Rev.00 Spectrum Analyzer Setup Picture Figure 17. Spectrum Analyzer Flat HSUPA Band V CH4183 Test Report No0901FS14 Page 46 of 53 2009A Test Lab Techno Corp. Rev.00 11.4 WCDMA/HSDPA /HSUPA Band II _ EUT Bottom to phantom 2mm space Ambient Temperature () Liquid Mixture Type Measurement Crest Factor Frequency CH MHz Band 22 2 Relative HUMIDITY (%) 40-70 MSL1950 /MSL1900 1 Power
(dBm) Liquid Temperature () Depth of liquid (cm) Probe S/N 22.0 15 3150/3578 Phantom Position Antenna Position Accessory SAR1g
[mW/g]
Power Drift
(dB) Remark 1852.4 9262 WCDMA II 23.58 1852.4 9262 WCDMA II 23.58 1852.4 9262 WCDMA II 23.58 1852.4 9262 HSDPA II 21.50 1852.4 9262 HSUPA II 23.36 1880.0 9400 WCDMA II 23.31 1907.6 9538 WCDMA II 23.07 Flat Flat Flat Flat Flat Flat Flat Internal Internal Internal Internal Internal Internal Internal N/A N/A N/A N/A N/A N/A N/A 0.123 0.105
-
0.094 0.164 0.104 0.132 0.107 0.165 0.098
-0.038 0.120 0.103 0.101 0.059 4400mAh Battery 2200mAh Battery
-
-
-
-
Std. C95.1-1999 - Safety Limit Spatial Peak Uncontrolled Exposure/General Population 1.6 W/kg (mW/g) Averaged over 1 gram Detail results see Appendix B. Test Report No0901FS14 Page 47 of 53 2009A Test Lab Techno Corp. Rev.00 Z-axis Plot of SAR Measurement
/
g W m 0.14 0.12 0.10 0.08 0.06 0.04 0.02 0.00 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=2, Y=2 Markers 0.005 0.010 0.015 0.025 0.030 0.035 0.020 m Figure 18. Z-axis Plot of Flat WCDMA Band II CH9262 Spectrum Analyzer Setup Photo Figure 19. Spectrum Analyzer Flat HSDPA Band II CH9262 Test Report No0901FS14 Page 48 of 53 2009A Test Lab Techno Corp. Rev.00 Spectrum Analyzer Setup Picture Figure 20. Spectrum Analyzer Flat HSUPA Band II CH9262 Test Report No0901FS14 Page 49 of 53 2009A Test Lab Techno Corp. Rev.00 11.5 Setup Photo Figure 21. Body SAR Test Setup (Flat Section) _ EUT Bottom to Phantom 2mm space
( 3G Antenna to phantom 81.54mm space ) Test Report No0901FS14 Page 50 of 53 2009A Test Lab Techno Corp. Rev.00 11.6 Std. C95.1-1999 RF Exposure Limit Human Exposure Spatial Peak SAR*
(head) Spatial Peak SAR**
(Whole Body) Spatial Peak SAR***
(Partial-Body) Spatial Peak SAR****
(Hands / Feet / Ankle / Wrist ) Population Uncontrolled Exposure Occupational Controlled Exposure
( W/kg ) or (mW/g)
( W/kg ) or (mW/g) 1.60 0.08 1.60 4.00 8.00 0.40 8.00 20.00 Table 8. Safety Limits for Partial Body Exposure Notes
*
The Spatial Peak value of the SAR averaged over any 1 gram of tissue.
( defined as a tissue volume in the shape of a cube ) and over the appropriate averaging time. The Spatial Average value of the SAR averaged over the whole body. The Spatial Average value of the SAR averaged over the partial body.
**
***
**** The Spatial Peak value of the SAR averaged over any 10 grams of tissue.
( defined as a tissue volume in the shape of a cube ) and over the appropriate averaging time. Population / Uncontrolled Environmentsare defined as locations where there is the exposure of individuals who have no knowledge or control of their exposure. Occupational / Controlled Environmentsare defined as locations where there is exposure that may be incurred by persons who are aware of the potential for exposure, (i.e. as a result of employment or occupation). Test Report No0901FS14 Page 51 of 53 2009A Test Lab Techno Corp. Rev.00 12. Conclusion The SAR test values found for the portable mobile phone Acer Incorporated Trade Nameacer Model(s) ZG5, Aspire One are below the maximum recommended level of 1.6 W/kg (mW/g). Test Report No0901FS14 Page 52 of 53 2009A Test Lab Techno Corp. Rev.00 13. References
[1] Std. C95.1-1999, American National Standard safety levels with respect to human exposure to radio frequency electromagnetic fields, 300KHz to 100GHz, New York.
[2] NCRP, National Council on Radiation Protection and Measurements, Biological Effects and Exposure Criteria for Radio frequency Electromagnetic Fields, NCRP report NO. 86, 1986.
[3] T. Schmid, O. Egger, and N. Kuster, Automatic E-field scanning system for dosimetric assessments, IEEE Transactions on Microwave Theory and Techniques, vol. 44, pp, 105-113, Jan. 1996.
[4] K. Pokovi , c , T. Schmid, and N. Kuster, Robust setup for precise calibration of E-field probes in tissue simulating liquids at mobile communications frequency, in ICECOM97, Dubrovnik, October 15-17, 1997, pp.120-124.
[5] K. Pokovi , c , T. Schmid, and N. Kuster, E-field probe with improved isotropy in brain simulating liquids, in Proceedings of the ELMAR, Zadar, Croatia, 23-25 June, 1996, pp.172-175.
[6] N. Kuster, and Q. Balzano, Energy absorption mechanism by biological bodies in the near field of dipole antennas above 300MHz, IEEE Transaction on Vehicular Technology, vol. 41, no. 1, Feb. 1992, pp. 17-23.
[7] Robert J. Renka, Multivariate Interpolation Of Large Sets Of Scattered Data, University of North Texas ACM Transactions on Mathematical Software, vol. 14, no. 2, June 1988 , pp. 139-148.
[8] N. Kuster, R. Kastle, T. Schmid, Dosimetric evaluation of mobile communications equipment with known precision, IEEE Transaction on Communications, vol. E80-B, no. 5, May 1997, pp. 645-652.
[9] Std. C95.3-1991, IEEE Recommended Practice for the Measurement of Potentially Hazardous Electromagnetic Fields RF and Microwave, New York: IEEE, Aug. 1992.
[10] CENELEC CLC/SC111B, European Prestandard (prENV 50166-2), Human Exposure to Electromagnetic Fields High-frequency: 10KHz-300GHz, Jan. 1995. Test Report No0901FS14 Page 53 of 53 2009A Test Lab Techno Corp. Rev.00 Appendix A - System Performance Check See following Attached Pages for System Performance Check. Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/5/2008 11:23:07 AM System Performance Check at 900MHz_20080905_Body DUT: Dipole 900 MHz; Type: D900V2; Serial: D900V2 - SN:1d053 Communication System: CW; Frequency: 900 MHz;Duty Cycle: 1:1 Medium parameters used: f = 900 MHz; = 1.04 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 53.9; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 System Performance Check at 900MHz/Area Scan (61x121x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 3.08 mW/g System Performance Check at 900MHz/Zoom Scan (7x7x7)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 55.3 V/m; Power Drift = -0.020 dB Peak SAR (extrapolated) = 4.24 W/kg SAR(1 g) = 2.82 mW/g; SAR(10 g) = 1.8 mW/g Maximum value of SAR (measured) = 3.07 mW/g 0 dB = 3.07mW/g Appendix A1/6 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 10:11:34 AM System Performance Check at 900MHz_20080908_Body DUT: Dipole 900 MHz; Type: D900V2; Serial: D900V2 - SN:1d053 Communication System: CW; Frequency: 900 MHz;Duty Cycle: 1:1 Medium parameters used: f = 900 MHz; = 1.04 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 53.9; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 System Performance Check at 900MHz/Area Scan (61x121x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 3.17 mW/g System Performance Check at 900MHz/Zoom Scan (7x7x7)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 56.3 V/m; Power Drift = -0.057 dB Peak SAR (extrapolated) = 4.24 W/kg SAR(1 g) = 2.9 mW/g; SAR(10 g) = 1.89 mW/g Maximum value of SAR (measured) = 3.14 mW/g 0 dB = 3.14mW/g Appendix A2/6 Test Laboratory: A Test Lab Techno Corp. Date/Time: 1/17/2009 10:12:39 AMDate/Time: 1/17/2009 10:21:58 AM System Performance Check at 900MHz_20090117_Body DUT: Dipole 900 MHz; Type: D900V2; Serial: D900V2 - SN:073 Communication System: CW; Frequency: 900 MHz;Duty Cycle: 1:1 Medium parameters used: f = 900 MHz; = 1.03 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 55.4; = 1000 kg/m3 DASY5 Configuration:
z Probe: EX3DV4 - SN3578; ConvF(8.42, 8.42, 8.42); Calibrated: 5/20/2008 z Sensor-Surface: 3.4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/11/2008 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 120; SEMCAD X Version 13.2 Build 87 System Performance Check at 900MHz/Area Scan (61x121x1):
Measurement grid:
dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 3.08 mW/g System Performance Check at 900MHz/Zoom Scan (7x7x7)/Cube 0:
Measurement grid:
dx=5mm, dy=5mm, dz=5mm Reference Value = 54.7 V/m; Power Drift = -0.094 dB Peak SAR (extrapolated) = 4.02 W/kg SAR(1 g) = 2.7 mW/g; SAR(10 g) = 1.78 mW/g Maximum value of SAR (measured) = 3.07 mW/g 0 dB = 3.07mW/g Appendix A3/6 Test Laboratory: A Test Lab Techno Corp. Date/Time: 1/17/2009 9:04:57 PMDate/Time: 1/17/2009 9:14:11 PM System Performance Check at 1900MHz_20090117_Body DUT: Dipole 1900 MHz; Type: D1900V2; Serial: D1900V2 - SN:5d018 Communication System: CW; Frequency: 1900 MHz;Duty Cycle: 1:1 Medium parameters used: f = 1900 MHz; = 1.5 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 53.1; = 1000 kg/m3 DASY5 Configuration:
z Probe: EX3DV4 - SN3578; ConvF(7.41, 7.41, 7.41); Calibrated: 5/20/2008 z Sensor-Surface: 3.4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/11/2008 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 120; SEMCAD X Version 13.2 Build 87 System Performance Check at 1900MHz/Area Scan (71x101x1):
Measurement grid:
dx=10mm, dy=10mm Maximum value of SAR (interpolated) = 12.2 mW/g System Performance Check at 1900MHz/Zoom Scan (7x7x7)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 89.5 V/m; Power Drift = -0.107 dB Peak SAR (extrapolated) = 18.1 W/kg SAR(1 g) = 9.8 mW/g; SAR(10 g) = 5.06 mW/g Maximum value of SAR (measured) = 12 mW/g 0 dB = 12mW/g Appendix A4/6 Test Laboratory: A Test Lab Techno Corp. Date/Time: 1/21/2009 10:20:51 AMDate/Time: 1/21/2009 10:27:14 AM System Performance Check at 1900MHz_20090121_Body DUT: Dipole 1900 MHz; Type: D1900V2; Serial: D1900V2 - SN:5d018 Communication System: CW; Frequency: 1900 MHz;Duty Cycle: 1:1 Medium parameters used: f = 1900 MHz; = 1.5 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 53.1; = 1000 kg/m3 DASY5 Configuration:
z Probe: EX3DV4 - SN3578; ConvF(7.41, 7.41, 7.41); Calibrated: 5/20/2008 z Sensor-Surface: 3.4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/11/2008 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 120; SEMCAD X Version 13.2 Build 87 System Performance Check at 1900MHz/Area Scan (61x81x1):
Measurement grid:
dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 11.8 mW/g System Performance Check at 1900MHz/Zoom Scan (7x7x7)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 89.8 V/m; Power Drift = -0.033 dB Peak SAR (extrapolated) = 17.6 W/kg SAR(1 g) = 9.57 mW/g; SAR(10 g) = 4.97 mW/g Maximum value of SAR (measured) = 11.7 mW/g 0 dB = 11.7mW/g Appendix A5/6 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 6:47:35 AM System Performance Check at 1950MHz_20080907_Body DUT: Dipole 1950 MHz; Type: D1950V3; Serial: D1950V3 - SN:1117 Communication System: CW; Frequency: 1950 MHz;Duty Cycle: 1:1 Medium parameters used: f = 1950 MHz; = 1.56 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 51.6; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.55, 4.55, 4.55); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 System Performance Check at 1950MHz/Area Scan (61x61x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 12 mW/g System Performance Check at 1950MHz/Zoom Scan (7x7x7)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 89.2 V/m; Power Drift = -0.031 dB Peak SAR (extrapolated) = 19.6 W/kg SAR(1 g) = 10.5 mW/g; SAR(10 g) = 5.39 mW/g Maximum value of SAR (measured) = 11.9 mW/g 0 dB = 11.9mW/g Appendix A6/6 Appendix B - SAR Measurement Data See following Attached Pages for SAR Measurement Data. Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 12:21:23 PM Flat_GSM850 GPRS CH128_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: GSM 850 GPRS(3Down, 2Up); Frequency: 824.2 MHz;Duty Cycle: 1:4.2 Medium parameters used (interpolated): f = 824.2 MHz; = 0.955 mho/m;
kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.7; = 1000 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.037 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.830 V/m; Power Drift = 0.040 dB Peak SAR (extrapolated) = 0.048 W/kg SAR(1 g) = 0.035 mW/g; SAR(10 g) = 0.025 mW/g Maximum value of SAR (measured) = 0.037 mW/g 0 dB = 0.037mW/g Appendix B1/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 1:18:10 PM Flat_GSM850 GPRS CH190_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: GSM 850 GPRS(3Down, 2Up); Frequency: 836.6 MHz;Duty Cycle: 1:4.2 Medium parameters used: f = 837 MHz; = 0.968 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.6; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.049 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.838 V/m; Power Drift = 0.156 dB Peak SAR (extrapolated) = 0.063 W/kg SAR(1 g) = 0.046 mW/g; SAR(10 g) = 0.033 mW/g Maximum value of SAR (measured) = 0.049 mW/g 0 dB = 0.049mW/g Appendix B2/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 2:07:57 PM Flat_GSM850 GPRS CH251_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: GSM 850 GPRS(3Down, 2Up); Frequency: 848.8 MHz;Duty Cycle: 1:4.2 Medium parameters used: f = 849 MHz; = 0.982 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.4; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.070 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 1.36 V/m; Power Drift = 0.020 dB Peak SAR (extrapolated) = 0.091 W/kg SAR(1 g) = 0.066 mW/g; SAR(10 g) = 0.047 mW/g Maximum value of SAR (measured) = 0.070 mW/g 0 dB = 0.070mW/g Appendix B3/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 4:38:16 PM Flat_GSM850 EGPRS CH251_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: GSM 850 EGPRS (3Down, 2Up); Frequency: 848.8 MHz;Duty Cycle:
1:4.2 Medium parameters used: f = 849 MHz; = 0.982 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.4; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.021 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0 V/m; Power Drift = 0 dB Peak SAR (extrapolated) = 0.029 W/kg SAR(1 g) = 0.021 mW/g; SAR(10 g) = 0.015 mW/g Maximum value of SAR (measured) = 0.022 mW/g 0 dB = 0.022mW/g Appendix B4/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 2:57:41 PM Flat_GSM850 GPRS CH251_Open 90_3Down1Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: GSM 850 GPRS(3Down, 1Up); Frequency: 848.8 MHz;Duty Cycle: 1:8.3 Medium parameters used: f = 849 MHz; = 0.982 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.4; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.037 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.116 V/m; Power Drift = -0.137 dB Peak SAR (extrapolated) = 0.047 W/kg SAR(1 g) = 0.035 mW/g; SAR(10 g) = 0.025 mW/g Maximum value of SAR (measured) = 0.037 mW/g 0 dB = 0.037mW/g Appendix B5/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 5:27:28 PM Flat_GSM850 EGPRS CH251_Open 90_3Down1Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: GSM 850 EGPRS (3Down, 1Up); Frequency: 848.8 MHz;Duty Cycle:
1:8.3 Medium parameters used: f = 849 MHz; = 0.982 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.4; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.011 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0 V/m; Power Drift = 0 dB Peak SAR (extrapolated) = 0.015 W/kg SAR(1 g) = 0.010 mW/g; SAR(10 g) = 0.00724 mW/g Maximum value of SAR (measured) = 0.011 mW/g 0 dB = 0.011mW/g Appendix B6/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 1:52:00 PM Flat_PCS GPRS CH512_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: PCS GPRS(3Down,2Up); Frequency: 1850.2 MHz;Duty Cycle: 1:4.2 Medium parameters used (interpolated): f = 1850.2 MHz; = 1.46 mho/m;
r = 51.9; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.104 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.300 V/m; Power Drift = -0.049 dB Peak SAR (extrapolated) = 0.153 W/kg SAR(1 g) = 0.100 mW/g; SAR(10 g) = 0.063 mW/g Maximum value of SAR (measured) = 0.106 mW/g 0 dB = 0.106mW/g Appendix B7/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 6:26:30 PM Flat_PCS EGPRS CH512_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: PCS EGPRS (3Down, 2Up); Frequency: 1850.2 MHz;Duty Cycle: 1:4.2 Medium parameters used (interpolated): f = 1850.2 MHz; = 1.46 mho/m;
kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 51.9; = 1000 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.043 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.341 V/m; Power Drift = -0.021 dB Peak SAR (extrapolated) = 0.062 W/kg SAR(1 g) = 0.040 mW/g; SAR(10 g) = 0.025 mW/g Maximum value of SAR (measured) = 0.043 mW/g 0 dB = 0.043mW/g Appendix B8/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 5:11:17 PM Flat_PCS GPRS CH512_Open 90_3Down1Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: PCS GPRS(3Down,1Up); Frequency: 1850.2 MHz;Duty Cycle: 1:8.3 Medium parameters used (interpolated): f = 1850.2 MHz; = 1.46 mho/m;
r = 51.9; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.058 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.301 V/m; Power Drift = 0.176 dB Peak SAR (extrapolated) = 0.081 W/kg SAR(1 g) = 0.052 mW/g; SAR(10 g) = 0.033 mW/g Maximum value of SAR (measured) = 0.056 mW/g 0 dB = 0.056mW/g Appendix B9/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 8:13:45 PM Flat_PCS EGPRS CH512_Open 90_3Down1Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: PCS EGPRS (3Down, 1Up); Frequency: 1850.2 MHz;Duty Cycle: 1:8.3 Medium parameters used (interpolated): f = 1850.2 MHz; = 1.46 mho/m;
kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 51.9; = 1000 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.023 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0 V/m; Power Drift = 0 dB Peak SAR (extrapolated) = 0.032 W/kg SAR(1 g) = 0.021 mW/g; SAR(10 g) = 0.013 mW/g Maximum value of SAR (measured) = 0.022 mW/g 0 dB = 0.022mW/g Appendix B10/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 3:16:24 PM Flat_PCS GPRS CH661_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: PCS GPRS(3Down,2Up); Frequency: 1880 MHz;Duty Cycle: 1:4.2 Medium parameters used: f = 1880 MHz; = 1.49 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 51.9; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.101 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.476 V/m; Power Drift = 0.115 dB Peak SAR (extrapolated) = 0.148 W/kg SAR(1 g) = 0.094 mW/g; SAR(10 g) = 0.058 mW/g Maximum value of SAR (measured) = 0.106 mW/g 0 dB = 0.106mW/g Appendix B11/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 4:14:34 PM Flat_PCS GPRS CH810_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: PCS GPRS(3Down,2Up); Frequency: 1909.8 MHz;Duty Cycle: 1:4.2 Medium parameters used: f = 1910 MHz; = 1.52 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 51.8; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.079 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.691 V/m; Power Drift = 0.071 dB Peak SAR (extrapolated) = 0.123 W/kg SAR(1 g) = 0.079 mW/g; SAR(10 g) = 0.049 mW/g Maximum value of SAR (measured) = 0.086 mW/g 0 dB = 0.086mW/g Appendix B12/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/5/2008 2:49:17 PM Flat_WCDMA Band V CH4132_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA Band V; Frequency: 826.4 MHz;Duty Cycle: 1:1 Medium parameters used (interpolated): f = 826.4 MHz; = 0.956 mho/m;
kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.7; = 1000 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.028 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.733 V/m; Power Drift = 0.139 dB Peak SAR (extrapolated) = 0.035 W/kg SAR(1 g) = 0.025 mW/g; SAR(10 g) = 0.017 mW/g Maximum value of SAR (measured) = 0.027 mW/g 0 dB = 0.027mW/g Appendix B13/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/5/2008 3:44:21 PM Flat_WCDMA Band V CH4183_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA Band V; Frequency: 836.6 MHz;Duty Cycle: 1:1 Medium parameters used: f = 837 MHz; = 0.968 mho/m;
r = 54.6; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.035 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 1.19 V/m; Power Drift = 0.097 dB Peak SAR (extrapolated) = 0.047 W/kg SAR(1 g) = 0.034 mW/g; SAR(10 g) = 0.024 mW/g Maximum value of SAR (measured) = 0.036 mW/g 0 dB = 0.036mW/g Appendix B14/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 10:45:05 PM Flat_HSDPA Band V CH4183_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA HSDPA Band V; Frequency: 836.6 MHz;Duty Cycle: 1:1 Medium parameters used: f = 837 MHz; = 0.968 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.6; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.032 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.755 V/m; Power Drift = 0.196 dB Peak SAR (extrapolated) = 0.041 W/kg SAR(1 g) = 0.031 mW/g; SAR(10 g) = 0.022 mW/g Maximum value of SAR (measured) = 0.033 mW/g 0 dB = 0.033mW/g Appendix B15/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 1/17/2009 5:26:24 PM Flat_HSUPA WCDMA Band V CH4183_Sub-Test1_LCD Open 90_Bottom Close Body DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: HSUPA WCDMA Band V; Frequency: 836.6 MHz;Duty Cycle: 1:1 Medium parameters used: f = 837 MHz; = 0.975 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 56.1; = 1000 kg/m3 DASY5 Configuration:
z Probe: EX3DV4 - SN3578; ConvF(8.42, 8.42, 8.42); Calibrated: 5/20/2008 z Sensor-Surface: 3mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/11/2008 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 120; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (161x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.029 mW/g Flat/Zoom Scan (7x7x9)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=3mm Reference Value = 0.860 V/m; Power Drift = 0.096 dB Peak SAR (extrapolated) = 0.025 W/kg SAR(1 g) = 0.017 mW/g; SAR(10 g) = 0.011 mW/g Maximum value of SAR (measured) = 0.021 mW/g 0 dB = 0.021mW/g Appendix B16/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/5/2008 4:30:31 PM Flat_WCDMA Band V CH4233_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA Band V; Frequency: 846.6 MHz;Duty Cycle: 1:1 Medium parameters used: f = 847 MHz; = 0.979 mho/m;
r = 54.4; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.032 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 1.24 V/m; Power Drift = 0.180 dB Peak SAR (extrapolated) = 0.040 W/kg SAR(1 g) = 0.030 mW/g; SAR(10 g) = 0.022 mW/g Maximum value of SAR (measured) = 0.032 mW/g 0 dB = 0.032mW/g Appendix B17/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 8:12:00 AM Flat_WCDMA Band II CH9262_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA Band II; Frequency: 1852.4 MHz;Duty Cycle: 1:1 Medium parameters used (interpolated): f = 1852.4 MHz; = 1.46 mho/m;
kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 51.9; = 1000 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.129 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 1.17 V/m; Power Drift = 0.105 dB Peak SAR (extrapolated) = 0.194 W/kg SAR(1 g) = 0.123 mW/g; SAR(10 g) = 0.077 mW/g Maximum value of SAR (measured) = 0.134 mW/g 0 dB = 0.134mW/g Appendix B18/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 1/21/2009 3:31:24 PMDate/Time: 1/21/2009 4:24:14 PM Flat_WCDMA Band II CH9262_Open 90_Bottom of the Base_ with 0mm Gap_2200mAh DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA Band II; Frequency: 1852.4 MHz;Duty Cycle: 1:1 Medium parameters used (interpolated): f = 1852.4 MHz; = 1.46 mho/m;
kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 53.3; = 1000 DASY5 Configuration:
z Probe: EX3DV4 - SN3578; ConvF(7.41, 7.41, 7.41); Calibrated: 5/20/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/11/2008 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 120; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (201x241x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.122 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 1.5 V/m; Power Drift = 0.132 dB Peak SAR (extrapolated) = 0.145 W/kg SAR(1 g) = 0.104 mW/g; SAR(10 g) = 0.071 mW/g Maximum value of SAR (measured) = 0.120 mW/g 0 dB = 0.120mW/g Appendix B19/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 1/21/2009 12:31:45 PMDate/Time: 1/21/2009 1:24:00 PM Flat_WCDMA Band II CH9262_Open 90_Bottom of the Base_ with 0mm Gap_4400mAh DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA Band II; Frequency: 1852.4 MHz;Duty Cycle: 1:1 Medium parameters used (interpolated): f = 1852.4 MHz; = 1.46 mho/m;
kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 53.3; = 1000 DASY5 Configuration:
z Probe: EX3DV4 - SN3578; ConvF(7.41, 7.41, 7.41); Calibrated: 5/20/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/11/2008 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 120; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (201x241x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.101 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 1.75 V/m; Power Drift = 0.164 dB Peak SAR (extrapolated) = 0.145 W/kg SAR(1 g) = 0.094 mW/g; SAR(10 g) = 0.062 mW/g Maximum value of SAR (measured) = 0.100 mW/g 0 dB = 0.100mW/g Appendix B20/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 12:03:00 PM Flat_HSDPA Band II CH9262_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA HSDPA Band II; Frequency: 1852.4 MHz;Duty Cycle: 1:1 Medium parameters used (interpolated): f = 1852.4 MHz; = 1.46 mho/m;
r = 51.9; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.112 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.540 V/m; Power Drift = 0.165 dB Peak SAR (extrapolated) = 0.169 W/kg SAR(1 g) = 0.107 mW/g; SAR(10 g) = 0.067 mW/g Maximum value of SAR (measured) = 0.117 mW/g 0 dB = 0.117mW/g Appendix B21/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 1/17/2009 10:54:04 PM Flat_HSUPA WCDMA Band II CH9262_Sub-Test1_LCD Open 90_Bottom Close Body DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: HSUPA WCDMA Band II; Frequency: 1852.4 MHz;Duty Cycle: 1:1 Medium parameters used (interpolated): f = 1852.4 MHz; = 1.46 mho/m;
r = 53.3; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: EX3DV4 - SN3578; ConvF(7.41, 7.41, 7.41); Calibrated: 5/20/2008 z Sensor-Surface: 3mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/11/2008 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 120; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (201x241x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.115 mW/g Flat/Zoom Scan (7x7x9)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=3mm Reference Value = 0.928 V/m; Power Drift = -0.038 dB Peak SAR (extrapolated) = 0.152 W/kg SAR(1 g) = 0.098 mW/g; SAR(10 g) = 0.062 mW/g Maximum value of SAR (measured) = 0.116 mW/g 0 dB = 0.116mW/g Appendix B22/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 8:29:23 AM Flat_WCDMA Band II CH9400_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA Band II; Frequency: 1880 MHz;Duty Cycle: 1:1 Medium parameters used: f = 1880 MHz; = 1.49 mho/m;
r = 51.9; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.128 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.601 V/m; Power Drift = 0.103 dB Peak SAR (extrapolated) = 0.189 W/kg SAR(1 g) = 0.120 mW/g; SAR(10 g) = 0.073 mW/g Maximum value of SAR (measured) = 0.132 mW/g 0 dB = 0.132mW/g Appendix B23/24 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 9:48:05 AM Flat_WCDMA Band II CH9538_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA Band II; Frequency: 1907.6 MHz;Duty Cycle: 1:1 Medium parameters used: f = 1908 MHz; = 1.52 mho/m;
r = 51.7; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.103 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.515 V/m; Power Drift = 0.059 dB Peak SAR (extrapolated) = 0.160 W/kg SAR(1 g) = 0.101 mW/g; SAR(10 g) = 0.062 mW/g Maximum value of SAR (measured) = 0.111 mW/g 0 dB = 0.111mW/g Appendix B24/24 Appendix C - Application Different Descriptio See following Attached Pages. DATE: 2009/01/19 LETTER EXPLAINING PURPOSE OF APPLICATION Difference Description APPLICANT REG. NO EQUIPMENT
: Acer Incorporated
: HLZZG53GQ
: Notebook PC Model Name Original ZG5, Aspire One Remark Estimation Electric Circuit PCB Layout Components, Module, Materials Product Structure Model, Appearance, Color Key Pad Other : Add HSUPA Function. Same module, but the software is different. Notice(1) There is nothing different please mark
(2) There is something different please mark, and kindly indicate the difference on the form. Acer Incorporated Easy Lai / Regulation Center Manager TEL : +886-2-86913089 FAX : +886-2-86913000 Variant ZG5, Aspire One Appendix D - 3G SAR Measurement Procedures See following Attached Pages. 3G SAR Measurement Procedures Conducted Output Power The EUT was tested according to the requirements of the FCC 3G procedures and the TS 34.121. The EUTs WCDMA and HSPA function is Release6 version supporting HSDPA and HSUPA. A detailed analysis of the output power for all WCDDMA, HSDPA and HSUPA mode is provided in the table below. According to the FCC 3G procedures, handsets with both HSDPA and HSUPA should be tested according to release 6 HSPA test procedures, and EUT dose not support VOIP function over the HSPA function. The HSPA output levels are less than 1/4dB higher than the basic 12.2kbps RMC configurations in WCDMA, as required by FCC 3G SAR procedures and the PBA is fulfilled. Appendix D1/12 WCDMA Setup Configuration 1. The EUT was connected to Base Station referred to the drawing of Setup Configuration. 2. The RF path losses were compensated into measurements. 3. A call was established between EUT and Base Station with following setting a set Cell Power = -60dBm b set RMC 12.2K c set UE Target Power = 24dBm d set Power Ctrl Mode = All Up bit 4. The transmitted maximum output power was recorded. Wireless Communication Test Set RF IN EUT WCDMA Setup Configuration : Step 3 a & b Appendix D2/12 WCDMA Setup Configuration : Step 3 c & d Appendix D3/12 HSDPA Setup Configuration 1. The EUT was connected to Base Station referred to the drawing of Setup Configuration. 2. The RF path losses were compensated into measurements. 3. A call was established between EUT and Base Station with following setting a Set Gain Factors (c and d) and parameters were set according to each specific sub-test in the following table quoted from the TS 34.121. b Set Cell Power = -60dBm c Set RMC 12.2K+HSDPA d Set HS-DSCH Configuration Type to FRC(H-set 1,QPSK) e Set UE Target Power = 24dBm f Set Power Ctrl Mode = All Up bit g Select Uplink Parameter h Set Gain Factor(c and d) Parameters were set according to each i Ex. Sub-test 1 : c=2,d=15 j Set PS Domain 4. The transmitted maximum output power was recorded. Sub-test c d 1 2 3 4 2/15 12/15(4) 15/15 15/15 15/15 15/15(4) 8/15 4/15 d
(SF) 64 64 64 64 c/d 2/15 12/15(4) 15/8 15/4 hs(1,2) CM (dB)(3) MRP (dB)(3) 4/15 24/15 30/15 30/15 0.0 1.0 1.5 1.5 0.0 0.0 0.5 0.5 Note 1. ACK, NACK and CQI = 8 Ahs = hs/c = 30/15 hs= 30/15 *c 2. For theHS-DPCCH power mask requirement test in clause 5.2C, 5.7A, and the Error Vector Magnitude(EVM) with HS-DPCCH test in clause 5.13.1A and HSDPA EVM with phase discontinuity in clause 5.13.1AA, ACK and NACK =
30/15 with hs = 30/15 *c and CQI = 24/15 with hs = 24/15*c 3. CM = 1 for c/d =12/15, hs/c=24/15. For all other combinations of DPDCH, DPCCH and HS-DPCCH the MPR is based on the relative CM difference. This is applicable for only UEs that support HSDPA in release 6 and later releases. 4. For subtest 2 the c/d ratio of 12/15 for the TFC during the measurement period (TF1, TF0) is achieved by setting the signaled gain factors for the reference TFC (TF1, TF1) to c = 11/15 and d = 15/15. Table 1. Setup for Release 5 HSDPA Appendix D4/12 HSDPA Setup Configuration : Step 3 b & c HSDPA Setup Configuration : Step 3 - d Appendix D5/12 HSDPA Setup Configuration : Step 3 i HSDPA Setup Configuration : Step 3 - j Appendix D6/12 HSUPA Setup Configuration 1. The EUT was connected to Base Station referred to the drawing of Setup Configuration. 2. The RF path losses were compensated into measurements. 3. A call was established between EUT and Base Station with following setting a Set the Gain Factors (c and d) and parameters (AG Index) were set according to each specific sub-test in the following table quoted from the TS 34.121. b Set Cell Power = -75dBm c Set RMC 12.2K+HSPA d Set HS-DSCH Configuration Type to FRC(H-set 1,QPSK) e Set UE Target Power = 24dBm f Set Power Ctrl Mode = Alternating bits g Select Uplink Parameter h Set Gain Factor(c,andd) Parameters were set according to each i Ex. Sub-test 1 : c=11,d=15 j Set AG Ex. Sub-test 1 :AG =20 k Set E-TFCI Ex. Sub-test 1 : 75 l Set PS Domain 4. The transmitted maximum output power was recorded. Appendix D7/12 Sub-
test 1 2 c d d
(SF) c/d hs(1) ec ed 11/15(3) 15/15(3) 64 11/15(3) 22/15 209/225 1039/225 94/75 6/15 6/15 12/15 12/15 15/15 64 3 15/15 9/15 64 15/9 30/15 30/15 ed1: 47/15 ed2: 47/15 ed ed
(SF)
(codes) CM(2)
(dB) MPR
(dB) AG(4) Index 4 4 4 1 1 2 1.0 3.0 2.0 0.0 2.0 1.0 20 12 15 E-
TFCI 75 67 92 64 15/15 2/15 4/15 2/15 2/15 15/15(4) 15/15(4) 64 15/15(4) 30/15 24/15 4 5 Note 1: ACK, NACK and CQI = 8 Ahs = hs/c = 30/15 hs= 30/15 *c. Note 2: CM = 1 for c/d =12/15, hs/c=24/15. For all other combinations of DPDCH, DPCCH, HS- DPCCH, 56/75 134/15 3.0 1.0 2.0 0.0 71 81 17 21 4 4 1 1 E-DPDCH and E-DPCCH the MPR is based on the relative CM difference. Note 3: For subtest 1 the c/d ratio of 11/15 for the TFC during the measurement period (TF1, TF0) is achieved by setting the signaled gain factors for the reference TFC (TF1, TF1) to c = 10/15 and d = 15/15. Note 4: For subtest 5 the c/d ratio of 15/15 for the TFC during the measurement period (TF1, TF0) is achieved by setting the signaled gain factors for the reference TFC (TF1, TF1) to c = 14/15 and d = 15/15. Note 5: Testing UE using E-DPDCH Physical Layer category 1 Sub-test 3 is not required according to TS 25.306 Table 5.1g. Note 6: ed can not be set directly; it is set by Absolute Grant Value. Table 2. Setup for Release 6 HSUPA Appendix D8/12 HSUPA Setup Configuration : Step 3 b & c HSUPA Setup Configuration : Step 3 - d Appendix D9/12 HSUPA Setup Configuration : Step 3 e & f HSUPA Setup Configuration : Step 3 i Appendix D10/12 HSUPA Setup Configuration : Step 3 j HSUPA Setup Configuration : Step 3 k Appendix D11/12 HSUPA Setup Configuration : Step 3 l Appendix D12/12 Appendix E - Calibration All of the instruments Calibration information are listed below. Dipole _ D900V2 SN:1d053 Calibration No.D900V2-1d053_Dec07 Dipole _ D900V2 SN:073 Calibration No.D900V2-073_Mar08 Dipole _ D1900V2 SN: 5d018 Calibration No.D1950V5d018_May08 Dipole _ D1950V2 SN: 1117 Calibration No.D1950V1117_Dec07 Probe _ ES3DV3 SN:3150 Calibration No.ES3-3150_Jan08 Probe _ EX3DV4 SN:3578 Calibration No.EX4-3578_May08 DAE _ DAE4 SN:779 Calibration No.DAE4-779_Nov07 DAE _ DAE4 SN:779 Calibration No.DAE4-779_Nov08
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1 2 | Setup Photos | Test Setup Photos | 392.11 KiB |
Test Setup Photos Model No.: ZG5, Aspire One FCC ID: HLZZG53GQ Conducted Emissions Link Photo _ 1 of 2 EUT Photo _ 2 of 2 Radiated Emissions Photo _ 1 of 4 Photo _ 2 of 4 Photo _ 3 of 4 Photo _ 4 of 4
1 2 | Test Report | Test Report | 1.54 MiB |
A Test Lab Techno Corp. Changan LabNo. 140 -1, Changan Street, Bade City, Taoyuan County, Taiwan R.O.C. Tel886-3-271-0188 / Fax886-3-271-0190 P22 & P24 Test Report Test Report No. 0901FR14 Applicant Manufacturer Model Name Trade Mark Acer Incorporated Quanta Computer Inc. Notebook PC acer Model Number ZG5, Aspire One FCC ID HLZZG53GQ Dates of Test Aug. 21 ~ Sep. 01, 2008 ; Jan. 19, 2009 Test Specification 47 CFR Part 22H, 24E & and 24, ANSI/TIA-603-C-2004 Location of Test Lab. Chang-an Lab. 1. The test operations have to be performed with cautious behavior, the test results are as attached. 2. The test results are under chamber environment of A Test Lab Techno Corp. A Test Lab Techno Corp. does not assume responsibility for any conclusions and generalizations drawn from the test results with regard to other specimens or samples. 3. The measurement report has to be written approval of A Test Lab Techno Corp. It may only be reproduced or published in full. Country Huang 20090123 Measurement Center Manager John Cheng 20090123 Testing Engineer Page 1 of 114 2009 A Test Lab Techno Corp. This report shall not be reproduced except in full, without the written approval of A Test Lab Techno Corp. Rev.00 This document may be altered or revised by A Test Lab Techno Corp. personnel only, and shall be noted in the revision section of the document Contents 1. General Information.....................................................................................................................3 2. Test Configuration of Equipment under Test ............................................................................4 2.1 Test Manner..........................................................................................................................4 2.2 Test Mode.............................................................................................................................5 2.3 Connection Diagram of Test System ....................................................................................8 2.4 Ancillary Equipment List.......................................................................................................9 3. General Information of Test Site...............................................................................................10 3.1 Test Voltage........................................................................................................................10 3.2 Test in Compliance with......................................................................................................10 3.3 Frequency Range Investigated ..........................................................................................10 3.4 Test Distance......................................................................................................................10 4. Test Data and Test Result..........................................................................................................11 4.1 List of Measurements and Examinations ...........................................................................11 4.2 RF Output Power................................................................................................................12 4.3 ERP / EIRP Measurement..................................................................................................16 4.4 Occupied Bandwidth and Band Edge Measurement..........................................................22 4.5 Conducted Emission ..........................................................................................................57 4.6 Field Strength of Spurious Radiation..................................................................................63 4.7 Frequency Stability (Temperature Variation) ....................................................................101 4.8 Frequency Stability (Voltage Variation).............................................................................104 4.9 AC Power Conducted Emissions Requirements ..............................................................106 5. List of Measurement Equipments...........................................................................................113 6. Uncertainty Evaluation ............................................................................................................114 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 2 of 114 Rev.00 1. General Information Applicant Acer Incorporated 8F,88,Sec.1,Hsin Tai Wu Rd. Hsichih, Taipei Hsien 221 Taiwan, R.O.C. Manufacturer Product Name Trade Mark Model Number FCC ID TX Frequency RX Frequency Antenna Type Maximum Output Power to Antenna
(Conducted) Max. ERP/EIRP Power Type of Emission Power Rating (DC , Voltage and Digital Modulation Emission Power Supply Type DC Power Cord Adapter DUT Stage Quanta Computer Inc. No.211, Wen Hwa 2nd Rd., Kuei Shan Hsiang, Tao Yuan Shien, Taiwan, R.O.C. Notebook PC acer ZG5, Aspire One HLZZG53GQ 824.2 - 848.8 1850.2 - 1909.8 826.4 - 846.4 1852.4 - 1907.6 869.2 - 893.8 1930.2 - 1989.8 871.4 - 891.6 1932.4 - 1987.6 Internal Antenna 32.35 28.85 23.98 23.37 dBm dBm dBm dBm MHz
(GPRS/EGPRS 850) MHz (GPRS/EGPRS 1900) MHz
(WCDMA /HSDPA Band/HSUPA V) MHz (WCDMA/HSDPA/HSUPA Band II ) MHz
(GPRS/EGPRS 850) MHz (GPRS/EGPRS 1900) MHz
(WCDMA /HSDPA Band V) MHz (WCDMA/HSDPA Band II)
(GPRS/EGPRS 850)
(GPRS/EGPRS 1900)
(WCDMA /HSDPA/HSUPA Band V)
(WCDMA/HSDPA/HSUPA Band II)
(GPRS 850)
(EGPRS 850)
(GPRS 1900)
(EGPRS 1900)
(WCDMA Band V)
(HSUPA Band V)
(WCDMA Band II)
(HSUPA Band II) 0.504 W / 27.03 dBm ERP 0.136 W / 21.33 dBm ERP 0.699 W / 28.44 dBm EIRP 0.219 W / 23.41 dBm EIRP 0.138 W / 21.39 dBm ERP 0.136 W / 21.34 dBm ERP 0.590 W / 27.71 dBm EIRP 0.575 W / 27.59 dBm EIRP
: 250KGXW EGPRS 850 : 248KG7W GPRS 1900 : 247KGXW EGPRS 1900 : 251KG7W WCDMA Band V HSUPA Band V WCDMA Band II HSUPA Band II GPRS 850
: 4M17F9W
: 4M19F9W
: 4M18F9W
: 4M19F9W 19V / 1.58 A GMSK(GPRS 850 / PCS1900) QPSK(WCDMA Band V / WCDMA Band II) AC Adapter 1.5 meter, DC Plug LITE-ON / PA-1300-04 Production Unit Current of RF element or PA) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 3 of 114 Rev.00 2. 2.1 Test Configuration of Equipment under Test Test Manner 1. The spurious emission measurements were carried out in semi-anechoic chamber with 3-meter test range. 2. During all testing, EUT is in link mode with base station emulator at maximum power level. (PCL=5 for GPRS 850 or PCL=0 for PCS 1900) 3. Frequency range investigated: radiated emission 30 MHz to 9000 MHz for GSM850; 30MHz to 19000 MHz for PCS 1900. 2.2 Class 2 permissive change description The model (acer_ZG5, Aspire One_0901FR14) is the variant product of acer_ZG5, Aspire One_0809FR14;
acer_ZG5, Aspire One_0809FR14 FCC ID is HLZZG53GQ. acer_ZG5, Aspire One_0901FR14 is changed from acer_ZG5, Aspire One_0809FR12; The RF module is the same as acer_ZG5, Aspire One_0809FR14. The difference from acer_ZG5 is that Aspire One_0901FR14 adds HSUPA function because of the difference of software. Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 4 of 114 Rev.00 Test Mode 2.3 Preliminary tests were performed in different data mode to find the worst case. The data mode shown in the table below is the worst-case rate (Blue color). Investigation has been done on all the possible configurations for searching the worst cases. The following table is a list of the test modes shown in this test report. Band Date Rate GPRS850
(Class 10) EGPRS850
(Class 10) 3Down 2up 3Down 1up 3Down 2up 3Down 1up Band Date Rate GPRS1900
(Class 10) EGPRS1900
(Class 10) 3Down 2up 3Down 1up 3Down 2up 3Down 1up CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Conducted Power Worst 32.35 32.21 32.08 32.00 32.20 32.30 26.45 26.31 26.25 26.24 26.26 26.38 Conducted Power Worst 28.85 28.81 28.76 28.31 28.18 28.12 25.48 25.66 25.71 25.50 25.28 25.24 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 5 of 114 Rev.00 Band Sub-test WCDMA V
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HSDPA V HSUPA V 1 2 3 4 1 2 3 4 5 CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Conducted Power Worst 23.43 23.85 23.98 20.83 21.25 20.26 20.10 20.22 20.25 18.22 18.58 18.50 17.68 17.82 17.88 23.51 23.54 23.26 21.45 21.58 21.28 22.62 22.58 22.35 21.52 21.60 21.38 23.38 23.53 23.19 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 6 of 114 Rev.00 Band Sub-test WCDMA II
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HSDPA II HSUPA II 1 2 3 4 1 2 3 4 5 CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Conducted Power Worst 23.37 23.11 22.86 21.45 21.58 21.33 20.44 20.65 20.29 18.77 18.92 18.55 18.28 18.31 18.05 23.36 23.07 23.35 21.43 21.18 21.42 22.50 22.20 22.52 21.43 21.16 21.35 23.24 22.98 23.38 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 7 of 114 Rev.00 AC EUT Adapter TEST SITE Power Supply 2.4 Connection Diagram of Test System Conducted Emission Setup During EMI testing (LINK & Stand by Mode) the EUT (Notebook PC)s power port connected to AC adapter. Radiation Spurious Emission Setup During EMI testing (LINK & Stand by Mode) the EUT (Notebook PC)s power port connected to AC Adapter. A mouse was connected to the USB port of Notebook. And a keyboard & printer were connected to the USB ports of Notebook. An external LCD monitor connected the VGA port on AE Notebook. LCD Monitor Power Supply TEST SITE Keyboard Printer Mouse Adapte EUT AC Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 8 of 114 Rev.00 2.5 Ancillary Equipment List 1. Base Station(R&S) CMU200 106656 2. Power Supply (GW) 12P3A H281001 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 9 of 114 Rev.00 3. General Information of Test Site Test Site Location: No. 140 -1, Changan Street, Bade City, Taoyuan County, Taiwan R.O.C. TEL: 886-3-271-0188 FAX: 886-3-271-0190 Registration Number854525 Designation NumberTW1330 The chamber meets the characteristics of ANSI C63.4-2006. This site is on file with the FCC. 3.1 3.2 3.3 3.4 Test Voltage DC 3.7V / 1.41 A (Battery) Test in Compliance with 47 CFR Part 22H, 24E and Part 2. and 24, ANSI/TIA-603-C-2004 Frequency Range Investigated 1. Radiation: from 30 MHz to 9000 MHz for GSM 850. 2. Radiation: from 30 MHz to 19000 MHz for PCS 1900. 3. Radiation: from 30 MHz to 9000 MHz for WCDMA Band V. 4. Radiation: from 30 MHz to 19000 MHz for WCDMA Band II. Test Distance The test distance of radiated emission from antenna to EUT is 3 m. Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 10 of 114 Rev.00 4. 4.1 Test Data and Test Result List of Measurements and Examinations FCC Rule 2.1046 22.913 24.232 2.1049 22.917 24.238(b) 2.1051 2.1053 2.1055 22.355 24.235 2.1055 22.355 24.235 DESCRIPTION OF TEST RF Output Power ERP / EIRP Occupied Bandwidth & Band Edge Measurement Conducted Emission Field Strength of Spurious Radiation Frequency Stability vs. Temperature Frequency Stability vs. Voltage Result Passed Passed Passed Passed Passed Passed Passed 15.207 AC Power Conducted Emissions Requirements Passed Section 4.2 4.3 4.4 4.5 4.6 4.7 4.8 4.9 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 11 of 114 Rev.00 4.2 RF Output Power 4.2.1 Measurement Instruments As described in chapter 5 of this test report. 4.2.2 Test Procedure The measurement is made according to ANSI/TIA-603-C-2004 as follows:
1. The transmitter output was connected to power meter and base station through power divider. 2. Set base station for EUT at GSM 850: PCL=5 and PCS 1900: PCL=0. 3. Set base station for EUT at WCDMA Band V and WCDMA Band II, power level was set to maximum. 4. Select lowest, middle, and highest channels for each band. 4.2.3 Test Setup Layout Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 12 of 114 Rev.00 4.2.4 Test Result Bands Channel GPRS 850 128 190 251 Bands Channel EGPRS 850 128 190 251 Bands Channel GPRS 1900 512 661 810 Bands Channel EGPRS 1900 512 661 810 Frequency
(MHz) Low Mid High 824.2 836.4 848.8 Frequency
(MHz) Low Mid High 824.2 836.4 848.8 Frequency
(MHz) Low Mid High 1850.2 1880.0 1909.8 Frequency
(MHz) Low Mid High 1850.2 1880.0 1909.8 Note: The testing result was used peak detector. Conducted Power
(dBm) 32.35 32.21 32.08 Conducted Power
(dBm) 26.45 26.31 26.25 Conducted Power
(dBm) 28.85 28.81 28.76 Conducted Power
(dBm) 25.48 25.66 25.71 Conducted Power
(Watts) 1.718 1.663 1.614 Conducted Power
(Watts) 0.442 0.428 0.422 Conducted Power
(Watts) 0.767 0.760 0.752 Conducted Power
(Watts) 0.353 0.368 0.372 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 13 of 114 Rev.00 Bands Channel WCDMA Band V 4132 4182 4233 Frequency
(MHz) Low Mid High 826.4 836.4 846.4 Conducted Power
(dBm) 23.43 23.85 23.98 Bands Channel HSDPA Band V 4132 4182 4233 Frequency
(MHz) Low Mid High 826.4 836.4 846.4 Conducted Power
(dBm) 20.83 21.25 20.26 Conducted Power
(Watts) 0.220 0.243 0.250 Conducted Power
(Watts) 0.121 0.133 0.106 Bands Channel HSUPA Band V 4132 4182 4233 Frequency
(MHz) Low Mid High 826.4 836.4 846.4 Conducted Power
(dBm) 23.51 23.54 23.26 Conducted Power
(Watts) 0.224 0.226 0.212 Note: The testing result was used peak detector. Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 14 of 114 Rev.00 Bands Channel Frequency
(MHz) WCDMA Band II 9262 9400 9538 Low Mid High 1852.4 1880.0 1907.6 Conducted Power
(dBm) 23.37 23.11 22.86 Bands Channel Frequency
(MHz) HSDPA Band II 9262 9400 9538 Low Mid High 1852.4 1880.0 1907.6 Conducted Power
(dBm) 21.45 21.58 21.33 Conducted Power
(Watts) 0.217 0.205 0.193 Conducted Power
(Watts) 0.140 0.144 0.136 Bands Channel Frequency
(MHz) HSUPA Band II 9262 9400 9538 Low Mid High 1852.4 1880.0 1907.6 Conducted Power
(dBm) 23.36 23.07 23.35 Conducted Power
(Watts) 0.217 0.203 0.216 Note: The testing result was used peak detector. Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 15 of 114 Rev.00 4.3 ERP / EIRP Measurement Equivalent ANSI/TIA/EIA-603-B-2002. isotropic radiated power measurements by substitution method according to 4.3.1 Measurement Instruments As described in chapter 5 of this test report. 4.3.2 Test Procedure The phone was tested in an anechoic chamber with a 3-axis position system that permits taking complete spherical scans of the EUTs 3-axis radiation patterns. For all tests, the phone was supported in a free space type environment, vertically oriented in the chamber. Tests were done for GSM 850 three frequencies (824.2, 836.6 and 848.8 MHz) and GSM 1900 three frequencies (1850.2, 1880.00, and 1909.80 MHz). GSM measurements were made with the phone placed in a call using the CMU200 mobile station test set. The phone was weakly coupled to the test set and configured to transmit in full data rate mode. The radiated power was measured using ETS-LINDGREN OTA Chamber in Peak mode. From these measurements, the software calculates the angle at which maximum radiated power occurs for each case, and the radiated power at this angle was extracted from the data. Each individual data point in a radiated power or sensitivity measurement is referred to as the effective isotropic radiated power or effective isotropic sensitivity. That is, the desired information is how the measured quantity relates to the same quantity from an isotropic radiator. Thus, the reference measurement must relate the power received or transmitted at the EUT test equipment (spectrum analyzer or communication tester) back to the power transmitted or received at a theoretical isotropic radiator. The total path loss then, is just the difference in dB between the power transmitted or received at the isotropic radiator and that seen at the test equipment (see follow Figure 1). Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 16 of 114 Rev.00 Figure 1. THEORETICAL CASE FOR DETERMINING PATH LOSS In equation form, this becomes:
Equation 1 where PL is the total path loss, PISO is the power radiated by the theoretical isotropic radiator, and PTE is the power received at the test equipment port. As can be seen in Figure 1, this quantity includes the range path loss due to the range length r, the gain of the measurement antenna, and any loss terms associated with the cabling, connections, amplifiers, splitters, etc. between the measurement antenna and the test equipment port. Figure 2 shows a typical real world configuration for measuring the path loss. In this case, a reference antenna with known gain is used in place of the theoretical isotropic source. The path loss may then be determined from the power into the reference antenna by adding the gain of the reference antenna. That is:
Equation 2 where PRA is the power radiated by reference antenna, and GRA is the gain of the reference antenna, so that:
Equation 3 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 17 of 114 Rev.00 Figure 2. TYPICAL CONFIGURATION FOR MEASURING PATH LOSS In order to determine PRA, it is necessary to perform a cable reference measurement to remove the effects of the cable loss between signal generator and reference antenna, and between the test equipment port and the receiver. This establishes a reference point at the input to the reference antenna. Figure 3 illustrates the cable reference measurement configuration. Assuming the power level at the signal generator is fixed, it is easy to show that the difference between PRA and PTE in Figure 2 is given by:
Equation 4 Figure 3. CABLE REFERENCE CALIBRATION CONFIGURATION Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 18 of 114 Rev.00 Where PRX is the power measured at the receiver during the cable reference test, and PRX is the power measured at the receiver during the range path loss measurement in Figure 2. Thus, the path loss is then just given by:
Equation 5 PL
=
G
+
P RX
'
P RX
'
RA EIRP
=
+
t PP L Pt = Often referred to as antenna output power 4.3.3 Test Setup Layout of ERP/EIRP Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 19 of 114 Rev.00 4.3.4 Test Result GPRS 850 Radiated Power ERP Maximum Output Power Read Level
(dBm) 72.01 74.15 75.83 Correction factor
(dBm)
-48.80
-48.80
-48.80 ERP
(dBm) 23.21 25.35 27.03 EGPRS 850 Radiated Power ERP Maximum Output Power Read Level
(dBm) 68.96 69.94 70.13 Correction factor
(dBm)
-48.80
-48.80
-48.80 ERP
(dBm) 20.16 21.14 21.33 GPRS 1900 Radiated Power EIRP Maximum Output Power Read Level
(dBm) 81.04 83.32 85.34 Correction factor
(dBm)
-54.00
-55.60
-56.90 EIRP
(dBm) 27.04 27.72 28.44 EGPRS 1900 Radiated Power EIRP Maximum Output Power Read Level
(dBm) 77.31 78.89 80.31 Correction factor
(dBm)
-54.00
-55.60
-56.90 EIRP
(dBm) 23.31 23.29 23.41 Frequency
(MHz) 824.20 836.40 848.80 Frequency
(MHz) 824.20 836.40 848.80 Frequency
(MHz) 1850.20 1880.00 1909.80 Frequency
(MHz) 1850.20 1880.00 1909.80 ERP
(W) 0.210 0.343 0.504 ERP
(W) 0.104 0.130 0.136 EIRP
(W) 0.506 0.591 0.699 EIRP
(W) 0.214 0.213 0.219 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 20 of 114 Rev.00 Frequency
(MHz) 826.40 836.40 846.60 Frequency
(MHz) 826.40 836.40 846.60 Frequency
(MHz) 1852.40 1880.00 1907.60 Frequency
(MHz) 1852.40 1880.00 1907.60 Note:
WCDMA Band V Radiated Power ERP Maximum Output Power Read Level
(dBm) 68.04 69.95 70.17 Correction factor
(dBm)
-48.80
-48.80
-48.80 ERP
(dBm) 19.24 21.15 21.37 HSUPA Band V Radiated Power ERP Maximum Output Power Read Level
(dBm) 67.99 69.92 70.14 Correction factor
(dBm)
-48.80
-48.80
-48.80 ERP
(dBm) 19.19 21.12 21.34 WCDMA Band II Radiated Power EIRP Maximum Output Power Read Level
(dBm) 83.11 83.21 83.31 Correction factor
(dBm)
-55.40
-55.60
-55.70 EIRP
(dBm) 27.71 27.61 27.61 HSUPA Band II Radiated Power EIRP Maximum Output Power Read Level
(dBm) 81.55 83.19 84.49 Correction factor
(dBm)
-54.00
-55.60
-56.90 EIRP
(dBm) 27.55 27.59 27.59 ERP
(W) 0.084 0.130 0.137 ERP
(W) 0.083 0.129 0.136 EIRP
(W) 0.590 0.577 0.576 EIRP
(W) 0.569 0.575 0.574 1. ERP/EIRP = Read Level + Correction factor. 2. For CDMA signals, a peak detector is used, with RBW = VBW = 3 MHz. 3. For WCDMA signals, a peak detector is used with RBW = VBW = 5MHz. 4. For AMPS, GSM, and NADC TDMA signals, a peak detector is used, with RBW = VBW= 1 MHz. Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 21 of 114 Rev.00 4.4 Occupied Bandwidth and Band Edge Measurement 4.4.1 Measurement Instruments As described in chapter 5 of this test report. 4.4.2 Test Procedure The measurement is made according to FCC rules part 22 and 24:
1. The EUT was connected to Spectrum Analyzer and Base Station via power divider. 2. The occupied bandwidth of middle channel for the highest and lowest RF powers was measured. 3. The band edge of low and high channels for the highest RF powers within the transmitting frequency band were measured. Setting RBW as roughly BW/100. 4. The band edge setting:
a. RB=3 kHz; VB=3 kHz for GSM 850 and PCS 1900. b. RB=100 kHz; VB=100 kHz for WCDMA Band V and WCDMA Band II. 4.4.3 Test Setup Layout Spectrum Analyzer Power divider Attenuator Universal Radio Com. Tester EUT Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 22 of 114 Rev.00 4.4.4 Occupied Bandwidth Test Result Channel Frequency (MHz) GPRS 850 128 190 251 Channel 128 190 251 Channel 512 661 810 Channel 512 661 810 824.2 836.6 848.8 RB:3KHz , VBW:10KHz EGPRS 850 Frequency (MHz) 824.2 836.6 848.8 RB:3KHz , VBW:10KHz GPRS 1900 Frequency (MHz) 1850.2 1880.0 1909.8 RB:3KHz , VBW:10KHz EGPRS 1900 Frequency (MHz) 1850.2 1880.0 1909.8 RB:3KHz , VBW:10KHz Output Power - 26 dBc Bandwidth (kHz) 242.6151 245.3983 250.5487 Output Power - 26 dBc Bandwidth (kHz) 245.1818 248.2622 245.8541 Output Power - 26 dBc Bandwidth (kHz) 240.0566 241.5075 247.7099 Output Power - 26 dBc Bandwidth (kHz) 251.1055 250.3343 248.3336 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 23 of 114 Rev.00 Channel 4132 4182 4233 Channel 4132 4182 4233 Channel 9262 9400 9538 Channel 9262 9400 9538 WCDMA Band V Frequency (MHz) 826.4 836.4 846.6 RB:30KHz , VBW:300KHz HSDPA Band V Frequency (MHz) 826.4 836.4 846.6 RB:30KHz , VBW:300KHz WCDMA Band II Frequency (MHz) 1852.4 1880.0 1907.6 RB:30KHz , VBW:300KHz HSUPA Band II Frequency (MHz) 1852.4 1880.0 1907.6 RB:30KHz , VBW:300KHz Output Power - 26 dBc Bandwidth (MHz) 4.1577 4.1701 4.1583 Output Power - 26 dBc Bandwidth (MHz) 4.1904 4.1874 4.1774 Output Power - 26 dBc Bandwidth (MHz) 4.1899 4.1812 4.1769 Output Power - 26 dBc Bandwidth (MHz) 4.1717 4.1907 4.1758 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 24 of 114 Rev.00 Test Mode: GPRS 850 CH128 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 25 of 114 Rev.00 Test Mode: GPRS 850 CH190 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 26 of 114 Rev.00 Test Mode: GPRS 850 CH251 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 27 of 114 Rev.00 Test Mode: EGPRS 850 CH128 99% Occupied Bandwidth Test Mode: GPRS 850 CH128 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 28 of 114 Rev.00 Test Mode: GPRS 850 CH190 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 29 of 114 Rev.00 Test Mode: GPRS 850 CH251 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 30 of 114 Rev.00 Test Mode: EGPRS 850 CH190 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 31 of 114 Rev.00 Test Mode: EGPRS 850 CH251 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 32 of 114 Rev.00 Test Mode: GPRS 1900 CH512 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 33 of 114 Rev.00 Test Mode: GPRS 1900 CH661 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 34 of 114 Rev.00 Test Mode: GPRS 1900 CH810 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 35 of 114 Rev.00 Test Mode: EGPRS 1900 CH512 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 36 of 114 Rev.00 Test Mode: EGPRS 1900 CH661 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 37 of 114 Rev.00 Test Mode: EGPRS 1900 CH810 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 38 of 114 Rev.00 Test Mode: WCDMA Band V CH4132 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 39 of 114 Rev.00 Test Mode: WCDMA Band V CH4182 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 40 of 114 Rev.00 Test Mode: WCDMA Band V CH4233 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 41 of 114 Rev.00 Test Mode: HSUPA Band V CH4132 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 42 of 114 Rev.00 Test Mode: HSUPA Band V CH4182 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 43 of 114 Rev.00 Test Mode: HSUPA Band V CH4233 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 44 of 114 Rev.00 Test Mode: WCDMA Band II CH9262 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 45 of 114 Rev.00 Test Mode: WCDMA Band II CH9400 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 46 of 114 Rev.00 Test Mode: WCDMA Band II CH9538 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 47 of 114 Rev.00 Test Mode: HSUPA Band II CH9262 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 48 of 114 Rev.00 Test Mode: HSUPA Band II CH9400 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 49 of 114 Rev.00 Test Mode: HSUPA Band II CH9538 99% Occupied Bandwidth Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 50 of 114 Rev.00 4.4.5 Band Edge Test Result 4.4.5.1 GPRS 850 Test Result Band Lower Higher GPRS 850 Channel Frequency (MHz) Bandwidth (dBm) Limit (dBm) 128 251 823.9973 849.0225
-15.46
-17.02
-13
-13 Please refer to next pager of detail testing data. Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 51 of 114 Rev.00 File :ZG5(GSM850) Data :#1 Date: 2008/9/01 Time:
Radiated Emission Measurement site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 CH128(824.2MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 823.9973
-28.64 13.18
-15.46
-13.00
-2.46 peak
*:Maximum data x:Over limit !:over margin Reference Only Engineer Signature:
1/2 File :ZG5(GSM850) Data :#2 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 CH251(848.8MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 849.0225
-30.27 13.25
-17.02
-13.00
-4.02 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/2 4.4.5.2 GPRS 1900 Test Result Band Lower Higher GPRS 1900 Channel Frequency (MHz) Bandwidth (dBm) Limit (dBm) 512 810 1849.980 1910.020
-17.99
-18.90
-13
-13 Please refer to next pager of detail testing data. Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 52 of 114 Rev.00 File :ZG5(PCS1900) Data :#1 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 CH512(1784.8MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1849.980
-22.24 Correct Factor dB 4.25 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-17.99
-13.00
-4.99 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/2 File :ZG5(PCS1900) Data :#2 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 CH810(1909.8MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1910.020
-24.60 Correct Factor dB 5.70 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-18.90
-13.00
-5.90 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/2 4.4.5.3 WCDMA Band V Test Result Band Lower Higher WCDMA Band V Channel Frequency (MHz) Bandwidth (dBm) Limit (dBm) 4132 4233 824.000 849.000
-19.13
-16.46
-13
-13 Please refer to next pager of detail testing data. Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 53 of 114 Rev.00 File :ZG5(wcdma band5) Data :#1 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 CH4132(824MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 824.0000
-32.31 13.18
-19.13
-13.00
-6.13 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/2 File :ZG5(wcdma band5) Data :#2 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 CH4233(849MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 849.0000
-29.71 13.25
-16.46
-13.00
-3.46 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/2 4.4.5.4 HSUPA Band V Test Result Band Lower Higher WCDMA Band V Channel Frequency (MHz) Bandwidth (dBm) Limit (dBm) 4132 4233 824.000 849.000
-36.02
-36.65
-13
-13 Please refer to next pager of detail testing data. Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 54 of 114 Rev.00 File :ZG5 Aspire One(CH4132) Data :#1 Date: 2009/1/19 Time:
R.O.C 09:00:09 FCC Part 22 conducted(9k-12.75G) Phase:
Power:
Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
site #1 Site
:Limit:
EUT:
M/N:
Mode:
Note:
09-0013-SE HSUPA CH4132 (824.0MHz) 10db MHz No. Mk. Freq. 1 * 824.0000 Reading Level Correct Factor Measure-
ment Limit Over dBm dB dBm dBm dB Detector Comment
-49.20 13.18
-36.02
-13.00 -23.02 peak
*:Maximum data x:Over limit !:over margin 1/2 File :ZG5 Aspire One(CH4233) R.O.C Conducted Emission Measurement Data :#1 Date: 2009/1/19 Time:
08:57:35 FCC Part 22 conducted(9k-12.75G) Phase:
Power:
Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
site #1 Site
:Limit:
EUT:
M/N:
Mode:
Note:
09-0013-SE HSUPA CH4233 (849.0MHz) 10db MHz No. Mk. Freq. 1 * 849.0000 Reading Level Correct Factor Measure-
ment Limit Over dBm dB dBm dBm dB Detector Comment
-49.90 13.25
-36.65
-13.00 -23.65 peak
*:Maximum data x:Over limit !:over margin 2/2 4.4.5.5 WCDMA Band II Test Result Band Lower Higher WCDMA Band II Channel Frequency (MHz) Bandwidth (dBm) Limit (dBm) 9262 9538 1850.000 1910.000
-16.11
-16.64
-13
-13 Please refer to next pager of detail testing data. Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 55 of 114 Rev.00 File :ZG5(wcdma band2) Data :#1 Date: 2008/9/01 Time:
FCC Part 24 conducted(9k-12.75G) ZG5 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
10db No. Mk. Freq. MHz Reading Level dBm 1 * 1850.000
-20.37 Correct Factor dB 4.26 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-16.11
-13.00
-3.11 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/2 File :ZG5(wcdma band2) Data :#2 Date: 2008/9/01 Time:
FCC Part 24 conducted(9k-12.75G) ZG5 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
10db No. Mk. Freq. MHz Reading Level dBm 1 * 1910.000
-22.34 Correct Factor dB 5.70 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-16.64
-13.00
-3.64 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/2 4.4.5.6 HSUPA Band II Test Result Band Lower Higher WCDMA Band II Channel Frequency (MHz) Bandwidth (dBm) Limit (dBm) 9262 9538 1850.000 1910.000
-29.56
-21.16
-13
-13 Please refer to next pager of detail testing data. Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 56 of 114 Rev.00 File :ZG5 Aspire One(CH9262) Data :#1 Date: 2009/1/19 Time:
R.O.C 09:34:33 FCC Part 24 conducted(9k-12.75G) Phase:
Power:
Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
site #1 Site
:Limit:
EUT:
M/N:
Mode:
Note:
08-0252-SEO HSUPA II CH9262 (1850.0MHz) 10db MHz No. Mk. Freq. 1 * 1850.000 Reading Level Correct Factor Measure-
ment Limit Over dBm dB dBm dBm dB Detector Comment
-33.82 4.26
-29.56
-13.00 -16.56 peak
*:Maximum data x:Over limit !:over margin File :ZG5 Aspire One(CH9538) Data :#1 Date: 2009/1/19 Time:
R.O.C 09:32:19 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
site #1 Site
:Limit:
EUT:
FCC Part 24 conducted(9k-12.75G) Phase:
Power:
M/N:
Mode:
Note:
09-0013-SE HSUPA II CH9538 (1910.0MHz) Reading Level Correct Factor Measure-
ment Limit Over dBm dB dBm dBm dB Detector Comment
-26.87 5.71
-21.16
-13.00 -8.16 peak 10db No. Mk. Freq. 1 * 1910.000 MHz
*:Maximum data x:Over limit !:over margin 4.5 Conducted Emission 4.5.1 Measurement Instruments As described in chapter 5 of this test report. 4.5.2 Test Procedure 1. The EUT was connected to Spectrum Analyzer and Base Station via power divider. 2. The middle channel for the highest RF power within the transmitting frequency was measured. 3. The conducted spurious emission for the whole frequency range was taken. 4. Test setting at GSM 850 RB>100 kHz, VB>100 kHz; PCS 1900 RB>1MHz, VB>1MHz. 4.5.3 Test Setup Layout Below 2.8GHz Spectrum Analyzer Power divider Attenuator Universal Radio Com. Tester EUT Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 57 of 114 Rev.00 Above 2.8GHz Spectrum Analyzer High Pass Filter Power divider Universal Radio Com. Tester EUT Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 58 of 114 Rev.00 4.5.4 Test Result 4.5.4.1 GPRS 850 Test Result
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (Low CH128 / Middle CH190 / High CH 251)
: 08/28/2008 Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data. Note: Amplitude= Reading Amplitude + Factor (Cable loss + Filter Amplitude= Insertion loss)
(Auto calculate in spectrum analyzer) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 59 of 114 Rev.00 File :ZG5(CH128) Data :#1 Date: 2008/8/28 Time: 11:04:04 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH128 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
0.6339
-49.04 31.91
-17.13
-13.00
-4.13 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/12 File :ZG5(CH128) Data :#2 Date: 2008/8/28 Time: 11:04:25 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH128 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 824.2500
-41.79
-19.09 Correct Factor dB 14.69 3.84 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-27.10
-15.25
-13.00
-13.00
-14.10
-2.25 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 2/12 File :ZG5(CH128) Data :#3 Date: 2008/8/28 Time: 08:56:37 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH128 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2930.000
-37.63 Correct Factor dB 4.65 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.98
-13.00
-19.98 peak
*:Maximum data x:Over limit !:over margin Reference Only 3/12 File :ZG5(CH128) Data :#4 Date: 2008/8/28 Time: 08:56:58 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH128 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 8623.125
-38.55 Correct Factor dB 5.83 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.72
-13.00
-19.72 peak
*:Maximum data x:Over limit !:over margin Reference Only 4/12 File :ZG5(CH190) Data :#1 Date: 2008/8/28 Time: 11:00:28 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH190 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
1.7585
-50.63 31.05
-19.58
-13.00
-6.58 peak
*:Maximum data x:Over limit !:over margin Reference Only 5/12 File :ZG5(CH190) Data :#2 Date: 2008/8/28 Time: 11:00:49 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH190 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 52.3750 2 * 838.5000
-39.30
-18.00 Correct Factor dB 14.27 3.97 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-25.03
-14.03
-13.00
-13.00
-12.03
-1.03 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 6/12 File :ZG5(CH190) Data :#3 Date: 2008/8/28 Time: 08:57:45 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH190 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2970.000
-36.98 Correct Factor dB 4.56 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.42
-13.00
-19.42 peak
*:Maximum data x:Over limit !:over margin Reference Only F 7/12 File :ZG5(CH190) Data :#4 Date: 2008/8/28 Time: 08:58:06 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH190 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7325.000
-39.37 Correct Factor dB 5.10 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-34.27
-13.00
-21.27 peak
*:Maximum data x:Over limit !:over margin Reference Only 8/12 File :ZG5(CH251) Data :#1 Date: 2008/8/28 Time: 11:10:02 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH251 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
0.2590
-51.20 31.40
-19.80
-13.00
-6.80 peak
*:Maximum data x:Over limit !:over margin Reference Only 9/12 File :ZG5(CH251) Data :#2 Date: 2008/8/28 Time: 11:10:23 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH251 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 850.3750
-41.98
-18.59 Correct Factor dB 14.69 3.98 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree
-27.29
-14.61
-13.00
-13.00
-14.29
-1.61 peak peak Comment
*:Maximum data x:Over limit !:over margin Reference Only 10/12 File :ZG5(CH251) Data :#3 Date: 2008/8/28 Time: 08:58:45 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH251 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2890.000
-37.48 Correct Factor dB 4.71 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.77
-13.00
-19.77 peak
*:Maximum data x:Over limit !:over margin Reference Only 11/12 File :ZG5(CH251) Data :#4 Date: 2008/8/28 Time: 08:59:06 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH251 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7402.500
-39.15 Correct Factor dB 5.20 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.95
-13.00
-20.95 peak
*:Maximum data x:Over limit !:over margin Reference Only 12/12 4.5.4.2 GPRS 1900 Test Result
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (Low CH512 / Middle CH661 / High CH 810)
: 08/28/2008 Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data. Note: Amplitude= Reading Amplitude + Factor (Cable loss + Filter Amplitude= Insertion loss)
(Auto calculate in spectrum analyzer) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 60 of 114 Rev.00 File :ZG5(CH512) Data :#1 Date: 2008/8/28 Time: 09:34:05 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
27.0041
-49.41 13.27
-36.14
-13.00
-23.14 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/15 File :ZG5(CH512) Data :#2 Date: 2008/8/28 Time: 09:34:26 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 624.7500
-37.53 13.10
-24.43
-13.00
-11.43 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/15 File :ZG5(CH512) Data :#3 Date: 2008/8/28 Time: 09:54:14 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1850.500 2 2413.000
-8.90
-37.19 Correct Factor dB 4.26 5.16 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree
-4.64
-32.03
-13.00
-13.00 8.36
-19.03 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 3/15 File :ZG5(CH512) Data :#4 Date: 2008/8/28 Time: 08:48:10 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 12302.25 0 Reading Level dBm
-38.37 Correct Factor dB 5.19 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.18
-13.00
-20.18 peak
*:Maximum data x:Over limit !:over margin Reference Only 4/15 File :ZG5(CH512) Data :#5 Date: 2008/8/28 Time: 08:48:31 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 18622.50 0 Reading Level dBm
-38.74 Correct Factor dB 7.05 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.69
-13.00
-18.69 peak
*:Maximum data x:Over limit !:over margin Reference Only 5/15 File :ZG5(CH661) Data :#1 Date: 2008/8/28 Time: 09:36:02 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
20.6302
-48.95 13.28
-35.67
-13.00
-22.67 peak
*:Maximum data x:Over limit !:over margin Reference Only 6/15 File :ZG5(CH661) Data :#2 Date: 2008/8/28 Time: 09:36:23 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 973.8750
-37.53 13.17
-24.36
-13.00
-11.36 peak
*:Maximum data x:Over limit !:over margin Reference Only 7/15 File :ZG5(CH661) Data :#3 Date: 2008/8/28 Time: 09:57:07 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1882.000 2 2602.000
-14.82
-38.78 Correct Factor dB 4.83 5.45 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree
-9.99
-33.33
-13.00
-13.00 3.01
-20.33 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 8/15 File :ZG5(CH661) Data :#4 Date: 2008/8/28 Time: 08:49:38 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3048.750
-38.60 Correct Factor dB 5.47 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.13
-13.00
-20.13 peak
*:Maximum data x:Over limit !:over margin Reference Only 9/15 File :ZG5(CH661) Data :#5 Date: 2008/8/28 Time: 08:49:59 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 19130.00 0 Reading Level dBm
-39.02 Correct Factor dB 7.19 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.83
-13.00
-18.83 peak
*:Maximum data x:Over limit !:over margin Reference Only 10/15 File :ZG5(CH810) Data :#1 Date: 2008/8/28 Time: 09:37:40 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
10.8819
-49.12 13.29
-35.83
-13.00
-22.83 peak
*:Maximum data x:Over limit !:over margin Reference Only 11/15 File :ZG5(CH810) Data :#2 Date: 2008/8/28 Time: 09:38:02 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 819.5000
-38.10 13.20
-24.90
-13.00
-11.90 peak
*:Maximum data x:Over limit !:over margin Reference Only 12/15 File :ZG5(CH810) Data :#3 Date: 2008/8/28 Time: 09:59:33 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1913.500 2 2557.000
-14.09
-38.42 Correct Factor dB 5.38 5.27 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree
-8.71
-33.15
-13.00
-13.00 4.29
-20.15 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 13/15 File :ZG5(CH810) Data :#4 Date: 2008/8/28 Time: 08:51:42 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3048.750
-38.86 Correct Factor dB 5.47 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.39
-13.00
-20.39 peak
*:Maximum data x:Over limit !:over margin Reference Only 14/15 File :ZG5(CH810) Data :#5 Date: 2008/8/28 Time: 08:52:03 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 13330.00 0 Reading Level dBm
-37.60 Correct Factor dB 5.54 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.06
-13.00
-19.06 peak
*:Maximum data x:Over limit !:over margin Reference Only 15/15 4.5.4.3 WCDMA Band V Test Result
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band V (Low CH4132 / Middle CH4182 / High CH 4233)
: 08/28/2008 Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data. Note: Amplitude= Reading Amplitude + Factor (Cable loss + Filter Amplitude= Insertion loss)
(Auto calculate in spectrum analyzer) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 61 of 114 Rev.00 File :ZG5(CH4132) Data :#1 Date: 2008/8/28 Time: 07:54:27 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4132 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
1.2584
-53.19 31.50
-21.69
-13.00
-8.69 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/12 File :ZG5(CH4132) Data :#2 Date: 2008/8/28 Time: 07:54:48 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4132 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 826.6250
-40.88 18.11 Correct Factor dB 14.69 3.86 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-26.19 21.97
-13.00
-13.00
-13.19 34.97 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 2/12 File :ZG5(CH4132) Data :#3 Date: 2008/8/28 Time: 08:25:50 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4132 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2970.000
-36.21 Correct Factor dB 4.56 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.65
-13.00
-18.65 peak
*:Maximum data x:Over limit !:over margin Reference Only 3/12 File :ZG5(CH4132) Data :#4 Date: 2008/8/28 Time: 08:26:11 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4132 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7363.750
-38.02 Correct Factor dB 5.08 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.94
-13.00
-19.94 peak
*:Maximum data x:Over limit !:over margin Reference Only 4/12 File :ZG5(CH4180) Data :#1 Date: 2008/8/28 Time: 08:03:46 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4180 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
2.2585
-56.11 31.14
-24.97
-13.00
-11.97 peak
*:Maximum data x:Over limit !:over margin Reference Only 5/12 File :ZG5(CH4180) Data :#2 Date: 2008/8/28 Time: 08:04:07 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4180 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 836.1250
-41.15 18.21 Correct Factor dB 14.69 3.96 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-26.46 22.17
-13.00
-13.00
-13.46 35.17 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only F 6/12 File :ZG5(CH4180) Data :#3 Date: 2008/8/28 Time: 08:27:39 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4180 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2950.000
-36.20 Correct Factor dB 4.58 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.62
-13.00
-18.62 peak
*:Maximum data x:Over limit !:over margin Reference Only 7/12 File :ZG5(CH4180) Data :#4 Date: 2008/8/28 Time: 08:28:00 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4180 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7421.875
-37.18 Correct Factor dB 5.21 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.97
-13.00
-18.97 peak
*:Maximum data x:Over limit !:over margin Reference Only 8/12 File :ZG5(CH4233) Data :#1 Date: 2008/8/28 Time: 08:06:49 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4233 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
0.3839
-52.18 31.89
-20.29
-13.00
-7.29 peak
*:Maximum data x:Over limit !:over margin Reference Only 9/12 File :ZG5(CH4233) Data :#2 Date: 2008/8/28 Time: 08:07:10 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4233 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 845.6250
-41.12 17.49 Correct Factor dB 14.69 3.99 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-26.43 21.48
-13.00
-13.00
-13.43 34.48 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 10/12 File :ZG5(CH4233) Data :#3 Date: 2008/8/28 Time: 08:28:59 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4233 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2840.000
-35.71 Correct Factor dB 4.50 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.21
-13.00
-18.21 peak
*:Maximum data x:Over limit !:over margin Reference Only 11/12 File :ZG5(CH4233) Data :#4 Date: 2008/8/28 Time: 08:29:20 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4233 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7363.750
-38.12 Correct Factor dB 5.08 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.04
-13.00
-20.04 peak
*:Maximum data x:Over limit !:over margin Reference Only 12/12 4.5.4.4 WCDMA Band II Test Result
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band II (Low CH9262 / Middle CH9400 / High CH 9536)
: 08/28/2008 Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data. Note: Amplitude= Reading Amplitude + Factor (Cable loss + Filter Amplitude= Insertion loss)
(Auto calculate in spectrum analyzer) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 62 of 114 Rev.00 File :ZG5(CH9262) Data :#1 Date: 2008/8/28 Time: 03:24:24 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
26.6292
-49.01 13.30
-35.71
-13.00
-22.71 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/15 File :ZG5(CH9262) Data :#2 Date: 2008/8/28 Time: 03:24:46 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 857.5000
-36.84 13.25
-23.59
-13.00
-10.59 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/15 File :ZG5(CH9262) Data :#3 Date: 2008/8/28 Time: 03:47:56 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1855.000 2 2773.000 20.14
-37.56 Correct Factor dB 4.29 5.78 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree 24.43
-31.78
-13.00
-13.00 37.43
-18.78 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 3/15 File :ZG5(CH9262) Data :#4 Date: 2008/8/28 Time: 08:35:40 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3148.250
-38.62 Correct Factor dB 5.27 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.35
-13.00
-20.35 peak
*:Maximum data x:Over limit !:over margin Reference Only 4/15 File :ZG5(CH9262) Data :#5 Date: 2008/8/28 Time: 08:36:01 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 13293.75 0 Reading Level dBm
-37.78 Correct Factor dB 5.53 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.25
-13.00
-19.25 peak
*:Maximum data x:Over limit !:over margin Reference Only 5/15 File :ZG5(CH9400) Data :#1 Date: 2008/8/28 Time: 03:27:24 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
22.2547
-48.89 13.29
-35.60
-13.00
-22.60 peak
*:Maximum data x:Over limit !:over margin Reference Only 6/15 File :ZG5(CH9400) Data :#2 Date: 2008/8/28 Time: 03:27:44 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 867.0000
-39.18 13.26
-25.92
-13.00
-12.92 peak
*:Maximum data x:Over limit !:over margin Reference Only 7/15 File :ZG5(CH9400) Data :#3 Date: 2008/8/28 Time: 03:44:45 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1882.000 2 2579.500 19.21
-38.53 Correct Factor dB 4.83 5.35 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree 24.04
-33.18
-13.00
-13.00 37.04
-20.18 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 8/15 File :ZG5(CH9400) Data :#4 Date: 2008/8/28 Time: 08:37:13 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3770.125
-36.86 Correct Factor dB 4.93 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.93
-13.00
-18.93 peak
*:Maximum data x:Over limit !:over margin Reference Only 9/15 File :ZG5(CH9400) Data :#5 Date: 2008/8/28 Time: 08:37:34 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 15885.62 5 Reading Level dBm
-37.37 Correct Factor dB 6.27 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.10
-13.00
-18.10 peak
*:Maximum data x:Over limit !:over margin Reference Only 10/15 File :ZG5(CH9538) Data :#1 Date: 2008/8/28 Time: 03:30:03 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
24.1295
-48.84 13.30
-35.54
-13.00
-22.54 peak
*:Maximum data x:Over limit !:over margin Reference Only 11/15 File :ZG5(CH9538) Data :#2 Date: 2008/8/28 Time: 03:30:24 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 615.2500
-38.49 13.11
-25.38
-13.00
-12.38 peak
*:Maximum data x:Over limit !:over margin Reference Only 12/15 File :ZG5(CH9538) Data :#3 Date: 2008/8/28 Time: 03:39:30 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1909.000 2 2422.000 19.52
-37.95 Correct Factor dB 5.80 5.13 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree 25.32
-32.82
-13.00
-13.00 38.32
-19.82 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 13/15 File :ZG5(CH9538) Data :#4 Date: 2008/8/28 Time: 08:38:46 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3819.875
-29.56 Correct Factor dB 4.91 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-24.65
-13.00
-11.65 peak
*:Maximum data x:Over limit !:over margin Reference Only 14/15 File :ZG5(CH9538) Data :#5 Date: 2008/8/28 Time: 08:39:07 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 18676.87 5 Reading Level dBm
-39.06 Correct Factor dB 7.06 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.00
-13.00
-19.00 peak
*:Maximum data x:Over limit !:over margin Reference Only 15/15 Field Strength of Spurious Radiation 4.6 isotropic Equivalent ANSI/TIA/EIA-603-A . radiated Power Measurements by substitution method according to 4.6.1 Measurement Instruments As described in chapter 5 of this test report. 4.6.2 Test Procedure The measurement is made according to ANSI/TIA-603-C-2004 as follows:
The equipment under test is placed inside the semi-anechoic chamber on a wooden table at the turntable center. For each spurious frequency, the antenna mast is raised and lowered from 1 to 4 meters and the turntable is rotated 360 degrees to obtain a maximum reading on the spectrum analyzer. This is repeated for both horizontal and vertical polarizations of the receive antenna. The equipment under test is then replaced with a substitution antenna fed by a signal generator. With the signal generator tuned to a particular spurious frequency, the antenna mast is raised and lowered from 1 to 4 meters to obtain a maximum reading at the spectrum analyzer. The output of the signal generator is then adjusted until a reading identical to that obtained with the actual transmitter is achieved. The power in dBm of each spurious emission is calculated by correcting the signal generator level for cable loss and gain of the substitution antenna referenced to a dipole. A fully charged battery was used for the supply voltage. The settings of the receiver were as follows:
dBm Units Resolution Bandwidth 1 MHz Video Bandwidth Sweep Time Auto Auto Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 63 of 114 Rev.00 4.6.3 Test Setup Layout Substituted Method Test Set-up Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 64 of 114 Rev.00 4.6.4 Test Result 4.6.4.1 GPRS 850 Test Result Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (Low CH128)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1648.8 2473.2 3297.6 4122.0 4946.4 5770.8 6595.2 7419.6 8244.0 1648.8 2473.2 3297.6 4122.0 4946.4 5770.8 6595.2 7419.6 8244.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.13
-43.65
-28.56
(dBm)
-61.29
-53.69
-38.60
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-59.04
-56.05
-57.38 10.72 10.66 10.78 0.56 0.62 0.74
-48.88
-46.01
-47.34
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 65 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 66 of 114 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (Middle CH190)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1673.2 2509.8 3346.4 4183.0 5019.6 5856.2 6692.8 7529.4 8366.0 1673.2 2509.8 3346.4 4183.0 5019.6 5856.2 6692.8 7529.4 8366.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.27
-43.70
-28.34
(dBm)
-61.43
-53.74
-38.38
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.30
-56.11
-56.87 10.72 10.66 10.78 0.56 0.62 0.74
-48.14
-46.07
-46.83
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 67 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 68 of 114 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (High CH 251)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1697.6 2546.4 3395.2 4244.0 5092.8 5941.6 6790.4 7639.2 8488.0 1697.6 2546.4 3395.2 4244.0 5092.8 5941.6 6790.4 7639.2 8488.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.44
-43.79
-28.68
(dBm)
-61.60
-53.83
-38.72
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.11
-55.93
-57.30 10.72 10.66 10.78 0.56 0.62 0.74
-47.95
-45.89
-47.26
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 69 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 70 of 114 Rev.00 4.6.4.2 GPRS 1900 Test Result Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (Low CH512)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3700.4 5550.6 7400.8 9251.0 11101.2 12951.4 14801.6 16651.8 18502.0 3700.4 5550.6 7400.8 9251.0 11101.2 12951.4 14801.6 16651.8 18502.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-43.34
-38.72
-31.57
(dBm)
-53.50
-48.76
-41.61
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.81
-49.53
-55.41 10.72 10.66 10.78 0.56 0.62 0.74
-46.65
-39.49
-45.37
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 71 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 72 of 114 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (Middle CH661)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3760.0 5640.0 7520.0 9400.0 11280.0 13160.0 15040.0 16920.0 18800.0 3760.0 5640.0 7520.0 9400.0 11280.0 13160.0 15040.0 16920.0 18800.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-43.45
-39.46
-31.28
(dBm)
-53.61
-49.50
-41.32
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.93
-46.60
-56.24 10.72 10.66 10.78 0.56 0.62 0.74
-46.77
-36.56
-46.20
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 73 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 74 of 114 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (High CH 810)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3819.6 5729.4 7639.2 9549.0 11458.8 13368.6 15278.4 17188.2 19098.0 3819.6 5729.4 7639.2 9549.0 11458.8 13368.6 15278.4 17188.2 19098.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-43.35
-39.50
-31.60
(dBm)
-53.51
-49.54
-41.64
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.50
-44.17
-55.40 10.72 10.66 10.78 0.56 0.62 0.74
-46.34
-34.13
-45.36
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 75 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 76 of 114 Rev.00 4.6.4.3 WCDMA Band V Test Result Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCMDA Band V (Low CH4132)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1652.8 2479.2 3305.6 4132.0 4958.4 5784.8 6611.2 7437.6 8264.0 1652.8 2479.2 3305.6 4132.0 4958.4 5784.8 6611.2 7437.6 8264.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.47
-44.01
-28.36
(dBm)
-61.62
-54.06
-38.38
(dBi) 10.74 10.68 10.80
(dBm) 0.59 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.39
-56.17
-56.69 10.74 10.68 10.80 0.59 0.63 0.78
-48.24
-46.12
-46.67
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 77 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 78 of 114 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band V (Middle CH4182)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-50.23
-42.59
-29.01
(dBm)
-60.38
-52.64
-39.03
(dBi) 10.74 10.68 10.80
(dBm) 0.59 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.43
-55.20
-57.30 10.74 10.68 10.80 0.59 0.63 0.78
-46.28
-45.15
-47.28
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 79 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 80 of 114 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band V (High CH 4233)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.39
-44.29
-28.41
(dBm)
-61.54
-54.34
-38.43
(dBi) 10.74 10.68 10.80
(dBm) 0.59 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.28
-56.01
-56.56 10.74 10.68 10.80 0.59 0.63 0.78
-48.13
-45.96
-46.54
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 81 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 82 of 114 Rev.00 4.6.4.4 HSUPA Band V Test Result Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: HSUPA Band V (Low CH4132)
: 01/19/2008 Harmonic Frequency
(MHz) Polarization 1652.8 2479.2 3305.6 4132.0 4958.4 5784.8 6611.2 7437.6 8264.0 1652.8 2479.2 3305.6 4132.0 4958.4 5784.8 6611.2 7437.6 8264.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-44.57
-42.77
-28.68
(dBm)
-54.72
-52.82
-38.70
(dBi) 10.74 10.68 10.80
(dBm) 0.59 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-54.42
-54.30
-39.18 10.74 10.68 10.80 0.59 0.63 0.78
-44.27
-44.25
-29.16
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
5. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 6. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 7. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 8. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 83 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 84 of 114 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: HSUPA Band V (Middle CH4182)
: 01/19/2008 Harmonic Frequency
(MHz) Polarization 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-43.65
-42.61
-29.26
(dBm)
-53.80
-52.66
-39.28
(dBi) 10.74 10.68 10.80
(dBm) 0.59 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-53.84
-55.36
-39.20 10.74 10.68 10.80 0.59 0.63 0.78
-43.69
-45.31
-29.18
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
5. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 6. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 7. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 8. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 85 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 86 of 114 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: HSUPA Band V (High CH 4233)
: 01/19/2008 Harmonic Frequency
(MHz) Polarization 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-47.84
-42.58
-29.40
(dBm)
-57.99
-52.63
-39.42
(dBi) 10.74 10.68 10.80
(dBm) 0.59 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-53.81
-55.25
-39.36 10.74 10.68 10.80 0.59 0.63 0.78
-43.66
-45.20
-29.34
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
5. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 6. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 7. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 8. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 87 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 88 of 114 Rev.00 4.6.4.5 WCDMA Band II Test Result Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCMDA Band II (Low CH9262)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3704.8 5557.2 7409.6 9262.0 11114.4 12966.8 14819.2 16671.6 18524.0 3704.8 5557.2 7409.6 9262.0 11114.4 12966.8 14819.2 16671.6 18524.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-39.87
-38.66
-31.94
(dBm)
-50.08
-48.74
-41.97
(dBi) 10.79 10.71 10.81
(dBm) 0.58 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.13
-58.50
-55.09 10.79 10.71 10.81 0.58 0.63 0.78
-47.92
-48.42
-45.06
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 89 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 90 of 114 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band II (Middle CH9400)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3760.0 5640.0 7520.0 9400.0 11280.0 13160.0 15040.0 16920.0 18800.0 3760.0 5640.0 7520.0 9400.0 11280.0 13160.0 15040.0 16920.0 18800.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-33.45
-39.30
-31.07
(dBm)
-43.66
-49.38
-41.10
(dBi) 10.79 10.71 10.81
(dBm) 0.58 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.88
-58.03
-55.89 10.79 10.71 10.81 0.58 0.63 0.78
-46.67
-47.95
-45.86
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
9. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 10. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 11. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 12. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 91 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 92 of 114 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band II (High CH 9538)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3815.2 5722.8 7630.4 9538.0 11445.6 13353.2 15260.8 17168.4 19076.0 3815.2 5722.8 7630.4 9538.0 11445.6 13353.2 15260.8 17168.4 19076.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-20.68
-39.78
-31.12
(dBm)
-30.89
-49.86
-41.15
(dBi) 10.79 10.71 10.81
(dBm) 0.58 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-40.75
-58.69
-55.80 10.79 10.71 10.81 0.58 0.63 0.78
-30.54
-48.61
-45.77
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
9. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 10. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 11. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 12. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 93 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 94 of 114 Rev.00 4.6.4.6 HSUPA Band II Test Result Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: HSUPA Band II (Low CH9262)
: 01/19/2009 Harmonic Frequency
(MHz) Polarization 3704.8 5557.2 7409.6 9262.0 11114.4 12966.8 14819.2 16671.6 18524.0 3704.8 5557.2 7409.6 9262.0 11114.4 12966.8 14819.2 16671.6 18524.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-31.81
-28.68
-17.61
(dBm)
-42.02
-38.76
-27.64
(dBi) 10.79 10.71 10.81
(dBm) 0.58 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-51.16
-38.63
-28.39 10.79 10.71 10.81 0.58 0.63 0.78
-40.95
-28.55
-18.36
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
5. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 6. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 7. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 8. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 95 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 96 of 114 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: HSUPA Band II (Middle CH9400)
: 01/19/2009 Harmonic Frequency
(MHz) Polarization 3760.0 5640.0 7520.0 9400.0 11280.0 13160.0 15040.0 16920.0 18800.0 3760.0 5640.0 7520.0 9400.0 11280.0 13160.0 15040.0 16920.0 18800.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-33.74
-28.58
-17.72
(dBm)
-43.95
-38.66
-27.75
(dBi) 10.79 10.71 10.81
(dBm) 0.58 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-51.23
-38.36
-28.25 10.79 10.71 10.81 0.58 0.63 0.78
-41.02
-28.28
-18.22
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
13. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 14. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 15. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 16. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 97 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 98 of 114 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: HSUPA Band II (High CH 9538)
: 01/19/2009 Harmonic Frequency
(MHz) Polarization 3815.2 5722.8 7630.4 9538.0 11445.6 13353.2 15260.8 17168.4 19076.0 3815.2 5722.8 7630.4 9538.0 11445.6 13353.2 15260.8 17168.4 19076.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-22.47
-28.51
-17.99
(dBm)
-32.68
-38.59
-28.02
(dBi) 10.79 10.71 10.81
(dBm) 0.58 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-37.85
-38.20
-28.43 10.79 10.71 10.81 0.58 0.63 0.78
-27.64
-28.12
-18.40
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
13. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 14. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 15. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 16. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 99 of 114 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 100 of 114 Rev.00 Frequency Stability (Temperature Variation) 4.7 4.7.1 Measurement Instrument As described in chapter 5 of this test report. 4.7.2 Test Procedure The measurement is made according to FCC rules part 22 and 24:
1. The EUT and test equipment were set up as shown on the following section. 2. With all power removed, the temperature was decreased to -30 and permitted to stabilize for three hours. Power was applied and the maximum change in frequency was note within one minute. 3. With power OFF, the temperature was raised in 10 steps. The sample was permitted to stabilize at each step for at least one-half hour. Power was applied and the maximum frequency change was noted within one minute. 4. The temperature tests were performed for the worst case. 5. Test data was recorded. 4.7.3 Test Setup Layout Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 101 of 114 Rev.00 4.7.4 Test Result Test Mode: GPRS 850 CH190 Temperature
(
)
-30
-20
-10 0 10 20 30 40 50 Deviation
(Hz) 22.19 24.38 22.61 18.79 15.48 23.23 29.57 30.4 22.18 Test Mode: GPRS 1900 CH661 Temperature
(
)
-30
-20
-10 0 10 20 30 40 50 Deviation
(Hz) 30.61 34.27 33.98 35.67 40.66 35.25 34.28 30.17 33.49 Deviation
(ppm) 0.027 0.029 0.027 0.022 0.019 0.028 0.035 0.036 0.027 Deviation
(ppm) 0.016 0.018 0.018 0.019 0.022 0.019 0.018 0.016 0.018 Limit
(ppm) 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 Limit
(ppm) 1 1 1 1 1 1 1 1 1 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 102 of 114 Rev.00 Test Mode: WCDMA Band V CH4182 Temperature
()
-30
-20
-10 0 10 20 30 40 50 Deviation
(Hz) 24.69 35.18 20.91 34.76 20.15 22.98 33.61 34.12 30.57 Test Mode: WCDMA Band II CH9400 Temperature
()
-30
-20
-10 0 10 20 30 40 50 Deviation
(Hz) 42.69 43.85 40.91 41.32 48.48 35.96 32.57 30.44 29.85 Deviation
(ppm) 0.030 0.042 0.025 0.042 0.024 0.027 0.040 0.041 0.037 Deviation
(ppm) 0.023 0.023 0.022 0.022 0.026 0.019 0.017 0.016 0.016 Limit
(ppm) 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 Limit
(ppm) 1 1 1 1 1 1 1 1 1 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 103 of 114 Rev.00 Frequency Stability (Voltage Variation) 4.8 4.8.1 Measurement Instrument As described in chapter 5 of this test report. 4.8.2 Test Procedure 1. The EUT was placed in a temperature chamber at 25 5 and connected as the following section. 2. The power supply voltage to the EUT was varied from BEP to 115% of the nominal value measured at the input to the EUT. 3. The variation in frequency was measured for the worst case. 4.8.3 Test Setup Layout Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 104 of 114 Rev.00 4.8.4 Test Result Test Mode: GPRS 850 CH190 Level Battery full point Normal Battery cut-off point Voltage
[V]
126.5 110.0 93.5 Test Mode: GPRS 1900 CH661 Level Battery full point Normal Battery cut-off point Voltage
[V]
126.5 110.0 93.5 Test Mode: WCDMA Band V CH4182 Level Battery full point Normal Battery cut-off point Voltage
[V]
126.5 110.0 93.5 Test Mode: WCDMA Band II CH9400 Deviation
[Hz]
22.75 15.51 12.69 Deviation
[ppm]
0.027 0.019 0.015 Deviation
[Hz]
39.58 33.33 35.67 Deviation
[ppm]
0.021 0.018 0.019 Deviation
[Hz]
22.72 20.68 36.71 Deviation
[ppm]
0.027 0.025 0.044 Level Battery full point Normal Battery cut-off point Voltage
[V]
126.5 110.0 93.5 Deviation
[Hz]
45.39 48.62 40.37 Deviation
[ppm]
0.024 0.026 0.021 Limit
[ppm]
0.1 0.1 0.1 Limit
[ppm]
1 1 1 Limit
[ppm]
0.1 0.1 0.1 Limit
[ppm]
1 1 1 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 105 of 114 Rev.00 4.9 AC Power Conducted Emissions Requirements 4.9.1 Measurement Instrument As described in chapter 5 of this test report. 4.9.2 Test Procedure The measurement is made according to FCC rules15.207:
The power line conducted emission measurements were performed in a shielded enclosure. The EUT was assembled on a wooden table which is 80 centimeters high, was placed 40 centimeters from the back wall and at least 1 meter from the sidewall. Power was fed to the EUT from the public utility power grid through a line filter and EMCO Model 3162/2 SH Line Impedance Stabilization Networks (LISN). The LISN housing, measuring instrumentation case, ground plane, etc., were electrically bonded together at the same RF potential. The Spectrum analyzer was connected to the AC line through an isolation transformer. The 50-ohm output of the LISN was connected to the spectrum analyzer directly. Conducted emission levels were in the CISPR quasi-peak detection mode. The analyzer's 6 dB bandwidth was set to 9 KHz. No post-detector video filter was used. The spectrum was scanned from 150 KHz to 30 MHz. The physical arrangement of the test system and associated cabling was varied (within the scope of arrangements likely to be encountered in actual use) to determine the effect on the unit's emanations in amplitude and frequency. All spurious emission frequencies were observed. The highest emission amplitudes relative to the appropriate limit were measured and have been recorded in paragraph 2.6. Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 106 of 114 Rev.00 4.9.3 Test Configuration:
Figure 1. Front View of the Test Configuration Figure 2. Rear View of the Test Configuration Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 107 of 114 Rev.00 4.9.4 Test condition:
EUT tested in accordance with the specifications given by the Manufacturer, and exercised in the most unfavorable manner. 4.9.5 Conducted Emissions Limits:
Frequency range (MHz) 0.15 to 0.50 0.50 to 5.0 5.0 to 30 Limits (dBuV) Quasi-peak 66 to 56 56 60 Average 56 to 46 46 50 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 108 of 114 Rev.00 4.9.6 Test Result 4.9.6.1 GPRS 850 Test Result Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data.
