FCC ID: QYLPR533A RFID module

 

A140 USER MANUAL Rugged Mobile Computing Solutions December 2016 TRADEMARKS The Bluetooth word mark and logos are registered trademarks owned by Bluetooth SIG, Inc. All brand and product names are trademarks or registered trademarks of their respective companies. NOTE The information in this manual is subject to change without notice. For the latest version of the manual, please visit the Getac website at www.getac.com. Table of Contents Chapter 1 Getting Started Chapter 2 Operating Your Tablet PC Getting the Tablet PC Running

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.............................................................................. 2 Taking a Look at the Tablet PC Front Components Rear Components Right-Side Components Left-Side Components Top Components Bottom Components Unpacking Installing the Micro-SIM Card (Optional) and Battery Packs Connecting to AC Power Using the Tether Turning On and Off the Tablet PC

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................................... 32 Using the LAN Using the WLAN Using the Bluetooth Feature Using the WWAN Feature (Optional) Using Multi-touch Gestures Using the Handle as a Kickstand (Optional) Using the GPS Feature (Optional) Using the Barcode Scanner (Optional) Using the Fingerprint Scanner (Optional) Enrolling a Fingerprint Fingerprint Login Using Network and Wireless Connections Using the NFC/RFID Reader (Optional) Using the Touchscreen i Chapter 3 Managing Power AC Adapter Battery Pack Power-Saving Tips Chapter 4 Expanding Your Tablet PC Connecting Peripheral Devices Using Storage and Expansion Cards Using MicroSD Cards Using Smart Cards Charging the Battery Pack Initializing the Battery Pack Checking the Battery Level Battery Low Signals and Actions Replacing the Battery Pack

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.................................................... 42 Connecting a USB Device Connecting a USB Device with Fischer Connectors

(Optional) Connecting an Audio Device Connecting a Monitor Connecting a Serial Device (Optional)

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........................................... 62 Information Menu Main Menu Advanced Menu Security Menu Boot Menu Exit Menu G-Camera (for Windows 10) Getac Camera (for Windows 7) Replacing the SSD System Memory Upgrade OSD Control Panel G-Manager Camera (Optional) Changing or Replacing Chapter 5 Using BIOS Setup When and How to Use Menu Descriptions Chapter 6 Using Getac Software ii Chapter 7 Care and Maintenance Protecting the Tablet PC When Traveling Chapter 8 Troubleshooting Preliminary Checklist Solving Common Problems Taking Care of the Tablet PC Using an Anti-Virus Strategy Using the Cable Lock Location Guidelines General Guidelines Cleaning Guidelines Battery Pack Guidelines Touchscreen Guidelines

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....................................................................... 80 Battery Problems Bluetooth Wireless Transmission Problems Display Problems Hardware Device Problems Power Management Problems Sensor Problems (for Windows 10 Models Only) Software Problems Sound Problems Startup Problems WLAN Problems Other Problems System Restore, Recovery, or Reset (for Windows 10 Models) System Recovery (a Tool for Windows 7 Models)

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..... 92 USA and Canada Safety Requirements and Notices European Union CE Marking and Compliance Notices Class B Regulations ANSI Warning Safety Notices Resetting the Tablet PC System Recovery On the Use of the RF Device iii Using the Driver Disc (Optional) Appendix A Specifications Appendix B Regulatory Information On the Use of the System User Notification of Take-back Service ENERGY STAR 6.1 Battery Recycling

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...................................................................... 97 iv Chapter 1 Getting Started Congratulations on purchasing this rugged Tablet PC. This chapter first tells you step by step how to get the Tablet PC up and running. Then, you will find a section briefly introducing the external components of the Tablet PC. 1 Getting the Tablet PC Running Unpacking After unpacking the shipping carton, you should find these standard items:

A140 Tablet PC AC adapter AC power cord Battery pack x 2 Stylus Tether Document(s) Driver disc (optional) Inspect all the items. If any item is damage or missing, notify your dealer immediately. Installing the Micro-SIM Card (Optional) and Battery Packs 1. Select models only:

With the mirco-SIM cards chip side facing up and the beveled corner pointing to the slot, insert the card all the way into the slot. 2 NOTE: To remove the SIM card, just push in the SIM card to pop-out and remove the card. 2. The Tablet PC has two battery compartments for two battery packs; each is installed in the same way. With the battery pack correctly oriented, attach its connector side to the battery compartment at an angle () and then press down the other side (). 3. Slide the battery latch toward the locked position (