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (Low CH128 / Middle CH190 / High CH 251)
: 08/27/2008 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 109 of 114 Rev.00 File :ZG5B C TEST(GSM850GPRS) Data :#1 Date: 2008/8/27 Time: 07:02:46 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH128 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1899 0.1899 0.2500 0.4964 2.4800 2.4800 4.0100 4.0100 4.0100 10.1500 10.1500 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 44.98 22.76 37.96 33.27 38.40 22.63 45.30 38.33 26.83 39.92 23.53 Correct Factor dB 9.74 9.74 9.75 9.78 9.87 9.87 9.97 9.97 9.97 10.07 10.07 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 54.72 32.50 47.71 43.05 48.27 32.50 55.27 48.30 36.80 49.99 33.60 64.04 -9.32 54.04 -21.54 61.75 -14.04 56.06 -13.01 56.00 -7.73 46.00 -13.50 56.00 -0.73 56.00 -7.70 46.00 -9.20 60.00 -10.01 50.00 -16.40 peak AVG peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 1/6 File :ZG5B C TEST(GSM850GPRS) Data :#2 Date: 2008/8/27 Time: 07:18:25 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH128 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1884 0.1884 0.2487 0.5630 0.5630 2.6600 2.6600 3.9560 3.9560 3.9560 11.2500 11.2500 1 2 3 4 5 6 7 8 *
9 10 11 12 Reading Level dBuV 42.21 23.66 35.30 33.37 17.81 37.78 22.47 45.51 37.82 26.22 42.82 29.79 Correct Factor dB 9.74 9.74 9.75 9.79 9.79 9.93 9.93 9.98 9.98 9.98 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 51.95 33.40 45.05 43.16 27.60 47.71 32.40 55.49 47.80 36.20 52.93 39.90 64.10 -12.15 54.10 -20.70 61.80 -16.75 56.00 -12.84 46.00 -18.40 56.00 -8.29 46.00 -13.60 56.00 -0.51 56.00 -8.20 46.00 -9.80 60.00 -7.07 50.00 -10.10 peak AVG peak peak AVG peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 2/6 File :ZG5B C TEST(GSM850GPRS) Data :#3 Date: 2008/8/27 Time: 08:03:12 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH190 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1892 0.2676 2.3270 2.3270 3.9560 3.9560 3.9560 7.2000 11.1000 11.1000 1 2 3 4 5 *
6 7 8 9 10 Reading Level dBuV 41.07 33.95 35.92 21.85 43.04 36.12 24.82 35.82 40.87 27.19 Correct Factor dB 9.74 9.76 9.85 9.85 9.98 9.98 9.98 10.09 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.81 43.71 45.77 31.70 53.02 46.10 34.80 45.91 50.98 37.30 64.07 -13.26 61.19 -17.48 56.00 -10.23 46.00 -14.30 56.00 -2.98 56.00 -9.90 46.00 -11.20 60.00 -14.09 60.00 -9.02 50.00 -12.70 peak peak peak AVG peak QP AVG peak peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 3/6 File :ZG5B C TEST(GSM850GPRS) Data :#4 Date: 2008/8/27 Time: 08:27:21 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH190 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1955 0.2753 0.5810 2.3809 2.3809 4.0190 4.0190 4.0190 11.2000 11.2000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.78 34.06 32.05 36.19 21.86 44.49 36.13 25.13 41.69 28.09 Correct Factor dB 9.74 9.76 9.79 9.84 9.84 9.97 9.97 9.97 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.52 43.82 41.84 46.03 31.70 54.46 46.10 35.10 51.80 38.20 63.80 -13.28 60.95 -17.13 56.00 -14.16 56.00 -9.97 46.00 -14.30 56.00 -1.54 56.00 -9.90 46.00 -10.90 60.00 -8.20 50.00 -11.80 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 4/6 File :ZG5B C TEST(GSM850GPRS) Data :#5 Date: 2008/8/27 Time: 08:40:36 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH251 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1941 0.1941 0.4615 2.8040 2.8040 3.9470 3.9470 3.9470 11.3500 11.3500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 41.16 20.36 33.44 36.34 18.19 43.95 35.92 24.82 40.07 26.68 Correct Factor dB 9.74 9.74 9.78 9.91 9.91 9.98 9.98 9.98 10.12 10.12 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.90 30.10 43.22 46.25 28.10 53.93 45.90 34.80 50.19 36.80 63.85 -12.95 53.85 -23.75 56.67 -13.45 56.00 -9.75 46.00 -17.90 56.00 -2.07 56.00 -10.10 46.00 -11.20 60.00 -9.81 50.00 -13.20 peak AVG peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 5/6 File :ZG5B C TEST(GSM850GPRS) Data :#6 Date: 2008/8/27 Time: 08:54:04 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH251 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1864 0.1864 0.2634 0.5000 2.3270 2.3270 4.0100 4.0100 4.0100 10.9000 10.9000 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 41.54 22.06 34.78 32.60 37.41 21.55 44.25 35.93 24.93 41.46 29.21 Correct Factor dB 9.74 9.74 9.75 9.78 9.85 9.85 9.97 9.97 9.97 10.09 10.09 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 51.28 31.80 44.53 42.38 47.26 31.40 54.22 45.90 34.90 51.55 39.30 64.19 -12.91 54.19 -22.39 61.32 -16.79 56.00 -13.62 56.00 -8.74 46.00 -14.60 56.00 -1.78 56.00 -10.10 46.00 -11.10 60.00 -8.45 50.00 -10.70 peak AVG peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 6/6 4.9.6.2 GPRS 1900 Test Result Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data.
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (Low CH512 / Middle CH661 / High CH 810)
: 08/27/2008 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 110 of 114 Rev.00 File :ZG5B C TEST(PCS1900GPRS) Data :#1 Date: 2008/8/27 Time: 09:09:21 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH512 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1850 0.2627 0.6889 2.3900 2.3900 3.9380 3.9380 3.9380 10.7000 10.7000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.07 34.50 31.66 35.98 21.66 44.06 36.52 24.62 39.85 27.74 Correct Factor dB 9.74 9.75 9.79 9.84 9.84 9.98 9.98 9.98 10.06 10.06 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.81 44.25 41.45 45.82 31.50 54.04 46.50 34.60 49.91 37.80 64.25 -14.44 61.34 -17.09 56.00 -14.55 56.00 -10.18 46.00 -14.50 56.00 -1.96 56.00 -9.50 46.00 -11.40 60.00 -10.09 50.00 -12.20 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 1/6 File :ZG5B C TEST(PCS1900GPRS) Data :#2 Date: 2008/8/27 Time: 09:18:05 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH512 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1857 0.2592 0.5270 2.2640 2.2640 3.9020 3.9020 3.9020 11.0000 11.0000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.80 34.71 32.52 36.28 21.53 43.02 36.33 25.13 42.51 29.00 Correct Factor dB 9.74 9.75 9.79 9.87 9.87 9.97 9.97 9.97 10.10 10.10 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.54 44.46 42.31 46.15 31.40 52.99 46.30 35.10 52.61 39.10 64.22 -13.68 61.45 -16.99 56.00 -13.69 56.00 -9.85 46.00 -14.60 56.00 -3.01 56.00 -9.70 46.00 -10.90 60.00 -7.39 50.00 -10.90 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 2/6 File :ZG5B C TEST(PCS1900GPRS) Data :#3 Date: 2008/8/27 Time: 09:26:07 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH661 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.2039 0.2592 0.6889 2.3000 2.3000 3.9020 3.9020 3.9020 11.0500 11.0500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 38.80 34.33 31.39 35.84 21.64 43.04 36.33 25.03 40.48 27.69 Correct Factor dB 9.74 9.75 9.79 9.86 9.86 9.97 9.97 9.97 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 48.54 44.08 41.18 45.70 31.50 53.01 46.30 35.00 50.59 37.80 63.45 -14.91 61.45 -17.37 56.00 -14.82 56.00 -10.30 46.00 -14.50 56.00 -2.99 56.00 -9.70 46.00 -11.00 60.00 -9.41 50.00 -12.20 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 3/6 File :ZG5B C TEST(PCS1900GPRS) Data :#4 Date: 2008/8/27 Time: 09:41:12 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH661 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1857 0.2809 0.5270 2.2370 2.2370 3.8750 3.8750 3.8750 11.1000 11.1000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 39.97 35.20 32.79 36.23 21.62 44.12 36.34 25.14 41.95 28.59 Correct Factor dB 9.74 9.76 9.79 9.88 9.88 9.96 9.96 9.96 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.71 44.96 42.58 46.11 31.50 54.08 46.30 35.10 52.06 38.70 64.22 -14.51 60.79 -15.83 56.00 -13.42 56.00 -9.89 46.00 -14.50 56.00 -1.92 56.00 -9.70 46.00 -10.90 60.00 -7.94 50.00 -11.30 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 4/6 File :ZG5B C TEST(PCS1900GPRS) Data :#5 Date: 2008/8/27 Time: 09:59:24 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH810 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1870 0.5000 1.3640 2.3000 2.3000 3.9650 3.9650 3.9650 11.2000 11.2000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 38.13 32.13 32.69 35.77 21.64 42.81 36.42 25.02 40.78 26.79 Correct Factor dB 9.74 9.78 9.82 9.86 9.86 9.98 9.98 9.98 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 47.87 41.91 42.51 45.63 31.50 52.79 46.40 35.00 50.89 36.90 64.16 -16.29 56.00 -14.09 56.00 -13.49 56.00 -10.37 46.00 -14.50 56.00 -3.21 56.00 -9.60 46.00 -11.00 60.00 -9.11 50.00 -13.10 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 5/6 File :ZG5B C TEST(PCS1900GPRS) Data :#6 Date: 2008/8/27 Time: 10:06:18 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH810 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1870 0.5000 0.9860 2.3000 2.3000 4.0280 4.0280 4.0280 11.2000 11.2000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.15 33.06 31.41 36.28 21.84 43.69 36.44 25.24 41.88 28.19 Correct Factor dB 9.74 9.78 9.81 9.86 9.86 9.96 9.96 9.96 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.89 42.84 41.22 46.14 31.70 53.65 46.40 35.20 51.99 38.30 64.16 -14.27 56.00 -13.16 56.00 -14.78 56.00 -9.86 46.00 -14.30 56.00 -2.35 56.00 -9.60 46.00 -10.80 60.00 -8.01 50.00 -11.70 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 6/6 4.9.6.3 WCDMA Band V Test Result Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data.
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band V (Low CH4132 / Middle CH4182 / High CH 4233)
: 08/21~22/2008 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 111 of 114 Rev.00 File :ZG5B C TEST(WCDMA) Data :#1 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4132 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1842 0.2529 0.5360 2.4258 2.4258 3.8748 3.8748 11.2000 11.2000 19.8500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 38.04 33.39 33.02 36.14 24.85 42.13 25.95 39.64 28.51 32.13 Correct Factor dB 9.74 9.75 9.79 9.84 9.84 9.96 9.96 10.11 10.11 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 47.78 43.14 42.81 45.98 34.69 52.09 35.91 49.75 38.62 42.37 64.29 -16.51 61.66 -18.52 56.00 -13.19 56.00 -10.02 46.00 -11.31 56.00 -3.91 46.00 -10.09 60.00 -10.25 50.00 -11.38 60.00 -17.63 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 1/6 File :ZG5B C TEST(WCDMA) Data :#2 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4132 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1900 0.5627 1.2646 2.5700 2.5700 3.8567 3.8567 7.2500 11.0000 19.8000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 38.71 30.90 33.28 35.80 22.85 37.70 24.39 31.16 35.48 30.84 Correct Factor dB 9.74 9.79 9.81 9.93 9.93 9.95 9.95 10.09 10.10 10.25 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 48.45 40.69 43.09 45.73 32.78 47.65 34.34 41.25 45.58 41.09 64.03 -15.58 56.00 -15.31 56.00 -12.91 56.00 -10.27 46.00 -13.22 56.00 -8.35 46.00 -11.66 60.00 -18.75 60.00 -14.42 60.00 -18.91 peak peak peak peak AVG peak AVG peak peak peak
*:Maximum data x:Over limit !:over margin Reference Only 2/6 File :ZG5B C TEST(WCDMA) Data :#3 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4182 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1884 0.5180 1.2647 2.1739 2.1739 4.0819 4.0819 11.1000 11.1000 19.8500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 39.16 33.72 33.80 36.77 25.91 41.20 24.86 37.57 27.43 31.61 Correct Factor dB 9.74 9.79 9.81 9.88 9.88 9.96 9.96 10.11 10.11 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 48.90 43.51 43.61 46.65 35.79 51.16 34.82 47.68 37.54 41.85 64.10 -15.20 56.00 -12.49 56.00 -12.39 56.00 -9.35 46.00 -10.21 56.00 -4.84 46.00 -11.18 60.00 -12.32 50.00 -12.46 60.00 -18.15 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 3/6 File :ZG5B C TEST(WCDMA) Data :#4 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4182 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1892 0.5450 0.8960 1.9669 1.9669 3.9468 3.9468 10.9500 10.9500 20.1000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.05 33.33 32.05 35.41 24.47 38.63 23.71 38.90 28.66 29.58 Correct Factor dB 9.74 9.79 9.80 9.84 9.84 9.98 9.98 10.10 10.10 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.79 43.12 41.85 45.25 34.31 48.61 33.69 49.00 38.76 39.82 64.07 -14.28 56.00 -12.88 56.00 -14.15 56.00 -10.75 46.00 -11.69 56.00 -7.39 46.00 -12.31 60.00 -11.00 50.00 -11.24 60.00 -20.18 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 4/6 File :ZG5B C TEST(WCDMA) Data :#5 Date: 2008/8/22 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4233 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1507 0.1869 0.5360 2.4348 2.4348 4.0457 4.0457 10.9500 10.9500 20.3500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 42.78 41.85 32.66 37.14 23.28 40.71 24.85 39.67 25.69 33.60 Correct Factor dB 9.73 9.74 9.79 9.84 9.84 9.96 9.96 10.10 10.10 10.36 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 52.51 51.59 42.45 46.98 33.12 50.67 34.81 49.77 35.79 43.96 65.96 -13.45 64.17 -12.58 56.00 -13.55 56.00 -9.02 46.00 -12.88 56.00 -5.33 46.00 -11.19 60.00 -10.23 50.00 -14.21 60.00 -16.04 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 5/6 File :ZG5B C TEST(WCDMA) Data :#6 Date: 2008/8/22 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4233 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1570 0.1948 0.5360 1.9309 2.7589 2.7589 4.0727 4.0727 11.3000 11.3000 20.0000 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 39.44 39.13 30.32 33.29 36.00 24.48 39.24 25.23 41.08 23.62 32.26 Correct Factor dB 9.73 9.74 9.79 9.84 9.90 9.90 9.96 9.96 10.11 10.11 10.23 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.17 48.87 40.11 43.13 45.90 34.38 49.20 35.19 51.19 33.73 42.49 65.62 -16.45 63.83 -14.96 56.00 -15.89 56.00 -12.87 56.00 -10.10 46.00 -11.62 56.00 -6.80 46.00 -10.81 60.00 -8.81 50.00 -16.27 60.00 -17.51 peak peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 6/6 4.9.6.4 WCDMA Band II Test Result Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data.
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band II (Low CH9262 / Middle CH9400 / High CH 9536)
: 08/21~22/2008 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 112 of 114 Rev.00 File :ZG5B C TEST(WCDMA) Data :#1 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9262 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1842 0.5360 0.9140 2.1739 2.1739 3.8748 3.8748 11.2000 11.2000 19.8500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 39.04 33.52 31.52 36.47 20.78 40.63 22.75 39.64 22.73 33.13 Correct Factor dB 9.74 9.79 9.81 9.88 9.88 9.96 9.96 10.11 10.11 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 48.78 43.31 41.33 46.35 30.66 50.59 32.71 49.75 32.84 43.37 64.29 -15.51 56.00 -12.69 56.00 -14.67 56.00 -9.65 46.00 -15.34 56.00 -5.41 46.00 -13.29 60.00 -10.25 50.00 -17.16 60.00 -16.63 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 1/6 File :ZG5B C TEST(WCDMA) Data :#2 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9262 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1877 0.5450 1.2646 2.2458 2.2458 4.0007 4.0007 11.1000 11.1000 19.8000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.31 32.66 34.28 37.41 24.30 42.68 22.69 41.05 26.48 30.34 Correct Factor dB 9.74 9.79 9.81 9.88 9.88 9.97 9.97 10.11 10.11 10.25 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.05 42.45 44.09 47.29 34.18 52.65 32.66 51.16 36.59 40.59 64.13 -14.08 56.00 -13.55 56.00 -11.91 56.00 -8.71 46.00 -11.82 56.00 -3.35 46.00 -13.34 60.00 -8.84 50.00 -13.41 60.00 -19.41 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 2/6 File :ZG5B C TEST(WCDMA) Data :#3 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9400 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1500 0.2479 0.5450 0.9140 2.5969 2.5969 4.0007 4.0007 11.1000 11.1000 19.8500 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 40.24 33.27 33.14 32.32 36.30 22.39 43.37 24.18 40.07 27.85 34.61 Correct Factor dB 9.73 9.75 9.79 9.81 9.93 9.93 9.97 9.97 10.11 10.11 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.97 43.02 42.93 42.13 46.23 32.32 53.34 34.15 50.18 37.96 44.85 65.99 -16.02 61.82 -18.80 56.00 -13.07 56.00 -13.87 56.00 -9.77 46.00 -13.68 56.00 -2.66 46.00 -11.85 60.00 -9.82 50.00 -12.04 60.00 -15.15 peak peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 3/6 File :ZG5B C TEST(WCDMA) Data :#4 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9400 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1892 0.4873 0.8960 2.3178 2.3178 3.9468 3.9468 6.9000 10.9500 10.9500 20.1000 1 2 3 4 5 6 *
7 8 9 10 11 Reading Level dBuV 40.05 33.40 32.05 36.78 24.31 42.63 23.61 36.47 40.90 28.83 32.08 Correct Factor dB 9.74 9.78 9.80 9.85 9.85 9.98 9.98 10.09 10.10 10.10 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.79 43.18 41.85 46.63 34.16 52.61 33.59 46.56 51.00 38.93 42.32 64.07 -14.28 56.21 -13.03 56.00 -14.15 56.00 -9.37 46.00 -11.84 56.00 -3.39 46.00 -12.41 60.00 -13.44 60.00 -9.00 50.00 -11.07 60.00 -17.68 peak peak peak peak AVG peak AVG peak peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 4/6 File :ZG5B C TEST(WCDMA) Data :#5 Date: 2008/8/22 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9538 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1507 0.1869 0.2479 0.5360 2.8128 2.8128 4.0457 4.0457 10.9500 10.9500 20.3500 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 43.28 41.85 36.13 32.66 37.40 22.51 42.21 23.75 41.17 25.74 34.60 Correct Factor dB 9.73 9.74 9.75 9.79 9.91 9.91 9.96 9.96 10.10 10.10 10.36 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 53.01 51.59 45.88 42.45 47.31 32.42 52.17 33.71 51.27 35.84 44.96 65.96 -12.95 64.17 -12.58 61.82 -15.94 56.00 -13.55 56.00 -8.69 46.00 -13.58 56.00 -3.83 46.00 -12.29 60.00 -8.73 50.00 -14.16 60.00 -15.04 peak peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 5/6 File :ZG5B C TEST(WCDMA) Data :#6 Date: 2008/8/22 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9538 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1948 0.5270 0.8960 2.5517 2.5517 4.0100 4.0100 11.3000 11.3000 19.8000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 41.13 34.43 33.66 35.73 22.79 42.09 24.81 40.58 28.68 31.33 Correct Factor dB 9.74 9.79 9.80 9.93 9.93 9.97 9.97 10.11 10.11 10.25 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.87 44.22 43.46 45.66 32.72 52.06 34.78 50.69 38.79 41.58 63.83 -12.96 56.00 -11.78 56.00 -12.54 56.00 -10.34 46.00 -13.28 56.00 -3.94 46.00 -11.22 60.00 -9.31 50.00 -11.21 60.00 -18.42 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 6/6 5. List of Measurement Equipments Manufacturer Name of Equipment Type/Model Serial Number Agilent R&S Spectrum analyzer Receiver E4408B ESCI MY45107753 Jun. 05, 2008 Calibration Last Cal. Due Date Jun. 05, 2009 100367 Jun. 05, 2008 Jun. 05, 2009 SCHWARZBECK Trilog Broadband Antenna VULB 9163 9163-270 Jun. 26, 2008 Jun. 26, 2009 SCHWARZBECK Broadband Horn Antenna BBHA 9120D 9120D-550 Jun. 26, 2008 Jun. 26, 2009 SCHWARZBECK Broadband Horn Antenna BBHA 9170 9170-320 Jun. 09, 2008 Aug. 07, 2009 Agilent Amplifier 8447D 2944A10961 Jun. 10, 2008 Jun. 10, 2009 Universal Radio Communication Tester ROHDE & SCHWARZ Spectrum Analyzer Agilent Loop Dipole Loop Dipole Sleeve Dipole Sleeve Dipole ETS-Lindgren ETS-Lindgren ETS-Lindgren ETS-Lindgren CMU200 112387 Oct. 24, 2007 Oct. 24, 2008 E4445A MY45300744 Nov. 29, 2007 Nov. 29, 2008 3127-1880 3127-836 3126-1845 3126-880 00052640 00055272 00056670 00052705 Jul. 02, 2008 Jul. 02, 2009 Jun. 29, 2008 Jun. 29, 2009 Jun. 29, 2008 Jun. 29, 2009 Jun. 29, 2008 Jun. 29, 2009 Anechoic Chamber ETS-Lindgren AMS 8500 S/N 102165 High Pass Filter MICRO-TRONICS HPM50108 High Pass Filter MICRO-TRONICS HPM50111 020 021 Circularly Polarized Communication Antennas EMCO 3102 00051714 Pattern Measurement Software ETS-Lindgren Desktop Computer with Windows XP Antenna Positioner Controller MAPS Positioner Filter Filter Attenuator Splitter Power divider EMCO EMCO K&L K&L RADIALL Powercom Agilent EMQuest EMQ-100 Dell Computers NA NA 2090 00052447 2010/2015 5TNF-1700/
2000-0.1N/N 3TNF-800/
1000-0.2N/N R41572000 NA 166 274 0603033073 SGR-GFQ-2-D 41106609 87302C 3239A00760 NA NA NA NA NA NA NA NA NA NA NA NA NA Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 113 of 114 Rev.00 Uncertainty Evaluation 6. Uncertainty of Radiated Emission Measurement (30MHz ~ 1000MHz) Contribution Receiver reading Antenna factor calibration Cable loss calibration Pre Amplifier Gain calibration RCV/SPA specification Antenna Factor Interpolation for Frequency Site imperfection Mismatch combined standard uncertainty Uc(y) Measuring uncertainty for a level of confidence of 95%
U=2Uc(y) Uncertainty of Xi dB 0.41 0.83 0.25 0.27 2.50 1.00 1.43
+0.39/-0.41 U(Xi) 0.21 0.42 0.13 0.14 0.72 0.29 0.83 0.28 Probability Distribution Normal(k=2) Normal(k=2) Normal(k=2) Normal(k=2) Rectangular Rectangular Rectangular U-shaped 1.27 2.54 Uncertainty of Radiated Emission Measurement (1GHz ~ 40GHz) Contribution Receiver reading Antenna factor calibration Cable loss calibration Receiver Correction Antenna Factor Directional Site imperfection Mismatch Receiver VSWR 1 = 0.197 Antenna VSWR 2 = 0.194 Uncertainty=20log(1- 1 * 2 * 3 ) Combined standard uncertainty Uc(y) Measuring uncertainty for a level of confidence of 95%
U=2Ue(y) U(Xi) Uncertainty of Xi dB Probability Distributio Normal(k=1) 0.10 0.10 Normal(k=2) 0.85 1.70 Normal(k=2) 0.25 0.50 Rectangular 1.15 2.00 1.50 Rectangular 0.87 2.80 Triangular 1.14 Ci Ci * U(Xi) 1 1 1 1 1 1 0.10 0.85 0.25 1.15 0.87 1.14
+0.34/-0.35 U-shaped 0.244 1 0.244 2.36 4.72 Test Report No0901FR14 2009 A Test Lab Techno Corp. Page 114 of 114 Rev.00
1 2 | Additional test result for EDGE | Test Report | 167.01 KiB |
Appendix ERP / EIRP & 26 dBc Bandwidth Measurement 1.1 ERP / EIRP Measurement Equivalent ANSI/TIA/EIA-603-B-2002. isotropic radiated power measurements by substitution method according to 1.1.1 Measurement Instruments As described in chapter 5 of this test report. 1.1.2 Test Procedure The phone was tested in an anechoic chamber with a 3-axis position system that permits taking complete spherical scans of the EUTs 3-axis radiation patterns. For all tests, the phone was supported in a free space type environment, vertically oriented in the chamber. Tests were done for GPRS 850three frequencies (824.2, 836.6 and 848.8 MHz) and EGPRS 1900 three frequencies (1850.2, 1880.00, and 1909.80 MHz). GSM measurements were made with the phone placed in a call using the CMU200 mobile station test set. The phone was weakly coupled to the test set and configured to transmit in full data rate mode. The radiated power was measured using ETS-LINDGREN OTA Chamber in Peak mode. From these measurements, the software calculates the angle at which maximum radiated power occurs for each case, and the radiated power at this angle was extracted from the data. Each individual data point in a radiated power or sensitivity measurement is referred to as the effective isotropic radiated power or effective isotropic sensitivity. That is, the desired information is how the measured quantity relates to the same quantity from an isotropic radiator. Thus, the reference measurement must relate the power received or transmitted at the EUT test equipment (spectrum analyzer or communication tester) back to the power transmitted or received at a theoretical isotropic radiator. The total path loss then, is just the difference in dB between the power transmitted or received at the isotropic radiator and that seen at the test equipment (see follow Figure 1). Test Report No0809FR14 2008 A Test Lab Techno Corp. Rev.00 Figure 1. THEORETICAL CASE FOR DETERMINING PATH LOSS In equation form, this becomes:
Equation 1 where PL is the total path loss, PISO is the power radiated by the theoretical isotropic radiator, and PTE is the power received at the test equipment port. As can be seen in Figure 1, this quantity includes the range path loss due to the range length r, the gain of the measurement antenna, and any loss terms associated with the cabling, connections, amplifiers, splitters, etc. between the measurement antenna and the test equipment port. Figure 2 shows a typical real world configuration for measuring the path loss. In this case, a reference antenna with known gain is used in place of the theoretical isotropic source. The path loss may then be determined from the power into the reference antenna by adding the gain of the reference antenna. That is:
Equation 2 where PRA is the power radiated by reference antenna, and GRA is the gain of the reference antenna, so that:
Equation 3 Test Report No0809FR14 2008 A Test Lab Techno Corp. Rev.00 Figure 2. TYPICAL CONFIGURATION FOR MEASURING PATH LOSS In order to determine PRA, it is necessary to perform a cable reference measurement to remove the effects of the cable loss between signal generator and reference antenna, and between the test equipment port and the receiver. This establishes a reference point at the input to the reference antenna. Figure 3 illustrates the cable reference measurement configuration. Assuming the power level at the signal generator is fixed, it is easy to show that the difference between PRA and PTE in Figure 2 is given by:
Equation 4 Figure 3. CABLE REFERENCE CALIBRATION CONFIGURATION Test Report No0809FR14 2008 A Test Lab Techno Corp. Rev.00 Where PRX is the power measured at the receiver during the cable reference test, and PRX is the power measured at the receiver during the range path loss measurement in Figure 2. Thus, the path loss is then just given by:
Equation 5 PL
=
G
+
P RX
'
P RX
'
RA EIRP
=
t PP
+
L Pt = Often referred to as antenna output power 1.1.3 Test Setup Layout of ERP/EIRP Test Report No0809FR14 2008 A Test Lab Techno Corp. Rev.00 1.1.4 Test Result GPRS 850 Radiated Power ERP Maximum Output Power Frequency
(MHz) 824.2 836.4 848.8 Read Level
(dBm) 69.05 69.82 69.82 Correction factor
(dBm)
-48.40
-49.50
-49.70 ERP
(dBm) 20.65 20.32 20.12 EGPRS 1900 Radiated Power EIRP Maximum Output Power Frequency
(MHz) 1850.2 1880.0 1909.8 Read Level
(dBm) 80.94 81.13 81.17 Correction factor
(dBm)
-55.00
-55.30
-55.40 Note: ERP = Read Level + Correction factor EIRP
(dBm) 25.94 25.83 25.77 ERP
(W) 0.116 0.108 0.103 EIRP
(W) 0.393 0.383 0.378 Test Report No0809FR14 2008 A Test Lab Techno Corp. Rev.00 1.2 Occupied Bandwidth and Band Edge Measurement 1.2.1 Measurement Instruments As described in chapter 5 of this test report. 1.2.2 Test Procedure The measurement is made according to FCC rules part 22 and 24:
1. The EUT was connected to Spectrum Analyzer and Base Station via power divider. 2. The occupied bandwidth of middle channel for the highest and lowest RF powers was measured. 3. The band edge of low and high channels for the highest RF powers within the transmitting frequency band were measured. Setting RBW as roughly BW/100. 4. The band edge setting RB=3kHz ; VB=3kHz. 1.2.3 Test Setup Layout Spectrum Analyzer Power divider Attenuator Universal Radio Com. Tester EUT Test Report No0809FR14 2008 A Test Lab Techno Corp. Rev.00 1.2.4 Occupied Bandwidth Test Result Channel Frequency (MHz) Output Power -26 dBc Bandwidth (kHz) GPRS 850 128 190 251 Channel 512 661 810 824.2 836.6 848.8 RB:3KHz , VBW:3KHz EGPRS 1900 Frequency (MHz) 1850.2 1880.0 1909.8 RB:3KHz , VBW:3KHz 243.6587 244.9462 247.7492 Output Power -26 dBc Bandwidth (kHz) 241.8742 242.3042 246.9281 Test Report No0809FR14 2008 A Test Lab Techno Corp. Rev.00
1 2 | Attestation letter | Attestation Statements | 336.94 KiB |
Acer Incorporated 8F, 88, Sec. 1, Hsin Tai Wu Rd., Hsichih Taipei Hsien 221, Taiwan, R.O.C. Tel : 886-2-2696-1234 Fax : 886-2-2696-3535 www.acer.com Product Functional Declaration We, Acer Incorporated, applicant of the Model: ZG5, Aspire One hereby declare that the product is designed for Multi-
band(GPRS/EDGE850/900/1800/1900,WCDMA/HSDPA Band I, Band II, Band IV)operation. CDMA2000R 1x, 1x EV-DOand HSUPA are disabled which do not support in ACER ZG5. Notebook PC Model: ZG5, Aspire One FCC ID:HLZZG53GQ Should you have any questions or comments regarding this matter, please have my best attention. Sincerely yours,
--------------------------
Easy Lai Acer Incorporated September 24, 2008
------------------------
Date
1 2 | Confidentiality request ltter | Cover Letter(s) | 129.65 KiB |
Acer Incorporated HLZZG53GQ Request for Confidentiality Federal Communications Commission 7435 Oakland Mills Road Columbia MD 21046 Subject:
FCC ID:
To Whom It May Concern:
Pursuant to the provisions of Sections 0.457 and 0.459 of the Commissions rules (47 CFR 0.457, 0.459), we are requesting the Commission to withhold the following attachments as confidential document from public disclosure indefinitely. Schematic Diagram, Block Diagram, Theory of Operation, Parts List, Tune-Up Procedure Above mentioned document contains detailed system and equipment description are considered as proprietary information in operation of the equipment. The public disclosure of above documents might be harmful to our company and would give competitor an unfair advantage in the market. It is our understanding that all measurement test reports, FCC ID label format and correspondent during certification review process cannot be granted as confidential documents and those information will be available for public review once the grant of equipment authorization is issued. Best Regards Easy Lai Regulation Center Manager Acer Incorporated 2008/9/12
1 2 | Internal photos 1 of 2 | Internal Photos | 1.61 MiB |
Interior Photographs of EUT Model No.: ZG5, Aspire One FCC ID: HLZZG53GQ Report No.: 0809FR14 EUT Photo _ 6 of 55 EUT Photo _ 7 of 55 EUT Photo _ 8 of 55 EUT Photo _ 9 of 55 EUT Photo _ 10 of 55 EUT Photo _ 10 of 55 EUT Photo _ 12 of 55 EUT Photo _ 13 of 55 EUT Photo _ 16 of 55 EUT Photo _ 17 of 55 EUT Photo _ 18 of 55 EUT Photo _ 19 of 55 EUT Photo _ 20 of 55 EUT Photo _ 21 of 55 EUT Photo _ 22 of 55 EUT Photo _ 23 of 55 EUT Photo _ 24 of 55 EUT Photo _ 25 of 55 EUT Photo _ 26 of 55 EUT Photo _ 27 of 55 EUT Photo _ 28 of 55 EUT Photo _ 29 of 55 EUT Photo _ 30 of 55
1 2 | Internal photos 2 of 2 | Internal Photos | 2.12 MiB |
EUT Photo _ 31 of 55 EUT Photo _ 32 of 55 EUT Photo _ 33 of 55 EUT Photo _ 34 of 55 EUT Photo _ 35 of 55 EUT Photo _ 36 of 55 EUT Photo _ 37 of 55 EUT Photo _ 38 of 55 EUT Photo _ 39 of 55 EUT Photo _ 40 of 55 EUT Photo _ 41 of 55 EUT Photo _ 42 of 55 EUT Photo _ 43 of 55 EUT Photo _ 44 of 55 EUT Photo _ 45 of 55 EUT Photo _ 46 of 55 EUT Photo _ 47 of 55 EUT Photo _ 48 of 55 EUT Photo _ 49 of 55 EUT Photo _ 50 of 55 EUT Photo _ 51 of 55 EUT Photo _ 52 of 55 EUT Photo _ 53 of 55 EUT Photo _ 54 of 55 EUT Photo _ 55 of 55
1 2 | Label format and location | ID Label/Location Info | 294.80 KiB |
FCC ID:HLZZG53GQ Federal Communications Commission Notice This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired operation. HCZG5001010 211,Wen Hwa 2nd Rd., Kuei Shan, Tao Yuan 33377, Taiwan,R.O.C. ZG5 RATING LABEL 0.1 V 2008.05.23 CYNTHIA 1:1 2008.05.23 HCZG5001 CYNTHIA 3A Bottom of the EUT Label location
1 2 | RF test report | Test Report | 1.53 MiB |
A Test Lab Techno Corp. Changan LabNo. 140 -1, Changan Street, Bade City, Taoyuan County, Taiwan R.O.C. Tel886-3-271-0188 / Fax886-3-271-0190 P22 & P24 Test Report Test Report No. 0809FR14 Applicant Manufacturer Model Name Trade Mark Acer Incorporated Quanta Computer Inc. Notebook PC acer Model Number ZG5, Aspire One FCC ID Dates of Test HLZZG53GQ Aug. 21 ~ Sep. 01, 2008 Test Specification 47 CFR Part 22H, 24E & and 24, ANSI/TIA-603-C-2004 Location of Test Lab. Chang-an Lab. 1. The test operations have to be performed with cautious behavior, the test results are as attached. 2. The test results are under chamber environment of A Test Lab Techno Corp. A Test Lab Techno Corp. does not assume responsibility for any conclusions and generalizations drawn from the test results with regard to other specimens or samples. 3. The measurement report has to be written approval of A Test Lab Techno Corp. It may only be reproduced or published in full. Country Huang 20080925 Measurement Center Manager John Cheng 20080925 Testing Engineer Page 1 of 82 2005 A Test Lab Techno Corp. This report shall not be reproduced except in full, without the written approval of A Test Lab Techno Corp. Rev.00 This document may be altered or revised by A Test Lab Techno Corp. personnel only, and shall be noted in the revision section of the document Contents 1. General Information.....................................................................................................................3 2. Test Configuration of Equipment under Test ............................................................................4 2.1 Test Manner..........................................................................................................................4 2.2 Test Mode.............................................................................................................................4 2.3 Connection Diagram of Test System ....................................................................................7 2.4 Ancillary Equipment List.......................................................................................................8 3. General Information of Test Site.................................................................................................9 3.1 Test Voltage..........................................................................................................................9 3.2 Test in Compliance with........................................................................................................9 3.3 Frequency Range Investigated ............................................................................................9 3.4 Test Distance........................................................................................................................9 4. Test Data and Test Result..........................................................................................................10 4.1 List of Measurements and Examinations ...........................................................................10 4.2 RF Output Power................................................................................................................11 4.3 ERP / EIRP Measurement..................................................................................................14 4.4 Occupied Bandwidth and Band Edge Measurement..........................................................19 4.5 Conducted Emission ..........................................................................................................37 4.6 Field Strength of Spurious Radiation..................................................................................43 4.7 Frequency Stability (Temperature Variation) ......................................................................69 4.8 Frequency Stability (Voltage Variation)...............................................................................72 4.9 AC Power Conducted Emissions Requirements ................................................................74 5. List of Measurement Equipments.............................................................................................81 6. Uncertainty Evaluation ..............................................................................................................82 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 2 of 82 Rev.00 Acer Incorporated 8F,88,Sec.1,Hsin Tai Wu Rd. Hsichih, Taipei Hsien 221 Taiwan, R.O.C. 1. General Information Applicant Manufacturer Product Name Trade Mark Model Number FCC ID TX Frequency RX Frequency Antenna Type Maximum Output Power to Antenna
(Conducted) Max. ERP/EIRP Power Type of Emission Power Rating (DC , Voltage and Current of RF element or PA) Digital Modulation Emission Power Supply Type DC Power Cord Adapter DUT Stage Quanta Computer Inc. No.211, Wen Hwa 2nd Rd., Kuei Shan Hsiang, Tao Yuan Shien, Taiwan, R.O.C. Notebook PC acer ZG5, Aspire One HLZZG53GQ 824 - 849 MHz
(GPRS/EGPRS 850) 1850 - 1910 MHz (GPRS/EGPRS 1900) 826 - 847 MHz
(WCDMA /HSDPA Band V) 1852 - 1908 MHz (WCDMA/HSDPA Band II ) 869 - 894 MHz
(GPRS/EGPRS 850) 1930 - 1990 MHz (GPRS/EGPRS 1900) 871 - 892 MHz
(WCDMA /HSDPA Band V) 1932 - 1988 MHz (WCDMA/HSDPA Band II) Internal Antenna 32.35 dBm
(GPRS/EGPRS 850) 28.85 dBm (GPRS/EGPRS 1900) 23.98 dBm
(WCDMA /HSDPA Band V) 23.37 dBm (WCDMA/HSDPA Band II)
(GPRS 850)
(GPRS 1900)
(WCDMA Band V)
(WCDMA Band II) 0.210 W / 23.21 dBm ERP 0.699 W / 28.44 dBm EIRP 0.050 W / 16.95 dBm ERP 0.189 W / 22.77 dBm EIRP GPRS 850 : 250KGXW GPRS 1900 WCDMA Band V WCDMA Band II
: 247KGXW
: 4M17F9W
: 4M18F9W 19V / 1.58 A GMSK(GPRS 850 / PCS1900) QPSK(WCDMA Band V / WCDMA Band II) AC Adapter 1.5 meter, DC Plug LITE-ON / PA-1300-04 Production Unit Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 3 of 82 Rev.00 2. 2.1 Test Configuration of Equipment under Test Test Manner 1. The spurious emission measurements were carried out in semi-anechoic chamber with 3-meter test range. 2. During all testing, EUT is in link mode with base station emulator at maximum power level. (PCL=5 for GPRS 850 or PCL=0 for PCS 1900) 3. Frequency range investigated: radiated emission 30 MHz to 9000 MHz for GSM850; 30MHz to 19000 MHz for PCS 1900. Test Mode 2.2 Preliminary tests were performed in different data mode to find the worst case. The data mode shown in the table below is the worst-case rate (Blue color). Investigation has been done on all the possible configurations for searching the worst cases. The following table is a list of the test modes shown in this test report. Band Date Rate 3Down 2up 3Down 1up 3Down 2up 3Down 1up GPRS850
(Class 10) EGPRS850
(Class 10) CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Conducted Power Worst 32.35 32.21 32.08 32.00 32.20 32.30 26.45 26.31 26.25 26.24 26.26 26.38 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 4 of 82 Rev.00 Band Date Rate GPRS1900
(Class 10) EGPRS1900
(Class 10) 3Down 2up 3Down 1up 3Down 2up 3Down 1up Band Sub-test WCDMA V
---
HSDPA V 1 2 3 4 CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Conducted Power 28.85 28.81 28.76 28.31 28.18 28.12 25.48 25.66 25.71 25.50 25.28 25.24 Worst Conducted Power Worst 23.43 23.85 23.98 20.83 21.25 20.26 20.10 20.22 20.25 18.22 18.58 18.50 17.68 17.82 17.88 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 5 of 82 Rev.00 Band Sub-test WCDMA II
---
HSDPA II 1 2 3 4 CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Conducted Power Worst 23.37 23.11 22.86 21.45 21.58 21.33 20.44 20.65 20.29 18.77 18.92 18.55 18.28 18.31 18.05 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 6 of 82 Rev.00 AC EUT Adapter TEST SITE Power Supply 2.3 Connection Diagram of Test System Conducted Emission Setup During EMI testing (LINK & Stand by Mode) the EUT (Notebook PC)s power port connected to AC adapter. Radiation Spurious Emission Setup During EMI testing (LINK & Stand by Mode) the EUT (Notebook PC)s power port connected to AC Adapter. A mouse was connected to the USB port of Notebook. And a keyboard & printer were connected to the USB ports of Notebook. An external LCD monitor connected the VGA port on AE Notebook. LCD Monitor Power Supply TEST SITE Keyboard Printer Mouse Adapte EUT AC Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 7 of 82 Rev.00 2.4 Ancillary Equipment List 1. Base Station(R&S) CMU200 106656 2. Power Supply (GW) 12P3A H281001 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 8 of 82 Rev.00 3. General Information of Test Site Test Site Location: No. 140 -1, Changan Street, Bade City, Taoyuan County, Taiwan R.O.C. TEL: 886-3-271-0188 FAX: 886-3-271-0190 Registration Number854525 Designation NumberTW1330 The chamber meets the characteristics of ANSI C63.4-2006. This site is on file with the FCC. 3.1 3.2 3.3 3.4 Test Voltage DC 3.7V / 1.41 A (Battery) Test in Compliance with 47 CFR Part 22H, 24E and Part 2. and 24, ANSI/TIA-603-C-2004 Frequency Range Investigated 1. Radiation: from 30 MHz to 9000 MHz for GSM 850. 2. Radiation: from 30 MHz to 19000 MHz for PCS 1900. 3. Radiation: from 30 MHz to 9000 MHz for WCDMA Band V. 4. Radiation: from 30 MHz to 19000 MHz for WCDMA Band II. Test Distance The test distance of radiated emission from antenna to EUT is 3 m. Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 9 of 82 Rev.00 4. 4.1 Test Data and Test Result List of Measurements and Examinations FCC Rule 2.1046 22.913 24.232 2.1049 22.917 24.238(b) 2.1051 2.1053 2.1055 22.355 24.235 2.1055 22.355 24.235 DESCRIPTION OF TEST RF Output Power ERP / EIRP Occupied Bandwidth & Band Edge Measurement Conducted Emission Field Strength of Spurious Radiation Frequency Stability vs. Temperature Frequency Stability vs. Voltage Result Passed Passed Passed Passed Passed Passed Passed 15.207 AC Power Conducted Emissions Requirements Passed Section 4.2 4.3 4.4 4.5 4.6 4.7 4.8 4.9 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 10 of 82 Rev.00 4.2 RF Output Power 4.2.1 Measurement Instruments As described in chapter 5 of this test report. 4.2.2 Test Procedure The measurement is made according to ANSI/TIA-603-C-2004 as follows:
1. The transmitter output was connected to power meter and base station through power divider. 2. Set base station for EUT at GSM 850: PCL=5 and PCS 1900: PCL=0. 3. Set base station for EUT at WCDMA Band V and WCDMA Band II, power level was set to maximum. 4. Select lowest, middle, and highest channels for each band. 4.2.3 Test Setup Layout Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 11 of 82 Rev.00 4.2.4 Test Result Bands Channel GPRS 850 128 190 251 Bands Channel EGPRS 850 128 190 251 Bands Channel GPRS 1900 512 661 810 Bands Channel EGPRS 1900 512 661 810 Frequency
(MHz) Low Mid High 824.2 836.4 848.8 Frequency
(MHz) Low Mid High 824.2 836.4 848.8 Frequency
(MHz) Low Mid High 1850.2 1880.0 1909.8 Frequency
(MHz) Low Mid High 1850.2 1880.0 1909.8 Conducted Power
(dBm) 32.35 32.21 32.08 Conducted Power
(dBm) 26.45 26.31 26.25 Conducted Power
(dBm) 28.85 28.81 28.76 Conducted Power
(dBm) 25.48 25.66 25.71 Conducted Power
(Watts) 1.718 1.663 1.614 Conducted Power
(Watts) 0.442 0.428 0.422 Conducted Power
(Watts) 0.767 0.760 0.752 Conducted Power
(Watts) 0.353 0.368 0.372 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 12 of 82 Rev.00 Bands Channel WCDMA Band V 4132 4182 4233 Frequency
(MHz) Low Mid High 826.4 836.4 846.4 Conducted Power
(dBm) 23.43 23.85 23.98 Bands Channel HSDPA Band V 4132 4182 4233 Frequency
(MHz) Low Mid High 826.4 836.4 846.4 Conducted Power
(dBm) 20.83 21.25 20.26 Bands Channel Frequency
(MHz) WCDMA Band II 9262 9400 9538 Low Mid High 1852.4 1880.0 1907.6 Conducted Power
(dBm) 23.37 23.11 22.86 Bands Channel Frequency
(MHz) HSDPA Band II 9262 9400 9538 Low Mid High 1852.4 1880.0 1907.6 Conducted Power
(dBm) 21.45 21.58 21.33 Conducted Power
(Watts) 0.220 0.243 0.250 Conducted Power
(Watts) 0.121 0.133 0.106 Conducted Power
(Watts) 0.217 0.205 0.193 Conducted Power
(Watts) 0.140 0.144 0.136 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 13 of 82 Rev.00 4.3 ERP / EIRP Measurement Equivalent ANSI/TIA/EIA-603-B-2002. isotropic radiated power measurements by substitution method according to 4.3.1 Measurement Instruments As described in chapter 5 of this test report. 4.3.2 Test Procedure The phone was tested in an anechoic chamber with a 3-axis position system that permits taking complete spherical scans of the EUTs 3-axis radiation patterns. For all tests, the phone was supported in a free space type environment, vertically oriented in the chamber. Tests were done for GSM 850 three frequencies (824.2, 836.6 and 848.8 MHz) and GSM 1900 three frequencies (1850.2, 1880.00, and 1909.80 MHz). GSM measurements were made with the phone placed in a call using the CMU200 mobile station test set. The phone was weakly coupled to the test set and configured to transmit in full data rate mode. The radiated power was measured using ETS-LINDGREN OTA Chamber in Peak mode. From these measurements, the software calculates the angle at which maximum radiated power occurs for each case, and the radiated power at this angle was extracted from the data. Each individual data point in a radiated power or sensitivity measurement is referred to as the effective isotropic radiated power or effective isotropic sensitivity. That is, the desired information is how the measured quantity relates to the same quantity from an isotropic radiator. Thus, the reference measurement must relate the power received or transmitted at the EUT test equipment (spectrum analyzer or communication tester) back to the power transmitted or received at a theoretical isotropic radiator. The total path loss then, is just the difference in dB between the power transmitted or received at the isotropic radiator and that seen at the test equipment (see follow Figure 1). Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 14 of 82 Rev.00 Figure 1. THEORETICAL CASE FOR DETERMINING PATH LOSS In equation form, this becomes:
Equation 1 where PL is the total path loss, PISO is the power radiated by the theoretical isotropic radiator, and PTE is the power received at the test equipment port. As can be seen in Figure 1, this quantity includes the range path loss due to the range length r, the gain of the measurement antenna, and any loss terms associated with the cabling, connections, amplifiers, splitters, etc. between the measurement antenna and the test equipment port. Figure 2 shows a typical real world configuration for measuring the path loss. In this case, a reference antenna with known gain is used in place of the theoretical isotropic source. The path loss may then be determined from the power into the reference antenna by adding the gain of the reference antenna. That is:
Equation 2 where PRA is the power radiated by reference antenna, and GRA is the gain of the reference antenna, so that:
Equation 3 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 15 of 82 Rev.00 Figure 2. TYPICAL CONFIGURATION FOR MEASURING PATH LOSS In order to determine PRA, it is necessary to perform a cable reference measurement to remove the effects of the cable loss between signal generator and reference antenna, and between the test equipment port and the receiver. This establishes a reference point at the input to the reference antenna. Figure 3 illustrates the cable reference measurement configuration. Assuming the power level at the signal generator is fixed, it is easy to show that the difference between PRA and PTE in Figure 2 is given by:
Equation 4 Figure 3. CABLE REFERENCE CALIBRATION CONFIGURATION Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 16 of 82 Rev.00 Where PRX is the power measured at the receiver during the cable reference test, and PRX is the power measured at the receiver during the range path loss measurement in Figure 2. Thus, the path loss is then just given by:
Equation 5 PL
=
G
+
P RX
'
P RX
'
RA EIRP
=
t PP
+
L Pt = Often referred to as antenna output power 4.3.3 Test Setup Layout of ERP/EIRP Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 17 of 82 Rev.00 4.3.4 Test Result GPRS 850 Radiated Power ERP Maximum Output Power Frequency
(MHz) 824.20 836.40 848.80 Read Level
(dBm) 72.01 74.15 75.83 Correction factor
(dBm)
-48.80
-48.80
-48.80 ERP
(dBm) 23.21 25.35 27.03 GPRS 1900 Radiated Power EIRP Maximum Output Power Frequency
(MHz) 1850.20 1880.00 1909.80 Read Level
(dBm) 81.04 83.32 85.34 Correction factor
(dBm)
-54.00
-55.60
-56.90 EIRP
(dBm) 27.04 27.72 28.44 WCDMA Band V Radiated Power ERP Maximum Output Power Frequency
(MHz) 826.40 836.40 846.60 Read Level
(dBm) 63.57 65.48 65.75 Correction factor
(dBm)
-48.80
-48.80
-48.80 ERP
(dBm) 14.77 16.68 16.95 WCDMA Band II Radiated Power EIRP Maximum Output Power Frequency
(MHz) 1852.40 1880.00 1907.60 Read Level
(dBm) 76.62 78.06 79.67 Correction factor
(dBm)
-54.00
-55.60
-56.90 EIRP
(dBm) 22.62 22.46 22.77 Note: ERP = Read Level + Correction factor ERP
(W) 0.210 0.343 0.504 EIRP
(W) 0.506 0.591 0.699 ERP
(W) 0.030 0.047 0.050 EIRP
(W) 0.183 0.176 0.189 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 18 of 82 Rev.00 4.4 Occupied Bandwidth and Band Edge Measurement 4.4.1 Measurement Instruments As described in chapter 5 of this test report. 4.4.2 Test Procedure The measurement is made according to FCC rules part 22 and 24:
1. The EUT was connected to Spectrum Analyzer and Base Station via power divider. 2. The occupied bandwidth of middle channel for the highest and lowest RF powers was measured. 3. The band edge of low and high channels for the highest RF powers within the transmitting frequency band were measured. Setting RBW as roughly BW/100. 4. The band edge setting:
a. RB=3 kHz; VB=3 kHz for GSM 850 and PCS 1900. b. RB=100 kHz; VB=100 kHz for WCDMA Band V and WCDMA Band II. 4.4.3 Test Setup Layout Spectrum Analyzer Power divider Attenuator Universal Radio Com. Tester EUT Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 19 of 82 Rev.00 4.4.4 Occupied Bandwidth Test Result Channel Frequency (MHz) GPRS 850 128 190 251 Channel 512 661 810 Channel 4132 4182 4233 Channel 9262 9400 9538 824.2 836.6 848.8 RB:3KHz , VBW:10KHz GPRS 1900 Frequency (MHz) 1850.2 1880.0 1909.8 RB:3KHz , VBW:10KHz WCDMA Band V Frequency (MHz) 826.4 836.4 846.6 RB:30KHz , VBW:300KHz WCDMA Band II Frequency (MHz) 1852.4 1880.0 1907.6 RB:30KHz , VBW:300KHz Output Power - 26 dBc Bandwidth (kHz) 242.6151 245.3983 250.5487 Output Power - 26 dBc Bandwidth (kHz) 240.0566 241.5075 247.7099 Output Power - 26 dBc Bandwidth (MHz) 4.1577 4.1701 4.1583 Output Power - 26 dBc Bandwidth (MHz) 4.1899 4.1812 4.1769 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 20 of 82 Rev.00 Test Mode: GPRS 850 CH128 99% Occupied Bandwidth Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 21 of 82 Rev.00 Test Mode: GPRS 850 CH190 99% Occupied Bandwidth Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 22 of 82 Rev.00 Test Mode: GPRS 850 CH251 99% Occupied Bandwidth Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 23 of 82 Rev.00 Test Mode: GPRS 1900 CH512 99% Occupied Bandwidth Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 24 of 82 Rev.00 Test Mode: GPRS 1900 CH661 99% Occupied Bandwidth Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 25 of 82 Rev.00 Test Mode: GPRS 1900 CH810 99% Occupied Bandwidth Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 26 of 82 Rev.00 Test Mode: WCDMA Band V CH4132 99% Occupied Bandwidth Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 27 of 82 Rev.00 Test Mode: WCDMA Band V CH4182 99% Occupied Bandwidth Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 28 of 82 Rev.00 Test Mode: WCDMA Band V CH4233 99% Occupied Bandwidth Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 29 of 82 Rev.00 Test Mode: WCDMA Band II CH9262 99% Occupied Bandwidth Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 30 of 82 Rev.00 Test Mode: WCDMA Band II CH9400 99% Occupied Bandwidth Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 31 of 82 Rev.00 Test Mode: WCDMA Band II CH9538 99% Occupied Bandwidth Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 32 of 82 Rev.00 4.4.5 Band Edge Test Result 4.4.5.1 GPRS 850 Test Result Band Lower Higher GPRS 850 Channel Frequency (MHz) Bandwidth (dBm) Limit (dBm) 128 251 823.9973 849.0225
-15.46
-17.02
-13
-13 Please refer to next pager of detail testing data. Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 33 of 82 Rev.00 File :ZG5(GSM850) Data :#1 Date: 2008/9/01 Time:
Radiated Emission Measurement site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 CH128(824.2MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 823.9973
-28.64 13.18
-15.46
-13.00
-2.46 peak
*:Maximum data x:Over limit !:over margin Reference Only Engineer Signature:
1/2 File :ZG5(GSM850) Data :#2 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 CH251(848.8MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 849.0225
-30.27 13.25
-17.02
-13.00
-4.02 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/2 4.4.5.2 GPRS 1900 Test Result Band Lower Higher GPRS 1900 Channel Frequency (MHz) Bandwidth (dBm) Limit (dBm) 512 810 1849.980 1910.020
-17.99
-18.90
-13
-13 Please refer to next pager of detail testing data. Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 34 of 82 Rev.00 File :ZG5(PCS1900) Data :#1 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 CH512(1784.8MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1849.980
-22.24 Correct Factor dB 4.25 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-17.99
-13.00
-4.99 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/2 File :ZG5(PCS1900) Data :#2 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 CH810(1909.8MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1910.020
-24.60 Correct Factor dB 5.70 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-18.90
-13.00
-5.90 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/2 4.4.5.3 WCDMA Band V Test Result Band Lower Higher WCDMA Band V Channel Frequency (MHz) Bandwidth (dBm) Limit (dBm) 4132 4233 824.000 849.000
-19.13
-16.46
-13
-13 Please refer to next pager of detail testing data. Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 35 of 82 Rev.00 File :ZG5(wcdma band5) Data :#1 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 CH4132(824MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 824.0000
-32.31 13.18
-19.13
-13.00
-6.13 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/2 File :ZG5(wcdma band5) Data :#2 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 CH4233(849MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 849.0000
-29.71 13.25
-16.46
-13.00
-3.46 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/2 4.4.5.4 WCDMA Band II Test Result Band Lower Higher WCDMA Band II Channel Frequency (MHz) Bandwidth (dBm) Limit (dBm) 9262 9538 1850.000 1910.000
-16.11
-16.64
-13
-13 Please refer to next pager of detail testing data. Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 36 of 82 Rev.00 File :ZG5(wcdma band2) Data :#1 Date: 2008/9/01 Time:
FCC Part 24 conducted(9k-12.75G) ZG5 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
10db No. Mk. Freq. MHz Reading Level dBm 1 * 1850.000
-20.37 Correct Factor dB 4.26 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-16.11
-13.00
-3.11 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/2 File :ZG5(wcdma band2) Data :#2 Date: 2008/9/01 Time:
FCC Part 24 conducted(9k-12.75G) ZG5 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
10db No. Mk. Freq. MHz Reading Level dBm 1 * 1910.000
-22.34 Correct Factor dB 5.70 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-16.64
-13.00
-3.64 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/2 4.5 Conducted Emission 4.5.1 Measurement Instruments As described in chapter 5 of this test report. 4.5.2 Test Procedure 1. The EUT was connected to Spectrum Analyzer and Base Station via power divider. 2. The middle channel for the highest RF power within the transmitting frequency was measured. 3. The conducted spurious emission for the whole frequency range was taken. 4. Test setting at GSM 850 RB>100 kHz, VB>100 kHz; PCS 1900 RB>1MHz, VB>1MHz. 4.5.3 Test Setup Layout Below 2.8GHz Spectrum Analyzer Power divider Attenuator Universal Radio Com. Tester EUT Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 37 of 82 Rev.00 Above 2.8GHz Spectrum Analyzer High Pass Filter Power divider Universal Radio Com. Tester EUT Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 38 of 82 Rev.00 4.5.4 Test Result 4.5.4.1 GPRS 850 Test Result
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (Low CH128 / Middle CH190 / High CH 251)
: 08/28/2008 Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data. Note: Amplitude= Reading Amplitude + Factor (Cable loss + Filter Amplitude= Insertion loss)
(Auto calculate in spectrum analyzer) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 39 of 82 Rev.00 File :ZG5(CH128) Data :#1 Date: 2008/8/28 Time: 11:04:04 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH128 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
0.6339
-49.04 31.91
-17.13
-13.00
-4.13 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/12 File :ZG5(CH128) Data :#2 Date: 2008/8/28 Time: 11:04:25 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH128 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 824.2500
-41.79
-19.09 Correct Factor dB 14.69 3.84 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-27.10
-15.25
-13.00
-13.00
-14.10
-2.25 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 2/12 File :ZG5(CH128) Data :#3 Date: 2008/8/28 Time: 08:56:37 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH128 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2930.000
-37.63 Correct Factor dB 4.65 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.98
-13.00
-19.98 peak
*:Maximum data x:Over limit !:over margin Reference Only 3/12 File :ZG5(CH128) Data :#4 Date: 2008/8/28 Time: 08:56:58 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH128 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 8623.125
-38.55 Correct Factor dB 5.83 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.72
-13.00
-19.72 peak
*:Maximum data x:Over limit !:over margin Reference Only 4/12 File :ZG5(CH190) Data :#1 Date: 2008/8/28 Time: 11:00:28 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH190 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
1.7585
-50.63 31.05
-19.58
-13.00
-6.58 peak
*:Maximum data x:Over limit !:over margin Reference Only 5/12 File :ZG5(CH190) Data :#2 Date: 2008/8/28 Time: 11:00:49 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH190 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 52.3750 2 * 838.5000
-39.30
-18.00 Correct Factor dB 14.27 3.97 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-25.03
-14.03
-13.00
-13.00
-12.03
-1.03 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 6/12 File :ZG5(CH190) Data :#3 Date: 2008/8/28 Time: 08:57:45 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH190 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2970.000
-36.98 Correct Factor dB 4.56 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.42
-13.00
-19.42 peak
*:Maximum data x:Over limit !:over margin Reference Only F 7/12 File :ZG5(CH190) Data :#4 Date: 2008/8/28 Time: 08:58:06 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH190 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7325.000
-39.37 Correct Factor dB 5.10 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-34.27
-13.00
-21.27 peak
*:Maximum data x:Over limit !:over margin Reference Only 8/12 File :ZG5(CH251) Data :#1 Date: 2008/8/28 Time: 11:10:02 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH251 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
0.2590
-51.20 31.40
-19.80
-13.00
-6.80 peak
*:Maximum data x:Over limit !:over margin Reference Only 9/12 File :ZG5(CH251) Data :#2 Date: 2008/8/28 Time: 11:10:23 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH251 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 850.3750
-41.98
-18.59 Correct Factor dB 14.69 3.98 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree
-27.29
-14.61
-13.00
-13.00
-14.29
-1.61 peak peak Comment
*:Maximum data x:Over limit !:over margin Reference Only 10/12 File :ZG5(CH251) Data :#3 Date: 2008/8/28 Time: 08:58:45 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH251 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2890.000
-37.48 Correct Factor dB 4.71 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.77
-13.00
-19.77 peak
*:Maximum data x:Over limit !:over margin Reference Only 11/12 File :ZG5(CH251) Data :#4 Date: 2008/8/28 Time: 08:59:06 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH251 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7402.500
-39.15 Correct Factor dB 5.20 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.95
-13.00
-20.95 peak
*:Maximum data x:Over limit !:over margin Reference Only 12/12 4.5.4.2 GPRS 1900 Test Result
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (Low CH512 / Middle CH661 / High CH 810)
: 08/28/2008 Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data. Note: Amplitude= Reading Amplitude + Factor (Cable loss + Filter Amplitude= Insertion loss)
(Auto calculate in spectrum analyzer) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 40 of 82 Rev.00 File :ZG5(CH512) Data :#1 Date: 2008/8/28 Time: 09:34:05 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
27.0041
-49.41 13.27
-36.14
-13.00
-23.14 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/15 File :ZG5(CH512) Data :#2 Date: 2008/8/28 Time: 09:34:26 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 624.7500
-37.53 13.10
-24.43
-13.00
-11.43 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/15 File :ZG5(CH512) Data :#3 Date: 2008/8/28 Time: 09:54:14 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1850.500 2 2413.000
-8.90
-37.19 Correct Factor dB 4.26 5.16 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree
-4.64
-32.03
-13.00
-13.00 8.36
-19.03 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 3/15 File :ZG5(CH512) Data :#4 Date: 2008/8/28 Time: 08:48:10 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 12302.25 0 Reading Level dBm
-38.37 Correct Factor dB 5.19 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.18
-13.00
-20.18 peak
*:Maximum data x:Over limit !:over margin Reference Only 4/15 File :ZG5(CH512) Data :#5 Date: 2008/8/28 Time: 08:48:31 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 18622.50 0 Reading Level dBm
-38.74 Correct Factor dB 7.05 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.69
-13.00
-18.69 peak
*:Maximum data x:Over limit !:over margin Reference Only 5/15 File :ZG5(CH661) Data :#1 Date: 2008/8/28 Time: 09:36:02 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
20.6302
-48.95 13.28
-35.67
-13.00
-22.67 peak
*:Maximum data x:Over limit !:over margin Reference Only 6/15 File :ZG5(CH661) Data :#2 Date: 2008/8/28 Time: 09:36:23 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 973.8750
-37.53 13.17
-24.36
-13.00
-11.36 peak
*:Maximum data x:Over limit !:over margin Reference Only 7/15 File :ZG5(CH661) Data :#3 Date: 2008/8/28 Time: 09:57:07 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1882.000 2 2602.000
-14.82
-38.78 Correct Factor dB 4.83 5.45 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree
-9.99
-33.33
-13.00
-13.00 3.01
-20.33 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 8/15 File :ZG5(CH661) Data :#4 Date: 2008/8/28 Time: 08:49:38 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3048.750
-38.60 Correct Factor dB 5.47 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.13
-13.00
-20.13 peak
*:Maximum data x:Over limit !:over margin Reference Only 9/15 File :ZG5(CH661) Data :#5 Date: 2008/8/28 Time: 08:49:59 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 19130.00 0 Reading Level dBm
-39.02 Correct Factor dB 7.19 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.83
-13.00
-18.83 peak
*:Maximum data x:Over limit !:over margin Reference Only 10/15 File :ZG5(CH810) Data :#1 Date: 2008/8/28 Time: 09:37:40 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
10.8819
-49.12 13.29
-35.83
-13.00
-22.83 peak
*:Maximum data x:Over limit !:over margin Reference Only 11/15 File :ZG5(CH810) Data :#2 Date: 2008/8/28 Time: 09:38:02 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 819.5000
-38.10 13.20
-24.90
-13.00
-11.90 peak
*:Maximum data x:Over limit !:over margin Reference Only 12/15 File :ZG5(CH810) Data :#3 Date: 2008/8/28 Time: 09:59:33 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1913.500 2 2557.000
-14.09
-38.42 Correct Factor dB 5.38 5.27 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree
-8.71
-33.15
-13.00
-13.00 4.29
-20.15 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 13/15 File :ZG5(CH810) Data :#4 Date: 2008/8/28 Time: 08:51:42 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3048.750
-38.86 Correct Factor dB 5.47 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.39
-13.00
-20.39 peak
*:Maximum data x:Over limit !:over margin Reference Only 14/15 File :ZG5(CH810) Data :#5 Date: 2008/8/28 Time: 08:52:03 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 13330.00 0 Reading Level dBm
-37.60 Correct Factor dB 5.54 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.06
-13.00
-19.06 peak
*:Maximum data x:Over limit !:over margin Reference Only 15/15 4.5.4.3 WCDMA Band V Test Result
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band V (Low CH4132 / Middle CH4182 / High CH 4233)
: 08/28/2008 Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data. Note: Amplitude= Reading Amplitude + Factor (Cable loss + Filter Amplitude= Insertion loss)
(Auto calculate in spectrum analyzer) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 41 of 82 Rev.00 File :ZG5(CH4132) Data :#1 Date: 2008/8/28 Time: 07:54:27 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4132 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
1.2584
-53.19 31.50
-21.69
-13.00
-8.69 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/12 File :ZG5(CH4132) Data :#2 Date: 2008/8/28 Time: 07:54:48 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4132 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 826.6250
-40.88 18.11 Correct Factor dB 14.69 3.86 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-26.19 21.97
-13.00
-13.00
-13.19 34.97 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 2/12 File :ZG5(CH4132) Data :#3 Date: 2008/8/28 Time: 08:25:50 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4132 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2970.000
-36.21 Correct Factor dB 4.56 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.65
-13.00
-18.65 peak
*:Maximum data x:Over limit !:over margin Reference Only 3/12 File :ZG5(CH4132) Data :#4 Date: 2008/8/28 Time: 08:26:11 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4132 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7363.750
-38.02 Correct Factor dB 5.08 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.94
-13.00
-19.94 peak
*:Maximum data x:Over limit !:over margin Reference Only 4/12 File :ZG5(CH4180) Data :#1 Date: 2008/8/28 Time: 08:03:46 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4180 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
2.2585
-56.11 31.14
-24.97
-13.00
-11.97 peak
*:Maximum data x:Over limit !:over margin Reference Only 5/12 File :ZG5(CH4180) Data :#2 Date: 2008/8/28 Time: 08:04:07 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4180 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 836.1250
-41.15 18.21 Correct Factor dB 14.69 3.96 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-26.46 22.17
-13.00
-13.00
-13.46 35.17 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only F 6/12 File :ZG5(CH4180) Data :#3 Date: 2008/8/28 Time: 08:27:39 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4180 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2950.000
-36.20 Correct Factor dB 4.58 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.62
-13.00
-18.62 peak
*:Maximum data x:Over limit !:over margin Reference Only 7/12 File :ZG5(CH4180) Data :#4 Date: 2008/8/28 Time: 08:28:00 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4180 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7421.875
-37.18 Correct Factor dB 5.21 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.97
-13.00
-18.97 peak
*:Maximum data x:Over limit !:over margin Reference Only 8/12 File :ZG5(CH4233) Data :#1 Date: 2008/8/28 Time: 08:06:49 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4233 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
0.3839
-52.18 31.89
-20.29
-13.00
-7.29 peak
*:Maximum data x:Over limit !:over margin Reference Only 9/12 File :ZG5(CH4233) Data :#2 Date: 2008/8/28 Time: 08:07:10 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4233 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 845.6250
-41.12 17.49 Correct Factor dB 14.69 3.99 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-26.43 21.48
-13.00
-13.00
-13.43 34.48 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 10/12 File :ZG5(CH4233) Data :#3 Date: 2008/8/28 Time: 08:28:59 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4233 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2840.000
-35.71 Correct Factor dB 4.50 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.21
-13.00
-18.21 peak
*:Maximum data x:Over limit !:over margin Reference Only 11/12 File :ZG5(CH4233) Data :#4 Date: 2008/8/28 Time: 08:29:20 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4233 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7363.750
-38.12 Correct Factor dB 5.08 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.04
-13.00
-20.04 peak
*:Maximum data x:Over limit !:over margin Reference Only 12/12 4.5.4.4 WCDMA Band II Test Result
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band II (Low CH9262 / Middle CH9400 / High CH 9536)
: 08/28/2008 Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data. Note: Amplitude= Reading Amplitude + Factor (Cable loss + Filter Amplitude= Insertion loss)
(Auto calculate in spectrum analyzer) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 42 of 82 Rev.00 File :ZG5(CH9262) Data :#1 Date: 2008/8/28 Time: 03:24:24 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
26.6292
-49.01 13.30
-35.71
-13.00
-22.71 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/15 File :ZG5(CH9262) Data :#2 Date: 2008/8/28 Time: 03:24:46 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 857.5000
-36.84 13.25
-23.59
-13.00
-10.59 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/15 File :ZG5(CH9262) Data :#3 Date: 2008/8/28 Time: 03:47:56 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1855.000 2 2773.000 20.14
-37.56 Correct Factor dB 4.29 5.78 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree 24.43
-31.78
-13.00
-13.00 37.43
-18.78 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 3/15 File :ZG5(CH9262) Data :#4 Date: 2008/8/28 Time: 08:35:40 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3148.250
-38.62 Correct Factor dB 5.27 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.35
-13.00
-20.35 peak
*:Maximum data x:Over limit !:over margin Reference Only 4/15 File :ZG5(CH9262) Data :#5 Date: 2008/8/28 Time: 08:36:01 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 13293.75 0 Reading Level dBm
-37.78 Correct Factor dB 5.53 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.25
-13.00
-19.25 peak
*:Maximum data x:Over limit !:over margin Reference Only 5/15 File :ZG5(CH9400) Data :#1 Date: 2008/8/28 Time: 03:27:24 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
22.2547
-48.89 13.29
-35.60
-13.00
-22.60 peak
*:Maximum data x:Over limit !:over margin Reference Only 6/15 File :ZG5(CH9400) Data :#2 Date: 2008/8/28 Time: 03:27:44 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 867.0000
-39.18 13.26
-25.92
-13.00
-12.92 peak
*:Maximum data x:Over limit !:over margin Reference Only 7/15 File :ZG5(CH9400) Data :#3 Date: 2008/8/28 Time: 03:44:45 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1882.000 2 2579.500 19.21
-38.53 Correct Factor dB 4.83 5.35 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree 24.04
-33.18
-13.00
-13.00 37.04
-20.18 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 8/15 File :ZG5(CH9400) Data :#4 Date: 2008/8/28 Time: 08:37:13 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3770.125
-36.86 Correct Factor dB 4.93 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.93
-13.00
-18.93 peak
*:Maximum data x:Over limit !:over margin Reference Only 9/15 File :ZG5(CH9400) Data :#5 Date: 2008/8/28 Time: 08:37:34 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 15885.62 5 Reading Level dBm
-37.37 Correct Factor dB 6.27 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.10
-13.00
-18.10 peak
*:Maximum data x:Over limit !:over margin Reference Only 10/15 File :ZG5(CH9538) Data :#1 Date: 2008/8/28 Time: 03:30:03 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
24.1295
-48.84 13.30
-35.54
-13.00
-22.54 peak
*:Maximum data x:Over limit !:over margin Reference Only 11/15 File :ZG5(CH9538) Data :#2 Date: 2008/8/28 Time: 03:30:24 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 615.2500
-38.49 13.11
-25.38
-13.00
-12.38 peak
*:Maximum data x:Over limit !:over margin Reference Only 12/15 File :ZG5(CH9538) Data :#3 Date: 2008/8/28 Time: 03:39:30 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1909.000 2 2422.000 19.52
-37.95 Correct Factor dB 5.80 5.13 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree 25.32
-32.82
-13.00
-13.00 38.32
-19.82 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 13/15 File :ZG5(CH9538) Data :#4 Date: 2008/8/28 Time: 08:38:46 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3819.875
-29.56 Correct Factor dB 4.91 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-24.65
-13.00
-11.65 peak
*:Maximum data x:Over limit !:over margin Reference Only 14/15 File :ZG5(CH9538) Data :#5 Date: 2008/8/28 Time: 08:39:07 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 18676.87 5 Reading Level dBm
-39.06 Correct Factor dB 7.06 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.00
-13.00
-19.00 peak
*:Maximum data x:Over limit !:over margin Reference Only 15/15 Field Strength of Spurious Radiation 4.6 isotropic Equivalent ANSI/TIA/EIA-603-A . radiated Power Measurements by substitution method according to 4.6.1 Measurement Instruments As described in chapter 5 of this test report. 4.6.2 Test Procedure The measurement is made according to ANSI/TIA-603-C-2004 as follows:
The equipment under test is placed inside the semi-anechoic chamber on a wooden table at the turntable center. For each spurious frequency, the antenna mast is raised and lowered from 1 to 4 meters and the turntable is rotated 360 degrees to obtain a maximum reading on the spectrum analyzer. This is repeated for both horizontal and vertical polarizations of the receive antenna. The equipment under test is then replaced with a substitution antenna fed by a signal generator. With the signal generator tuned to a particular spurious frequency, the antenna mast is raised and lowered from 1 to 4 meters to obtain a maximum reading at the spectrum analyzer. The output of the signal generator is then adjusted until a reading identical to that obtained with the actual transmitter is achieved. The power in dBm of each spurious emission is calculated by correcting the signal generator level for cable loss and gain of the substitution antenna referenced to a dipole. A fully charged battery was used for the supply voltage. The settings of the receiver were as follows:
dBm Units Resolution Bandwidth 1 MHz Video Bandwidth Sweep Time Auto Auto Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 43 of 82 Rev.00 4.6.3 Test Setup Layout Substituted Method Test Set-up Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 44 of 82 Rev.00 4.6.4 Test Result 4.6.4.1 GPRS 850 Test Result Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (Low CH128)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1648.8 2473.2 3297.6 4122.0 4946.4 5770.8 6595.2 7419.6 8244.0 1648.8 2473.2 3297.6 4122.0 4946.4 5770.8 6595.2 7419.6 8244.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.13
-43.65
-28.56
(dBm)
-61.29
-53.69
-38.60
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-59.04
-56.05
-57.38 10.72 10.66 10.78 0.56 0.62 0.74
-48.88
-46.01
-47.34
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 45 of 82 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 46 of 82 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (Middle CH190)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1673.2 2509.8 3346.4 4183.0 5019.6 5856.2 6692.8 7529.4 8366.0 1673.2 2509.8 3346.4 4183.0 5019.6 5856.2 6692.8 7529.4 8366.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.27
-43.70
-28.34
(dBm)
-61.43
-53.74
-38.38
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.30
-56.11
-56.87 10.72 10.66 10.78 0.56 0.62 0.74
-48.14
-46.07
-46.83
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 47 of 82 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 48 of 82 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (High CH 251)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1697.6 2546.4 3395.2 4244.0 5092.8 5941.6 6790.4 7639.2 8488.0 1697.6 2546.4 3395.2 4244.0 5092.8 5941.6 6790.4 7639.2 8488.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.44
-43.79
-28.68
(dBm)
-61.60
-53.83
-38.72
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.11
-55.93
-57.30 10.72 10.66 10.78 0.56 0.62 0.74
-47.95
-45.89
-47.26
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 49 of 82 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 50 of 82 Rev.00 4.6.4.2 GPRS 1900 Test Result Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (Low CH512)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3700.4 5550.6 7400.8 9251.0 11101.2 12951.4 14801.6 16651.8 18502.0 3700.4 5550.6 7400.8 9251.0 11101.2 12951.4 14801.6 16651.8 18502.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-43.34
-38.72
-31.57
(dBm)
-53.50
-48.76
-41.61
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.81
-49.53
-55.41 10.72 10.66 10.78 0.56 0.62 0.74
-46.65
-39.49
-45.37
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 51 of 82 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 52 of 82 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (Middle CH661)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3760.0 5640.0 7520.0 9400.0 11280.0 13160.0 15040.0 16920.0 18800.0 3760.0 5640.0 7520.0 9400.0 11280.0 13160.0 15040.0 16920.0 18800.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-43.45
-39.46
-31.28
(dBm)
-53.61
-49.50
-41.32
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.93
-46.60
-56.24 10.72 10.66 10.78 0.56 0.62 0.74
-46.77
-36.56
-46.20
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 53 of 82 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 54 of 82 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (High CH 810)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3819.6 5729.4 7639.2 9549.0 11458.8 13368.6 15278.4 17188.2 19098.0 3819.6 5729.4 7639.2 9549.0 11458.8 13368.6 15278.4 17188.2 19098.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-43.35
-39.50
-31.60
(dBm)
-53.51
-49.54
-41.64
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.50
-44.17
-55.40 10.72 10.66 10.78 0.56 0.62 0.74
-46.34
-34.13
-45.36
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 55 of 82 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 56 of 82 Rev.00 4.6.4.3 WCDMA Band V Test Result Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCMDA Band V (Low CH4132)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1652.8 2479.2 3305.6 4132.0 4958.4 5784.8 6611.2 7437.6 8264.0 1652.8 2479.2 3305.6 4132.0 4958.4 5784.8 6611.2 7437.6 8264.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.47
-44.01
-28.36
(dBm)
-61.62
-54.06
-38.38
(dBi) 10.74 10.68 10.80
(dBm) 0.59 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.39
-56.17
-56.69 10.74 10.68 10.80 0.59 0.63 0.78
-48.24
-46.12
-46.67
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 57 of 82 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 58 of 82 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band V (Middle CH4182)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-50.23
-42.59
-29.01
(dBm)
-60.38
-52.64
-39.03
(dBi) 10.74 10.68 10.80
(dBm) 0.59 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.43
-55.20
-57.30 10.74 10.68 10.80 0.59 0.63 0.78
-46.28
-45.15
-47.28
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 59 of 82 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 60 of 82 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band V (High CH 4233)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.39
-44.29
-28.41
(dBm)
-61.54
-54.34
-38.43
(dBi) 10.74 10.68 10.80
(dBm) 0.59 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.28
-56.01
-56.56 10.74 10.68 10.80 0.59 0.63 0.78
-48.13
-45.96
-46.54
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 61 of 82 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 62 of 82 Rev.00 4.6.4.4 WCDMA Band II Test Result Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCMDA Band II (Low CH9262)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3704.8 5557.2 7409.6 9262.0 11114.4 12966.8 14819.2 16671.6 18524.0 3704.8 5557.2 7409.6 9262.0 11114.4 12966.8 14819.2 16671.6 18524.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-39.87
-38.66
-31.94
(dBm)
-50.08
-48.74
-41.97
(dBi) 10.79 10.71 10.81
(dBm) 0.58 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.13
-58.50
-55.09 10.79 10.71 10.81 0.58 0.63 0.78
-47.92
-48.42
-45.06
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 63 of 82 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 64 of 82 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band II (Middle CH9400)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3760.0 5640.0 7520.0 9400.0 11280.0 13160.0 15040.0 16920.0 18800.0 3760.0 5640.0 7520.0 9400.0 11280.0 13160.0 15040.0 16920.0 18800.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-33.45
-39.30
-31.07
(dBm)
-43.66
-49.38
-41.10
(dBi) 10.79 10.71 10.81
(dBm) 0.58 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.88
-58.03
-55.89 10.79 10.71 10.81 0.58 0.63 0.78
-46.67
-47.95
-45.86
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
5. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 6. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 7. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 8. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 65 of 82 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 66 of 82 Rev.00 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band II (High CH 9538)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3815.2 5722.8 7630.4 9538.0 11445.6 13353.2 15260.8 17168.4 19076.0 3815.2 5722.8 7630.4 9538.0 11445.6 13353.2 15260.8 17168.4 19076.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-20.68
-39.78
-31.12
(dBm)
-30.89
-49.86
-41.15
(dBi) 10.79 10.71 10.81
(dBm) 0.58 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-40.75
-58.69
-55.80 10.79 10.71 10.81 0.58 0.63 0.78
-30.54
-48.61
-45.77
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
5. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 6. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 7. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 8. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 67 of 82 Rev.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 68 of 82 Rev.00 Frequency Stability (Temperature Variation) 4.7 4.7.1 Measurement Instrument As described in chapter 5 of this test report. 4.7.2 Test Procedure The measurement is made according to FCC rules part 22 and 24:
1. The EUT and test equipment were set up as shown on the following section. 2. With all power removed, the temperature was decreased to -30 and permitted to stabilize for three hours. Power was applied and the maximum change in frequency was note within one minute. 3. With power OFF, the temperature was raised in 10 steps. The sample was permitted to stabilize at each step for at least one-half hour. Power was applied and the maximum frequency change was noted within one minute. 4. The temperature tests were performed for the worst case. 5. Test data was recorded. 4.7.3 Test Setup Layout Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 69 of 82 Rev.00 4.7.4 Test Result Test Mode: GPRS 850 CH190 Temperature
(
)
-30
-20
-10 0 10 20 30 40 50 Deviation
(Hz) 22.19 24.38 22.61 18.79 15.48 23.23 29.57 30.4 22.18 Test Mode: GPRS 1900 CH661 Temperature
(
)
-30
-20
-10 0 10 20 30 40 50 Deviation
(Hz) 30.61 34.27 33.98 35.67 40.66 35.25 34.28 30.17 33.49 Deviation
(ppm) 0.027 0.029 0.027 0.022 0.019 0.028 0.035 0.036 0.027 Deviation
(ppm) 0.016 0.018 0.018 0.019 0.022 0.019 0.018 0.016 0.018 Limit
(ppm) 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 Limit
(ppm) 1 1 1 1 1 1 1 1 1 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 70 of 82 Rev.00 Test Mode: WCDMA Band V CH4182 Temperature
()
-30
-20
-10 0 10 20 30 40 50 Deviation
(Hz) 24.69 35.18 20.91 34.76 20.15 22.98 33.61 34.12 30.57 Test Mode: WCDMA Band II CH9400 Temperature
()
-30
-20
-10 0 10 20 30 40 50 Deviation
(Hz) 42.69 43.85 40.91 41.32 48.48 35.96 32.57 30.44 29.85 Deviation
(ppm) 0.030 0.042 0.025 0.042 0.024 0.027 0.040 0.041 0.037 Deviation
(ppm) 0.023 0.023 0.022 0.022 0.026 0.019 0.017 0.016 0.016 Limit
(ppm) 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 Limit
(ppm) 1 1 1 1 1 1 1 1 1 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 71 of 82 Rev.00 Frequency Stability (Voltage Variation) 4.8 4.8.1 Measurement Instrument As described in chapter 5 of this test report. 4.8.2 Test Procedure 1. The EUT was placed in a temperature chamber at 25 5 and connected as the following section. 2. The power supply voltage to the EUT was varied from BEP to 115% of the nominal value measured at the input to the EUT. 3. The variation in frequency was measured for the worst case. 4.8.3 Test Setup Layout Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 72 of 82 Rev.00 4.8.4 Test Result Test Mode: GPRS 850 CH190 Level Battery full point Normal Battery cut-off point Voltage
[V]
126.5 110.0 93.5 Test Mode: GPRS 1900 CH661 Level Battery full point Normal Battery cut-off point Voltage
[V]
126.5 110.0 93.5 Test Mode: WCDMA Band V CH4182 Level Battery full point Normal Battery cut-off point Voltage
[V]
126.5 110.0 93.5 Test Mode: WCDMA Band II CH9400 Deviation
[Hz]
22.75 15.51 12.69 Deviation
[ppm]
0.027 0.019 0.015 Deviation
[Hz]
39.58 33.33 35.67 Deviation
[ppm]
0.021 0.018 0.019 Deviation
[Hz]
22.72 20.68 36.71 Deviation
[ppm]
0.027 0.025 0.044 Level Battery full point Normal Battery cut-off point Voltage
[V]
126.5 110.0 93.5 Deviation
[Hz]
45.39 48.62 40.37 Deviation
[ppm]
0.024 0.026 0.021 Limit
[ppm]
0.1 0.1 0.1 Limit
[ppm]
1 1 1 Limit
[ppm]
0.1 0.1 0.1 Limit
[ppm]
1 1 1 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 73 of 82 Rev.00 4.9 AC Power Conducted Emissions Requirements 4.9.1 Measurement Instrument As described in chapter 5 of this test report. 4.9.2 Test Procedure The measurement is made according to FCC rules15.207:
The power line conducted emission measurements were performed in a shielded enclosure. The EUT was assembled on a wooden table which is 80 centimeters high, was placed 40 centimeters from the back wall and at least 1 meter from the sidewall. Power was fed to the EUT from the public utility power grid through a line filter and EMCO Model 3162/2 SH Line Impedance Stabilization Networks (LISN). The LISN housing, measuring instrumentation case, ground plane, etc., were electrically bonded together at the same RF potential. The Spectrum analyzer was connected to the AC line through an isolation transformer. The 50-ohm output of the LISN was connected to the spectrum analyzer directly. Conducted emission levels were in the CISPR quasi-peak detection mode. The analyzer's 6 dB bandwidth was set to 9 KHz. No post-detector video filter was used. The spectrum was scanned from 150 KHz to 30 MHz. The physical arrangement of the test system and associated cabling was varied (within the scope of arrangements likely to be encountered in actual use) to determine the effect on the unit's emanations in amplitude and frequency. All spurious emission frequencies were observed. The highest emission amplitudes relative to the appropriate limit were measured and have been recorded in paragraph 2.6. Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 74 of 82 Rev.00 4.9.3 Test Configuration:
Figure 1. Front View of the Test Configuration Figure 2. Rear View of the Test Configuration Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 75 of 82 Rev.00 4.9.4 Test condition:
EUT tested in accordance with the specifications given by the Manufacturer, and exercised in the most unfavorable manner. 4.9.5 Conducted Emissions Limits:
Frequency range (MHz) 0.15 to 0.50 0.50 to 5.0 5.0 to 30 Limits (dBuV) Quasi-peak 66 to 56 56 60 Average 56 to 46 46 50 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 76 of 82 Rev.00 4.9.6 Test Result 4.9.6.1 GPRS 850 Test Result Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data.
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (Low CH128 / Middle CH190 / High CH 251)
: 08/27/2008 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 77 of 82 Rev.00 File :ZG5B C TEST(GSM850GPRS) Data :#1 Date: 2008/8/27 Time: 07:02:46 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH128 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1899 0.1899 0.2500 0.4964 2.4800 2.4800 4.0100 4.0100 4.0100 10.1500 10.1500 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 44.98 22.76 37.96 33.27 38.40 22.63 45.30 38.33 26.83 39.92 23.53 Correct Factor dB 9.74 9.74 9.75 9.78 9.87 9.87 9.97 9.97 9.97 10.07 10.07 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 54.72 32.50 47.71 43.05 48.27 32.50 55.27 48.30 36.80 49.99 33.60 64.04 -9.32 54.04 -21.54 61.75 -14.04 56.06 -13.01 56.00 -7.73 46.00 -13.50 56.00 -0.73 56.00 -7.70 46.00 -9.20 60.00 -10.01 50.00 -16.40 peak AVG peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 1/6 File :ZG5B C TEST(GSM850GPRS) Data :#2 Date: 2008/8/27 Time: 07:18:25 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH128 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1884 0.1884 0.2487 0.5630 0.5630 2.6600 2.6600 3.9560 3.9560 3.9560 11.2500 11.2500 1 2 3 4 5 6 7 8 *
9 10 11 12 Reading Level dBuV 42.21 23.66 35.30 33.37 17.81 37.78 22.47 45.51 37.82 26.22 42.82 29.79 Correct Factor dB 9.74 9.74 9.75 9.79 9.79 9.93 9.93 9.98 9.98 9.98 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 51.95 33.40 45.05 43.16 27.60 47.71 32.40 55.49 47.80 36.20 52.93 39.90 64.10 -12.15 54.10 -20.70 61.80 -16.75 56.00 -12.84 46.00 -18.40 56.00 -8.29 46.00 -13.60 56.00 -0.51 56.00 -8.20 46.00 -9.80 60.00 -7.07 50.00 -10.10 peak AVG peak peak AVG peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 2/6 File :ZG5B C TEST(GSM850GPRS) Data :#3 Date: 2008/8/27 Time: 08:03:12 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH190 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1892 0.2676 2.3270 2.3270 3.9560 3.9560 3.9560 7.2000 11.1000 11.1000 1 2 3 4 5 *
6 7 8 9 10 Reading Level dBuV 41.07 33.95 35.92 21.85 43.04 36.12 24.82 35.82 40.87 27.19 Correct Factor dB 9.74 9.76 9.85 9.85 9.98 9.98 9.98 10.09 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.81 43.71 45.77 31.70 53.02 46.10 34.80 45.91 50.98 37.30 64.07 -13.26 61.19 -17.48 56.00 -10.23 46.00 -14.30 56.00 -2.98 56.00 -9.90 46.00 -11.20 60.00 -14.09 60.00 -9.02 50.00 -12.70 peak peak peak AVG peak QP AVG peak peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 3/6 File :ZG5B C TEST(GSM850GPRS) Data :#4 Date: 2008/8/27 Time: 08:27:21 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH190 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1955 0.2753 0.5810 2.3809 2.3809 4.0190 4.0190 4.0190 11.2000 11.2000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.78 34.06 32.05 36.19 21.86 44.49 36.13 25.13 41.69 28.09 Correct Factor dB 9.74 9.76 9.79 9.84 9.84 9.97 9.97 9.97 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.52 43.82 41.84 46.03 31.70 54.46 46.10 35.10 51.80 38.20 63.80 -13.28 60.95 -17.13 56.00 -14.16 56.00 -9.97 46.00 -14.30 56.00 -1.54 56.00 -9.90 46.00 -10.90 60.00 -8.20 50.00 -11.80 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 4/6 File :ZG5B C TEST(GSM850GPRS) Data :#5 Date: 2008/8/27 Time: 08:40:36 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH251 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1941 0.1941 0.4615 2.8040 2.8040 3.9470 3.9470 3.9470 11.3500 11.3500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 41.16 20.36 33.44 36.34 18.19 43.95 35.92 24.82 40.07 26.68 Correct Factor dB 9.74 9.74 9.78 9.91 9.91 9.98 9.98 9.98 10.12 10.12 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.90 30.10 43.22 46.25 28.10 53.93 45.90 34.80 50.19 36.80 63.85 -12.95 53.85 -23.75 56.67 -13.45 56.00 -9.75 46.00 -17.90 56.00 -2.07 56.00 -10.10 46.00 -11.20 60.00 -9.81 50.00 -13.20 peak AVG peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 5/6 File :ZG5B C TEST(GSM850GPRS) Data :#6 Date: 2008/8/27 Time: 08:54:04 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH251 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1864 0.1864 0.2634 0.5000 2.3270 2.3270 4.0100 4.0100 4.0100 10.9000 10.9000 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 41.54 22.06 34.78 32.60 37.41 21.55 44.25 35.93 24.93 41.46 29.21 Correct Factor dB 9.74 9.74 9.75 9.78 9.85 9.85 9.97 9.97 9.97 10.09 10.09 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 51.28 31.80 44.53 42.38 47.26 31.40 54.22 45.90 34.90 51.55 39.30 64.19 -12.91 54.19 -22.39 61.32 -16.79 56.00 -13.62 56.00 -8.74 46.00 -14.60 56.00 -1.78 56.00 -10.10 46.00 -11.10 60.00 -8.45 50.00 -10.70 peak AVG peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 6/6 4.9.6.2 GPRS 1900 Test Result Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data.
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (Low CH512 / Middle CH661 / High CH 810)
: 08/27/2008 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 78 of 82 Rev.00 File :ZG5B C TEST(PCS1900GPRS) Data :#1 Date: 2008/8/27 Time: 09:09:21 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH512 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1850 0.2627 0.6889 2.3900 2.3900 3.9380 3.9380 3.9380 10.7000 10.7000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.07 34.50 31.66 35.98 21.66 44.06 36.52 24.62 39.85 27.74 Correct Factor dB 9.74 9.75 9.79 9.84 9.84 9.98 9.98 9.98 10.06 10.06 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.81 44.25 41.45 45.82 31.50 54.04 46.50 34.60 49.91 37.80 64.25 -14.44 61.34 -17.09 56.00 -14.55 56.00 -10.18 46.00 -14.50 56.00 -1.96 56.00 -9.50 46.00 -11.40 60.00 -10.09 50.00 -12.20 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 1/6 File :ZG5B C TEST(PCS1900GPRS) Data :#2 Date: 2008/8/27 Time: 09:18:05 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH512 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1857 0.2592 0.5270 2.2640 2.2640 3.9020 3.9020 3.9020 11.0000 11.0000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.80 34.71 32.52 36.28 21.53 43.02 36.33 25.13 42.51 29.00 Correct Factor dB 9.74 9.75 9.79 9.87 9.87 9.97 9.97 9.97 10.10 10.10 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.54 44.46 42.31 46.15 31.40 52.99 46.30 35.10 52.61 39.10 64.22 -13.68 61.45 -16.99 56.00 -13.69 56.00 -9.85 46.00 -14.60 56.00 -3.01 56.00 -9.70 46.00 -10.90 60.00 -7.39 50.00 -10.90 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 2/6 File :ZG5B C TEST(PCS1900GPRS) Data :#3 Date: 2008/8/27 Time: 09:26:07 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH661 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.2039 0.2592 0.6889 2.3000 2.3000 3.9020 3.9020 3.9020 11.0500 11.0500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 38.80 34.33 31.39 35.84 21.64 43.04 36.33 25.03 40.48 27.69 Correct Factor dB 9.74 9.75 9.79 9.86 9.86 9.97 9.97 9.97 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 48.54 44.08 41.18 45.70 31.50 53.01 46.30 35.00 50.59 37.80 63.45 -14.91 61.45 -17.37 56.00 -14.82 56.00 -10.30 46.00 -14.50 56.00 -2.99 56.00 -9.70 46.00 -11.00 60.00 -9.41 50.00 -12.20 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 3/6 File :ZG5B C TEST(PCS1900GPRS) Data :#4 Date: 2008/8/27 Time: 09:41:12 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH661 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1857 0.2809 0.5270 2.2370 2.2370 3.8750 3.8750 3.8750 11.1000 11.1000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 39.97 35.20 32.79 36.23 21.62 44.12 36.34 25.14 41.95 28.59 Correct Factor dB 9.74 9.76 9.79 9.88 9.88 9.96 9.96 9.96 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.71 44.96 42.58 46.11 31.50 54.08 46.30 35.10 52.06 38.70 64.22 -14.51 60.79 -15.83 56.00 -13.42 56.00 -9.89 46.00 -14.50 56.00 -1.92 56.00 -9.70 46.00 -10.90 60.00 -7.94 50.00 -11.30 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 4/6 File :ZG5B C TEST(PCS1900GPRS) Data :#5 Date: 2008/8/27 Time: 09:59:24 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH810 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1870 0.5000 1.3640 2.3000 2.3000 3.9650 3.9650 3.9650 11.2000 11.2000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 38.13 32.13 32.69 35.77 21.64 42.81 36.42 25.02 40.78 26.79 Correct Factor dB 9.74 9.78 9.82 9.86 9.86 9.98 9.98 9.98 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 47.87 41.91 42.51 45.63 31.50 52.79 46.40 35.00 50.89 36.90 64.16 -16.29 56.00 -14.09 56.00 -13.49 56.00 -10.37 46.00 -14.50 56.00 -3.21 56.00 -9.60 46.00 -11.00 60.00 -9.11 50.00 -13.10 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 5/6 File :ZG5B C TEST(PCS1900GPRS) Data :#6 Date: 2008/8/27 Time: 10:06:18 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH810 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1870 0.5000 0.9860 2.3000 2.3000 4.0280 4.0280 4.0280 11.2000 11.2000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.15 33.06 31.41 36.28 21.84 43.69 36.44 25.24 41.88 28.19 Correct Factor dB 9.74 9.78 9.81 9.86 9.86 9.96 9.96 9.96 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.89 42.84 41.22 46.14 31.70 53.65 46.40 35.20 51.99 38.30 64.16 -14.27 56.00 -13.16 56.00 -14.78 56.00 -9.86 46.00 -14.30 56.00 -2.35 56.00 -9.60 46.00 -10.80 60.00 -8.01 50.00 -11.70 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 6/6 4.9.6.3 WCDMA Band V Test Result Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data.
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band V (Low CH4132 / Middle CH4182 / High CH 4233)
: 08/21~22/2008 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 79 of 82 Rev.00 File :ZG5B C TEST(WCDMA) Data :#1 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4132 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1842 0.2529 0.5360 2.4258 2.4258 3.8748 3.8748 11.2000 11.2000 19.8500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 38.04 33.39 33.02 36.14 24.85 42.13 25.95 39.64 28.51 32.13 Correct Factor dB 9.74 9.75 9.79 9.84 9.84 9.96 9.96 10.11 10.11 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 47.78 43.14 42.81 45.98 34.69 52.09 35.91 49.75 38.62 42.37 64.29 -16.51 61.66 -18.52 56.00 -13.19 56.00 -10.02 46.00 -11.31 56.00 -3.91 46.00 -10.09 60.00 -10.25 50.00 -11.38 60.00 -17.63 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 1/6 File :ZG5B C TEST(WCDMA) Data :#2 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4132 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1900 0.5627 1.2646 2.5700 2.5700 3.8567 3.8567 7.2500 11.0000 19.8000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 38.71 30.90 33.28 35.80 22.85 37.70 24.39 31.16 35.48 30.84 Correct Factor dB 9.74 9.79 9.81 9.93 9.93 9.95 9.95 10.09 10.10 10.25 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 48.45 40.69 43.09 45.73 32.78 47.65 34.34 41.25 45.58 41.09 64.03 -15.58 56.00 -15.31 56.00 -12.91 56.00 -10.27 46.00 -13.22 56.00 -8.35 46.00 -11.66 60.00 -18.75 60.00 -14.42 60.00 -18.91 peak peak peak peak AVG peak AVG peak peak peak
*:Maximum data x:Over limit !:over margin Reference Only 2/6 File :ZG5B C TEST(WCDMA) Data :#3 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4182 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1884 0.5180 1.2647 2.1739 2.1739 4.0819 4.0819 11.1000 11.1000 19.8500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 39.16 33.72 33.80 36.77 25.91 41.20 24.86 37.57 27.43 31.61 Correct Factor dB 9.74 9.79 9.81 9.88 9.88 9.96 9.96 10.11 10.11 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 48.90 43.51 43.61 46.65 35.79 51.16 34.82 47.68 37.54 41.85 64.10 -15.20 56.00 -12.49 56.00 -12.39 56.00 -9.35 46.00 -10.21 56.00 -4.84 46.00 -11.18 60.00 -12.32 50.00 -12.46 60.00 -18.15 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 3/6 File :ZG5B C TEST(WCDMA) Data :#4 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4182 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1892 0.5450 0.8960 1.9669 1.9669 3.9468 3.9468 10.9500 10.9500 20.1000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.05 33.33 32.05 35.41 24.47 38.63 23.71 38.90 28.66 29.58 Correct Factor dB 9.74 9.79 9.80 9.84 9.84 9.98 9.98 10.10 10.10 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.79 43.12 41.85 45.25 34.31 48.61 33.69 49.00 38.76 39.82 64.07 -14.28 56.00 -12.88 56.00 -14.15 56.00 -10.75 46.00 -11.69 56.00 -7.39 46.00 -12.31 60.00 -11.00 50.00 -11.24 60.00 -20.18 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 4/6 File :ZG5B C TEST(WCDMA) Data :#5 Date: 2008/8/22 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4233 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1507 0.1869 0.5360 2.4348 2.4348 4.0457 4.0457 10.9500 10.9500 20.3500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 42.78 41.85 32.66 37.14 23.28 40.71 24.85 39.67 25.69 33.60 Correct Factor dB 9.73 9.74 9.79 9.84 9.84 9.96 9.96 10.10 10.10 10.36 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 52.51 51.59 42.45 46.98 33.12 50.67 34.81 49.77 35.79 43.96 65.96 -13.45 64.17 -12.58 56.00 -13.55 56.00 -9.02 46.00 -12.88 56.00 -5.33 46.00 -11.19 60.00 -10.23 50.00 -14.21 60.00 -16.04 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 5/6 File :ZG5B C TEST(WCDMA) Data :#6 Date: 2008/8/22 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4233 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1570 0.1948 0.5360 1.9309 2.7589 2.7589 4.0727 4.0727 11.3000 11.3000 20.0000 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 39.44 39.13 30.32 33.29 36.00 24.48 39.24 25.23 41.08 23.62 32.26 Correct Factor dB 9.73 9.74 9.79 9.84 9.90 9.90 9.96 9.96 10.11 10.11 10.23 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.17 48.87 40.11 43.13 45.90 34.38 49.20 35.19 51.19 33.73 42.49 65.62 -16.45 63.83 -14.96 56.00 -15.89 56.00 -12.87 56.00 -10.10 46.00 -11.62 56.00 -6.80 46.00 -10.81 60.00 -8.81 50.00 -16.27 60.00 -17.51 peak peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 6/6 4.9.6.4 WCDMA Band II Test Result Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data.
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band II (Low CH9262 / Middle CH9400 / High CH 9536)
: 08/21~22/2008 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 80 of 82 Rev.00 File :ZG5B C TEST(WCDMA) Data :#1 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9262 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1842 0.5360 0.9140 2.1739 2.1739 3.8748 3.8748 11.2000 11.2000 19.8500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 39.04 33.52 31.52 36.47 20.78 40.63 22.75 39.64 22.73 33.13 Correct Factor dB 9.74 9.79 9.81 9.88 9.88 9.96 9.96 10.11 10.11 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 48.78 43.31 41.33 46.35 30.66 50.59 32.71 49.75 32.84 43.37 64.29 -15.51 56.00 -12.69 56.00 -14.67 56.00 -9.65 46.00 -15.34 56.00 -5.41 46.00 -13.29 60.00 -10.25 50.00 -17.16 60.00 -16.63 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 1/6 File :ZG5B C TEST(WCDMA) Data :#2 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9262 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1877 0.5450 1.2646 2.2458 2.2458 4.0007 4.0007 11.1000 11.1000 19.8000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.31 32.66 34.28 37.41 24.30 42.68 22.69 41.05 26.48 30.34 Correct Factor dB 9.74 9.79 9.81 9.88 9.88 9.97 9.97 10.11 10.11 10.25 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.05 42.45 44.09 47.29 34.18 52.65 32.66 51.16 36.59 40.59 64.13 -14.08 56.00 -13.55 56.00 -11.91 56.00 -8.71 46.00 -11.82 56.00 -3.35 46.00 -13.34 60.00 -8.84 50.00 -13.41 60.00 -19.41 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 2/6 File :ZG5B C TEST(WCDMA) Data :#3 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9400 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1500 0.2479 0.5450 0.9140 2.5969 2.5969 4.0007 4.0007 11.1000 11.1000 19.8500 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 40.24 33.27 33.14 32.32 36.30 22.39 43.37 24.18 40.07 27.85 34.61 Correct Factor dB 9.73 9.75 9.79 9.81 9.93 9.93 9.97 9.97 10.11 10.11 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.97 43.02 42.93 42.13 46.23 32.32 53.34 34.15 50.18 37.96 44.85 65.99 -16.02 61.82 -18.80 56.00 -13.07 56.00 -13.87 56.00 -9.77 46.00 -13.68 56.00 -2.66 46.00 -11.85 60.00 -9.82 50.00 -12.04 60.00 -15.15 peak peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 3/6 File :ZG5B C TEST(WCDMA) Data :#4 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9400 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1892 0.4873 0.8960 2.3178 2.3178 3.9468 3.9468 6.9000 10.9500 10.9500 20.1000 1 2 3 4 5 6 *
7 8 9 10 11 Reading Level dBuV 40.05 33.40 32.05 36.78 24.31 42.63 23.61 36.47 40.90 28.83 32.08 Correct Factor dB 9.74 9.78 9.80 9.85 9.85 9.98 9.98 10.09 10.10 10.10 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.79 43.18 41.85 46.63 34.16 52.61 33.59 46.56 51.00 38.93 42.32 64.07 -14.28 56.21 -13.03 56.00 -14.15 56.00 -9.37 46.00 -11.84 56.00 -3.39 46.00 -12.41 60.00 -13.44 60.00 -9.00 50.00 -11.07 60.00 -17.68 peak peak peak peak AVG peak AVG peak peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 4/6 File :ZG5B C TEST(WCDMA) Data :#5 Date: 2008/8/22 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9538 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1507 0.1869 0.2479 0.5360 2.8128 2.8128 4.0457 4.0457 10.9500 10.9500 20.3500 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 43.28 41.85 36.13 32.66 37.40 22.51 42.21 23.75 41.17 25.74 34.60 Correct Factor dB 9.73 9.74 9.75 9.79 9.91 9.91 9.96 9.96 10.10 10.10 10.36 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 53.01 51.59 45.88 42.45 47.31 32.42 52.17 33.71 51.27 35.84 44.96 65.96 -12.95 64.17 -12.58 61.82 -15.94 56.00 -13.55 56.00 -8.69 46.00 -13.58 56.00 -3.83 46.00 -12.29 60.00 -8.73 50.00 -14.16 60.00 -15.04 peak peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 5/6 File :ZG5B C TEST(WCDMA) Data :#6 Date: 2008/8/22 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9538 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1948 0.5270 0.8960 2.5517 2.5517 4.0100 4.0100 11.3000 11.3000 19.8000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 41.13 34.43 33.66 35.73 22.79 42.09 24.81 40.58 28.68 31.33 Correct Factor dB 9.74 9.79 9.80 9.93 9.93 9.97 9.97 10.11 10.11 10.25 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.87 44.22 43.46 45.66 32.72 52.06 34.78 50.69 38.79 41.58 63.83 -12.96 56.00 -11.78 56.00 -12.54 56.00 -10.34 46.00 -13.28 56.00 -3.94 46.00 -11.22 60.00 -9.31 50.00 -11.21 60.00 -18.42 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 6/6 5. List of Measurement Equipments Manufacturer Name of Equipment Type/Model Serial Number Agilent R&S Spectrum analyzer Receiver E4408B ESCI MY45107753 Jun. 05, 2008 Calibration Last Cal. Due Date Jun. 05, 2009 100367 Jun. 05, 2008 Jun. 05, 2009 SCHWARZBECK Trilog Broadband Antenna VULB 9163 9163-270 Jun. 26, 2008 Jun. 26, 2009 SCHWARZBECK Broadband Horn Antenna BBHA 9120D 9120D-550 Jun. 26, 2008 Jun. 26, 2009 SCHWARZBECK Broadband Horn Antenna BBHA 9170 9170-320 Jun. 09, 2008 Aug. 07, 2009 Agilent Amplifier 8447D 2944A10961 Jun. 10, 2008 Jun. 10, 2009 Universal Radio Communication Tester ROHDE & SCHWARZ Spectrum Analyzer Agilent Loop Dipole Loop Dipole Sleeve Dipole Sleeve Dipole ETS-Lindgren ETS-Lindgren ETS-Lindgren ETS-Lindgren CMU200 112387 Oct. 24, 2007 Oct. 24, 2008 E4445A MY45300744 Nov. 29, 2007 Nov. 29, 2008 3127-1880 3127-836 3126-1845 3126-880 00052640 00055272 00056670 00052705 Jul. 02, 2008 Jul. 02, 2009 Jun. 29, 2008 Jun. 29, 2009 Jun. 29, 2008 Jun. 29, 2009 Jun. 29, 2008 Jun. 29, 2009 Anechoic Chamber ETS-Lindgren AMS 8500 S/N 102165 High Pass Filter MICRO-TRONICS HPM50108 High Pass Filter MICRO-TRONICS HPM50111 020 021 Circularly Polarized Communication Antennas EMCO 3102 00051714 Pattern Measurement Software ETS-Lindgren Desktop Computer with Windows XP Antenna Positioner Controller MAPS Positioner Filter Filter Attenuator Splitter Power divider EMCO EMCO K&L K&L RADIALL Powercom Agilent EMQuest EMQ-100 Dell Computers NA NA 2090 00052447 2010/2015 5TNF-1700/
2000-0.1N/N 3TNF-800/
1000-0.2N/N R41572000 NA 166 274 0603033073 SGR-GFQ-2-D 41106609 87302C 3239A00760 NA NA NA NA NA NA NA NA NA NA NA NA NA Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 81 of 82 Rev.00 Uncertainty Evaluation 6. Uncertainty of Radiated Emission Measurement (30MHz ~ 1000MHz) Contribution Receiver reading Antenna factor calibration Cable loss calibration Pre Amplifier Gain calibration RCV/SPA specification Antenna Factor Interpolation for Frequency Site imperfection Mismatch combined standard uncertainty Uc(y) Measuring uncertainty for a level of confidence of 95%
U=2Uc(y) Uncertainty of Xi dB 0.41 0.83 0.25 0.27 2.50 1.00 1.43
+0.39/-0.41 U(Xi) 0.21 0.42 0.13 0.14 0.72 0.29 0.83 0.28 Probability Distribution Normal(k=2) Normal(k=2) Normal(k=2) Normal(k=2) Rectangular Rectangular Rectangular U-shaped 1.27 2.54 Uncertainty of Radiated Emission Measurement (1GHz ~ 40GHz) Contribution Receiver reading Antenna factor calibration Cable loss calibration Receiver Correction Antenna Factor Directional Site imperfection Mismatch Receiver VSWR 1 = 0.197 Antenna VSWR 2 = 0.194 Uncertainty=20log(1- 1 * 2 * 3 ) Combined standard uncertainty Uc(y) Measuring uncertainty for a level of confidence of 95%
U=2Ue(y) U(Xi) Uncertainty of Xi dB Probability Distributio Normal(k=1) 0.10 0.10 Normal(k=2) 0.85 1.70 Normal(k=2) 0.25 0.50 Rectangular 1.15 2.00 1.50 Rectangular 0.87 2.80 Triangular 1.14 Ci Ci * U(Xi) 1 1 1 1 1 1 0.10 0.85 0.25 1.15 0.87 1.14
+0.34/-0.35 U-shaped 0.244 1 0.244 2.36 4.72 Test Report No0809FR14 2005 A Test Lab Techno Corp. Page 82 of 82 Rev.00
1 2 | Revised Part 22 and 24 test report | Test Report | 1.31 MiB |
A Test Lab Techno Corp. Changan LabNo. 140 -1, Changan Street, Bade City, Taoyuan County, Taiwan R.O.C. Tel886-3-271-0188 / Fax886-3-271-0190 P22 & P24 Test Report Test Report No. 0809FR14 Applicant Manufacturer Model Name Trade Mark Acer Incorporated Quanta Computer Inc. Notebook PC acer Model Number ZG5, Aspire One FCC ID HLZZG53GQ Dates of Test Aug. 21 ~ Sep. 01, 2008 Test Specification 47 CFR Part 22H, 24E & and 24, ANSI/TIA-603-C-2004 Location of Test Lab. Chang-an Lab. 1. The test operations have to be performed with cautious behavior, the test results are as attached. 2. The test results are under chamber environment of A Test Lab Techno Corp. A Test Lab Techno Corp. does not assume responsibility for any conclusions and generalizations drawn from the test results with regard to other specimens or samples. 3. The measurement report has to be written approval of A Test Lab Techno Corp. It may only be reproduced or published in full. Country Huang 20090122 Measurement Center Manager John Cheng 20090122 Testing Engineer Page 1 of 82 2009 A Test Lab Techno Corp. This report shall not be reproduced except in full, without the written approval of A Test Lab Techno Corp. Rev.01 This document may be altered or revised by A Test Lab Techno Corp. personnel only, and shall be noted in the revision section of the document Contents 1. General Information.....................................................................................................................3 2. Test Configuration of Equipment under Test ............................................................................4 2.1 Test Manner..........................................................................................................................4 2.2 Test Mode.............................................................................................................................4 2.3 Connection Diagram of Test System ....................................................................................7 2.4 Ancillary Equipment List.......................................................................................................8 3. General Information of Test Site.................................................................................................9 3.1 Test Voltage..........................................................................................................................9 3.2 Test in Compliance with........................................................................................................9 3.3 Frequency Range Investigated ............................................................................................9 3.4 Test Distance........................................................................................................................9 4. Test Data and Test Result..........................................................................................................10 4.1 List of Measurements and Examinations ...........................................................................10 4.2 RF Output Power................................................................................................................11 4.3 ERP / EIRP Measurement..................................................................................................14 4.4 Occupied Bandwidth and Band Edge Measurement..........................................................19 4.5 Conducted Emission ..........................................................................................................37 4.6 Field Strength of Spurious Radiation..................................................................................43 4.7 Frequency Stability (Temperature Variation) ......................................................................69 4.8 Frequency Stability (Voltage Variation)...............................................................................72 4.9 AC Power Conducted Emissions Requirements ................................................................74 5. List of Measurement Equipments.............................................................................................81 6. Uncertainty Evaluation ..............................................................................................................82 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 2 of 82 Rev.01 Acer Incorporated 8F,88,Sec.1,Hsin Tai Wu Rd. Hsichih, Taipei Hsien 221 Taiwan, R.O.C. 1. General Information Applicant Manufacturer Product Name Trade Mark Model Number FCC ID TX Frequency RX Frequency Antenna Type Maximum Output Power to Antenna
(Conducted) Max. ERP/EIRP Power Type of Emission Power Rating (DC , Voltage and Current of RF element or PA) Digital Modulation Emission Power Supply Type DC Power Cord Adapter DUT Stage Quanta Computer Inc. No.211, Wen Hwa 2nd Rd., Kuei Shan Hsiang, Tao Yuan Shien, Taiwan, R.O.C. Notebook PC acer ZG5, Aspire One HLZZG53GQ 824 - 849 MHz
(GPRS/EGPRS 850) 1850 - 1910 MHz (GPRS/EGPRS 1900) 826 - 847 MHz
(WCDMA /HSDPA Band V) 1852 - 1908 MHz (WCDMA/HSDPA Band II ) 869 - 894 MHz
(GPRS/EGPRS 850) 1930 - 1990 MHz (GPRS/EGPRS 1900) 871 - 892 MHz
(WCDMA /HSDPA Band V) 1932 - 1988 MHz (WCDMA/HSDPA Band II) Internal Antenna 32.35 dBm
(GPRS/EGPRS 850) 28.85 dBm (GPRS/EGPRS 1900) 23.98 dBm
(WCDMA /HSDPA Band V) 23.37 dBm (WCDMA/HSDPA Band II)
(GPRS 850)
(GPRS 1900)
(WCDMA Band V)
(WCDMA Band II) 0.210 W / 23.21 dBm ERP 0.699 W / 28.44 dBm EIRP 0.138 W / 21.39 dBm ERP 0.590 W / 27.71 dBm EIRP GPRS 850 : 250KGXW GPRS 1900 WCDMA Band V WCDMA Band II
: 247KGXW
: 4M17F9W
: 4M18F9W 19V / 1.58 A GMSK(GPRS 850 / PCS1900) QPSK(WCDMA Band V / WCDMA Band II) AC Adapter 1.5 meter, DC Plug LITE-ON / PA-1300-04 Production Unit Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 3 of 82 Rev.01 2. 2.1 Test Configuration of Equipment under Test Test Manner 1. The spurious emission measurements were carried out in semi-anechoic chamber with 3-meter test range. 2. During all testing, EUT is in link mode with base station emulator at maximum power level. (PCL=5 for GPRS 850 or PCL=0 for PCS 1900) 3. Frequency range investigated: radiated emission 30 MHz to 9000 MHz for GSM850; 30MHz to 19000 MHz for PCS 1900. Test Mode 2.2 Preliminary tests were performed in different data mode to find the worst case. The data mode shown in the table below is the worst-case rate (Blue color). Investigation has been done on all the possible configurations for searching the worst cases. The following table is a list of the test modes shown in this test report. Band Date Rate 3Down 2up 3Down 1up 3Down 2up 3Down 1up GPRS850
(Class 10) EGPRS850
(Class 10) CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Conducted Power Worst 32.35 32.21 32.08 32.00 32.20 32.30 26.45 26.31 26.25 26.24 26.26 26.38 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 4 of 82 Rev.01 Band Date Rate GPRS1900
(Class 10) EGPRS1900
(Class 10) 3Down 2up 3Down 1up 3Down 2up 3Down 1up Band Sub-test WCDMA V
---
HSDPA V 1 2 3 4 CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Conducted Power Worst 28.85 28.81 28.76 28.31 28.18 28.12 25.48 25.66 25.71 25.50 25.28 25.24 Conducted Power Worst 23.43 23.85 23.98 20.83 21.25 20.26 20.10 20.22 20.25 18.22 18.58 18.50 17.68 17.82 17.88 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 5 of 82 Rev.01 Band Sub-test WCDMA II
---
HSDPA II 1 2 3 4 CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Conducted Power Worst 23.37 23.11 22.86 21.45 21.58 21.33 20.44 20.65 20.29 18.77 18.92 18.55 18.28 18.31 18.05 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 6 of 82 Rev.01 AC EUT Adapter TEST SITE Power Supply 2.3 Connection Diagram of Test System Conducted Emission Setup During EMI testing (LINK & Stand by Mode) the EUT (Notebook PC)s power port connected to AC adapter. Radiation Spurious Emission Setup During EMI testing (LINK & Stand by Mode) the EUT (Notebook PC)s power port connected to AC Adapter. A mouse was connected to the USB port of Notebook. And a keyboard & printer were connected to the USB ports of Notebook. An external LCD monitor connected the VGA port on AE Notebook. LCD Monitor Power Supply TEST SITE Keyboard Printer Mouse Adapte EUT AC Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 7 of 82 Rev.01 2.4 Ancillary Equipment List 1. Base Station(R&S) CMU200 106656 2. Power Supply (GW) 12P3A H281001 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 8 of 82 Rev.01 3. General Information of Test Site Test Site Location: No. 140 -1, Changan Street, Bade City, Taoyuan County, Taiwan R.O.C. TEL: 886-3-271-0188 FAX: 886-3-271-0190 Registration Number854525 Designation NumberTW1330 The chamber meets the characteristics of ANSI C63.4-2006. This site is on file with the FCC. 3.1 3.2 3.3 3.4 Test Voltage DC 3.7V / 1.41 A (Battery) Test in Compliance with 47 CFR Part 22H, 24E and Part 2. and 24, ANSI/TIA-603-C-2004 Frequency Range Investigated 1. Radiation: from 30 MHz to 9000 MHz for GSM 850. 2. Radiation: from 30 MHz to 19000 MHz for PCS 1900. 3. Radiation: from 30 MHz to 9000 MHz for WCDMA Band V. 4. Radiation: from 30 MHz to 19000 MHz for WCDMA Band II. Test Distance The test distance of radiated emission from antenna to EUT is 3 m. Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 9 of 82 Rev.01 4. 4.1 Test Data and Test Result List of Measurements and Examinations FCC Rule 2.1046 22.913 24.232 2.1049 22.917 24.238(b) 2.1051 2.1053 2.1055 22.355 24.235 2.1055 22.355 24.235 DESCRIPTION OF TEST RF Output Power ERP / EIRP Occupied Bandwidth & Band Edge Measurement Conducted Emission Field Strength of Spurious Radiation Frequency Stability vs. Temperature Frequency Stability vs. Voltage Result Passed Passed Passed Passed Passed Passed Passed 15.207 AC Power Conducted Emissions Requirements Passed Section 4.2 4.3 4.4 4.5 4.6 4.7 4.8 4.9 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 10 of 82 Rev.01 4.2 RF Output Power 4.2.1 Measurement Instruments As described in chapter 5 of this test report. 4.2.2 Test Procedure The measurement is made according to ANSI/TIA-603-C-2004 as follows:
1. The transmitter output was connected to power meter and base station through power divider. 2. Set base station for EUT at GSM 850: PCL=5 and PCS 1900: PCL=0. 3. Set base station for EUT at WCDMA Band V and WCDMA Band II, power level was set to maximum. 4. Select lowest, middle, and highest channels for each band. 4.2.3 Test Setup Layout Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 11 of 82 Rev.01 4.2.4 Test Result Bands Channel GPRS 850 128 190 251 Bands Channel EGPRS 850 128 190 251 Bands Channel GPRS 1900 512 661 810 Bands Channel EGPRS 1900 512 661 810 Frequency
(MHz) Low Mid High 824.2 836.4 848.8 Frequency
(MHz) Low Mid High 824.2 836.4 848.8 Frequency
(MHz) Low Mid High 1850.2 1880.0 1909.8 Frequency
(MHz) Low Mid High 1850.2 1880.0 1909.8 Conducted Power
(dBm) 32.35 32.21 32.08 Conducted Power
(dBm) 26.45 26.31 26.25 Conducted Power
(dBm) 28.85 28.81 28.76 Conducted Power
(dBm) 25.48 25.66 25.71 Conducted Power
(Watts) 1.718 1.663 1.614 Conducted Power
(Watts) 0.442 0.428 0.422 Conducted Power
(Watts) 0.767 0.760 0.752 Conducted Power
(Watts) 0.353 0.368 0.372 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 12 of 82 Rev.01 Bands Channel WCDMA Band V 4132 4182 4233 Frequency
(MHz) Low Mid High 826.4 836.4 846.4 Conducted Power
(dBm) 23.43 23.85 23.98 Bands Channel HSDPA Band V 4132 4182 4233 Frequency
(MHz) Low Mid High 826.4 836.4 846.4 Conducted Power
(dBm) 20.83 21.25 20.26 Bands Channel Frequency
(MHz) WCDMA Band II 9262 9400 9538 Low Mid High 1852.4 1880.0 1907.6 Conducted Power
(dBm) 23.37 23.11 22.86 Bands Channel Frequency
(MHz) HSDPA Band II 9262 9400 9538 Low Mid High 1852.4 1880.0 1907.6 Conducted Power
(dBm) 21.45 21.58 21.33 Conducted Power
(Watts) 0.220 0.243 0.250 Conducted Power
(Watts) 0.121 0.133 0.106 Conducted Power
(Watts) 0.217 0.205 0.193 Conducted Power
(Watts) 0.140 0.144 0.136 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 13 of 82 Rev.01 4.3 ERP / EIRP Measurement Equivalent ANSI/TIA/EIA-603-B-2002. isotropic radiated power measurements by substitution method according to 4.3.1 Measurement Instruments As described in chapter 5 of this test report. 4.3.2 Test Procedure The phone was tested in an anechoic chamber with a 3-axis position system that permits taking complete spherical scans of the EUTs 3-axis radiation patterns. For all tests, the phone was supported in a free space type environment, vertically oriented in the chamber. Tests were done for GSM 850 three frequencies (824.2, 836.6 and 848.8 MHz) and GSM 1900 three frequencies (1850.2, 1880.00, and 1909.80 MHz). GSM measurements were made with the phone placed in a call using the CMU200 mobile station test set. The phone was weakly coupled to the test set and configured to transmit in full data rate mode. The radiated power was measured using ETS-LINDGREN OTA Chamber in Peak mode. From these measurements, the software calculates the angle at which maximum radiated power occurs for each case, and the radiated power at this angle was extracted from the data. Each individual data point in a radiated power or sensitivity measurement is referred to as the effective isotropic radiated power or effective isotropic sensitivity. That is, the desired information is how the measured quantity relates to the same quantity from an isotropic radiator. Thus, the reference measurement must relate the power received or transmitted at the EUT test equipment (spectrum analyzer or communication tester) back to the power transmitted or received at a theoretical isotropic radiator. The total path loss then, is just the difference in dB between the power transmitted or received at the isotropic radiator and that seen at the test equipment (see follow Figure 1). Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 14 of 82 Rev.01 Figure 1. THEORETICAL CASE FOR DETERMINING PATH LOSS In equation form, this becomes:
Equation 1 where PL is the total path loss, PISO is the power radiated by the theoretical isotropic radiator, and PTE is the power received at the test equipment port. As can be seen in Figure 1, this quantity includes the range path loss due to the range length r, the gain of the measurement antenna, and any loss terms associated with the cabling, connections, amplifiers, splitters, etc. between the measurement antenna and the test equipment port. Figure 2 shows a typical real world configuration for measuring the path loss. In this case, a reference antenna with known gain is used in place of the theoretical isotropic source. The path loss may then be determined from the power into the reference antenna by adding the gain of the reference antenna. That is:
Equation 2 where PRA is the power radiated by reference antenna, and GRA is the gain of the reference antenna, so that:
Equation 3 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 15 of 82 Rev.01 Figure 2. TYPICAL CONFIGURATION FOR MEASURING PATH LOSS In order to determine PRA, it is necessary to perform a cable reference measurement to remove the effects of the cable loss between signal generator and reference antenna, and between the test equipment port and the receiver. This establishes a reference point at the input to the reference antenna. Figure 3 illustrates the cable reference measurement configuration. Assuming the power level at the signal generator is fixed, it is easy to show that the difference between PRA and PTE in Figure 2 is given by:
Equation 4 Figure 3. CABLE REFERENCE CALIBRATION CONFIGURATION Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 16 of 82 Rev.01 Where PRX is the power measured at the receiver during the cable reference test, and PRX is the power measured at the receiver during the range path loss measurement in Figure 2. Thus, the path loss is then just given by:
Equation 5 PL
=
G
+
P RX
'
P RX
'
RA EIRP
=
+
t PP L Pt = Often referred to as antenna output power 4.3.3 Test Setup Layout of ERP/EIRP Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 17 of 82 Rev.01 4.3.4 Test Result GPRS 850 Radiated Power ERP Maximum Output Power Frequency
(MHz) 824.20 836.40 848.80 Read Level
(dBm) 72.01 74.15 75.83 Correction factor
(dBm)
-48.80
-48.80
-48.80 ERP
(dBm) 23.21 25.35 27.03 GPRS 1900 Radiated Power EIRP Maximum Output Power Frequency
(MHz) 1850.20 1880.00 1909.80 Read Level
(dBm) 81.04 83.32 85.34 Correction factor
(dBm)
-54.00
-55.60
-56.90 EIRP
(dBm) 27.04 27.72 28.44 WCDMA Band V Radiated Power ERP Maximum Output Power Frequency
(MHz) 826.40 836.40 846.60 Read Level
(dBm) 68.79 70.88 71.09 Correction factor
(dBm)
-49.50
-49.70
-49.70 ERP
(dBm) 19.29 21.18 21.39 WCDMA Band II Radiated Power EIRP Maximum Output Power Frequency
(MHz) 1852.40 1880.00 1907.60 Read Level
(dBm) 83.11 83.21 83.31 Correction factor
(dBm)
-55.40
-55.60
-55.70 EIRP
(dBm) 27.71 27.61 27.61 Note: ERP = Read Level + Correction factor ERP
(W) 0.210 0.343 0.504 EIRP
(W) 0.506 0.591 0.699 ERP
(W) 0.085 0.131 0.138 EIRP
(W) 0.590 0.577 0.576 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 18 of 82 Rev.01 4.4 Occupied Bandwidth and Band Edge Measurement 4.4.1 Measurement Instruments As described in chapter 5 of this test report. 4.4.2 Test Procedure The measurement is made according to FCC rules part 22 and 24:
1. The EUT was connected to Spectrum Analyzer and Base Station via power divider. 2. The occupied bandwidth of middle channel for the highest and lowest RF powers was measured. 3. The band edge of low and high channels for the highest RF powers within the transmitting frequency band were measured. Setting RBW as roughly BW/100. 4. The band edge setting:
a. RB=3 kHz; VB=3 kHz for GSM 850 and PCS 1900. b. RB=100 kHz; VB=100 kHz for WCDMA Band V and WCDMA Band II. 4.4.3 Test Setup Layout Spectrum Analyzer Power divider Attenuator Universal Radio Com. Tester EUT Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 19 of 82 Rev.01 4.4.4 Occupied Bandwidth Test Result Channel Frequency (MHz) GPRS 850 128 190 251 Channel 512 661 810 Channel 4132 4182 4233 Channel 9262 9400 9538 824.2 836.6 848.8 RB:3KHz , VBW:10KHz GPRS 1900 Frequency (MHz) 1850.2 1880.0 1909.8 RB:3KHz , VBW:10KHz WCDMA Band V Frequency (MHz) 826.4 836.4 846.6 RB:30KHz , VBW:300KHz WCDMA Band II Frequency (MHz) 1852.4 1880.0 1907.6 RB:30KHz , VBW:300KHz Output Power - 26 dBc Bandwidth (kHz) 242.6151 245.3983 250.5487 Output Power - 26 dBc Bandwidth (kHz) 240.0566 241.5075 247.7099 Output Power - 26 dBc Bandwidth (MHz) 4.1577 4.1701 4.1583 Output Power - 26 dBc Bandwidth (MHz) 4.1899 4.1812 4.1769 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 20 of 82 Rev.01 Test Mode: GPRS 850 CH128 99% Occupied Bandwidth Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 21 of 82 Rev.01 Test Mode: GPRS 850 CH190 99% Occupied Bandwidth Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 22 of 82 Rev.01 Test Mode: GPRS 850 CH251 99% Occupied Bandwidth Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 23 of 82 Rev.01 Test Mode: GPRS 1900 CH512 99% Occupied Bandwidth Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 24 of 82 Rev.01 Test Mode: GPRS 1900 CH661 99% Occupied Bandwidth Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 25 of 82 Rev.01 Test Mode: GPRS 1900 CH810 99% Occupied Bandwidth Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 26 of 82 Rev.01 Test Mode: WCDMA Band V CH4132 99% Occupied Bandwidth Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 27 of 82 Rev.01 Test Mode: WCDMA Band V CH4182 99% Occupied Bandwidth Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 28 of 82 Rev.01 Test Mode: WCDMA Band V CH4233 99% Occupied Bandwidth Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 29 of 82 Rev.01 Test Mode: WCDMA Band II CH9262 99% Occupied Bandwidth Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 30 of 82 Rev.01 Test Mode: WCDMA Band II CH9400 99% Occupied Bandwidth Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 31 of 82 Rev.01 Test Mode: WCDMA Band II CH9538 99% Occupied Bandwidth Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 32 of 82 Rev.01 4.4.5 Band Edge Test Result 4.4.5.1 GPRS 850 Test Result Band Lower Higher GPRS 850 Channel Frequency (MHz) Bandwidth (dBm) Limit (dBm) 128 251 823.9973 849.0225
-15.46
-17.02
-13
-13 Please refer to next pager of detail testing data. Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 33 of 82 Rev.01 File :ZG5(GSM850) Data :#1 Date: 2008/9/01 Time:
Radiated Emission Measurement site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 CH128(824.2MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 823.9973
-28.64 13.18
-15.46
-13.00
-2.46 peak
*:Maximum data x:Over limit !:over margin Reference Only Engineer Signature:
1/2 File :ZG5(GSM850) Data :#2 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 CH251(848.8MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 849.0225
-30.27 13.25
-17.02
-13.00
-4.02 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/2 4.4.5.2 GPRS 1900 Test Result Band Lower Higher GPRS 1900 Channel Frequency (MHz) Bandwidth (dBm) Limit (dBm) 512 810 1849.980 1910.020
-17.99
-18.90
-13
-13 Please refer to next pager of detail testing data. Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 34 of 82 Rev.01 File :ZG5(PCS1900) Data :#1 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 CH512(1784.8MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1849.980
-22.24 Correct Factor dB 4.25 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-17.99
-13.00
-4.99 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/2 File :ZG5(PCS1900) Data :#2 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 CH810(1909.8MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1910.020
-24.60 Correct Factor dB 5.70 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-18.90
-13.00
-5.90 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/2 4.4.5.3 WCDMA Band V Test Result Band Lower Higher WCDMA Band V Channel Frequency (MHz) Bandwidth (dBm) Limit (dBm) 4132 4233 824.000 849.000
-19.13
-16.46
-13
-13 Please refer to next pager of detail testing data. Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 35 of 82 Rev.01 File :ZG5(wcdma band5) Data :#1 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 CH4132(824MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 824.0000
-32.31 13.18
-19.13
-13.00
-6.13 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/2 File :ZG5(wcdma band5) Data :#2 Date: 2008/9/01 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 CH4233(849MHz) 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 849.0000
-29.71 13.25
-16.46
-13.00
-3.46 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/2 4.4.5.4 WCDMA Band II Test Result Band Lower Higher WCDMA Band II Channel Frequency (MHz) Bandwidth (dBm) Limit (dBm) 9262 9538 1850.000 1910.000
-16.11
-16.64
-13
-13 Please refer to next pager of detail testing data. Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 36 of 82 Rev.01 File :ZG5(wcdma band2) Data :#1 Date: 2008/9/01 Time:
FCC Part 24 conducted(9k-12.75G) ZG5 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
10db No. Mk. Freq. MHz Reading Level dBm 1 * 1850.000
-20.37 Correct Factor dB 4.26 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-16.11
-13.00
-3.11 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/2 File :ZG5(wcdma band2) Data :#2 Date: 2008/9/01 Time:
FCC Part 24 conducted(9k-12.75G) ZG5 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
10db No. Mk. Freq. MHz Reading Level dBm 1 * 1910.000
-22.34 Correct Factor dB 5.70 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-16.64
-13.00