). CAUTION: Make sure the battery latch is correctly locked, not revealing the underneath red part. Correct Incorrect (revealing red part) 3 Connecting to AC Power CAUTION: Use only the AC adapter included with your Tablet PC. Using other AC adapters may damage the Tablet PC. NOTE:

The battery pack is shipped to you in power saving mode that protects it from charging/discharging. It will get out of the mode to be ready for use when you install the battery pack and connect AC power to the Tablet PC for the very first time. When the AC adapter is connected, it also charges the battery pack. For information on using battery power, see Chapter 3. You must use AC power when starting up the Tablet PC for the very first time. 1. Plug the DC cord of the AC adapter to the power connector of the Tablet PC (). 2. Plug the female end of the AC power cord to the AC adapter and the male end to an electrical outlet (). 3. Power is being supplied from the electrical outlet to the AC adapter and onto your Tablet PC. Now, you are ready to turn on the Tablet PC. 4 Using the Tether A tether is provided for attaching the stylus to your Tablet PC. 1. Insert one of the tethers loop ends through the hole of the stylus (as indicated by below). Then, insert the other end through the first loop

(as indicated by below) and pull it tight. 2. Insert the other loop end to the tether hole on the Tablet PC (as indicated by below). Then, insert the stylus end through the loop (as indicated by below) and pull it tight. 5 Turning On and Off the Tablet PC Turning On Press the power button (

). The Windows operating system should start. NOTE: Tapping the screen during startup may invoke a pre-boot menu

(unless the default settings have been changed). If the menu appears, simply select Continue. Turning Off When you finish a working session, you can stop the system by turning off the power or leaving it in Sleep or Hibernation mode:

To... Power off

(Shutdown) Tap down. Windows 10 Power Shut Do this... Sleep Press the power button.*

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Tap Power Sleep. Hibernate By default, this option is not shown in the Start menu. If you want to use the feature, set up accordingly in Windows settings. Windows 7 Use the Windows Start menu in the lower left and follow the shutdown procedure. Press the power button.*

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Use the Windows Start menu to put the Tablet PC in Sleep mode. Use the Windows Start menu to put the Tablet PC in Hibernation mode.

* Sleep is the default setting of the power button. You may change what the power button does in Windows settings. 6 Taking a Look at the Tablet PC NOTE: Depending on the model you purchased, the appearance of your Tablet PC may not be exactly the same as those shown in this manual. CAUTION: You need to open the protective covers to access the connectors. When not using a connector, make sure to close the cover completely for water- , dust-, and fire-proof integrity. (Engage the locking mechanism if existing.) Front Components Ref Component Handle

(optional) Description Provides a convenient way to carry the Tablet PC. It also serves as:

- Stylus holder: The handle has a slot and two openings for the stylus. You can use any one for storing the stylus. 7 Ref Component Description Light sensor Camera indicator

(optional) Camera lens

(optional) Touchscreen Indicators Power Battery RF (Radio Frequency)

- Kickstand: With the handle turned to one side, the Table PC can stand on the handle. Senses the ambient light for automatic adjustments of the display backlight. Lights up when the camera lens beside it is in use. Allows you to use the camera function. Slide the camera cover toward the right to use the camera; slide it toward the left for privacy protection. Displays and receives information for the Tablet PC. Lights blue when the power is on. Blinks blue when the system is in Sleep mode. Lights amber when the battery is being charged. Lights green when battery charging is completed. Blinks green to indicate the batterys built-in high temperature protection mechanism is activated. CAUTION: Do not remove the battery during this period. Blinks red (once per second) when the batterys capacity is below 10%. Blinks red rapidly (once per 0.5 second) when there is a thermal protection problem. Ask for repair service in case this happens. Blinks amber when the battery charging is in an abnormal state. Replace the battery in case this happens. Lights blue when the RF radio of any RF feature

(WLAN/Bluetooth/WWAN) is on. 8 Ref Component Power button Turns the power on or off. (The default off state is Description Sleep mode.) Plus button Increases the sound volume. Minus button Decreases the sound volume. Windows logo button For Windows 10:

Opens or closes the Start menu. For Windows 7:

Opens or closes the OSD Control Panel. ???

The default function is Camera or Trigger depending on your model. Camera For Windows 10:

Starts the G-Camera application. For Windows 7:

Starts the Getac Camera program and serves as the shutter release button. Serves as the trigger button for the barcode reader if your model has the module. Trigger P1 button P2 button P3 button When pressed longer:

Serves as the Ctrl+Alt+Del keyboard keys. Enables or disables the touchscreen feature. When pressed longer:

???

Enables or disables the auto rotate function. When pressed longer:

???

P4 button Starts a program. ???

Microphone When pressed longer:

???

Receives sound and voice to record voice. 9 NOTE:

The hardware buttons (except the power button) can be re-defined using G-Manager. The hardware buttons (except the power button) provide keyboard key functions on POST/BIOS Setup/Non-ACPI occasions. (See Button Functions on Special Occasions in Appendix A for information.) Rear Components Ref Component Hand grip

(optional) Camera lens

(optional) Description Allows you to hold your Tablet PC securely while operating. Allows you to use the camera function. When the camera lens is in use, the indicator beside it lights up. Flash (optional) Provides extra light when taking pictures. Tether hole Battery pack Stylus can be tethered to this hole. Supplies power to your computer when external power is not connected. 10 Ref Component Stylus holder NFC/RFID reader

(optional) Speaker Description Holds the stylus. Reads data from NFC/RFID tags. Sends out sound and voice from your Tablet PC. Right-Side Components Slide up to open the protective cover. Description Connects a USB device. Connects the LAN cable. Component Ref USB 2.0 port RJ-45 connector

(LAN2) Smart card Reader Accepts a smart card for additional security feature. Optional Depending on the model, the component can be one of the following:

Connects a serial mouse o r serial communication device. component None RS232 serial connector VGA connector Connects an external display monitor. NFC/RFID reader Reads data from NFC/RFID tags. 11 Component Ref Optional component None Rugged USB connector (x 1 or x 2) Fingerprint scanner Description Depending on the model, the component can be one of the following:

Connects a USB device that supports Fischer DBPU 7 pin connection. Serves as the fingerprint verification, preventing unauthorized access to your Tablet PC. Left-Side Components Slide up to open the protective cover. Ref Component WLAN switch Power connector Connects the AC adapter. RJ-45 connector Connects the LAN cable. Description Switches the WLAN radio on or off.

(LAN1) MicroSD card slot Accepts a microSD card for removable storage media. USB 3.0 port HDMI connector Connects a HDMI monitor or TV set. Combo audio Connects a USB device. Connects a set of headphones or external speakers with amplifier Supports a headset microphone with 4-pole TRRS 3.5mm jack. connector 12 Top Components Component Ref Stylus holder Barcode reader lens (optional) Description Holds the stylus. Scans and reads barcodes. Bottom Components Ref Component Kensington lock Docking connector Antenna Pass-

through

(optional) Description Locks the Tablet PC to a stationary object for security. Connects to the docking station (available as an option). Connects to the docking station for using external GPS /WWAN/WLAN antenna. GPS WLAN WWAN 13 Chapter 2 Operating Your Tablet PC This chapter provides information about the use of the Tablet PC. If you are new to computers, reading this chapter will help you learn the operating basics. If you are already a computer user, you may choose to read only the parts containing information unique to your Tablet PC. CAUTION:

Do not expose your skin to the Tablet PC when operating it in a very hot or cold environment. The Tablet PC can get uncomfortably warm when you use it in high temperatures. As a safety precaution in such a circumstance, do not place the Tablet PC on your lap or touch it with your bare hands for extended periods of time. Prolonged body contact can cause discomfort and potentially a burn. 14 Using the Touchscreen CAUTION: Do not use a sharp object such as a ballpoint pen or pencil on the touchscreen. Doing so may damage the touchscreen surface. Use the included stylus or your finger. NOTE: An optical film has been attached to the screen before shipment. The film is a consumable, which will be worn out by possible scratches. You can purchase a new one when replacement is required. Your Tablet PC has a capacitive touchscreen. This type of touchscreen responds to objects that have conductive properties, such as fingertips and a capacitive-tipped stylus. You can change the touchscreen sensitivity settings to suit your scenario. Double-tap the Touch Screen Mode shortcut on Windows desktop to open the settings menu and select one of the options (as shown below). Select this if you prefer using fingertips. Also, select this when raindrops are falling on the screen and should be rejected as input. Select this if you are using the stylus. (You must use the one supplied with your model.) Select this if you are wearing gloves

(referring to warm gloves or work gloves, not referring to touchscreen-capable gloves). NOTE: If liquid is spilled on the touchscreen causing a wet area, the area will stop responding to any inputs. For the area to function again, you must dry it. The following table shows how you use the touchscreen to obtain equivalent mouse functions. Term/Action Tap: Touch the screen once. Double-tap: Touch the screen twice rapidly. Equivalent Mouse Function Click/Point Double-click 15 Term/Action Tap and hold: Tap and hold until a popup menu appears. Drag: Hold the stylus (or finger) on the screen and drag across the screen until reaching your destination. Equivalent Mouse Function Right-click Drag Using Multi-touch Gestures You can interact with your Tablet PC by placing two fingers on the screen. The movement of the fingers across the screen creates gestures, which send commands to the Tablet PC. Here are the multi-touch gestures that you can use:

Gestures Pan

(Scroll) Zoom

(Pinch) Actions

( = finger down; = finger up) Descriptions or Drag 1 or 2 fingers up or down. Move two fingers apart/toward each other. Use panning to see another part of a page that has scroll bars. Use zooming to make an item (a photo for example) on the screen larger or smaller. The gesture works in applications that support mouse wheel zooming. 16 Gestures Rotate Press and Tap Two-

finger Tap Flicks Actions

( = finger down; = finger up) Descriptions or Move two fingers in opposing directions.