-3.64 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/2 4.5 Conducted Emission 4.5.1 Measurement Instruments As described in chapter 5 of this test report. 4.5.2 Test Procedure 1. The EUT was connected to Spectrum Analyzer and Base Station via power divider. 2. The middle channel for the highest RF power within the transmitting frequency was measured. 3. The conducted spurious emission for the whole frequency range was taken. 4. Test setting at GSM 850 RB>100 kHz, VB>100 kHz; PCS 1900 RB>1MHz, VB>1MHz. 4.5.3 Test Setup Layout Below 2.8GHz Spectrum Analyzer Power divider Attenuator Universal Radio Com. Tester EUT Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 37 of 82 Rev.01 Above 2.8GHz Spectrum Analyzer High Pass Filter Power divider Universal Radio Com. Tester EUT Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 38 of 82 Rev.01 4.5.4 Test Result 4.5.4.1 GPRS 850 Test Result
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (Low CH128 / Middle CH190 / High CH 251)
: 08/28/2008 Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data. Note: Amplitude= Reading Amplitude + Factor (Cable loss + Filter Amplitude= Insertion loss)
(Auto calculate in spectrum analyzer) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 39 of 82 Rev.01 File :ZG5(CH128) Data :#1 Date: 2008/8/28 Time: 11:04:04 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH128 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
0.6339
-49.04 31.91
-17.13
-13.00
-4.13 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/12 File :ZG5(CH128) Data :#2 Date: 2008/8/28 Time: 11:04:25 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH128 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 824.2500
-41.79
-19.09 Correct Factor dB 14.69 3.84 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-27.10
-15.25
-13.00
-13.00
-14.10
-2.25 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 2/12 File :ZG5(CH128) Data :#3 Date: 2008/8/28 Time: 08:56:37 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH128 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2930.000
-37.63 Correct Factor dB 4.65 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.98
-13.00
-19.98 peak
*:Maximum data x:Over limit !:over margin Reference Only 3/12 File :ZG5(CH128) Data :#4 Date: 2008/8/28 Time: 08:56:58 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH128 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 8623.125
-38.55 Correct Factor dB 5.83 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.72
-13.00
-19.72 peak
*:Maximum data x:Over limit !:over margin Reference Only 4/12 File :ZG5(CH190) Data :#1 Date: 2008/8/28 Time: 11:00:28 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH190 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
1.7585
-50.63 31.05
-19.58
-13.00
-6.58 peak
*:Maximum data x:Over limit !:over margin Reference Only 5/12 File :ZG5(CH190) Data :#2 Date: 2008/8/28 Time: 11:00:49 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH190 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 52.3750 2 * 838.5000
-39.30
-18.00 Correct Factor dB 14.27 3.97 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-25.03
-14.03
-13.00
-13.00
-12.03
-1.03 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 6/12 File :ZG5(CH190) Data :#3 Date: 2008/8/28 Time: 08:57:45 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH190 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2970.000
-36.98 Correct Factor dB 4.56 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.42
-13.00
-19.42 peak
*:Maximum data x:Over limit !:over margin Reference Only F 7/12 File :ZG5(CH190) Data :#4 Date: 2008/8/28 Time: 08:58:06 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH190 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7325.000
-39.37 Correct Factor dB 5.10 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-34.27
-13.00
-21.27 peak
*:Maximum data x:Over limit !:over margin Reference Only 8/12 File :ZG5(CH251) Data :#1 Date: 2008/8/28 Time: 11:10:02 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH251 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
0.2590
-51.20 31.40
-19.80
-13.00
-6.80 peak
*:Maximum data x:Over limit !:over margin Reference Only 9/12 File :ZG5(CH251) Data :#2 Date: 2008/8/28 Time: 11:10:23 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH251 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 850.3750
-41.98
-18.59 Correct Factor dB 14.69 3.98 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree
-27.29
-14.61
-13.00
-13.00
-14.29
-1.61 peak peak Comment
*:Maximum data x:Over limit !:over margin Reference Only 10/12 File :ZG5(CH251) Data :#3 Date: 2008/8/28 Time: 08:58:45 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH251 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2890.000
-37.48 Correct Factor dB 4.71 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.77
-13.00
-19.77 peak
*:Maximum data x:Over limit !:over margin Reference Only 11/12 File :ZG5(CH251) Data :#4 Date: 2008/8/28 Time: 08:59:06 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 GSM850(GPRS) CH251 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7402.500
-39.15 Correct Factor dB 5.20 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.95
-13.00
-20.95 peak
*:Maximum data x:Over limit !:over margin Reference Only 12/12 4.5.4.2 GPRS 1900 Test Result
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (Low CH512 / Middle CH661 / High CH 810)
: 08/28/2008 Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data. Note: Amplitude= Reading Amplitude + Factor (Cable loss + Filter Amplitude= Insertion loss)
(Auto calculate in spectrum analyzer) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 40 of 82 Rev.01 File :ZG5(CH512) Data :#1 Date: 2008/8/28 Time: 09:34:05 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
27.0041
-49.41 13.27
-36.14
-13.00
-23.14 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/15 File :ZG5(CH512) Data :#2 Date: 2008/8/28 Time: 09:34:26 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 624.7500
-37.53 13.10
-24.43
-13.00
-11.43 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/15 File :ZG5(CH512) Data :#3 Date: 2008/8/28 Time: 09:54:14 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1850.500 2 2413.000
-8.90
-37.19 Correct Factor dB 4.26 5.16 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree
-4.64
-32.03
-13.00
-13.00 8.36
-19.03 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 3/15 File :ZG5(CH512) Data :#4 Date: 2008/8/28 Time: 08:48:10 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 12302.25 0 Reading Level dBm
-38.37 Correct Factor dB 5.19 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.18
-13.00
-20.18 peak
*:Maximum data x:Over limit !:over margin Reference Only 4/15 File :ZG5(CH512) Data :#5 Date: 2008/8/28 Time: 08:48:31 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH512 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 18622.50 0 Reading Level dBm
-38.74 Correct Factor dB 7.05 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.69
-13.00
-18.69 peak
*:Maximum data x:Over limit !:over margin Reference Only 5/15 File :ZG5(CH661) Data :#1 Date: 2008/8/28 Time: 09:36:02 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
20.6302
-48.95 13.28
-35.67
-13.00
-22.67 peak
*:Maximum data x:Over limit !:over margin Reference Only 6/15 File :ZG5(CH661) Data :#2 Date: 2008/8/28 Time: 09:36:23 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 973.8750
-37.53 13.17
-24.36
-13.00
-11.36 peak
*:Maximum data x:Over limit !:over margin Reference Only 7/15 File :ZG5(CH661) Data :#3 Date: 2008/8/28 Time: 09:57:07 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1882.000 2 2602.000
-14.82
-38.78 Correct Factor dB 4.83 5.45 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree
-9.99
-33.33
-13.00
-13.00 3.01
-20.33 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 8/15 File :ZG5(CH661) Data :#4 Date: 2008/8/28 Time: 08:49:38 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3048.750
-38.60 Correct Factor dB 5.47 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.13
-13.00
-20.13 peak
*:Maximum data x:Over limit !:over margin Reference Only 9/15 File :ZG5(CH661) Data :#5 Date: 2008/8/28 Time: 08:49:59 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH661 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 19130.00 0 Reading Level dBm
-39.02 Correct Factor dB 7.19 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.83
-13.00
-18.83 peak
*:Maximum data x:Over limit !:over margin Reference Only 10/15 File :ZG5(CH810) Data :#1 Date: 2008/8/28 Time: 09:37:40 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
10.8819
-49.12 13.29
-35.83
-13.00
-22.83 peak
*:Maximum data x:Over limit !:over margin Reference Only 11/15 File :ZG5(CH810) Data :#2 Date: 2008/8/28 Time: 09:38:02 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 819.5000
-38.10 13.20
-24.90
-13.00
-11.90 peak
*:Maximum data x:Over limit !:over margin Reference Only 12/15 File :ZG5(CH810) Data :#3 Date: 2008/8/28 Time: 09:59:33 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1913.500 2 2557.000
-14.09
-38.42 Correct Factor dB 5.38 5.27 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree
-8.71
-33.15
-13.00
-13.00 4.29
-20.15 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 13/15 File :ZG5(CH810) Data :#4 Date: 2008/8/28 Time: 08:51:42 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3048.750
-38.86 Correct Factor dB 5.47 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.39
-13.00
-20.39 peak
*:Maximum data x:Over limit !:over margin Reference Only 14/15 File :ZG5(CH810) Data :#5 Date: 2008/8/28 Time: 08:52:03 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 PCS1900(GPRS) CH810 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 13330.00 0 Reading Level dBm
-37.60 Correct Factor dB 5.54 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.06
-13.00
-19.06 peak
*:Maximum data x:Over limit !:over margin Reference Only 15/15 4.5.4.3 WCDMA Band V Test Result
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band V (Low CH4132 / Middle CH4182 / High CH 4233)
: 08/28/2008 Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data. Note: Amplitude= Reading Amplitude + Factor (Cable loss + Filter Amplitude= Insertion loss)
(Auto calculate in spectrum analyzer) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 41 of 82 Rev.01 File :ZG5(CH4132) Data :#1 Date: 2008/8/28 Time: 07:54:27 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4132 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
1.2584
-53.19 31.50
-21.69
-13.00
-8.69 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/12 File :ZG5(CH4132) Data :#2 Date: 2008/8/28 Time: 07:54:48 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4132 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 826.6250
-40.88 18.11 Correct Factor dB 14.69 3.86 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-26.19 21.97
-13.00
-13.00
-13.19 34.97 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 2/12 File :ZG5(CH4132) Data :#3 Date: 2008/8/28 Time: 08:25:50 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4132 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2970.000
-36.21 Correct Factor dB 4.56 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.65
-13.00
-18.65 peak
*:Maximum data x:Over limit !:over margin Reference Only 3/12 File :ZG5(CH4132) Data :#4 Date: 2008/8/28 Time: 08:26:11 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4132 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7363.750
-38.02 Correct Factor dB 5.08 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.94
-13.00
-19.94 peak
*:Maximum data x:Over limit !:over margin Reference Only 4/12 File :ZG5(CH4180) Data :#1 Date: 2008/8/28 Time: 08:03:46 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4180 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
2.2585
-56.11 31.14
-24.97
-13.00
-11.97 peak
*:Maximum data x:Over limit !:over margin Reference Only 5/12 File :ZG5(CH4180) Data :#2 Date: 2008/8/28 Time: 08:04:07 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4180 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 836.1250
-41.15 18.21 Correct Factor dB 14.69 3.96 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-26.46 22.17
-13.00
-13.00
-13.46 35.17 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only F 6/12 File :ZG5(CH4180) Data :#3 Date: 2008/8/28 Time: 08:27:39 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4180 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2950.000
-36.20 Correct Factor dB 4.58 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.62
-13.00
-18.62 peak
*:Maximum data x:Over limit !:over margin Reference Only 7/12 File :ZG5(CH4180) Data :#4 Date: 2008/8/28 Time: 08:28:00 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4180 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7421.875
-37.18 Correct Factor dB 5.21 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.97
-13.00
-18.97 peak
*:Maximum data x:Over limit !:over margin Reference Only 8/12 File :ZG5(CH4233) Data :#1 Date: 2008/8/28 Time: 08:06:49 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4233 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
0.3839
-52.18 31.89
-20.29
-13.00
-7.29 peak
*:Maximum data x:Over limit !:over margin Reference Only 9/12 File :ZG5(CH4233) Data :#2 Date: 2008/8/28 Time: 08:07:10 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4233 Notch(3TNF-800) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 50.0000 2 * 845.6250
-41.12 17.49 Correct Factor dB 14.69 3.99 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-26.43 21.48
-13.00
-13.00
-13.43 34.48 peak peak Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 10/12 File :ZG5(CH4233) Data :#3 Date: 2008/8/28 Time: 08:28:59 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4233 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 2840.000
-35.71 Correct Factor dB 4.50 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.21
-13.00
-18.21 peak
*:Maximum data x:Over limit !:over margin Reference Only 11/12 File :ZG5(CH4233) Data :#4 Date: 2008/8/28 Time: 08:29:20 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 22 conducted(9k-12.75G) ZG5 WCDMA BandV CH4233 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 7363.750
-38.12 Correct Factor dB 5.08 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.04
-13.00
-20.04 peak
*:Maximum data x:Over limit !:over margin Reference Only 12/12 4.5.4.4 WCDMA Band II Test Result
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band II (Low CH9262 / Middle CH9400 / High CH 9536)
: 08/28/2008 Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data. Note: Amplitude= Reading Amplitude + Factor (Cable loss + Filter Amplitude= Insertion loss)
(Auto calculate in spectrum analyzer) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 42 of 82 Rev.01 File :ZG5(CH9262) Data :#1 Date: 2008/8/28 Time: 03:24:24 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
26.6292
-49.01 13.30
-35.71
-13.00
-22.71 peak
*:Maximum data x:Over limit !:over margin Reference Only 1/15 File :ZG5(CH9262) Data :#2 Date: 2008/8/28 Time: 03:24:46 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 857.5000
-36.84 13.25
-23.59
-13.00
-10.59 peak
*:Maximum data x:Over limit !:over margin Reference Only 2/15 File :ZG5(CH9262) Data :#3 Date: 2008/8/28 Time: 03:47:56 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1855.000 2 2773.000 20.14
-37.56 Correct Factor dB 4.29 5.78 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree 24.43
-31.78
-13.00
-13.00 37.43
-18.78 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 3/15 File :ZG5(CH9262) Data :#4 Date: 2008/8/28 Time: 08:35:40 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3148.250
-38.62 Correct Factor dB 5.27 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-33.35
-13.00
-20.35 peak
*:Maximum data x:Over limit !:over margin Reference Only 4/15 File :ZG5(CH9262) Data :#5 Date: 2008/8/28 Time: 08:36:01 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9262 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 13293.75 0 Reading Level dBm
-37.78 Correct Factor dB 5.53 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.25
-13.00
-19.25 peak
*:Maximum data x:Over limit !:over margin Reference Only 5/15 File :ZG5(CH9400) Data :#1 Date: 2008/8/28 Time: 03:27:24 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
22.2547
-48.89 13.29
-35.60
-13.00
-22.60 peak
*:Maximum data x:Over limit !:over margin Reference Only 6/15 File :ZG5(CH9400) Data :#2 Date: 2008/8/28 Time: 03:27:44 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 867.0000
-39.18 13.26
-25.92
-13.00
-12.92 peak
*:Maximum data x:Over limit !:over margin Reference Only 7/15 File :ZG5(CH9400) Data :#3 Date: 2008/8/28 Time: 03:44:45 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1882.000 2 2579.500 19.21
-38.53 Correct Factor dB 4.83 5.35 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree 24.04
-33.18
-13.00
-13.00 37.04
-20.18 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 8/15 File :ZG5(CH9400) Data :#4 Date: 2008/8/28 Time: 08:37:13 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3770.125
-36.86 Correct Factor dB 4.93 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.93
-13.00
-18.93 peak
*:Maximum data x:Over limit !:over margin Reference Only 9/15 File :ZG5(CH9400) Data :#5 Date: 2008/8/28 Time: 08:37:34 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9400 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 15885.62 5 Reading Level dBm
-37.37 Correct Factor dB 6.27 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-31.10
-13.00
-18.10 peak
*:Maximum data x:Over limit !:over margin Reference Only 10/15 File :ZG5(CH9538) Data :#1 Date: 2008/8/28 Time: 03:30:03 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 *
24.1295
-48.84 13.30
-35.54
-13.00
-22.54 peak
*:Maximum data x:Over limit !:over margin Reference Only 11/15 File :ZG5(CH9538) Data :#2 Date: 2008/8/28 Time: 03:30:24 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 10db Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm Correct Factor dB Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment 1 * 615.2500
-38.49 13.11
-25.38
-13.00
-12.38 peak
*:Maximum data x:Over limit !:over margin Reference Only 12/15 File :ZG5(CH9538) Data :#3 Date: 2008/8/28 Time: 03:39:30 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 Notch(5TNF-1700) Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 1909.000 2 2422.000 19.52
-37.95 Correct Factor dB 5.80 5.13 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree 25.32
-32.82
-13.00
-13.00 38.32
-19.82 peak peak Comment Main Frequency
*:Maximum data x:Over limit !:over margin Reference Only 13/15 File :ZG5(CH9538) Data :#4 Date: 2008/8/28 Time: 08:38:46 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz Reading Level dBm 1 * 3819.875
-29.56 Correct Factor dB 4.91 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-24.65
-13.00
-11.65 peak
*:Maximum data x:Over limit !:over margin Reference Only 14/15 File :ZG5(CH9538) Data :#5 Date: 2008/8/28 Time: 08:39:07 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
FCC Part 24 conducted(9k-12.75G) ZG5 WCDMA BANDII CH9538 Conducted po Temperature:
26 AC 110V/60Hz Humidity:
55 %
Polarization:
Power:
Distance:
No. Mk. Freq. MHz 1 * 18676.87 5 Reading Level dBm
-39.06 Correct Factor dB 7.06 Measure-
ment dBm Limit Over Antenna Height dBm dB Detector cm Table Degree degree Comment
-32.00
-13.00
-19.00 peak
*:Maximum data x:Over limit !:over margin Reference Only 15/15 Field Strength of Spurious Radiation 4.6 isotropic Equivalent ANSI/TIA/EIA-603-A . radiated Power Measurements by substitution method according to 4.6.1 Measurement Instruments As described in chapter 5 of this test report. 4.6.2 Test Procedure The measurement is made according to ANSI/TIA-603-C-2004 as follows:
The equipment under test is placed inside the semi-anechoic chamber on a wooden table at the turntable center. For each spurious frequency, the antenna mast is raised and lowered from 1 to 4 meters and the turntable is rotated 360 degrees to obtain a maximum reading on the spectrum analyzer. This is repeated for both horizontal and vertical polarizations of the receive antenna. The equipment under test is then replaced with a substitution antenna fed by a signal generator. With the signal generator tuned to a particular spurious frequency, the antenna mast is raised and lowered from 1 to 4 meters to obtain a maximum reading at the spectrum analyzer. The output of the signal generator is then adjusted until a reading identical to that obtained with the actual transmitter is achieved. The power in dBm of each spurious emission is calculated by correcting the signal generator level for cable loss and gain of the substitution antenna referenced to a dipole. A fully charged battery was used for the supply voltage. The settings of the receiver were as follows:
dBm Units Resolution Bandwidth 1 MHz Video Bandwidth Sweep Time Auto Auto Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 43 of 82 Rev.01 4.6.3 Test Setup Layout Substituted Method Test Set-up Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 44 of 82 Rev.01 4.6.4 Test Result 4.6.4.1 GPRS 850 Test Result Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (Low CH128)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1648.8 2473.2 3297.6 4122.0 4946.4 5770.8 6595.2 7419.6 8244.0 1648.8 2473.2 3297.6 4122.0 4946.4 5770.8 6595.2 7419.6 8244.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.13
-43.65
-28.56
(dBm)
-61.29
-53.69
-38.60
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-59.04
-56.05
-57.38 10.72 10.66 10.78 0.56 0.62 0.74
-48.88
-46.01
-47.34
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 45 of 82 Rev.01
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 46 of 82 Rev.01 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (Middle CH190)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1673.2 2509.8 3346.4 4183.0 5019.6 5856.2 6692.8 7529.4 8366.0 1673.2 2509.8 3346.4 4183.0 5019.6 5856.2 6692.8 7529.4 8366.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.27
-43.70
-28.34
(dBm)
-61.43
-53.74
-38.38
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.30
-56.11
-56.87 10.72 10.66 10.78 0.56 0.62 0.74
-48.14
-46.07
-46.83
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 47 of 82 Rev.01
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 48 of 82 Rev.01 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (High CH 251)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1697.6 2546.4 3395.2 4244.0 5092.8 5941.6 6790.4 7639.2 8488.0 1697.6 2546.4 3395.2 4244.0 5092.8 5941.6 6790.4 7639.2 8488.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.44
-43.79
-28.68
(dBm)
-61.60
-53.83
-38.72
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.11
-55.93
-57.30 10.72 10.66 10.78 0.56 0.62 0.74
-47.95
-45.89
-47.26
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 49 of 82 Rev.01
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 50 of 82 Rev.01 4.6.4.2 GPRS 1900 Test Result Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (Low CH512)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3700.4 5550.6 7400.8 9251.0 11101.2 12951.4 14801.6 16651.8 18502.0 3700.4 5550.6 7400.8 9251.0 11101.2 12951.4 14801.6 16651.8 18502.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-43.34
-38.72
-31.57
(dBm)
-53.50
-48.76
-41.61
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.81
-49.53
-55.41 10.72 10.66 10.78 0.56 0.62 0.74
-46.65
-39.49
-45.37
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 51 of 82 Rev.01
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 52 of 82 Rev.01 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (Middle CH661)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3760.0 5640.0 7520.0 9400.0 11280.0 13160.0 15040.0 16920.0 18800.0 3760.0 5640.0 7520.0 9400.0 11280.0 13160.0 15040.0 16920.0 18800.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-43.45
-39.46
-31.28
(dBm)
-53.61
-49.50
-41.32
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.93
-46.60
-56.24 10.72 10.66 10.78 0.56 0.62 0.74
-46.77
-36.56
-46.20
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 53 of 82 Rev.01
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 54 of 82 Rev.01 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (High CH 810)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3819.6 5729.4 7639.2 9549.0 11458.8 13368.6 15278.4 17188.2 19098.0 3819.6 5729.4 7639.2 9549.0 11458.8 13368.6 15278.4 17188.2 19098.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-43.35
-39.50
-31.60
(dBm)
-53.51
-49.54
-41.64
(dBi) 10.72 10.66 10.78
(dBm) 0.56 0.62 0.74
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.50
-44.17
-55.40 10.72 10.66 10.78 0.56 0.62 0.74
-46.34
-34.13
-45.36
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 55 of 82 Rev.01
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 56 of 82 Rev.01 4.6.4.3 WCDMA Band V Test Result Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCMDA Band V (Low CH4132)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1652.8 2479.2 3305.6 4132.0 4958.4 5784.8 6611.2 7437.6 8264.0 1652.8 2479.2 3305.6 4132.0 4958.4 5784.8 6611.2 7437.6 8264.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.47
-44.01
-28.36
(dBm)
-61.62
-54.06
-38.38
(dBi) 10.74 10.68 10.80
(dBm) 0.59 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.39
-56.17
-56.69 10.74 10.68 10.80 0.59 0.63 0.78
-48.24
-46.12
-46.67
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 57 of 82 Rev.01
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 58 of 82 Rev.01 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band V (Middle CH4182)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-50.23
-42.59
-29.01
(dBm)
-60.38
-52.64
-39.03
(dBi) 10.74 10.68 10.80
(dBm) 0.59 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.43
-55.20
-57.30 10.74 10.68 10.80 0.59 0.63 0.78
-46.28
-45.15
-47.28
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 59 of 82 Rev.01
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 60 of 82 Rev.01 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band V (High CH 4233)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 1693.2 2539.8 3386.4 4233.0 5079.6 5926.2 6772.8 7619.4 8466.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-51.39
-44.29
-28.41
(dBm)
-61.54
-54.34
-38.43
(dBi) 10.74 10.68 10.80
(dBm) 0.59 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.28
-56.01
-56.56 10.74 10.68 10.80 0.59 0.63 0.78
-48.13
-45.96
-46.54
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 61 of 82 Rev.01
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 62 of 82 Rev.01 4.6.4.4 WCDMA Band II Test Result Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCMDA Band II (Low CH9262)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3704.8 5557.2 7409.6 9262.0 11114.4 12966.8 14819.2 16671.6 18524.0 3704.8 5557.2 7409.6 9262.0 11114.4 12966.8 14819.2 16671.6 18524.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-39.87
-38.66
-31.94
(dBm)
-50.08
-48.74
-41.97
(dBi) 10.79 10.71 10.81
(dBm) 0.58 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-58.13
-58.50
-55.09 10.79 10.71 10.81 0.58 0.63 0.78
-47.92
-48.42
-45.06
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
1. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 2. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 3. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 4. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 63 of 82 Rev.01
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 64 of 82 Rev.01 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band II (Middle CH9400)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3760.0 5640.0 7520.0 9400.0 11280.0 13160.0 15040.0 16920.0 18800.0 3760.0 5640.0 7520.0 9400.0 11280.0 13160.0 15040.0 16920.0 18800.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-33.45
-39.30
-31.07
(dBm)
-43.66
-49.38
-41.10
(dBi) 10.79 10.71 10.81
(dBm) 0.58 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-56.88
-58.03
-55.89 10.79 10.71 10.81 0.58 0.63 0.78
-46.67
-47.95
-45.86
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
5. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 6. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 7. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 8. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 65 of 82 Rev.01
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 66 of 82 Rev.01 Applicant Model No EUT Test Mode Test Date
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band II (High CH 9538)
: 08/28/2008 Harmonic Frequency
(MHz) Polarization 3815.2 5722.8 7630.4 9538.0 11445.6 13353.2 15260.8 17168.4 19076.0 3815.2 5722.8 7630.4 9538.0 11445.6 13353.2 15260.8 17168.4 19076.0 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Notes:
V V V V V V V V V H H H H H H H H H
(dBm)
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13
-13 FCC Max. Limit S.G Power Substitution Antenna Gain Cable Loss Peak Output Power
(dBm)
-20.68
-39.78
-31.12
(dBm)
-30.89
-49.86
-41.15
(dBi) 10.79 10.71 10.81
(dBm) 0.58 0.63 0.78
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
-40.75
-58.69
-55.80 10.79 10.71 10.81 0.58 0.63 0.78
-30.54
-48.61
-45.77
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
5. * Indicates the spurious emission could not be detected due to noise limitations or ambients. 6. Each emission reported reflects the highest absolute level at the specific harmonic for the low, mid, and high channels at maximum power. 7. The Spectrum was investigated from 30 MHz to the tenth harmonic of the fundamental. 8. ERP = S.G Power (dBm) + Substitution Antenna Gain (dBd) - Cable Loss (dB) ERP = S.G Power (dBm) + Substitution Antenna Gain (dBi) - Cable Loss (dB) Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 67 of 82 Rev.01
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00
(dBm) 0.00
-10.00
-20.00
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
-100.00 V_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th H_Polarization Limite = -13dBm 2nd 3rd 4th 5th 6th 7th 8th 9th 10th Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 68 of 82 Rev.01 Frequency Stability (Temperature Variation) 4.7 4.7.1 Measurement Instrument As described in chapter 5 of this test report. 4.7.2 Test Procedure The measurement is made according to FCC rules part 22 and 24:
1. The EUT and test equipment were set up as shown on the following section. 2. With all power removed, the temperature was decreased to -30 and permitted to stabilize for three hours. Power was applied and the maximum change in frequency was note within one minute. 3. With power OFF, the temperature was raised in 10 steps. The sample was permitted to stabilize at each step for at least one-half hour. Power was applied and the maximum frequency change was noted within one minute. 4. The temperature tests were performed for the worst case. 5. Test data was recorded. 4.7.3 Test Setup Layout Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 69 of 82 Rev.01 4.7.4 Test Result Test Mode: GPRS 850 CH190 Temperature
(
)
-30
-20
-10 0 10 20 30 40 50 Deviation
(Hz) 22.19 24.38 22.61 18.79 15.48 23.23 29.57 30.4 22.18 Test Mode: GPRS 1900 CH661 Temperature
(
)
-30
-20
-10 0 10 20 30 40 50 Deviation
(Hz) 30.61 34.27 33.98 35.67 40.66 35.25 34.28 30.17 33.49 Deviation
(ppm) 0.027 0.029 0.027 0.022 0.019 0.028 0.035 0.036 0.027 Deviation
(ppm) 0.016 0.018 0.018 0.019 0.022 0.019 0.018 0.016 0.018 Limit
(ppm) 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 Limit
(ppm) 1 1 1 1 1 1 1 1 1 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 70 of 82 Rev.01 Test Mode: WCDMA Band V CH4182 Temperature
()
-30
-20
-10 0 10 20 30 40 50 Deviation
(Hz) 24.69 35.18 20.91 34.76 20.15 22.98 33.61 34.12 30.57 Test Mode: WCDMA Band II CH9400 Temperature
()
-30
-20
-10 0 10 20 30 40 50 Deviation
(Hz) 42.69 43.85 40.91 41.32 48.48 35.96 32.57 30.44 29.85 Deviation
(ppm) 0.030 0.042 0.025 0.042 0.024 0.027 0.040 0.041 0.037 Deviation
(ppm) 0.023 0.023 0.022 0.022 0.026 0.019 0.017 0.016 0.016 Limit
(ppm) 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 Limit
(ppm) 1 1 1 1 1 1 1 1 1 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 71 of 82 Rev.01 Frequency Stability (Voltage Variation) 4.8 4.8.1 Measurement Instrument As described in chapter 5 of this test report. 4.8.2 Test Procedure 1. The EUT was placed in a temperature chamber at 25 5 and connected as the following section. 2. The power supply voltage to the EUT was varied from BEP to 115% of the nominal value measured at the input to the EUT. 3. The variation in frequency was measured for the worst case. 4.8.3 Test Setup Layout Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 72 of 82 Rev.01 4.8.4 Test Result Test Mode: GPRS 850 CH190 Level Battery full point Normal Battery cut-off point Voltage
[V]
126.5 110.0 93.5 Test Mode: GPRS 1900 CH661 Level Battery full point Normal Battery cut-off point Voltage
[V]
126.5 110.0 93.5 Test Mode: WCDMA Band V CH4182 Level Battery full point Normal Battery cut-off point Voltage
[V]
126.5 110.0 93.5 Test Mode: WCDMA Band II CH9400 Deviation
[Hz]
22.75 15.51 12.69 Deviation
[ppm]
0.027 0.019 0.015 Deviation
[Hz]
39.58 33.33 35.67 Deviation
[ppm]
0.021 0.018 0.019 Deviation
[Hz]
22.72 20.68 36.71 Deviation
[ppm]
0.027 0.025 0.044 Level Battery full point Normal Battery cut-off point Voltage
[V]
126.5 110.0 93.5 Deviation
[Hz]
45.39 48.62 40.37 Deviation
[ppm]
0.024 0.026 0.021 Limit
[ppm]
0.1 0.1 0.1 Limit
[ppm]
1 1 1 Limit
[ppm]
0.1 0.1 0.1 Limit
[ppm]
1 1 1 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 73 of 82 Rev.01 4.9 AC Power Conducted Emissions Requirements 4.9.1 Measurement Instrument As described in chapter 5 of this test report. 4.9.2 Test Procedure The measurement is made according to FCC rules15.207:
The power line conducted emission measurements were performed in a shielded enclosure. The EUT was assembled on a wooden table which is 80 centimeters high, was placed 40 centimeters from the back wall and at least 1 meter from the sidewall. Power was fed to the EUT from the public utility power grid through a line filter and EMCO Model 3162/2 SH Line Impedance Stabilization Networks (LISN). The LISN housing, measuring instrumentation case, ground plane, etc., were electrically bonded together at the same RF potential. The Spectrum analyzer was connected to the AC line through an isolation transformer. The 50-ohm output of the LISN was connected to the spectrum analyzer directly. Conducted emission levels were in the CISPR quasi-peak detection mode. The analyzer's 6 dB bandwidth was set to 9 KHz. No post-detector video filter was used. The spectrum was scanned from 150 KHz to 30 MHz. The physical arrangement of the test system and associated cabling was varied (within the scope of arrangements likely to be encountered in actual use) to determine the effect on the unit's emanations in amplitude and frequency. All spurious emission frequencies were observed. The highest emission amplitudes relative to the appropriate limit were measured and have been recorded in paragraph 2.6. Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 74 of 82 Rev.01 4.9.3 Test Configuration:
Figure 1. Front View of the Test Configuration Figure 2. Rear View of the Test Configuration Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 75 of 82 Rev.01 4.9.4 Test condition:
EUT tested in accordance with the specifications given by the Manufacturer, and exercised in the most unfavorable manner. 4.9.5 Conducted Emissions Limits:
Frequency range (MHz) 0.15 to 0.50 0.50 to 5.0 5.0 to 30 Limits (dBuV) Quasi-peak 66 to 56 56 60 Average 56 to 46 46 50 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 76 of 82 Rev.01 4.9.6 Test Result 4.9.6.1 GPRS 850 Test Result Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data.
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 850 (Low CH128 / Middle CH190 / High CH 251)
: 08/27/2008 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 77 of 82 Rev.01 File :ZG5B C TEST(GSM850GPRS) Data :#1 Date: 2008/8/27 Time: 07:02:46 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH128 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1899 0.1899 0.2500 0.4964 2.4800 2.4800 4.0100 4.0100 4.0100 10.1500 10.1500 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 44.98 22.76 37.96 33.27 38.40 22.63 45.30 38.33 26.83 39.92 23.53 Correct Factor dB 9.74 9.74 9.75 9.78 9.87 9.87 9.97 9.97 9.97 10.07 10.07 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 54.72 32.50 47.71 43.05 48.27 32.50 55.27 48.30 36.80 49.99 33.60 64.04 -9.32 54.04 -21.54 61.75 -14.04 56.06 -13.01 56.00 -7.73 46.00 -13.50 56.00 -0.73 56.00 -7.70 46.00 -9.20 60.00 -10.01 50.00 -16.40 peak AVG peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 1/6 File :ZG5B C TEST(GSM850GPRS) Data :#2 Date: 2008/8/27 Time: 07:18:25 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH128 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1884 0.1884 0.2487 0.5630 0.5630 2.6600 2.6600 3.9560 3.9560 3.9560 11.2500 11.2500 1 2 3 4 5 6 7 8 *
9 10 11 12 Reading Level dBuV 42.21 23.66 35.30 33.37 17.81 37.78 22.47 45.51 37.82 26.22 42.82 29.79 Correct Factor dB 9.74 9.74 9.75 9.79 9.79 9.93 9.93 9.98 9.98 9.98 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 51.95 33.40 45.05 43.16 27.60 47.71 32.40 55.49 47.80 36.20 52.93 39.90 64.10 -12.15 54.10 -20.70 61.80 -16.75 56.00 -12.84 46.00 -18.40 56.00 -8.29 46.00 -13.60 56.00 -0.51 56.00 -8.20 46.00 -9.80 60.00 -7.07 50.00 -10.10 peak AVG peak peak AVG peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 2/6 File :ZG5B C TEST(GSM850GPRS) Data :#3 Date: 2008/8/27 Time: 08:03:12 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH190 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1892 0.2676 2.3270 2.3270 3.9560 3.9560 3.9560 7.2000 11.1000 11.1000 1 2 3 4 5 *
6 7 8 9 10 Reading Level dBuV 41.07 33.95 35.92 21.85 43.04 36.12 24.82 35.82 40.87 27.19 Correct Factor dB 9.74 9.76 9.85 9.85 9.98 9.98 9.98 10.09 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.81 43.71 45.77 31.70 53.02 46.10 34.80 45.91 50.98 37.30 64.07 -13.26 61.19 -17.48 56.00 -10.23 46.00 -14.30 56.00 -2.98 56.00 -9.90 46.00 -11.20 60.00 -14.09 60.00 -9.02 50.00 -12.70 peak peak peak AVG peak QP AVG peak peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 3/6 File :ZG5B C TEST(GSM850GPRS) Data :#4 Date: 2008/8/27 Time: 08:27:21 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH190 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1955 0.2753 0.5810 2.3809 2.3809 4.0190 4.0190 4.0190 11.2000 11.2000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.78 34.06 32.05 36.19 21.86 44.49 36.13 25.13 41.69 28.09 Correct Factor dB 9.74 9.76 9.79 9.84 9.84 9.97 9.97 9.97 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.52 43.82 41.84 46.03 31.70 54.46 46.10 35.10 51.80 38.20 63.80 -13.28 60.95 -17.13 56.00 -14.16 56.00 -9.97 46.00 -14.30 56.00 -1.54 56.00 -9.90 46.00 -10.90 60.00 -8.20 50.00 -11.80 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 4/6 File :ZG5B C TEST(GSM850GPRS) Data :#5 Date: 2008/8/27 Time: 08:40:36 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH251 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1941 0.1941 0.4615 2.8040 2.8040 3.9470 3.9470 3.9470 11.3500 11.3500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 41.16 20.36 33.44 36.34 18.19 43.95 35.92 24.82 40.07 26.68 Correct Factor dB 9.74 9.74 9.78 9.91 9.91 9.98 9.98 9.98 10.12 10.12 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.90 30.10 43.22 46.25 28.10 53.93 45.90 34.80 50.19 36.80 63.85 -12.95 53.85 -23.75 56.67 -13.45 56.00 -9.75 46.00 -17.90 56.00 -2.07 56.00 -10.10 46.00 -11.20 60.00 -9.81 50.00 -13.20 peak AVG peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 5/6 File :ZG5B C TEST(GSM850GPRS) Data :#6 Date: 2008/8/27 Time: 08:54:04 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 GSM850GPRS CH251 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1864 0.1864 0.2634 0.5000 2.3270 2.3270 4.0100 4.0100 4.0100 10.9000 10.9000 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 41.54 22.06 34.78 32.60 37.41 21.55 44.25 35.93 24.93 41.46 29.21 Correct Factor dB 9.74 9.74 9.75 9.78 9.85 9.85 9.97 9.97 9.97 10.09 10.09 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 51.28 31.80 44.53 42.38 47.26 31.40 54.22 45.90 34.90 51.55 39.30 64.19 -12.91 54.19 -22.39 61.32 -16.79 56.00 -13.62 56.00 -8.74 46.00 -14.60 56.00 -1.78 56.00 -10.10 46.00 -11.10 60.00 -8.45 50.00 -10.70 peak AVG peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 6/6 4.9.6.2 GPRS 1900 Test Result Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data.
: Acer Incorporated
: ZG5
: Notebook PC
: GPRS 1900 (Low CH512 / Middle CH661 / High CH 810)
: 08/27/2008 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 78 of 82 Rev.01 File :ZG5B C TEST(PCS1900GPRS) Data :#1 Date: 2008/8/27 Time: 09:09:21 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH512 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1850 0.2627 0.6889 2.3900 2.3900 3.9380 3.9380 3.9380 10.7000 10.7000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.07 34.50 31.66 35.98 21.66 44.06 36.52 24.62 39.85 27.74 Correct Factor dB 9.74 9.75 9.79 9.84 9.84 9.98 9.98 9.98 10.06 10.06 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.81 44.25 41.45 45.82 31.50 54.04 46.50 34.60 49.91 37.80 64.25 -14.44 61.34 -17.09 56.00 -14.55 56.00 -10.18 46.00 -14.50 56.00 -1.96 56.00 -9.50 46.00 -11.40 60.00 -10.09 50.00 -12.20 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 1/6 File :ZG5B C TEST(PCS1900GPRS) Data :#2 Date: 2008/8/27 Time: 09:18:05 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH512 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1857 0.2592 0.5270 2.2640 2.2640 3.9020 3.9020 3.9020 11.0000 11.0000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.80 34.71 32.52 36.28 21.53 43.02 36.33 25.13 42.51 29.00 Correct Factor dB 9.74 9.75 9.79 9.87 9.87 9.97 9.97 9.97 10.10 10.10 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.54 44.46 42.31 46.15 31.40 52.99 46.30 35.10 52.61 39.10 64.22 -13.68 61.45 -16.99 56.00 -13.69 56.00 -9.85 46.00 -14.60 56.00 -3.01 56.00 -9.70 46.00 -10.90 60.00 -7.39 50.00 -10.90 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 2/6 File :ZG5B C TEST(PCS1900GPRS) Data :#3 Date: 2008/8/27 Time: 09:26:07 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH661 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.2039 0.2592 0.6889 2.3000 2.3000 3.9020 3.9020 3.9020 11.0500 11.0500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 38.80 34.33 31.39 35.84 21.64 43.04 36.33 25.03 40.48 27.69 Correct Factor dB 9.74 9.75 9.79 9.86 9.86 9.97 9.97 9.97 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 48.54 44.08 41.18 45.70 31.50 53.01 46.30 35.00 50.59 37.80 63.45 -14.91 61.45 -17.37 56.00 -14.82 56.00 -10.30 46.00 -14.50 56.00 -2.99 56.00 -9.70 46.00 -11.00 60.00 -9.41 50.00 -12.20 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 3/6 File :ZG5B C TEST(PCS1900GPRS) Data :#4 Date: 2008/8/27 Time: 09:41:12 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH661 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1857 0.2809 0.5270 2.2370 2.2370 3.8750 3.8750 3.8750 11.1000 11.1000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 39.97 35.20 32.79 36.23 21.62 44.12 36.34 25.14 41.95 28.59 Correct Factor dB 9.74 9.76 9.79 9.88 9.88 9.96 9.96 9.96 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.71 44.96 42.58 46.11 31.50 54.08 46.30 35.10 52.06 38.70 64.22 -14.51 60.79 -15.83 56.00 -13.42 56.00 -9.89 46.00 -14.50 56.00 -1.92 56.00 -9.70 46.00 -10.90 60.00 -7.94 50.00 -11.30 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 4/6 File :ZG5B C TEST(PCS1900GPRS) Data :#5 Date: 2008/8/27 Time: 09:59:24 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH810 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1870 0.5000 1.3640 2.3000 2.3000 3.9650 3.9650 3.9650 11.2000 11.2000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 38.13 32.13 32.69 35.77 21.64 42.81 36.42 25.02 40.78 26.79 Correct Factor dB 9.74 9.78 9.82 9.86 9.86 9.98 9.98 9.98 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 47.87 41.91 42.51 45.63 31.50 52.79 46.40 35.00 50.89 36.90 64.16 -16.29 56.00 -14.09 56.00 -13.49 56.00 -10.37 46.00 -14.50 56.00 -3.21 56.00 -9.60 46.00 -11.00 60.00 -9.11 50.00 -13.10 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 5/6 File :ZG5B C TEST(PCS1900GPRS) Data :#6 Date: 2008/8/27 Time: 10:06:18 site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 PCS1900GPRS CH810 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1870 0.5000 0.9860 2.3000 2.3000 4.0280 4.0280 4.0280 11.2000 11.2000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.15 33.06 31.41 36.28 21.84 43.69 36.44 25.24 41.88 28.19 Correct Factor dB 9.74 9.78 9.81 9.86 9.86 9.96 9.96 9.96 10.11 10.11 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.89 42.84 41.22 46.14 31.70 53.65 46.40 35.20 51.99 38.30 64.16 -14.27 56.00 -13.16 56.00 -14.78 56.00 -9.86 46.00 -14.30 56.00 -2.35 56.00 -9.60 46.00 -10.80 60.00 -8.01 50.00 -11.70 peak peak peak peak AVG peak QP AVG peak AVG
*:Maximum data x:Over limit !:over margin Reference Only 6/6 4.9.6.3 WCDMA Band V Test Result Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data.