-or-

Use one finger to pivot around another. Press on target and tap using a second finger. Use rotating to move a picture or other item on the screen in a circular direction

(clockwise or counter-

clockwise). The gesture works in applications that support the specific gesture. Use press and tap to access the shortcut menu. The function is defined by applications that support the specific gesture. Tap two fingers at the same time

(where the target is in the midpoint between the fingers). Make quick drag gestures in the desired direction. 17 Flick left or right to navigate back and forward in a browser and other applications. The gesture works in most applications that support back and forward. Using the Handle as a Kickstand (Optional) For models having the handle, the handle can serve as a kickstand. Orient the Tablet PC in the reverse landscape manner and turn the handle to one side as shown below. 18 Using Network and Wireless Connections Using the LAN Your Tablet PC has two LAN modules so you can connect to two networks at the same time. To connect the network cable to the LAN module, connect one end of the LAN cable to the RJ-45 connector on the Tablet PC and the other end to the network hub. LAN1 LAN2 NOTE: LAN2 module implements DSM (Deep Slumber Mode) to save battery power. Power is supplied to the LAN module only when the LAN cable is connected. This means the LAN module will not appear in Windows Device Manager if the LAN cable is not connected and will appear if the cable is connected. 19 Using the WLAN The WLAN (Wireless Local Area Network) module supports IEEE 802.11ac, compatible with 802.11a/b/g/n. NOTE: Do not block the antenna area. WLAN main antenna WLAN auxiliary antenna Turning On/Off the WLAN Radio Your Tablet PC has a physical switch for turning on/off the WLAN radio. To turn on the WLAN radio:

1. Make sure that the WLAN switch is at the ON (green) position. 2. If you have previously turned off the WLAN radio, use one of the below methods to turn it on. Settings Network & Internet Wi-Fi. For Windows 10 Slide the Wi-Fi switch to the On position.

: Tap For Windows 7: Use either Windows Mobility Center or Getac Quick Bar. To open Getac Quick Bar, tap and hold the Getac Utility icon on Windows taskbar and select Quick Bar. Tap the WLAN button in the Quick Bar (an X over the button means the radio is currently off). 20 To turn off the WLAN radio:

You can turn off the WLAN radio the same way you turn it on. If you want to quickly turn off all wireless radio, simply switch on Airplane mode. You can control the Airplane mode using one of the below methods. Use the Airplane Mode button in the OSD Control Panel. For Windows 10 mode.

: Tap Settings Network & Internet Airplane Connecting to a WLAN Network 1. Make sure that the WLAN function is enabled (as described above). 2. For Windows 10: Tap the network icon in the lower right of the task bar. For Windows 7 orange light in the icon

: Tap the Wireless Network icon on the taskbar. (An indicates connections are available.) 3. In the list of available wireless networks, tap a network, and then tap Connect. 4. Some networks require a network security key or passphrase. To connect to one of those networks, ask your network administrator or Internet service provider (ISP) for the security key or passphrase. For more information on setting a wireless network connection, refer to Windows online help. NOTE: You can use Intel PROSet Wireless to take full advantage of the Wi-Fi capabilities of your Tablet PC. See the Help of the utility for instructions. 21 Using the Bluetooth Feature The Bluetooth technology allows short-range wireless communications between devices without requiring a cable connection. Data can be transmitted through walls, pockets and briefcases as long as two devices are within range. NOTE: Do not block the antenna area. Bluetooth main antenna Bluetooth auxiliary antenna Turning On/Off the Bluetooth Radio To turn on the Bluetooth radio:

For Windows 10: Tap Bluetooth switch to the On position. Settings Devices Bluetooth. Slide the

: Use Getac Quick Bar. To open Getac Quick Bar, tap and hold For Windows 7 the Getac Utility icon on Windows taskbar and select Quick Bar. Tap the Bluetooth button in the Quick Bar (an X over the button means the radio is currently off). 22 To turn off the Bluetooth radio:

You can turn off the Bluetooth radio the same way you turn it on. If you want to quickly turn off all wireless radio, simply switch on Airplane mode. You can control the Airplane mode using one of the below methods. Use the Airplane Mode button in the OSD Control Panel. For Windows 10 mode.

: Tap Settings Network & Internet Airplane Connecting to another Bluetooth Device 1. Make sure that the Bluetooth function is enabled (as described above). 2. Make sure that the target Bluetooth device is turned on, discoverable and within close range. (See the documentation that came with the Bluetooth device.) 3. For Windows 10: Tap Settings Devices Bluetooth. For Windows 7 Tap Add a Device.

: Tap and hold the Bluetooth icon on Windows taskbar. 4. Select the device you want to connect from the search results. 5. Depending on the type of Bluetooth device that you want to connect to, you will need to enter the pertinent information. For detailed information on using the Bluetooth feature, see Windows online Help. 23 Using the WWAN Feature (Optional) A WWAN (Wireless Wide Area Network) uses mobile telecommunication cellular network technologies to transfer data. The WWAN module of your Tablet PC supports 3G and 4G LTE. NOTE:

Your model only supports data transmission. Voice transmission is not supported. For instructions on installing the SIM card, see Installing the SIM Card

(Optional) and Battery Packs in Chapter 1. Do not block the antenna area. WWAN main antenna WWAN auxiliary antenna Turning On/Off the WWAN Radio To turn on the WWAN radio:

For Windows 10: Tap mode. Slide the Cellular switch to the On position. Settings Network & Internet Airplane For Windows 7: Use the WWAN utility software or Getac Quick Bar. To open Getac Quick Bar, tap and hold the Getac Utility icon on Windows taskbar and select Quick Bar. Tap the WWAN button in the Quick Bar (an X over the button means the radio is currently off). 24 To turn off the WWAN radio:

You can turn off the WWAN radio the same way you turn it on. If you want to quickly turn off all wireless radio, simply switch on Airplane mode. You can control the Airplane mode using one of the below methods. Use the Airplane Mode button in the OSD Control Panel. For Windows 10 mode.

: Tap Settings Network & Internet Airplane Setting up a WWAN Connection 1. Make sure that the SIM card is inserted and the WWAN function is enabled (as described above). 2. Start the WWAN utility software (Skylight). 3. You need to configure the software to match your mobile network operator. Tap the button to open the User Options window. 25 4. Select Firmware and pull down the list of mobile network operators. 5. From the list, select the name that matches your operator and firmware. For the US region

: EM/MC7355 firmware is required. The supported operators include ATT, Bell, Roger, Sprint, Telus, and Verizon. If your operator is not one of them, select Generic_US_7355 in the list.

: EM/MC7305 firmware is required. The supported For the EMEA (Europe, the Middle East, and Africa) and APAC (Asia Pacific) regions operators include Orange, Swisscom, Telefonica, Telstra, and Vodafone. If your operator is not one of them, select Generic_EMEA_APAC_7305 in the list. 6. Select OK to start configuring mobile broadband device. A message bar appears on the screen to show the progress. Wait till the configuration is completed. CAUTION: Do not perform other tasks or shut down the Tablet PC during the configuration process. 7. After the configuration, you can use WWAN connections. For more information, see the online help of the software. 26 Using the GPS Feature (Optional) GPS (Global Positioning System) technology allows you to pinpoint the geographic location of the computer and use the data for navigational and other purposes. NOTE:

You need to install third-party software to take full advantage of the GPS feature. Do not block the antenna area. GPS antenna You can view GPS information by running the G-Manager program and selecting the GPS Status tab. 27 Using the Barcode Scanner

(Optional) NOTE:

For enhanced applications and customization of the module, you can use the Barcode Manager program. (For detailed information on the program, see the programs online help.) The maximum operating temperature for the barcode scanner is 50 C

(122 F). If your model has the barcode scanner module, you can scan and decode most common 1D and 2D symbologies. To read barcodes:

1. Start your processing software and open a new or existing file. Place the insertion point (or called cursor) where you want the data to be entered. 2. Press the Trigger button (P1) on your Tablet PC. 3. The barcode scanner shines red light with a center red dot. Aim the red dot at the center of the barcode. The red light should cover the entire barcode. Adjust the lens distance from the barcode, shorter for a smaller barcode and farther for a larger one. NOTE: Improper ambient light and scanning angle can affect the scanning results. 4. Upon a successful scan, the system beeps and the decoded barcode data is entered. 28 Using the Fingerprint Scanner

(Optional) CAUTION:

For optimal performance, both the scanning surface and the finger should be clean and dry. Clean the scanning surface when needed. You can use adhesive tape to remove dirt and oil from the scanner surface. It is not recommended that you use the fingerprint scanner in a below-

freezing temperature. The moisture on your finger can freeze to the scanners metal surface when you touch it, resulting in a failed operation. Besides, touching freezing metal with your finger can cause frostbite. The fingerprint scanner (if your model has the feature) provides a strong authentication mechanism based on fingerprint recognition. You can log on to Windows and dismiss the lock screen with an enrolled fingerprint instead of a password. Fingerprint scanner Enrolling a Fingerprint NOTE: You can enroll a fingerprint only after creating a password for the Windows user account. Settings Accounts Sign-in options. For Windows 10 1. Click 2. On the right side under Fingerprint, click Set up. 3. Follow the onscreen instructions to complete. For Windows 7 1. Log in to Windows as the user whose fingerprint is to be enrolled. 2. Double-click iMD Fingerprint Reader on Windows desktop. 3. In the fingerprint configuration menu, click Add another. 29 4. You will be asked to enter the password of the selected user. Enter the password and click OK. 5. Place any finger of your choice on the scanner surface. Keep the finger still until youre asked to lift your finger and repeat the action again. Several scans of the fingerprint are required. NOTE: Place your finger in a natural position that matches the way you normally hold your device. 6. When completed, click Finish. NOTE: For detailed information on the program, see the programs online help. 30 Fingerprint Login NOTE:

The fingerprint login process can take a while. This is because the system has to check hardware devices and security configuration before initiating the fingerprint scanner. The fingerprint scanner has 360-degree readability. You can place your finger in any orientation for the scanner to recognize an enrolled fingerprint. With an enrolled fingerprint, the user can log on by tapping the Fingerprint option in Windows login screen and then placing the finger on the scanner. The user can also dismiss the lock screen with the fingerprint. If fingerprint login attempts fail three times, you will be switched to password login. 31 Using the NFC/RFID Reader

(Optional) If your model has the NFC/RFID reader module, you can read data from NFC

(Near Field Communication) and RFID (Radio Frequency Identification) tags. For optimal results when reading an NFC/RFID tag, have the tag face the antenna in the same orientation as indicated by the icon on the exterior of the Tablet PC. The icon indicates where the RFID antenna is located. The location depends on your model. RFID antenna or NOTE:

When not using an NFC/RFID card, do not leave it within or near the antenna area. For enhanced applications and customization of the module, contact your authorized Getac dealer. The NFC reader requires specialized applications. For further information, ask your system administrator. 32 Chapter 3 Managing Power Your Tablet PC operates either on external AC power or on internal battery power. This chapter tells you how you can effectively manage power. To maintain optimal battery performance, it is important that you use the battery in the proper way. 33 AC Adapter CAUTION:

The AC adapter is designed for use with your Tablet PC only. Connecting the AC adapter to another device can damage the adapter. The AC power cord supplied with your Tablet PC is for use in the country where you purchased your Tablet PC. If you plan to go overseas with the Tablet PC, consult your dealer for the appropriate power cord. When you disconnect the AC adapter, disconnect from the electrical outlet first and then from the Tablet PC. A reverse procedure may damage the AC adapter or Tablet PC. When unplugging the connector, always hold the plug head. Never pull on the cord. The AC adapter serves as a converter from AC (Alternating Current) to DC

(Direct Current) power because your Tablet PC runs on DC power, but an electrical outlet usually provides AC power. It also charges the battery pack when connected to AC power. The adapter operates on any voltage in the range of 100~240 V AC. 34 Battery Pack Your Tablet PC has two battery packs. The battery pack is the internal power source for the Tablet PC. It is rechargeable using the AC adapter. NOTE: Care and maintenance information for the battery is provided in the Battery Pack Guidelines section in Chapter 7. Charging the Battery Pack NOTE:

Charging will not start if the batterys temperature is outside the allowed range, which is between 0 C (32 F) and 50 C (122 F). Once the batterys temperature meets the requirements, charging automatically resumes. During charging, do not disconnect the AC adapter before the battery has been fully charged; otherwise you will get a prematurely charged battery. The battery has a high temperature protection mechanism which limits the maximum charge of the battery to 80% of its total capacity in the event of high temperature conditions. In such conditions, the battery will be regarded as fully charged at 80% capacity. The battery level may automatically lessen due to the self-discharge process (0.21% per day), even when the battery pack is fully charged

(100%). This happens no matter if the battery pack is installed in the Tablet PC. To charge the battery pack, connect the AC adapter to the Tablet PC and an electrical outlet. The Battery Indicator (