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band V (Low CH4132 / Middle CH4182 / High CH 4233)
: 08/21~22/2008 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 79 of 82 Rev.01 File :ZG5B C TEST(WCDMA) Data :#1 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4132 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1842 0.2529 0.5360 2.4258 2.4258 3.8748 3.8748 11.2000 11.2000 19.8500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 38.04 33.39 33.02 36.14 24.85 42.13 25.95 39.64 28.51 32.13 Correct Factor dB 9.74 9.75 9.79 9.84 9.84 9.96 9.96 10.11 10.11 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 47.78 43.14 42.81 45.98 34.69 52.09 35.91 49.75 38.62 42.37 64.29 -16.51 61.66 -18.52 56.00 -13.19 56.00 -10.02 46.00 -11.31 56.00 -3.91 46.00 -10.09 60.00 -10.25 50.00 -11.38 60.00 -17.63 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 1/6 File :ZG5B C TEST(WCDMA) Data :#2 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4132 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1900 0.5627 1.2646 2.5700 2.5700 3.8567 3.8567 7.2500 11.0000 19.8000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 38.71 30.90 33.28 35.80 22.85 37.70 24.39 31.16 35.48 30.84 Correct Factor dB 9.74 9.79 9.81 9.93 9.93 9.95 9.95 10.09 10.10 10.25 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 48.45 40.69 43.09 45.73 32.78 47.65 34.34 41.25 45.58 41.09 64.03 -15.58 56.00 -15.31 56.00 -12.91 56.00 -10.27 46.00 -13.22 56.00 -8.35 46.00 -11.66 60.00 -18.75 60.00 -14.42 60.00 -18.91 peak peak peak peak AVG peak AVG peak peak peak
*:Maximum data x:Over limit !:over margin Reference Only 2/6 File :ZG5B C TEST(WCDMA) Data :#3 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4182 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1884 0.5180 1.2647 2.1739 2.1739 4.0819 4.0819 11.1000 11.1000 19.8500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 39.16 33.72 33.80 36.77 25.91 41.20 24.86 37.57 27.43 31.61 Correct Factor dB 9.74 9.79 9.81 9.88 9.88 9.96 9.96 10.11 10.11 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 48.90 43.51 43.61 46.65 35.79 51.16 34.82 47.68 37.54 41.85 64.10 -15.20 56.00 -12.49 56.00 -12.39 56.00 -9.35 46.00 -10.21 56.00 -4.84 46.00 -11.18 60.00 -12.32 50.00 -12.46 60.00 -18.15 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 3/6 File :ZG5B C TEST(WCDMA) Data :#4 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4182 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1892 0.5450 0.8960 1.9669 1.9669 3.9468 3.9468 10.9500 10.9500 20.1000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.05 33.33 32.05 35.41 24.47 38.63 23.71 38.90 28.66 29.58 Correct Factor dB 9.74 9.79 9.80 9.84 9.84 9.98 9.98 10.10 10.10 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.79 43.12 41.85 45.25 34.31 48.61 33.69 49.00 38.76 39.82 64.07 -14.28 56.00 -12.88 56.00 -14.15 56.00 -10.75 46.00 -11.69 56.00 -7.39 46.00 -12.31 60.00 -11.00 50.00 -11.24 60.00 -20.18 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 4/6 File :ZG5B C TEST(WCDMA) Data :#5 Date: 2008/8/22 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4233 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1507 0.1869 0.5360 2.4348 2.4348 4.0457 4.0457 10.9500 10.9500 20.3500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 42.78 41.85 32.66 37.14 23.28 40.71 24.85 39.67 25.69 33.60 Correct Factor dB 9.73 9.74 9.79 9.84 9.84 9.96 9.96 10.10 10.10 10.36 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 52.51 51.59 42.45 46.98 33.12 50.67 34.81 49.77 35.79 43.96 65.96 -13.45 64.17 -12.58 56.00 -13.55 56.00 -9.02 46.00 -12.88 56.00 -5.33 46.00 -11.19 60.00 -10.23 50.00 -14.21 60.00 -16.04 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 5/6 File :ZG5B C TEST(WCDMA) Data :#6 Date: 2008/8/22 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH4233 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1570 0.1948 0.5360 1.9309 2.7589 2.7589 4.0727 4.0727 11.3000 11.3000 20.0000 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 39.44 39.13 30.32 33.29 36.00 24.48 39.24 25.23 41.08 23.62 32.26 Correct Factor dB 9.73 9.74 9.79 9.84 9.90 9.90 9.96 9.96 10.11 10.11 10.23 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.17 48.87 40.11 43.13 45.90 34.38 49.20 35.19 51.19 33.73 42.49 65.62 -16.45 63.83 -14.96 56.00 -15.89 56.00 -12.87 56.00 -10.10 46.00 -11.62 56.00 -6.80 46.00 -10.81 60.00 -8.81 50.00 -16.27 60.00 -17.51 peak peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 6/6 4.9.6.4 WCDMA Band II Test Result Applicant Model No EUT Test Mode Test Date Please refer to next pager of detail testing data.
: Acer Incorporated
: ZG5
: Notebook PC
: WCDMA Band II (Low CH9262 / Middle CH9400 / High CH 9536)
: 08/21~22/2008 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 80 of 82 Rev.01 File :ZG5B C TEST(WCDMA) Data :#1 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9262 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1842 0.5360 0.9140 2.1739 2.1739 3.8748 3.8748 11.2000 11.2000 19.8500 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 39.04 33.52 31.52 36.47 20.78 40.63 22.75 39.64 22.73 33.13 Correct Factor dB 9.74 9.79 9.81 9.88 9.88 9.96 9.96 10.11 10.11 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 48.78 43.31 41.33 46.35 30.66 50.59 32.71 49.75 32.84 43.37 64.29 -15.51 56.00 -12.69 56.00 -14.67 56.00 -9.65 46.00 -15.34 56.00 -5.41 46.00 -13.29 60.00 -10.25 50.00 -17.16 60.00 -16.63 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 1/6 File :ZG5B C TEST(WCDMA) Data :#2 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9262 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1877 0.5450 1.2646 2.2458 2.2458 4.0007 4.0007 11.1000 11.1000 19.8000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 40.31 32.66 34.28 37.41 24.30 42.68 22.69 41.05 26.48 30.34 Correct Factor dB 9.74 9.79 9.81 9.88 9.88 9.97 9.97 10.11 10.11 10.25 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.05 42.45 44.09 47.29 34.18 52.65 32.66 51.16 36.59 40.59 64.13 -14.08 56.00 -13.55 56.00 -11.91 56.00 -8.71 46.00 -11.82 56.00 -3.35 46.00 -13.34 60.00 -8.84 50.00 -13.41 60.00 -19.41 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 2/6 File :ZG5B C TEST(WCDMA) Data :#3 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9400 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1500 0.2479 0.5450 0.9140 2.5969 2.5969 4.0007 4.0007 11.1000 11.1000 19.8500 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 40.24 33.27 33.14 32.32 36.30 22.39 43.37 24.18 40.07 27.85 34.61 Correct Factor dB 9.73 9.75 9.79 9.81 9.93 9.93 9.97 9.97 10.11 10.11 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.97 43.02 42.93 42.13 46.23 32.32 53.34 34.15 50.18 37.96 44.85 65.99 -16.02 61.82 -18.80 56.00 -13.07 56.00 -13.87 56.00 -9.77 46.00 -13.68 56.00 -2.66 46.00 -11.85 60.00 -9.82 50.00 -12.04 60.00 -15.15 peak peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 3/6 File :ZG5B C TEST(WCDMA) Data :#4 Date: 2008/8/21 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9400 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1892 0.4873 0.8960 2.3178 2.3178 3.9468 3.9468 6.9000 10.9500 10.9500 20.1000 1 2 3 4 5 6 *
7 8 9 10 11 Reading Level dBuV 40.05 33.40 32.05 36.78 24.31 42.63 23.61 36.47 40.90 28.83 32.08 Correct Factor dB 9.74 9.78 9.80 9.85 9.85 9.98 9.98 10.09 10.10 10.10 10.24 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 49.79 43.18 41.85 46.63 34.16 52.61 33.59 46.56 51.00 38.93 42.32 64.07 -14.28 56.21 -13.03 56.00 -14.15 56.00 -9.37 46.00 -11.84 56.00 -3.39 46.00 -12.41 60.00 -13.44 60.00 -9.00 50.00 -11.07 60.00 -17.68 peak peak peak peak AVG peak AVG peak peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 4/6 File :ZG5B C TEST(WCDMA) Data :#5 Date: 2008/8/22 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9538 Phase:
Power:
L1 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1507 0.1869 0.2479 0.5360 2.8128 2.8128 4.0457 4.0457 10.9500 10.9500 20.3500 1 2 3 4 5 6 7 *
8 9 10 11 Reading Level dBuV 43.28 41.85 36.13 32.66 37.40 22.51 42.21 23.75 41.17 25.74 34.60 Correct Factor dB 9.73 9.74 9.75 9.79 9.91 9.91 9.96 9.96 10.10 10.10 10.36 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 53.01 51.59 45.88 42.45 47.31 32.42 52.17 33.71 51.27 35.84 44.96 65.96 -12.95 64.17 -12.58 61.82 -15.94 56.00 -13.55 56.00 -8.69 46.00 -13.58 56.00 -3.83 46.00 -12.29 60.00 -8.73 50.00 -14.16 60.00 -15.04 peak peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 5/6 File :ZG5B C TEST(WCDMA) Data :#6 Date: 2008/8/22 Time:
site#1 Site Limit:
EUT:
M/N:
Mode:
Note:
CISPR22 Class B Conduction(QP) ZG5 WCDMA CH9538 Phase:
Power:
L2 Temperature:
26 Humidity:
55 %
No. Mk. Freq. MHz 0.1948 0.5270 0.8960 2.5517 2.5517 4.0100 4.0100 11.3000 11.3000 19.8000 1 2 3 4 5 6 *
7 8 9 10 Reading Level dBuV 41.13 34.43 33.66 35.73 22.79 42.09 24.81 40.58 28.68 31.33 Correct Factor dB 9.74 9.79 9.80 9.93 9.93 9.97 9.97 10.11 10.11 10.25 Measure-
ment dBuV Limit Over dBuV dB Detector Comment 50.87 44.22 43.46 45.66 32.72 52.06 34.78 50.69 38.79 41.58 63.83 -12.96 56.00 -11.78 56.00 -12.54 56.00 -10.34 46.00 -13.28 56.00 -3.94 46.00 -11.22 60.00 -9.31 50.00 -11.21 60.00 -18.42 peak peak peak peak AVG peak AVG peak AVG peak
*:Maximum data x:Over limit !:over margin Reference Only 6/6 5. List of Measurement Equipments Manufacturer Name of Equipment Type/Model Serial Number Agilent R&S Spectrum analyzer Receiver E4408B ESCI MY45107753 Jun. 05, 2008 Calibration Last Cal. Due Date Jun. 05, 2009 100367 Jun. 05, 2008 Jun. 05, 2009 SCHWARZBECK Trilog Broadband Antenna VULB 9163 9163-270 Jun. 26, 2008 Jun. 26, 2009 SCHWARZBECK Broadband Horn Antenna BBHA 9120D 9120D-550 Jun. 26, 2008 Jun. 26, 2009 SCHWARZBECK Broadband Horn Antenna BBHA 9170 9170-320 Jun. 09, 2008 Aug. 07, 2009 Agilent Amplifier 8447D 2944A10961 Jun. 10, 2008 Jun. 10, 2009 Universal Radio Communication Tester ROHDE & SCHWARZ Spectrum Analyzer Agilent Loop Dipole Loop Dipole Sleeve Dipole Sleeve Dipole ETS-Lindgren ETS-Lindgren ETS-Lindgren ETS-Lindgren CMU200 112387 Oct. 24, 2007 Oct. 24, 2008 E4445A MY45300744 Nov. 29, 2007 Nov. 29, 2008 3127-1880 3127-836 3126-1845 3126-880 00052640 00055272 00056670 00052705 Jul. 02, 2008 Jul. 02, 2009 Jun. 29, 2008 Jun. 29, 2009 Jun. 29, 2008 Jun. 29, 2009 Jun. 29, 2008 Jun. 29, 2009 Anechoic Chamber ETS-Lindgren AMS 8500 S/N 102165 High Pass Filter MICRO-TRONICS HPM50108 High Pass Filter MICRO-TRONICS HPM50111 020 021 Circularly Polarized Communication Antennas EMCO 3102 00051714 Pattern Measurement Software ETS-Lindgren Desktop Computer with Windows XP Antenna Positioner Controller MAPS Positioner Filter Filter Attenuator Splitter Power divider EMCO EMCO K&L K&L RADIALL Powercom Agilent EMQuest EMQ-100 Dell Computers NA NA 2090 00052447 2010/2015 5TNF-1700/
2000-0.1N/N 3TNF-800/
1000-0.2N/N R41572000 NA 166 274 0603033073 SGR-GFQ-2-D 41106609 87302C 3239A00760 NA NA NA NA NA NA NA NA NA NA NA NA NA Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 81 of 82 Rev.01 Uncertainty Evaluation 6. Uncertainty of Radiated Emission Measurement (30MHz ~ 1000MHz) Contribution Receiver reading Antenna factor calibration Cable loss calibration Pre Amplifier Gain calibration RCV/SPA specification Antenna Factor Interpolation for Frequency Site imperfection Mismatch combined standard uncertainty Uc(y) Measuring uncertainty for a level of confidence of 95%
U=2Uc(y) Uncertainty of Xi dB 0.41 0.83 0.25 0.27 2.50 1.00 1.43
+0.39/-0.41 U(Xi) 0.21 0.42 0.13 0.14 0.72 0.29 0.83 0.28 Probability Distribution Normal(k=2) Normal(k=2) Normal(k=2) Normal(k=2) Rectangular Rectangular Rectangular U-shaped 1.27 2.54 Uncertainty of Radiated Emission Measurement (1GHz ~ 40GHz) Contribution Receiver reading Antenna factor calibration Cable loss calibration Receiver Correction Antenna Factor Directional Site imperfection Mismatch Receiver VSWR 1 = 0.197 Antenna VSWR 2 = 0.194 Uncertainty=20log(1- 1 * 2 * 3 ) Combined standard uncertainty Uc(y) Measuring uncertainty for a level of confidence of 95%
U=2Ue(y) U(Xi) Uncertainty of Xi dB Probability Distributio Normal(k=1) 0.10 0.10 Normal(k=2) 0.85 1.70 Normal(k=2) 0.25 0.50 Rectangular 1.15 2.00 1.50 Rectangular 0.87 2.80 Triangular 1.14 Ci Ci * U(Xi) 1 1 1 1 1 1 0.10 0.85 0.25 1.15 0.87 1.14
+0.34/-0.35 U-shaped 0.244 1 0.244 2.36 4.72 Test Report No0809FR14 2009 A Test Lab Techno Corp. Page 82 of 82 Rev.01
1 2 | SAR test report | RF Exposure Info | 1.11 MiB |
A Test Lab Techno Corp. Changan LabNo. 140 -1, Changan Street, Bade City, Taoyuan County, Taiwan R.O.C. Tel886-3-271-0188 / Fax886-3-271-0190 SAR EVALUATION REPORT Test Report No. Applicant FCC ID Trade Name Model Number Product Type 0809FS12 Acer Incorporated HLZZG53GQ acer ZG5, Aspire One Notebook PC Sep. 05 ~ Sep. 08, 2008 Relative Humidity40 - 70 %
Dates of Test Test Environment Ambient Temperature 22 2 C Test Specification Standard C95.1-1999 Max. SAR Test Lab 0.123 W/kg Body SAR Chang-an Lab 2.1093;FCC/OET Bulletin 65 Supplement C [July 2001]
IEEE Std. 1528-2003 1. The test operations have to be performed with cautious behavior, the test results are as attached. 2. The test results are under chamber environment of A Test Lab Techno Corp. A Test Lab Techno Corp. does not assume responsibility for any conclusions and generalizations drawn from the test results with regard to other specimens or samples. 3. The measurement report has to be written approval of A Test Lab Techno Corp. It may only be reproduced or published in full. Country Huang 20080925 Measurement Center Manager 2008 A Test Lab Techno Corp. Page 1 of 45 This report shall not be reproduced except in full, without the written approval of A Test Lab Techno Corp. Rev.00 This document may be altered or revised by A Test Lab Techno. Corp. personnel only, and shall be noted in the revision section of the document Sam Chuang 20080925 Testing Engineer Contents 6.1 6.2 6.3 6.4 6.5 6.6 6.7 1. Description of Equipment Under Test (EUT) .............................................................................3 2. Other Accessories .......................................................................................................................5 3. Introduction ..................................................................................................................................7 4. SAR Definition..............................................................................................................................8 5. SAR Measurement Setup ............................................................................................................9 6. System Components .................................................................................................................11 DASY5 E-Field Probe System.............................................................................................................11 Data Acquisition Electronic (DAE) System......................................................................................... 14 Robot .................................................................................................................................................. 14 Measurement Server.......................................................................................................................... 14 Device Holder for Transmitters........................................................................................................... 15 Phantom - SAM v4.0 .......................................................................................................................... 16 Data Storage and Evaluation.............................................................................................................. 16 7. Test Equipment List...................................................................................................................19 8. Tissue Simulating Liquids.........................................................................................................20 Liquid Confirmation............................................................................................................................. 21 9. Measurement Process...............................................................................................................23 Device and Test Conditions ........................................................................................................... 23 System Performance Check .......................................................................................................... 26 Dosimetric Assessment Setup....................................................................................................... 30 Spatial Peak SAR Evaluation......................................................................................................... 32 10. Measurement Uncertainty .........................................................................................................33 11. SAR Test Results Summary ......................................................................................................35 11.1 GPRS/EGPRS 850 Results _ EUT Bottom to phantom 2mm space ................................................. 35 11.2 GPRS/EGPRS 1900 Results _ EUT Bottom to phantom 2mm space ............................................... 37 11.3 WCDMA/HSDPA Band V _ EUT Bottom to phantom 2mm space ..................................................... 38 11.4 WCDMA Band II _ EUT Bottom to phantom 2mm space................................................................... 40 11.5 Setup Photo........................................................................................................................................ 42 Std. C95.1-1999 RF Exposure Limit................................................................................................... 43 11.6 12. Conclusion..................................................................................................................................44 13. References..................................................................................................................................45 9.1 9.2 9.3 9.4 8.1 Appendix Appendix A - System Performance Check Appendix B - SAR Measurement Data Appendix C - Calibration Test Report No0809FS12 Page 2 of 45 2008 A Test Lab Techno Corp. Rev.00 1. Description of Equipment Under Test (EUT) Applicant Acer Incorporated 8F, 88, Sec.1, Hsin Tai Wu Rd. Hsichih, Taipei Hsien 221 Taiwan, R.O.C. Manufacturer Manufacturer Address Product Type Trade Name Model Number FCC ID Test Device Tx Frequency Max. RF Conducted Power Max. SAR Measurement HW Version SW Version Antenna Type Antenna Gain Device Category RF Exposure Environment Battery Option Application Type Quanta Computer Inc. No.211, Wen Hwa 2nd Rd., Kuei Shan Hsiang, Tao Yuan Shien, Taiwan, R.O.C. Notebook PC acer ZG5, Aspire One HLZZG53GQ Production Unit 824.2
- 848.8 MHz (GPRS/EGPRS 850) 1850.2 - 1909.8 MHz (GPRS/EGPRS 1900) 826.6
- 846.4 MHz (WCDMA/HSDPA Band V) 1852.6 - 1907.4 MHz (WCDMA/HSDPA Band II) 1.698 W (32.40 dBm) GPRS 850 Class 10 0.444 W (26.57 dBm) EGPRS 850 Class 10 0.750 W (28.85 dBm) GPRS 1900 Class 10 0.370 W (25.78 dBm) EGPRS 1900 Class 10 0.253 W (24.03 dBm) WCDMA Band V 0.135 W (21.30 dBm) HSDPA Band V 0.228 W (23.58 dBm) WCDMA Band II 0.145 W (21.60 dBm) HSDPA Band II 0.123 W/kg Body SAR F 3114 Internal Type 0.56 dBi GPRS/EGPRS 850 / WCDMA Band V
-0.65 dBi GPRS/EGPRS 1900 / WCDMA Band II Portable General Population / Uncontrolled Standard Certification This wireless portable device has been shown to be capable of compliance for localized specific absorption rate
(SAR) for uncontrolled environment / general population exposure limits specified in Standard C95.1-1999 and had been tested in accordance with the measurement procedures specified in IEEE Std. 1528-2003. Test Report No0809FS12 Page 3 of 45 2008 A Test Lab Techno Corp. Rev.00 Figure 1. EUT Photo Test Report No0809FS12 Page 4 of 45 2008 A Test Lab Techno Corp. Rev.00 2. Other Accessories Figure 2. Battery Test Report No0809FS12 Page 5 of 45 2008 A Test Lab Techno Corp. Rev.00 Figure 3. AC Adapter Test Report No0809FS12 Page 6 of 45 2008 A Test Lab Techno Corp. Rev.00 Introduction 3. The A Test Lab Techno Corp. has performed measurements of the maximum potential exposure to the user of Acer Incorporated Trade Nameacer Model(s)ZG5, Aspire One. The test procedures, as described in American National Standards, Institute C95.1 - 19991, FCC/OET Bulletin 65 Supplement C [July 2001] were employed and they specify the maximum exposure limit of 1.6mW/g as averaged over any 1 gram of tissue for portable devices being used within 20cm between user and EUT in the uncontrolled environment. A description of the product and operating configuration, detailed summary of the test results, methodology and procedures used in the equipment used are included within this test report. Test Report No0809FS12 Page 7 of 45 2008 A Test Lab Techno Corp. Rev.00 SAR Definition 4. Specific Absorption Rate (SAR) is defined as the time derivative (rate) of the incremental energy (dw) absorbed by (dissipated in) an incremental mass (dm) contained in a volume element (dv) of a given density ( ). It is also defined as the rate of RF energy absorption per unit mass at a point in an absorbing body (see Figure 4). SAR =
d dt dw dm
=
d dt dw dv Figure 4. SAR Mathematical Equation SAR is expressed in units of Watts per kilogram (W/kg) SAR =
E 2 Where
= conductivity of the tissue (S/m)
= mass density of the tissue (kg/m3) E = RMS electric field strength (V/m) Note The primary factors that control rate of energy absorption were found to be the wavelength of the incident field in relations to the dimensions and geometry of the irradiated organism, the orientation of the organism in relation to the polarity of field vectors, the presence of reflecting surfaces, and whether conductive contact is made by the organism with a ground plane2 Test Report No0809FS12 Page 8 of 45 2008 A Test Lab Techno Corp. Rev.00 SAR Measurement Setup 5. These measurements were performed with the automated near-field scanning system DASY5 from Schmid &
Partner Engineering AG (SPEAG). The system is based on a high precision robot (working range greater than 0.9m) which positions the probes with a positional repeatability of better than 0.02mm. Special E- and H-field probes have been developed for measurements close to material discontinuity, the sensors of which are directly loaded with a Schottky diode and connected via highly resistive lines (length = 300mm) to the data acquisition unit. A cell controller system contains the power supply, robot controller, teach pendant (Joystick), and remote control, is used to drive the robot motors. The Measurement Server is based on a PC/104 CPU board with a 400MHz intel ULV Celeron, 128MB chipdisk and 128MB RAM. The necessary circuits for communication with either the DAE4 (or DAE3) electronic box as well as the 16-bit AD-converter system for optical detection and digital I/O interface are contained on the DASY5 I/O-board, which is directly connected to the PC/104 bus of the CPU board. The PC consists of the Intel Core(TM)2 CPU @1.86GHz computer with Windows XP system and SAR Measurement Software DASY5, Post Processor SEMCAD, monitor, mouse, and keyboard. The Staubli Robot is connected to the cell controller to allow software manipulation of the robot. A data acquisition electronic (DAE) circuit performs the signal amplification, signal multiplexing, AD-conversion, offset measurements, mechanical surface detection, collision detectionetc. is connected to the Electro-optical converter (EOC). The EOC performs the conversion from the optical into digital electric signal of the DAE and transfers data to the Measurement Server. Test Report No0809FS12 Page 9 of 45 2008 A Test Lab Techno Corp. Rev.00 Figure 5. SAR Lab Test Measurement Setup The DAE4 (or DAE3) consists of a highly sensitive electrometer-grade preamplifier with auto-zeroing, a channel and gain-switching multiplexer, a fast 16 bit AD-converter and a command decoder and control logic unit. Transmission to the PC-card is accomplished through an optical downlink for data and status information and an optical uplink for commands and clock lines. The mechanical probe mounting device includes two different sensor systems for frontal and sidewise probe contacts. They are also used for mechanical surface detection and probe collision detection. The robot uses its own controller with a built in VME-bus computer. The system is described in detail in3. Test Report No0809FS12 Page 10 of 45 2008 A Test Lab Techno Corp. Rev.00 System Components 6. 6.1 DASY5 E-Field Probe System The SAR measurements were conducted with the dosimetric probe ES3DV3 or ET3DV6 (manufactured by SPEAG), designed in the classical triangular configuration3and optimized for dosimetric evaluation. The probes is constructed using the thick film technique; with printed resistive lines on ceramic substrates. The probe is equipped with an optical multi-fiber line ending at the front of the probe tip. It is connected to the EOC box on the robot arm and provides an automatic detection of the phantom surface. Half of the fibers are connected to a pulsed infrared transmitter, the other half to a synchronized receiver. As the probe approaches the surface, the reflection from the surface produces a coupling from the transmitting to the receiving fibers. This reflection increases first during the approach, reaches maximum and then decreases. If the probe is flatly touching the surface, the coupling is zero. The distance of the coupling maximum to the surface is independent of the surface reflectivity and largely independent of the surface to probe angle. The DASY5 software reads the reflection during a software approach and looks for the maximum using a 2nd order fitting. The approach is stopped when reaching the maximum. Test Report No0809FS12 Page 11 of 45 2008 A Test Lab Techno Corp. Rev.00 6.1.1 E-Field Probe Specification Construction Symmetrical design with triangular core Built-in optical fiber for surface detection System Built-in shielding against static charges PEEK enclosure material
(resistant to organic solvents, e.q., glycol) In air from 10 MHz to 6 GHz In brain and muscle simulating tissue at frequencies of 900MHz, 1800MHz, 1950MHz, 2000MHz and 2450MHz (accuracy 8%) Calibration for other liquids and frequencies upon request 10 MHz to > 6 GHz; Linearity: 0.2 dB
(30 MHz to 3 GHz) 0.3 dB in brain tissue (rotation around probe axis) 0.5 dB in brain tissue (rotation normal probe axis) 10W/g to > 100mW/g; Linearity: 0.2dB 0.2 mm repeatability in air and clear liquids over diffuse reflecting surface(EX3DV3 only) Overall length: 330mm Tip length: 20mm Body diameter: 12mm Tip diameter: 2.5mm Distance from probe tip to dipole centers: 1.0mm General dosimetry up to 6GHz Compliance tests of mobile phones Fast automatic scanning in arbitrary phantoms Calibration Frequency Directivity Dynamic Range Surface Detection Dimensions Application Figure 6. E-field Probe Figure 7. Probe setup on robot Test Report No0809FS12 Page 12 of 45 2008 A Test Lab Techno Corp. Rev.00 6.1.2 E-Field Probe Calibration Each probe is calibrated according to a dosimetric assessment procedure described in4with accuracy better than 10%. The spherical isotropy was evaluated with the procedure described in5and found to be better than 0.25dB. The sensitivity parameters (NormX, NormY, and NormZ), the diode compression parameter (DCP) and the conversion factor (ConvF) of the probe are tested. The free space E-field from amplified probe outputs is determined in a test chamber. This is performed in a TEM cell for frequencies bellow 1GHz, and in a wave guide above 1GHz for free space. For the free space calibration, the probe is placed in the volumetric center of the cavity and at the proper orientation with the field. The probe is then rotated 360 degrees. E-field temperature correlation calibration is performed in a flat phantom filled with the appropriate simulated brain tissue. The measured free space E-field in the medium correlates to temperature rise in a dielectric medium. For temperature correlation calibration a RF transparent thermistor-based temperature probe is used in conjunction with the E-field probe. T SAR = C t Where t = Exposure time (30 seconds), C T = Temperature increase due to RF exposure.
= Heat capacity of tissue (head or body), Or SAR =
|
E 2|
Where
= Simulated tissue conductivity,
= Tissue density (kg/m3). Test Report No0809FS12 Page 13 of 45 2008 A Test Lab Techno Corp. Rev.00 6.2 Data Acquisition Electronic (DAE) System Cell Controller Processor Clock Speed Operating System Data Converter Features Software Connecting Lines Intel Core(TM)2 CPU
@ 1.86GHz Windows XP Professional Signal Amplifier, multiplexer, A/D converter, and control logic DASY5 v5.0 (Build 119) & SEMCAD X Version 13.2 Build 87 Optical downlink for data and status info Optical uplink for commands and clock 6.3 Robot Positioner Repeatability No. of Axis 6.4 Measurement Server Processor I/O-board Stubli Unimation Corp. Robot Model: TX90XL 0.02 mm 6 PC/104 with a 400MHz intel ULV Celeron Link to DAE4(or DAE3) 16-bit A/D converter for surface detection system Digital I/O interface Serial link to robot Direct emergency stop output for robot Test Report No0809FS12 Page 14 of 45 2008 A Test Lab Techno Corp. Rev.00 6.5 Device Holder for Transmitters In combination with the SAM Twin Phantom V4.0, the Mounting Device (POM) enables the rotation of the mounted transmitter in spherical coordinates whereby the rotation points is the ear opening. The devices can be easily, accurately, and repeat ably positioned according to the IEEE SCC34-SC2 and CENELEC specifications. The device holder can be locked at different phantom locations (left head, right head, and flat phantom). NoteA simulating human hand is not used due to the complex anatomical and geometrical structure of the hand that may produced infinite number of configurations6. To produce the worst-case condition (the hand absorbs antenna output power), the hand is omitted during the tests. Larger DUT cannot be tested using this device holder. Instead a support of bigger polystyrene cubes and thin polystyrene plates is used to position the DUT in all relevant positions to find and measure spots with maximum SAR values. Therefore those devices are normally only tested at the flat part of the SAM. Figure 8. Device Holder Test Report No0809FS12 Page 15 of 45 2008 A Test Lab Techno Corp. Rev.00 6.6 Phantom - SAM v4.0 The shell corresponds to the specifications of the Specific Anthropomorphic Mannequin (SAM) phantom defined in IEEE 1528-2003, CENELEC 50361 and IEC 62209. It enables the dosimetric evaluation of left and right hand phone usage as well as body mounted usage at the flat phantom region. A cover prevents evaporation of the liquid. Reference markings on the phantom allow the complete setup of all predefined phantom positions and measurement grids by manually teaching three points with the robot. Figure 9. SAM Twin Phantom Shell Thickness 2 0.2 mm Filling Volume Approx. 25 liters Dimensions 8101000500 mm (HLW) Table 1. Specification of SAM v4.0 6.7 Data Storage and Evaluation 6.7.1 Data Storage The DASY5 software stores the assessed data from the data acquisition electronics as raw data (in microvolt readings from the probe sensors), together with all the necessary software parameters for the data evaluation
(probe calibration data, liquid parameters and device frequency and modulation data) in measurement files with the extension .DA5. The postprocessing software evaluates the desired unit and format for output each time the data is visualized or exported. This allows verification of the complete software setup even after the measurement and allows correction of erroneous parameter settings. For example, if a measurement has been performed with an incorrect crest factor parameter in the device setup, the parameter can be corrected afterwards and the data can be reevaluated. Test Report No0809FS12 Page 16 of 45 2008 A Test Lab Techno Corp. Rev.00 6.7.2 Data Evaluation The DASY5 post processing software (SEMCAD) automatically executes the following procedures to calculate the field units from the microvolt readings at the probe connector. The parameters used in the evaluation are stored in the configuration modules of the software Probe parameters - Sensitivity
- Conversion factor
- Diode compression point Device parameters - Frequency
- Crest factor Media parameters - Conductivity
- Density Normi, ai0, ai1, ai2 ConvFi dcpi f cf These parameters must be set correctly in the software. They can be found in the component documents or they can be imported into the software from the configuration files issued for the DASY components. In the direct measuring mode of the multimeter option, the parameters of the actual system setup are used. In the scan visualization and export modes, the parameters stored in the corresponding document files are used. The first step of the evaluation is a linearization of the filtered input signal to account for the compression characteristics of the detector diode. The compensation depends on the input signal, the diode type and the DC-transmission factor from the diode to the evaluation electronics. If the exciting field is pulsed, the crest factor of the signal must be known to correctly compensate for peak power. The formula for each channel can be given as UUV i
+
=
i 2 i cf dcp i with Vi = compensated signal of channel i (i = x, y, z) Ui = input signal of channel i (i = x, y, z) cf = crest factor of exciting field (DASY parameter) dcpi = diode compression point (DASY parameter) From the compensated input signals the primary field data for each channel can be evaluated E-field probes E i
=
V i ConvF Norm i Test Report No0809FS12 Page 17 of 45 2008 A Test Lab Techno Corp. Rev.00 with H-field probes H i
=
aV i i 0
+
fa i 1 f
+
fa i 2 2 Vi = compensated signal of channel i (i = x, y, z) Normi = sensor sensitivity of channel i (i = x, y, z) V/(V/m)2 for E-field Probes ConvF = sensitivity enhancement in solution aij = sensor sensitivity factors for H-field probes f Ei = electric field strength of channel i in V/m Hi = magnetic field strength of channel i in A/m
= carrier frequency [GHz]
The RSS value of the field components gives the total field strength (Hermitian magnitude) E tot
=
E 2 x
+
E 2 y
+
E 2 z The primary field data are used to calculate the derived field units. SAR
=
totE 2 1000 with SAR = local specific absorption rate in mW/g Etot = total field strength in V/m
= conductivity in [mho/m] or [Siemens/m]
= equivalent tissue density in g/cm3 Notethat the density is set to 1, to account for actual head tissue density rather than the density of the tissue simulating liquid. The power flow density is calculated assuming the excitation field to be a free space field. P =
pwe E 2 tot 3770 or P =
pwe H 2 tot 7.37 with Ppwe = equivalent power density of a plane wave in mW/cm2 Etot = total electric field strength in V/m Htot = total magnetic field strength in A/m Test Report No0809FS12 Page 18 of 45 2008 A Test Lab Techno Corp. Rev.00 7. Test Equipment List Manufacturer Name of Equipment Type/Model Serial Number SPEAG Dosimetric E-Filed Probe ES3DV3 3150 Calibration Due Date Last Cal. Jan. 09, 2008 Jan. 09, 2009 SPEAG 900MHz System Validation Kit D900V2 SN:1d053 Dec. 12, 2007 Dec. 12, 2008 SPEAG 1800MHz System Validation Kit D1950V2 1117 Dec. 20, 2007 Dec. 20, 2008 SPEAG Data Acquisition Electronics DAE4 Nov. 30, 2007 Nov. 30,, 2008 SPEAG SPEAG SPEAG SPEAG SPEAG Device Holder N/A Phantom SAM V4.0 TP-1150 779 N/A Robot Staubli TX90XL F07/564ZA1/C/01 NCR Software Software DASY5 V5.0 Build 119 SEMCAD X V13.2 Build 87 N/A N/A NCR NCR NCR NCR NCR NCR NCR NCR NCR NCR NCR SPEAG Measurement Server SE UMS 011 AA 1025 Agilent Wireless Communication Test Set CMU200 112387 Oct. 24, 2007 Oct. 24, 2008 Agilent ENA Series Network Analyzer E5071B MY42402996 Oct. 23, 2007 Oct. 23, 2008 Agilent Dielectric Probe Kit 85070C US99360094 NCR NCR R&S Agilent Power Sensor NRP-Z22 100179 May. 03, 2008 May. 03, 2009 Signal Generator E8257D MY44320425 Jul. 03, 2008 Jul. 03, 2009 Agilent Dual Directional Coupler 778D 50334 Mini-Circuits Power Amplifier ZHL-42W-SMA D111103#5 Mini-Circuits Power Amplifier ZVE-8G-SMA D042005 671800514 Table 2. Test Equipment List NCR NCR NCR NCR NCR NCR Test Report No0809FS12 Page 19 of 45 2008 A Test Lab Techno Corp. Rev.00 Tissue Simulating Liquids 8. The mixture is calibrated to obtain proper dielectric constant (permittivity) and conductivity of the tissue. The dielectric parameters of the liquids were verified prior to the SAR evaluation using an 85070C Dielectric Probe Kit and an 8720ES Network Analyzer. IEEE SCC-34/SC-2 in 1528 recommended Tissue Dielectric Parameters The head tissue dielectric parameters recommended by the IEEE SCC-34/SC-2 in 1528 have been incorporated in the following table. These head parameters are derived from planar layer models simulating the highest expected SAR for the dielectric properties and tissue thickness variations in human head. Other head and body tissue parameters that have not been specified in 1528 are derived from the tissue dielectric parameters computed from the 4-Cole-Cole equation and extrapolated according to the head parameter specified in 1528. Target Frequency Head Body
(MHz) 150 300 450 835 900 915 1450 1610 1800 - 2000 r 52.3 45.3 43.5 41.5 41.5 41.5 40.5 40.3 40.0 39.2 38.5 35.3
(S/m) 0.76 0.87 0.87 0.90 0.97 0.98 1.20 1.29 1.40 1.80 2.40 5.27 r 61.9 58.2 56.7 55.2 55.0 55.0 54.0 53.8 53.3 52.7 52.0 48.2
(S/m) 0.80 0.92 0.94 0.97 1.05 1.06 1.30 1.40 1.52 1.95 2.73 6.00 2450 3000 5800
( r = relative permittivity, = conductivity and = 1000 kg/m3 ) Table 3. Tissue dielectric parameters for head and body phantoms Test Report No0809FS12 Page 20 of 45 2008 A Test Lab Techno Corp. Rev.00 8.1 Liquid Confirmation 8.1.1 Parameters Liquid Verify Ambient Temperature 22 2 CRelative Humidity40 -70%
Liquid Type Frequency Temp (C) Parameters Target Value Measured Value Deviation (%) Limit (%) Measured Date 900MHz Body 900MHz Body 1950MHz Body 900MHz 22.0 900MHz 22.0 1950MHz 22.0 r r r 55.0 1.05 55.0 1.05 53.3 1.52 53.9 1.04 53.9 1.04 51.6 1.56
-2.00
-0.95
-2.00
-0.95
-3.19 2.63 5 5 5 5 5 5 Sep. 05, 2008 Sep. 08, 2008 Sep. 07, 2008 Table 4. Measured Tissue dielectric parameters for head and body phantoms Test Report No0809FS12 Page 21 of 45 2008 A Test Lab Techno Corp. Rev.00 8.1.2 Liquid Depth The liquid level was during measurement 15cm 0.5cm. Figure 10. Head-Tissue-Simulating-Liquid Figure 11. Body-Tissue-Simulating-Liquid Test Report No0809FS12 Page 22 of 45 2008 A Test Lab Techno Corp. Rev.00 9. Measurement Process 9.1 Device and Test Conditions The Test Device was provided by Acer Incorporated for this evaluation. The spatial peak SAR values were assessed for the lowest, middle and highest channels defined by GSM/GPRS 850 (#128=824.2MHz,
#190=836.6MHz, #251=848.8MHz
(#512=1850.2MHz, #661=1880.0MHz,
#810=1909.8MHz) , WCDMA Band V (#4132=826.4MHz, #4183=836.6MHz, #4233=846.6MHz), WCDMA Band II (#9262=1852.4MHz, #9400=1880.0MHz, #9538=1907.6MHz) systems . The antenna(s), battery and accessories shall be those specified by the manufacturer. The battery shall be fully charged before each measurement and there shall be no external connections.
/ GPRS 1900
), PCS to the UE category of a HSDPA Date Devices setup for SAR Measurement. HSDPA should be configured according The number of HS-DSCH/HS-PDSCHs, HARQ processes, minimum inter-TTI interval, transport block sizes and RV coding sequence are defined by the H-set. To maintain a consistent test configuration and stable transmission conditions, QPSK is used in the H-set for SAR testing. HS-DPCCH should be configured with a CQI feedback cycle of 4 ms with a CQI repetition factor of 2 to maintain a constant rate of active CQI slots. DPCCH and DPDCH gain factors(c, d), and HS-DPCCH power offset parameters (ACK, NACK, CQI) should be set according to values indicated in the Table below.32 The CQI value is determined by the UE category, transport block size, number of HS-PDSCHs and modulation used in the H-set.33 test device. Sub-test 1 2 3 4 c 2/15 12/15(3) 15/15 15/15 d 15/15 15/15(3) 8/15 4/15 d
(SF) 64 64 64 64 c/d 2/15 12/15(3) 15/8 15/4 hs(1) 4/15 24/15 30/15 30/15 CM (dB) (2) 0.0 1.0 1.5 1.5 Note 1. ACK, NACK and CQI = 8 Ahs = hs/c = 30/15 hs= 30/15 *c 2. CM = 1 for c/d =12/15, hs/c=24/15. 3. For subtest 2 the c/d ratio of 12/15 for the TFC during the measurement period (TF1, TF0) is achieved by setting the signaled gain factors for the reference TFC (TF1, TF1) to c = 11/15 and d = 15/15. Table 5. Setup for Release 5 HSDPA Test Report No0809FS12 Page 23 of 45 2008 A Test Lab Techno Corp. Rev.00 Band Date Rate CH GPRS850 EGPRS850 GPRS1900 EGPRS1900 3Down 2up 3Down 1up 3Down 2up 3Down 1up 3Down 2up 3Down 1up 3Down 2up 3Down 1up Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Conducted Power Before 32.25 32.28 32.40 31.95 32.00 32.10 26.35 26.40 26.57 26.30 26.30 26.40 28.85 28.75 28.65 28.35 28.25 28.15 25.78 25.65 25.60 25.55 25.30 25.30 After 32.24 32.27 32.39 31.93 31.99 32.09 26.34 26.38 26.56 26.29 26.29 26.39 28.85 28.74 28.64 28.34 28.24 28.14 25.77 25.64 25.59 25.54 25.28 25.29 Worst Test Report No0809FS12 Page 24 of 45 2008 A Test Lab Techno Corp. Rev.00 Band Date Rate or Sub-test WCDMA V
---
HSDPA V 1 2 3 4 WCDMA II
---
HSDPA II 1 2 3 4 CH Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Lowest Middle Highest Conducted Power Before 23.63 24.03 23.99 20.90 21.30 20.30 20.00 20.30 20.30 18.30 18.60 18.60 17.70 17.90 17.90 23.58 23.31 23.07 21.50 21.60 21.40 20.50 20.70 20.30 18.80 19.00 18.60 18.20 18.40 18.08 After 23.62 24.02 23.98 20.89 21.29 20.29 20.00 20.29 20.29 18.29 18.59 18.58 17.69 17.89 17.89 23.57 23.30 23.06 20.49 21.59 21.39 20.49 20.69 20.29 18.79 18.99 18.59 18.19 18.39 18.06 Worst Note: The EUT take Li-ion batteries as its power source. Each test was preceded under the condition of fully-charged EUT. Test Report No0809FS12 Page 25 of 45 2008 A Test Lab Techno Corp. Rev.00 9.2 System Performance Check 9.2.1 Symmetric Dipoles for System Validation Construction Symmetrical dipole with l/4 balun enables measurement of feed point impedance with NWA matched for use near flat phantoms filled with head simulating solutions Includes distance holder and tripod adaptor Calibration Calibrated SAR value for specified position and input power at the flat phantom in head simulating solutions. Frequency 450, 900, 1800, 1950, 2000 and 2450MHz Return Loss
> 20 dB at specified validation position Power Capability > 100 W (f < 1GHz); > 40 W (f > 1GHz) Options Dipoles for other frequencies or solutions and other calibration conditions are available upon request Dimensions D450V2dipole length 270 mm; overall height 330 mm D900V2dipole length 149 mm; overall height 330 mm D1800V2dipole length 72 mm; overall height 300 mm D1950V2dipole length 62 mm; overall height 300 mm D2000V2dipole length 65 mm; overall height 300 mm D2450V2dipole length 51.5 mm; overall height 300 mm Figure 12. Validation Kit Test Report No0809FS12 Page 26 of 45 2008 A Test Lab Techno Corp. Rev.00 9.2.2 Validation Prior to the assessment, the system validation kit was used to test whether the system was operating within its specifications of 7%. The validation was performed at 900MHz and 1950MHz. Validation kit D900V2-SN1d053 D1950V2-SN1117 Mixture Type Body Body SAR1g
[mW/g]
11.56 41.2 Frequency
(MHz) Power SAR1g
(mW/g) SAR10g
(mW/g) Drift
(dB) SAR10g
[mW/g]
7.48 21.76 Difference percentage 1g 10g Date of Calibration Dec. 12, 2007 Dec. 20, 2007 Date 900
(Body) 900
(Body) 1950
(Body) 250mW Normalize to 1 Watt 250mW Normalize to 1 Watt 250mW Normalize to 1 Watt 2.82 11.28 2.9 11.6 10.5 42 1.8 7.2 1.89 7.56 5.39 21.56 Detail results see Appendix A.