) on the Tablet PC glows amber to indicate that charging is in progress. You are advised to keep the Tablet PC power off while the battery is being charged. When the battery is fully charged, the Battery Charge Indicator glows green. The two battery packs are charged in parallel. It takes approximately 5 hours to fully charge the two battery packs when the power is off and approximately 6 hours when the power is on (may need a longer charging time at lower temperatures). CAUTION: After the Tablet PC has been fully recharged, do not immediately disconnect and reconnect the AC adapter to charge it again. Doing so may damage the battery. 35 Initializing the Battery Pack You need to initialize a new battery pack before using it for the first time or when the actual operating time of a battery pack is much less than expected. Initializing is the process of fully charging, discharging, and then charging. It can take several hours. A software tool called Gauge Reset is provided for the purpose. Use the G-Manager program and select the Battery tab to find the tool. Checking the Battery Level NOTE: Any battery level indication is an estimated result. The actual operating time can be different from the estimated time, depending on how you are using the Tablet PC. The operating time of a fully charged battery pack depends on how you are using the Tablet PC. When your applications often access peripherals, you will experience a shorter operating time. The two battery packs are discharged in parallel. By Operating System You can check the approximate battery level using the battery meter function of the operating system. To read the battery level in Windows, tap the battery icon on the taskbar. By Gas Gauge On the exterior side of the battery pack is a gas gauge for displaying the estimated battery charge. Push-button 36 When the battery pack is not installed in the Tablet PC and you want to know the battery charge, you can press the push-button to see the number of LEDs that light up. Each LED represents 20% charge. Battery Low Signals and Actions The battery icon changes appearance to display the current state of the battery. Battery Icon Windows 10 Windows 7 Battery Level Description Low Discharging The icon shows the charge remaining in 10-percent increments until the charge reaches the low-battery level. The battery charge has reached the low-

battery level. The battery charge has reached the critical battery level. By default, Windows will display a notification and put your Tablet PC into Hibernation. Critically low When the battery is low, the Tablet PCs Battery Indicator (

red to alert you to take actions.

) also blinks Always respond to low-battery by connecting the AC adapter, placing your Tablet PC in Hibernation mode, or turning off the Tablet PC. 37 Replacing the Battery Pack CAUTION:

There is danger of explosion if the battery is incorrectly replaced. Replace the battery only with the Tablet PC manufacturers battery packs. Discard used batteries according to the dealers instructions. Do not attempt to disassemble the battery pack. NOTE: You can hot swap one battery pack while the other one is supplying the power. To replace the battery pack, follow these steps:

1. Locate the battery pack you want to remove (

2. Slide the battery latch toward the right () and then upwards () to or

). release the battery pack. 3. Remove the battery pack from its compartment. 4. Fit another battery pack into place. With the battery pack correctly oriented, attach its connector side to the battery compartment at an angle () and then press down the other side (). 38 5. Slide the battery latch toward the locked position (

). CAUTION: Make sure the battery latch is correctly locked, not revealing the underneath red part. Correct Incorrect (revealing red part) 39 Power-Saving Tips Aside from enabling your Tablet PCs power saving mode, you can do your part to maximize the batterys operating time by following these suggestions. Do not disable Power Management. Decrease the LCD brightness to the lowest comfortable level. Shorten the length of time before Windows turn off the display. When not using a connected device, disconnect it. Turn off the wireless radio if you are not using the wireless module (such as WLAN, Bluetooth, or WWAN). Turn off the Tablet PC when you are not using it. 40 Chapter 4 Expanding Your Tablet PC You can expand the capabilities of your Tablet PC by connecting other peripheral devices. When using a device, be sure to read the instructions accompanying the device together with the relevant section in this chapter. 41 Connecting Peripheral Devices Connecting a USB Device Your Tablet PC has two USB 3.0 ports and one USB 2.0 port for connecting USB devices, such as a digital camera, scanner, printer, modem, and mouse. USB 3.0 USB 2.0 NOTE: USB 3.0 port is backward compatible with USB 2.0 port. However, if necessary, you can set a USB 3.0 port to be a USB 2.0 port in the BIOS Setup Utility. Go to the utility, select Advanced Device Configuration, and then select Upper Left Port Setting or Lower Left Port Setting. 42 Connecting a USB Device with Fischer Connectors (Optional) Select models have one or two USB connectors of DBPU 7 pin type, which is a Fischer push-pull locking system. You can connect a USB device supporting this type of connection. Typical applications are military and security services. 1. Align the dot on the cable with the dot on the Tablet PC. 2. Push the outer sleeve and then plug the connector. Outer sleeve Once connected, a special locking mechanism will prevent accidental disconnection. To disconnect, push the outer sleeve to unlock and then pull the connector out. Connecting an Audio Device The audio combo connector is the 4-pole TRRS 3.5mm type (Apple iPhone Recessed) so you can connect a compatible headset microphone. SAFETY WARNING:

To prevent possible hearing damage, do not listen at high volume levels for long periods. 43 Connecting a Monitor If you want the benefits of a larger display screen with higher resolution, you can connect an external display monitor to your Tablet PC. Your Tablet PC has an HDMI connector. HDMI (High-Definition Multimedia Interface) is an audio/video interface that transmits uncompressed digital data and therefore delivers true HD quality. Select models have a VGA connector. To switch the display output, use Windows Control Panel or OSD Control Panel. Connecting a Serial Device (Optional) If your model has the RS232 serial port, you can connect a serial device such as a serial mouse or serial communication device. 44 Using Storage and Expansion Cards Using MicroSD Cards Your computer has a storage card reader. The card reader is a small drive for reading from and writing to removable storage cards (or called memory cards). The reader supports microSD (Secure Digital) and microSDHC (Secure Digital High Capacity) cards. 1. Locate the microSD card reader. Open the cover. 2. Align the card with its connector pointing to the slot and the connector side facing back. Slide the card into the slot until it reaches the end. 3. Close the cover. 4. Windows will detect the card and assign it a drive name. To remove a storage card:

1. Open File Explorer and click Computer. 2. Right-click the drive with the card and select Eject. 3. Open the cover. 4. Slightly push the card to release and then pull it out of the slot. 5. Close the cover. 45 Using Smart Cards With an embedded microcontroller, smart cards have the unique ability to store large amounts of data, carry out their own on-card functions (e.g., encryption and mutual authentication), and interact intelligently with a smart card reader. 1. Locate the smart card reader. Open the cover. 2. With the embedded computer chip facing front and near the slot, slide the smart card into the slot. 3. Close the cover. To remove a smart card:

1. Make sure that the software is not accessing the smart card. 2. Open the cover. 3. Slightly push the card to release and then pull it out of the slot. 4. Close the cover. 46 Changing or Replacing Replacing the SSD 1. Turn off the Tablet PC and disconnect the AC adapter. 2. Carefully place the Tablet PC upside down. 3. Remove 9 screws to open the compartment cover. 4. Unfasten 3 screws and unplug the SDD (Solid-State Drive). 5. Plug the new SSD into place and secure with 3 screws. 6. Close the compartment cover and secure with 9 screws. 7. Replace the battery packs. 47 System Memory Upgrade You can upgrade your Tablet PC by expanding system memory. CAUTION:

It is not recommended that you buy and install RAM modules by yourself. If you want to expand system memory, please ask Getac service center to install DRAM modules for you so that full compatibility can be guaranteed. RAM modules are extremely sensitive to static electricity. There are cases where static electricity generated by the human body has adversely affected such modules. When inserting or removing a RAM module, do not touch the terminals or internal components, insert objects other than the module, or allow foreign particles to enter. Doing so has been known to cause damage, fire, or electrical shock. To install the RAM module:

1. Disconnect the AC adapter and remove the battery packs. 2. Carefully place the Tablet PC upside down. 3. Remove 9 screws to open the compartment cover. 4. To install the RAM module, match the module's notched part with the socket's projected part and firmly insert the module into the socket at a 20-degree angle (). Then push down until the retaining clips lock the module into position (). 48 CAUTION: If the RAM module is difficult to insert or difficult to push down, do not force it. Check once more to ensure that the module is positioned correctly. 5. Close the compartment cover and secure with 9 screws. 6. Replace the battery packs. 49 Chapter 5 Using BIOS Setup BIOS Setup Utility is a program for configuring the BIOS (Basic Input/ Output System) settings of the computer. BIOS is a layer of software, called firmware, that translates instructions from other layers of software into instructions that the computer hardware can understand. The BIOS settings are needed by your computer to identify the types of installed devices and establish special features. This chapter tells you how to use the BIOS Setup Utility. 50 When and How to Use NOTE:

The actual setting items on your model may differ from those described in this chapter. The availability of some setting items depends on the Windows version your computer is running. You need to run BIOS Setup Utility when:

You see an error message on the screen requesting you to run BIOS Setup Utility. You want to restore the factory default BIOS settings. You want to modify some specific settings according to the hardware. You want to modify some specific settings to optimize the system performance. To run BIOS Setup Utility:

: During system startup when the logo screen appears, tap the Method 1 screen or press the Windows