-0.020
-2.4 %
-3.7 %
Sep. 05, 2008
-0.057 0.3 %
1.1 %
Sep. 08, 2008
-0.031 1.9 %
-0.9 %
Sep. 07, 2008 Test Report No0809FS12 Page 27 of 45 2008 A Test Lab Techno Corp. Rev.00 Z-axis Plot of System Performance Check 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=3, Y=3 Markers 3.0 2.5 2.0
/
g W m 1.5 1.0 0.5 0.0 3.0 2.5 2.0
/
g W m 1.5 1.0 0.5 0.0 0.005 0.010 0.015 0.020 m 0.025 0.030 0.035 Head-Tissue-Simulating-Liquid 900MHz (2008.09.05) 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=3, Y=3 Markers 0.005 0.010 0.015 0.020 m 0.025 0.030 0.035 Head-Tissue-Simulating-Liquid 900MHz (2008.09.08) Test Report No0809FS12 Page 28 of 45 2008 A Test Lab Techno Corp. Rev.00 Z-axis Plot of System Performance Check 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=3, Y=3 Markers
/
g W m 12 11 10 9 8 7 6 5 4 3 2 1 0 0.005 0.010 0.015 0.020 m 0.025 0.030 0.035 Body-Tissue-Simulating-Liquid 1950MHz Test Report No0809FS12 Page 29 of 45 2008 A Test Lab Techno Corp. Rev.00 9.3 Dosimetric Assessment Setup 9.3.1 Body Worn Test Position Body-Worn Configuration Body-worn operating configurations should be tested with the belt-clips and holsters attached to the device and positioned against a flat phantom in normal use configurations. Devices with a handset output should be tested with a handset connected to the device. Body-worn accessories may not always be supplied or available as options for some devices that are intended to be authorized for body-worn use. A separation distance of 1.5 cm between the back of the device and a flat phantom is recommended for testing body-worn SAR compliance under such circumstances. For this test The EUT is placed into the holster/belt clip and the holster is positioned against the surface of the phantom in a normal operating position. Since this EUT doesnt supply any body-worn accessory to the end user, for EUT Bottom to phantom mode the distance of 2 mm was tested to confirm the necessary minimum SAR separation distance.
(NoteThis distance includes the 2 mm phantom shell thickness.) Test Report No0809FS12 Page 30 of 45 2008 A Test Lab Techno Corp. Rev.00 9.3.2 Measurement Procedures The evaluation was performed with the following procedures Surface Check A surface checks job gathers data used with optical surface detection. It determines the distance from the phantom surface where the reflection from the optical detector has its peak. Any following measurement jobs using optical surface detection will then rely on this value. The surface check performs its search a specified number of times, so that the repeatability can be verified. The probe tip distance is 1.3mm to phantom inner surface during scans. Reference Area Scan Zoom Scan Drift The reference job measures the field at a specified reference position, at 4 mm from the selected sections grid reference point. The area scan is used as a fast scan in two dimensions to find the area of high field values, before doing a finer measurement around the hot spot. The sophisticated interpolation routines can find the maximum locations even in relatively coarse grids. When an area scan has measured all reachable points, it computes the field maxima found in the scanned area, within a range of the global maximum. Any following zoom scan within the same procedure will then perform fine scans around these maxima. The area covered the entire dimension of the EUT and the horizontal grid spacing was 15 mm 15 mm. Zoom scans are used to assess the highest averaged SAR for cubic averaging volumes with 1 g and 10 g of simulated tissue. The zoom scan measures 5 x 5 x 7 points in a 32 x 32 x 30 mm cube whose base faces are centered around the maxima returned from a preceding area scan within the same procedure. The drift job measures the field at the same location as the most recent reference job within the same procedure, with the same settings. The drift measurement gives the field difference in dB from the last reference measurement. Several drift measurements are possible for each reference measurement. This allows monitoring of the power drift of the device in the batch process. If the value changed by more than 5%, the evaluation was repeated. Test Report No0809FS12 Page 31 of 45 2008 A Test Lab Techno Corp. Rev.00 9.4 Spatial Peak SAR Evaluation The DASY5 software includes all numerical procedures necessary to evaluate the spatial peak SAR values. Based on the Draft: SCC-34, SC-2, WG-2 - Computational Dosimetry, IEEE P1529/D0.0 (Draft Recommended Practice for Determining the Spatial-Peak Specific Absorption Rate (SAR) Associated with the Use of Wireless Handsets - Computational Techniques), a new algorithm has been implemented. The spatial-peak SAR can be computed over any required mass. The base for the evaluation is a cube measurement in a volume of (323230)mm3 (557 points). The measured volume must include the 1g and 10g cubes with the highest averaged SAR values. For that purpose, the center of the measured volume is aligned to the interpolated peak SAR value of a previously performed area scan. If the 10g cube or both cubes are not entirely inside the measured volumes, the system issues a warning regarding the evaluated spatial peak values within the Postprocessing engine (SEMCAD). This means that if the measured volume is shifted, higher values might be possible. To get the correct values you can use a finer measurement grid for the area scan. In complicated field distributions, a large grid spacing for the area scan might miss some details and give an incorrectly interpolated peak location. The entire evaluation of the spatial peak values is performed within the Postprocessing engine (SEMCAD). The system always gives the maximum values for the 1g and 10g cubes. The algorithm to find the cube with highest averaged SAR is divided into three stages:
Interpolation and Extrapolation The probe is calibrated at the center of the dipole sensors which is located 1 to 2.7mm away from the probe tip. During measurements, the probe stops shortly above the phantom surface, depending on the probe and the surface detecting system. Both distances are included as parameters in the probe configuration file. The software always knows exactly how far away the measured point is from the surface. As the probe cannot directly measure at the surface, the values between the deepest measured point and the surface must be extrapolated. In DASY5, the choice of the coordinate system defining the location of the measurement points has no influence on the uncertainty of the interpolation, Maxima Search and SAR extrapolation routines. The interpolation, Maxima Search and extrapolation routines are all based on the modified Quadratic Shepards method [7]. Test Report No0809FS12 Page 32 of 45 2008 A Test Lab Techno Corp. Rev.00 10. Measurement Uncertainty Measurement uncertainties in SAR measurements are difficult to quantify due to several variables including biological, physiological, and environmental. However, we estimate the measurement uncertainties in SAR to be less than 21.9 %8. According to Std. C95.39, the overall uncertainties are difficult to assess and will vary with the type of meter and usage situation. However, accuracys of 1 to 3 dB can be expected in practice, with greater uncertainties in near-field situations and at higher frequencies (shorter wavelengths), or areas where large reflecting objects are present. Under optimum measurement conditions, SAR measurement uncertainties of at least 2dB can be expected. According to CENELEC10, typical worst-case uncertainty of field measurements is 5 dB. For well-defined modulation characteristics the uncertainty can be reduced to 3 dB. Test Report No0809FS12 Page 33 of 45 2008 A Test Lab Techno Corp. Rev.00 Error Description Uncertainty value Prob. Dist. Div. Measurement System Probe Calibration Axial Isotropy Hemispherical Isotropy Boundary Eects Linearity System Detection Limits Readout Electronics Response Time Integration Time RF Ambient Noise RF Ambient Re ections Probe Positioner Probe Positioning Max. SAR Eval. Test Sample Related Device Positioning Device Holder Power Drift Phantom and Setup Phantom Uncertainty Liquid Conductivity (target) Liquid Conductivity (meas.) Liquid Permittivity (target) Liquid Permittivity (meas.) 5.9 %
4.7 %
9.6 %
1.0 %
4.7 %
1.0 %
0.3 %
0.8 %
2.6 %
3.0 %
3.0 %
0.4 %
2.9 %
1.0 %
2.9 %
3.6 %
5.0 %
4.0 %
5.0 %
2.5 %
5.0 %
2.5 %
Combined Std. Uncertainty Expanded STD Uncertainty N R R R R R N R R R R R R R N N R R R N R N 1 3 3 3 3 1 3 3 3 3 3 3 3 1 1 3 3 3 1 3 1
(ci) 1g 1 0.7 0.7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0.64 0.64 0.6 0.6
(ci) 10g Std. Unc.
(1g) Std. Unc.
(10g)
(vi) veff 1 0.7 0.7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 5.9 %
1.9 %
3.9 %
0.6 %
2.7 %
0.6 %
0.3 %
0.5 %
1.5 %
1.7 %
1.7 %
0.2 %
1.7 %
0.6 %
5.9 %
1.9 %
3.9 %
0.6 %
2.7 %
0.6 %
0.3 %
0.5 %
1.5 %
1.7 %
1.7 %
0.2 %
1.7 %
0.6 %
2.9 %
3.6 %
2.9 %
2.9 %
3.6 %
2.9 %
1 0.43 0.43 2.3 %
1.8 %
1.6 %
1.7 %
1.5 %
10.9 % 10.7 %
21.9 % 21.4 %
0.49 0.49 2.3 %
1.2 %
1.1 %
1.4 %
1.2 %
387 145 5 Table 6. Uncertainty Budget of DASY Test Report No0809FS12 Page 34 of 45 2008 A Test Lab Techno Corp. Rev.00 11. SAR Test Results Summary 11.1 GPRS/EGPRS 850 Results _ EUT Bottom to phantom 2mm space Ambient Temperature () Liquid Mixture Type Measurement Crest Factor 22 2 MSL900 4.2(3Down2Up) 8.3(3Down1up) Band Power
(dBm) Frequency MHz CH GPRS 850 128 824.2 GPRS 850 190 836.6 251 848.8 GPRS 850 251 EGPRS 850 848.8 251 848.8 GPRS 850 251 EGPRS 850 848.8 Std. C95.1-1999 - Safety Limit 32.25 32.28 32.40 26.40 32.10 26.40 Spatial Peak Phantom Position Flat Flat Flat Flat Flat Flat Uncontrolled Exposure/General Population Relative HUMIDITY (%) Liquid Temperature () Depth of liquid (cm) Probe S/N Antenna Position Accessory N/A Internal N/A Internal N/A Internal Internal N/A N/A Internal Internal N/A SAR1g
[mW/g]
0.035 0.046 0.066 0.021 0.035 0.010 40-70 22.0 15 3150 Remark Power Drift
(dB) 0.040 3Down2Up 0.156 3Down2Up 0.020 3Down2Up 0.000 3Down1Up
-0.137 3Down1Up 0.000 3Down1Up 1.6 W/kg (mW/g) Averaged over 1 gram Detail results see Appendix B. Test Report No0809FS12 Page 35 of 45 2008 A Test Lab Techno Corp. Rev.00 Z-axis Plot of SAR Measurement 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=2, Y=2 Markers 0.07 0.06 0.05
/
g W m 0.04 0.03 0.02 0.01 0.00 0.005 0.010 0.015 Figure 13. Z-axis Plot of Flat GPRS 850 CH251 (3Down2Up) 0.020 m 0.025 0.030 0.035 Test Report No0809FS12 Page 36 of 45 2008 A Test Lab Techno Corp. Rev.00 11.2 GPRS/EGPRS 1900 Results _ EUT Bottom to phantom 2mm space Ambient Temperature () Liquid Mixture Type Measurement Crest Factor 22 2 MSL1950 4.2(3Down2Up) 8.3(3Down1up) Band Power
(dBm) Frequency CH MHz 512 GPRS 1900 1850.2 1850.2 512 EGPRS 1900 512 GPRS 1900 1850.2 512 EGPRS 1900 1850.2 1880.0 661 GPRS 1900 810 GPRS 1900 1909.8 Std. C95.1-1999 - Safety Limit 28.85 25.78 28.35 25.55 28.75 28.65 Spatial Peak Phantom Position Flat Flat Flat Flat Flat Flat Uncontrolled Exposure/General Population Relative HUMIDITY (%) Liquid Temperature () Depth of liquid (cm) Probe S/N 40-70 22.0 15 3150 Antenna Position Accessory Internal Internal Internal Internal Internal Internal N/A N/A N/A N/A N/A N/A SAR1g
[mW/g]
0.100 0.040 0.052 0.021 0.094 0.079 Remark Power Drift
(dB)
-0.049 3Down2Up
-0.021 3Down2Up 0.176 3Down1Up 0.000 3Down1Up 0.115 3Down2Up 0.071 3Down2Up 1.6 W/kg (mW/g) Averaged over 1 gram Detail results see Appendix B. Z-axis Plot of SAR Measurement 1g/10g Averaged SAR
/
g W m 0.11 0.10 0.09 0.08 0.07 0.06 0.05 0.04 0.03 0.02 0.01 0.00 SAR; Zoom Scan:Value Along Z, X=2, Y=2 Markers 0.005 0.010 0.015 0.025 0.030 0.035 0.020 m Figure 14. Z-axis Plot of Flat GPRS1900 CH512 (3Down2Up) Test Report No0809FS12 Page 37 of 45 2008 A Test Lab Techno Corp. Rev.00 11.3 WCDMA/HSDPA Band V _ EUT Bottom to phantom 2mm space Ambient Temperature () Liquid Mixture Type 22 2 MSL900 1 Power
(dBm) Band Measurement Crest Factor Frequency CH MHz 4132 WCDMA V 826.6 836.0 4183 WCDMA V 4183 HSDPA V 836.0 4233 WCDMA V 846.6 Std. C95.1-1999 - Safety Limit 23.63 24.03 21.30 23.99 Spatial Peak Phantom Position Flat Flat Flat Flat Uncontrolled Exposure/General Population Relative HUMIDITY (%) 40-70 Liquid Temperature () Depth of liquid (cm) Probe S/N Antenna Position Accessory Internal Internal Internal Internal N/A N/A N/A N/A SAR1g
[mW/g]
0.025 0.034 0.031 0.030 22.0 15 3150 Power Drift
(dB) 0.139 0.097 0.196 0.180 Remark
-
-
-
-
1.6 W/kg (mW/g) Averaged over 1 gram Detail results see Appendix B. Test Report No0809FS12 Page 38 of 45 2008 A Test Lab Techno Corp. Rev.00 Z-axis Plot of SAR Measurement 1g/10g Averaged SAR SAR; Zoom Scan:Value Along Z, X=2, Y=2 Markers
/
g W m 0.030 0.025 0.020 0.015 0.010 0.005 0.000 0.005 0.010 0.015 Figure 15. Z-axis Plot of Flat WCDMA Band V CH4180 0.020 m 0.025 0.030 0.035 Spectrum Analyzer Setup Photo Figure 16. Spectrum Analyzer Flat HSDPA Band V CH4183 Test Report No0809FS12 Page 39 of 45 2008 A Test Lab Techno Corp. Rev.00 11.4 WCDMA/HSDPA Band II _ EUT Bottom to phantom 2mm space Ambient Temperature () Liquid Mixture Type Measurement Crest Factor Frequency MHz CH 1852.4 9262 WCDMA II 1852.4 9262 HSDPA II 1880.0 9400 WCDMA II 1907.6 9538 WCDMA II Band 22 2 MSL1950 1 Power
(dBm) 23.58 21.50 23.31 23.07 Relative HUMIDITY (%) 40-70 Liquid Temperature () Depth of liquid (cm) Probe S/N 22.0 15 3150 Phantom Position Flat Flat Flat Flat Antenna Position Accessory Internal Internal Internal Internal N/A N/A N/A N/A SAR1g
[mW/g]
0.123 0.107 0.120 0.101 Power Drift
(dB) 0.105 0.165 0.103 0.059 Remark
-
-
-
-
Std. C95.1-1999 - Safety Limit Spatial Peak Uncontrolled Exposure/General Population 1.6 W/kg (mW/g) Averaged over 1 gram Detail results see Appendix B. Test Report No0809FS12 Page 40 of 45 2008 A Test Lab Techno Corp. Rev.00 Z-axis Plot of SAR Measurement 1g/10g Averaged SAR
/
g W m 0.14 0.12 0.10 0.08 0.06 0.04 0.02 0.00 SAR; Zoom Scan:Value Along Z, X=2, Y=2 Markers 0.005 0.010 0.015 0.025 0.030 0.035 0.020 m Figure 17. Z-axis Plot of Flat WCDMA Band II CH9262 Spectrum Analyzer Setup Photo Figure 18. Spectrum Analyzer Flat HSDPA Band II CH9262 Test Report No0809FS12 Page 41 of 45 2008 A Test Lab Techno Corp. Rev.00 11.5 Setup Photo Figure 19. Body SAR Test Setup (Flat Section) _ EUT Bottom to Phantom 2mm space
( 3G Antenna to phantom 81.54mm space ) Test Report No0809FS12 Page 42 of 45 2008 A Test Lab Techno Corp. Rev.00 11.6 Std. C95.1-1999 RF Exposure Limit Human Exposure Spatial Peak SAR*
(head) Spatial Peak SAR**
(Whole Body) Spatial Peak SAR***
(Partial-Body) Spatial Peak SAR****
(Hands / Feet / Ankle / Wrist ) Population Uncontrolled Exposure Occupational Controlled Exposure
( W/kg ) or (mW/g)
( W/kg ) or (mW/g) 1.60 0.08 1.60 4.00 8.00 0.40 8.00 20.00 Table 7. Safety Limits for Partial Body Exposure Notes
*
The Spatial Peak value of the SAR averaged over any 1 gram of tissue.
( defined as a tissue volume in the shape of a cube ) and over the appropriate averaging time. The Spatial Average value of the SAR averaged over the whole body. The Spatial Average value of the SAR averaged over the partial body.
**
***
**** The Spatial Peak value of the SAR averaged over any 10 grams of tissue.
( defined as a tissue volume in the shape of a cube ) and over the appropriate averaging time. Population / Uncontrolled Environmentsare defined as locations where there is the exposure of individuals who have no knowledge or control of their exposure. Occupational / Controlled Environmentsare defined as locations where there is exposure that may be incurred by persons who are aware of the potential for exposure, (i.e. as a result of employment or occupation). Test Report No0809FS12 Page 43 of 45 2008 A Test Lab Techno Corp. Rev.00 12. Conclusion The SAR test values found for the portable mobile phone Acer Incorporated Trade Nameacer Model(s) ZG5, Aspire One are below the maximum recommended level of 1.6 W/kg (mW/g). Test Report No0809FS12 Page 44 of 45 2008 A Test Lab Techno Corp. Rev.00 13. References
[1] Std. C95.1-1999, American National Standard safety levels with respect to human exposure to radio frequency electromagnetic fields, 300KHz to 100GHz, New York.
[2] NCRP, National Council on Radiation Protection and Measurements, Biological Effects and Exposure Criteria for Radio frequency Electromagnetic Fields, NCRP report NO. 86, 1986.
[3] T. Schmid, O. Egger, and N. Kuster, Automatic E-field scanning system for dosimetric assessments, IEEE Transactions on Microwave Theory and Techniques, vol. 44, pp, 105-113, Jan. 1996.
[4] K. Pokovi
, c , T. Schmid, and N. Kuster, Robust setup for precise calibration of E-field probes in tissue simulating liquids at mobile communications frequency, in ICECOM97, Dubrovnik, October 15-17, 1997, pp.120-124.
[5] K. Pokovi
, c , T. Schmid, and N. Kuster, E-field probe with improved isotropy in brain simulating liquids, in Proceedings of the ELMAR, Zadar, Croatia, 23-25 June, 1996, pp.172-175.
[6] N. Kuster, and Q. Balzano, Energy absorption mechanism by biological bodies in the near field of dipole antennas above 300MHz, IEEE Transaction on Vehicular Technology, vol. 41, no. 1, Feb. 1992, pp. 17-23.
[7] Robert J. Renka, Multivariate Interpolation Of Large Sets Of Scattered Data, University of North Texas ACM Transactions on Mathematical Software, vol. 14, no. 2, June 1988 , pp. 139-148.
[8] N. Kuster, R. Kastle, T. Schmid, Dosimetric evaluation of mobile communications equipment with known precision, IEEE Transaction on Communications, vol. E80-B, no. 5, May 1997, pp. 645-652.
[9] Std. C95.3-1991, IEEE Recommended Practice for the Measurement of Potentially Hazardous Electromagnetic Fields RF and Microwave, New York: IEEE, Aug. 1992.
[10] CENELEC CLC/SC111B, European Prestandard (prENV 50166-2), Human Exposure to Electromagnetic Fields High-frequency: 10KHz-300GHz, Jan. 1995. Test Report No0809FS12 Page 45 of 45 2008 A Test Lab Techno Corp. Rev.00 Appendix A - System Performance Check See following Attached Pages for System Performance Check. Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/5/2008 11:23:07 AM System Performance Check at 900MHz_20080905_Body DUT: Dipole 900 MHz; Type: D900V2; Serial: D900V2 - SN:1d053 Communication System: CW; Frequency: 900 MHz;Duty Cycle: 1:1 Medium parameters used: f = 900 MHz; = 1.04 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 53.9; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 System Performance Check at 900MHz/Area Scan (61x121x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 3.08 mW/g System Performance Check at 900MHz/Zoom Scan (7x7x7)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 55.3 V/m; Power Drift = -0.020 dB Peak SAR (extrapolated) = 4.24 W/kg SAR(1 g) = 2.82 mW/g; SAR(10 g) = 1.8 mW/g Maximum value of SAR (measured) = 3.07 mW/g 0 dB = 3.07mW/g Appendix A1/3 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 10:11:34 AM System Performance Check at 900MHz_20080908_Body DUT: Dipole 900 MHz; Type: D900V2; Serial: D900V2 - SN:1d053 Communication System: CW; Frequency: 900 MHz;Duty Cycle: 1:1 Medium parameters used: f = 900 MHz; = 1.04 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 53.9; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 System Performance Check at 900MHz/Area Scan (61x121x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 3.17 mW/g System Performance Check at 900MHz/Zoom Scan (7x7x7)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 56.3 V/m; Power Drift = -0.057 dB Peak SAR (extrapolated) = 4.24 W/kg SAR(1 g) = 2.9 mW/g; SAR(10 g) = 1.89 mW/g Maximum value of SAR (measured) = 3.14 mW/g 0 dB = 3.14mW/g Appendix A2/3 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 6:47:35 AM System Performance Check at 1950MHz_20080907_Body DUT: Dipole 1950 MHz; Type: D1950V3; Serial: D1950V3 - SN:1117 Communication System: CW; Frequency: 1950 MHz;Duty Cycle: 1:1 Medium parameters used: f = 1950 MHz; = 1.56 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 51.6; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.55, 4.55, 4.55); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 System Performance Check at 1950MHz/Area Scan (61x61x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 12 mW/g System Performance Check at 1950MHz/Zoom Scan (7x7x7)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 89.2 V/m; Power Drift = -0.031 dB Peak SAR (extrapolated) = 19.6 W/kg SAR(1 g) = 10.5 mW/g; SAR(10 g) = 5.39 mW/g Maximum value of SAR (measured) = 11.9 mW/g 0 dB = 11.9mW/g Appendix A3/3 Appendix B - SAR Measurement Data See following Attached Pages for SAR Measurement Data. Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 12:21:23 PM Flat_GSM850 GPRS CH128_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: GSM 850 GPRS(3Down, 2Up); Frequency: 824.2 MHz;Duty Cycle: 1:4.2 Medium parameters used (interpolated): f = 824.2 MHz; = 0.955 mho/m;
kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.7; = 1000 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.037 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.830 V/m; Power Drift = 0.040 dB Peak SAR (extrapolated) = 0.048 W/kg SAR(1 g) = 0.035 mW/g; SAR(10 g) = 0.025 mW/g Maximum value of SAR (measured) = 0.037 mW/g 0 dB = 0.037mW/g Appendix B1/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 1:18:10 PM Flat_GSM850 GPRS CH190_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: GSM 850 GPRS(3Down, 2Up); Frequency: 836.6 MHz;Duty Cycle: 1:4.2 Medium parameters used: f = 837 MHz; = 0.968 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.6; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.049 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.838 V/m; Power Drift = 0.156 dB Peak SAR (extrapolated) = 0.063 W/kg SAR(1 g) = 0.046 mW/g; SAR(10 g) = 0.033 mW/g Maximum value of SAR (measured) = 0.049 mW/g 0 dB = 0.049mW/g Appendix B2/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 2:07:57 PM Flat_GSM850 GPRS CH251_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: GSM 850 GPRS(3Down, 2Up); Frequency: 848.8 MHz;Duty Cycle: 1:4.2 Medium parameters used: f = 849 MHz; = 0.982 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.4; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.070 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 1.36 V/m; Power Drift = 0.020 dB Peak SAR (extrapolated) = 0.091 W/kg SAR(1 g) = 0.066 mW/g; SAR(10 g) = 0.047 mW/g Maximum value of SAR (measured) = 0.070 mW/g 0 dB = 0.070mW/g Appendix B3/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 4:38:16 PM Flat_GSM850 EGPRS CH251_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: GSM 850 EGPRS (3Down, 2Up); Frequency: 848.8 MHz;Duty Cycle:
1:4.2 Medium parameters used: f = 849 MHz; = 0.982 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.4; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.021 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0 V/m; Power Drift = 0 dB Peak SAR (extrapolated) = 0.029 W/kg SAR(1 g) = 0.021 mW/g; SAR(10 g) = 0.015 mW/g Maximum value of SAR (measured) = 0.022 mW/g 0 dB = 0.022mW/g Appendix B4/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 2:57:41 PM Flat_GSM850 GPRS CH251_Open 90_3Down1Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: GSM 850 GPRS(3Down, 1Up); Frequency: 848.8 MHz;Duty Cycle: 1:8.3 Medium parameters used: f = 849 MHz; = 0.982 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.4; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.037 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.116 V/m; Power Drift = -0.137 dB Peak SAR (extrapolated) = 0.047 W/kg SAR(1 g) = 0.035 mW/g; SAR(10 g) = 0.025 mW/g Maximum value of SAR (measured) = 0.037 mW/g 0 dB = 0.037mW/g Appendix B5/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 5:27:28 PM Flat_GSM850 EGPRS CH251_Open 90_3Down1Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: GSM 850 EGPRS (3Down, 1Up); Frequency: 848.8 MHz;Duty Cycle:
1:8.3 Medium parameters used: f = 849 MHz; = 0.982 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.4; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.011 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0 V/m; Power Drift = 0 dB Peak SAR (extrapolated) = 0.015 W/kg SAR(1 g) = 0.010 mW/g; SAR(10 g) = 0.00724 mW/g Maximum value of SAR (measured) = 0.011 mW/g 0 dB = 0.011mW/g Appendix B6/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 1:52:00 PM Flat_PCS GPRS CH512_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: PCS GPRS(3Down,2Up); Frequency: 1850.2 MHz;Duty Cycle: 1:4.2 Medium parameters used (interpolated): f = 1850.2 MHz; = 1.46 mho/m;
r = 51.9; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.104 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.300 V/m; Power Drift = -0.049 dB Peak SAR (extrapolated) = 0.153 W/kg SAR(1 g) = 0.100 mW/g; SAR(10 g) = 0.063 mW/g Maximum value of SAR (measured) = 0.106 mW/g 0 dB = 0.106mW/g Appendix B7/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 6:26:30 PM Flat_PCS EGPRS CH512_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: PCS EGPRS (3Down, 2Up); Frequency: 1850.2 MHz;Duty Cycle: 1:4.2 Medium parameters used (interpolated): f = 1850.2 MHz; = 1.46 mho/m;
kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 51.9; = 1000 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.043 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.341 V/m; Power Drift = -0.021 dB Peak SAR (extrapolated) = 0.062 W/kg SAR(1 g) = 0.040 mW/g; SAR(10 g) = 0.025 mW/g Maximum value of SAR (measured) = 0.043 mW/g 0 dB = 0.043mW/g Appendix B8/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 5:11:17 PM Flat_PCS GPRS CH512_Open 90_3Down1Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: PCS GPRS(3Down,1Up); Frequency: 1850.2 MHz;Duty Cycle: 1:8.3 Medium parameters used (interpolated): f = 1850.2 MHz; = 1.46 mho/m;
r = 51.9; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.058 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.301 V/m; Power Drift = 0.176 dB Peak SAR (extrapolated) = 0.081 W/kg SAR(1 g) = 0.052 mW/g; SAR(10 g) = 0.033 mW/g Maximum value of SAR (measured) = 0.056 mW/g 0 dB = 0.056mW/g Appendix B9/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 8:13:45 PM Flat_PCS EGPRS CH512_Open 90_3Down1Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: PCS EGPRS (3Down, 1Up); Frequency: 1850.2 MHz;Duty Cycle: 1:8.3 Medium parameters used (interpolated): f = 1850.2 MHz; = 1.46 mho/m;
kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 51.9; = 1000 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.023 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0 V/m; Power Drift = 0 dB Peak SAR (extrapolated) = 0.032 W/kg SAR(1 g) = 0.021 mW/g; SAR(10 g) = 0.013 mW/g Maximum value of SAR (measured) = 0.022 mW/g 0 dB = 0.022mW/g Appendix B10/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 3:16:24 PM Flat_PCS GPRS CH661_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: PCS GPRS(3Down,2Up); Frequency: 1880 MHz;Duty Cycle: 1:4.2 Medium parameters used: f = 1880 MHz; = 1.49 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 51.9; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.101 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.476 V/m; Power Drift = 0.115 dB Peak SAR (extrapolated) = 0.148 W/kg SAR(1 g) = 0.094 mW/g; SAR(10 g) = 0.058 mW/g Maximum value of SAR (measured) = 0.106 mW/g 0 dB = 0.106mW/g Appendix B11/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 4:14:34 PM Flat_PCS GPRS CH810_Open 90_3Down2Up_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: PCS GPRS(3Down,2Up); Frequency: 1909.8 MHz;Duty Cycle: 1:4.2 Medium parameters used: f = 1910 MHz; = 1.52 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 51.8; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.079 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.691 V/m; Power Drift = 0.071 dB Peak SAR (extrapolated) = 0.123 W/kg SAR(1 g) = 0.079 mW/g; SAR(10 g) = 0.049 mW/g Maximum value of SAR (measured) = 0.086 mW/g 0 dB = 0.086mW/g Appendix B12/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/5/2008 2:49:17 PM Flat_WCDMA Band V CH4132_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA Band V; Frequency: 826.4 MHz;Duty Cycle: 1:1 Medium parameters used (interpolated): f = 826.4 MHz; = 0.956 mho/m;
kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.7; = 1000 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.028 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.733 V/m; Power Drift = 0.139 dB Peak SAR (extrapolated) = 0.035 W/kg SAR(1 g) = 0.025 mW/g; SAR(10 g) = 0.017 mW/g Maximum value of SAR (measured) = 0.027 mW/g 0 dB = 0.027mW/g Appendix B13/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/5/2008 3:44:21 PM Flat_WCDMA Band V CH4183_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA Band V; Frequency: 836.6 MHz;Duty Cycle: 1:1 Medium parameters used: f = 837 MHz; = 0.968 mho/m;
r = 54.6; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.035 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 1.19 V/m; Power Drift = 0.097 dB Peak SAR (extrapolated) = 0.047 W/kg SAR(1 g) = 0.034 mW/g; SAR(10 g) = 0.024 mW/g Maximum value of SAR (measured) = 0.036 mW/g 0 dB = 0.036mW/g Appendix B14/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/8/2008 10:45:05 PM Flat_HSDPA Band V CH4183_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA HSDPA Band V; Frequency: 836.6 MHz;Duty Cycle: 1:1 Medium parameters used: f = 837 MHz; = 0.968 mho/m;
Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 54.6; = 1000 kg/m3 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.032 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.755 V/m; Power Drift = 0.196 dB Peak SAR (extrapolated) = 0.041 W/kg SAR(1 g) = 0.031 mW/g; SAR(10 g) = 0.022 mW/g Maximum value of SAR (measured) = 0.033 mW/g 0 dB = 0.033mW/g Appendix B15/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/5/2008 4:30:31 PM Flat_WCDMA Band V CH4233_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA Band V; Frequency: 846.6 MHz;Duty Cycle: 1:1 Medium parameters used: f = 847 MHz; = 0.979 mho/m;
r = 54.4; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(6, 6, 6); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.032 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 1.24 V/m; Power Drift = 0.180 dB Peak SAR (extrapolated) = 0.040 W/kg SAR(1 g) = 0.030 mW/g; SAR(10 g) = 0.022 mW/g Maximum value of SAR (measured) = 0.032 mW/g 0 dB = 0.032mW/g Appendix B16/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 8:12:00 AM Flat_WCDMA Band II CH9262_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA Band II; Frequency: 1852.4 MHz;Duty Cycle: 1:1 Medium parameters used (interpolated): f = 1852.4 MHz; = 1.46 mho/m;
kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) r = 51.9; = 1000 DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.129 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 1.17 V/m; Power Drift = 0.105 dB Peak SAR (extrapolated) = 0.194 W/kg SAR(1 g) = 0.123 mW/g; SAR(10 g) = 0.077 mW/g Maximum value of SAR (measured) = 0.134 mW/g 0 dB = 0.134mW/g Appendix B17/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 12:03:00 PM Flat_HSDPA Band II CH9262_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA HSDPA Band II; Frequency: 1852.4 MHz;Duty Cycle: 1:1 Medium parameters used (interpolated): f = 1852.4 MHz; = 1.46 mho/m;
r = 51.9; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.112 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.540 V/m; Power Drift = 0.165 dB Peak SAR (extrapolated) = 0.169 W/kg SAR(1 g) = 0.107 mW/g; SAR(10 g) = 0.067 mW/g Maximum value of SAR (measured) = 0.117 mW/g 0 dB = 0.117mW/g Appendix B18/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 8:29:23 AM Flat_WCDMA Band II CH9400_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA Band II; Frequency: 1880 MHz;Duty Cycle: 1:1 Medium parameters used: f = 1880 MHz; = 1.49 mho/m;
r = 51.9; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.128 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.601 V/m; Power Drift = 0.103 dB Peak SAR (extrapolated) = 0.189 W/kg SAR(1 g) = 0.120 mW/g; SAR(10 g) = 0.073 mW/g Maximum value of SAR (measured) = 0.132 mW/g 0 dB = 0.132mW/g Appendix B19/20 Test Laboratory: A Test Lab Techno Corp. Date/Time: 9/7/2008 9:48:05 AM Flat_WCDMA Band II CH9538_Open 90_Bottom of the Base_ with 0mm Gap DUT: ZG5; Type: Notebook PC; FCC ID: HLZZG53GQ Communication System: WCDMA Band II; Frequency: 1907.6 MHz;Duty Cycle: 1:1 Medium parameters used: f = 1908 MHz; = 1.52 mho/m;
r = 51.7; = 1000 kg/m3 Phantom section: Flat Section Measurement Standard: DASY5 (IEEE/IEC) DASY5 Configuration:
z Probe: ES3DV3 - SN3150; ConvF(4.95, 4.95, 4.95); Calibrated: 1/9/2008 z Sensor-Surface: 4mm (Mechanical Surface Detection) z Electronics: DAE4 Sn779; Calibrated: 11/30/2007 z Phantom: ELI 4.0; Type: QDOVA001BB; Serial: 1036 z Measurement SW: DASY5, V5.0 Build 119; SEMCAD X Version 13.2 Build 87 Flat/Area Scan (151x201x1):
Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (interpolated) = 0.103 mW/g Flat/Zoom Scan (5x5x7)/Cube 0:
Measurement grid: dx=8mm, dy=8mm, dz=5mm Reference Value = 0.515 V/m; Power Drift = 0.059 dB Peak SAR (extrapolated) = 0.160 W/kg SAR(1 g) = 0.101 mW/g; SAR(10 g) = 0.062 mW/g Maximum value of SAR (measured) = 0.111 mW/g 0 dB = 0.111mW/g Appendix B20/20 Appendix C - Calibration All of the instruments Calibration information are listed below. Dipole _ D900V2 SN:1d053 Calibration No.D900V2-1d053_ Dec07 Dipole _ D1950V2 SN: 1117 Calibration No.D1950V1117_Dec07 Probe _ ES3DV3 SN:3150 Calibration No.ES3-3150_Jan08 DAE _ DAE4 SN:779 Calibration No.DAE4-779_Nov07
(cid:122)
(cid:122)
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(cid:122)
1 2 | Superseding old file request letter | Cover Letter(s) | 68.33 KiB |
47173 Benicia Street, Fremont CA 94538 Tel: 510-771-1000, Fax: 510-661-0888 Federal Communication Commissions 7435 Oakland Mills Road Columbia MD 21046 Subject:
Ref:
Applicant: Acer Incorporated FCC ID: HLZZG53GQ TCB Assessment no.: AN08T8377 Grant date: 9/26/2008 Request FCC to replace previous submitted user manual To Whom It May Concern:
To correct the output power listed on the grant of FCC ID: HLZZG53GQ, CCS-TCB has uploaded the revised Part 22 and 24 test report to FCC website and is requesting FCC to delete the following files from database:
RF test reportTest Report09/25/2008pdf09/26/2008 The correct test report has been uploaded to FCC with description of Revised Part 22 and 24 test report. Best Regards Mike Kuo / V.P. Compliance Certification Services Jan 30, 2009
1 2 | TCB Q and A | Cover Letter(s) | 183.49 KiB |
Lucy Tsai Subject:
Attachments:
FW: RE : FW : FW: Acer Incorporated, FCC ID: HLZZG5Q, Assessment NO.: AN08T8377, Notice#1 Lable Info..pdf; Interior Photographs 2 of 2.pdf; Interior Photographs 1of 2.pdf; Exteriot Photographs.pdf; User manual.pdf; Request for confidentiality letter.pdf Importance:
High Fr om: ATL Sent: Thursday, September 25, 2008 2:59 AM To: Lucy Tsai Cc:
Subject: RE : FW : FW: Acer Incorporated, FCC ID: HLZZG5Q, Assessment NO.: AN08T8377, Notice#1 Importance: High Dear Lucy~
Please refer to below for our answer. Q#1: Please remove EUT external photos from the internal photo exhibit and also provide complete internal photos to include the whole laptop PC since this is a system approval. ANS#1: Please see revised internal and external photos. Q#2: Please indicate the antenna location from the internal photo and also advise the type of antenna used. ANS#2: Its PIFA antenna and please refer to attached drawing and SAR test setup photo for the antenna location. Q#3: Please provide system block diagram. ANS#3: Please refer to attached file. Q#4: Please specify the period of short term confidentiality. Also, since the test setup photo and EUT photos are asking for short term confidentiality, please remove them from the RF and SAR test reports. ANS#4: Confirmed by client that EUT photos and test setup photos are not requested for short term confidentiality. Please refer to attached file for revised confidentiality request letter. Q#5: A WLAN/WIMAX combo mini card is indicated in page 22 of system schematics which doesnt agree with the application. Please address. Also, user manual mentioned that Acer laptop PCs may/
may not equip with WLAN or BT modules. Please confirm that this application is only to address this one EUT WWAN transmitter in this host with no other co-located transmitters. Besides, user manual doesnt include the proper RF exposure statement for WWAN module. Please address. Please be noted that this application is only applied to the 3G module. Its grantees responsible to make sure all other transmitters have been complied with related rule parts and RF exposure requirement. ANS#5: This application is only for WWAN and there is no co-location issue with other transmitters. Q#6: Per the schematics, there are two sizes of laptop are applied: 8.9 and 12.1. Please clarify 1 whether two sizes are covered in this application and which one was reported. As for SAR test, if both sizes are applicable, please provide additional test result to demonstrate RF exposure is complied. ANS#6: This application is only for 8.9. Q#7: Since the laptop PC is large enough that 15.19 label statements shall be affixed onto the product. Please provide an updated label format to include it or provide a separate label for 15.19 labeling requirement. ANS#7: Please see revised label. Q#8: According to operational description, this device is described as having CDMA2000 1x, 1x EV-
DO, UMTS (HSDPA and HSUPA), and GSM/GPRS/EDGE protocols, yet data has been supplied only for GPRS and WCDMA modes without any explanation. Please justify the modes selected or provide additional data as needed. ANS#8: By confirmed, CDMA2000 1x, 1x EV-DO, UMTS (HSUPA) are disabled and do not support in this application. Q#9: The FCC has released measurement guidelines for 3G devices which can be found online at http://gullfoss2.fcc.gov/oetcf/kdb/forms/FTSSearchResultPage.cfm?id=26930&switch=P.. Please clarify indicate how the worst case of output power was determined per the procedure and clearly specify them to the test report. FYI: Attached file the summary of the 3G test procedure for your reference. ANS#9: Please refer to revised test reports. Q#10: Please confirm the class of GPRS used and clearly specify it into the test report. ANS#10: Its GPRS Class 10. Q#11: Please provide the Spectrum Analyzer plots for the measurements performed in test reports and the screen-shots (showing settings) CMU 200 settings for each tested mode. ANS#11: Please refer to revised SAR test report. 2
1 2 | Test setup photos | Test Setup Photos | 392.22 KiB |
Test Setup Photos Model No.: ZG5, Aspire One FCC ID: HLZZG5Q Report No.: 0809FR14 Conducted Emissions Link Photo _ 1 of 2 EUT Photo _ 2 of 2 Radiated Emissions Photo _ 1 of 4 Photo _ 2 of 4 Photo _ 3 of 4 Photo _ 4 of 4
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2009-02-24 | 1852.4 ~ 1909.8 | PCB - PCS Licensed Transmitter | Class II Permissive Change |
2 | 2008-09-26 | 1852.4 ~ 1907.6 | PCB - PCS Licensed Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 2 | Effective |
2009-02-24
|
||||
1 2 |
2008-09-26
|
|||||
1 2 | Applicant's complete, legal business name |
Acer Incorporated
|
||||
1 2 | FCC Registration Number (FRN) |
0013355508
|
||||
1 2 | Physical Address |
8F, 88, Sec 1, Hsin Tai Wu Rd
|
||||
1 2 |
Hsichih, Taipei Hsien, N/A
|
|||||
1 2 |
Taiwan
|
|||||
app s | TCB Information | |||||
1 2 | TCB Application Email Address |
m******@ccsemc.com
|
||||
1 2 | TCB Scope |
B1: Commercial mobile radio services equipment in the following 47 CFR Parts 20, 22 (cellular), 24,25 (below 3 GHz) & 27
|
||||
app s | FCC ID | |||||
1 2 | Grantee Code |
HLZ
|
||||
1 2 | Equipment Product Code |
ZG53GQ
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 | Name |
H******** S******** L****
|
||||
1 2 | Title |
Manager
|
||||
1 2 | Telephone Number |
886-2******** Extension:
|
||||
1 2 | Fax Number |
886-2********
|
||||
1 2 |
H******@acer.com.tw
|
|||||
app s | Technical Contact | |||||
1 2 | Firm Name |
A Test Lab Techno Corp.
|
||||
1 2 | Name |
C****** H****
|
||||
1 2 | Physical Address |
No.140-1, Chang-an St.Bade City
|
||||
1 2 |
Tao-Yuan Country, 334
|
|||||
1 2 |
Taiwan
|
|||||
1 2 | Telephone Number |
+886-********
|
||||
1 2 | Fax Number |
+886-********
|
||||
1 2 |
c******@atl-lab.com.tw
|
|||||
app s | Non Technical Contact | |||||
1 2 | Firm Name |
A Test Lab Techno Corp.
|
||||
1 2 | Name |
C******** H****
|
||||
1 2 | Physical Address |
No.140-1, Chang-an St.Bade City
|
||||
1 2 |
Tao-Yuan Country, 334
|
|||||
1 2 |
Taiwan
|
|||||
1 2 | Telephone Number |
+886-********
|
||||
1 2 | Fax Number |
+886-********
|
||||
1 2 |
c******@atl-lab.com.tw
|
|||||
app s | Confidentiality (long or short term) | |||||
1 2 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 2 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 2 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 2 | Equipment Class | PCB - PCS Licensed Transmitter | ||||
1 2 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Notebook PC | ||||
1 2 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | Yes | ||||
1 2 | No | |||||
1 2 | Modular Equipment Type | Does not apply | ||||
1 2 | Purpose / Application is for | Class II Permissive Change | ||||
1 2 | Original Equipment | |||||
1 2 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 2 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 2 | Grant Comments | Output power listed is ERP for Part 22 and EIRP for Part 24. Approval is limited to the specific configuration described in this filing. This device must not be co-located or operating in conjunction with other antennas or transmitters. End-Users must be provided with transmitter operation conditions for satisfying RF exposure compliance. Highest measured body SAR values as documented in this filing are: Part 22: 0.066 W/kg; Part 24: 0.123 W/kg. This device also contains functions that are not operational in U.S. territories. This filing is applicable to U.S. operations only. | ||||
1 2 | Output power listed is ERP for Part 22 and EIRP for Part 24. Approval is limited to the specific configuration described in this filing. This device must not be co-located or operating in conjunction with other antennas or transmitters. End-Users must be provided with transmitter operation conditions for satisfying RF exposure compliance. Highest measured body SAR values as documented in this filing are: Part 22: 0.066 W/kg; Part 24: 0.123 W/kg. This device also contains functions that are not operational in U.S. territories. This filing is applicable to U.S. operations only. | |||||
1 2 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 2 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 2 | Firm Name |
A Test Lab Techno Corp
|
||||
1 2 | Name |
C******** H****
|
||||
1 2 |
A**** L****
|
|||||
1 2 | Telephone Number |
03-27******** Extension:
|
||||
1 2 |
886-3******** Extension:
|
|||||
1 2 | Fax Number |
03-27********
|
||||
1 2 |
886-3********
|
|||||
1 2 |
C******@atl-lab.com.tw
|
|||||
1 2 |
a******@atl-lab.com.tw
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 22H | 20 28 | 824.2 | 848.8 | 0.504 | 2.5 ppm | 250KGXW | |||||||||||||||||||||||||||||||||
1 | 2 | 24E | 20 28 | 1850.2 | 1909.8 | 0.699 | 2.5 ppm | 247KGXW | |||||||||||||||||||||||||||||||||
1 | 3 | 22H | 20 28 | 826.4 | 846.6 | 0.138 | 2.5 ppm | 4M17F9W | |||||||||||||||||||||||||||||||||
1 | 4 | 24E | 20 28 | 1852.4 | 1907.6 | 0.59 | 2.5 ppm | 4M18F9W | |||||||||||||||||||||||||||||||||
1 | 5 | 22H | 20 28 | 824.2 | 848.8 | 0.116 | 2.5 ppm | 248KG7W | |||||||||||||||||||||||||||||||||
1 | 6 | 24E | 20 28 | 1852.4 | 1909.8 | 0.393 | 2.5 ppm | 247KG7W | |||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 22H | 20 28 | 824.2 | 848.8 | 0.504 | 2.5 ppm | 250KGXW | |||||||||||||||||||||||||||||||||
2 | 2 | 24E | 20 28 | 1850.2 | 1909.8 | 0.699 | 2.5 ppm | 247KGXW | |||||||||||||||||||||||||||||||||
2 | 3 | 22H | 20 28 | 826.4 | 846.6 | 0.138 | 2.5 ppm | 4M17F9W | |||||||||||||||||||||||||||||||||
2 | 4 | 24E | 20 28 | 1852.4 | 1907.6 | 0.59 | 2.5 ppm | 4M18F9W | |||||||||||||||||||||||||||||||||
2 | 5 | 22H | 20 28 | 824.2 | 848.8 | 0.116 | 2.5 ppm | 248KG7W | |||||||||||||||||||||||||||||||||
2 | 6 | 24E | 20 28 | 1850.2 | 1909.8 | 0.393 | 2.5 ppm | 247KG7W |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC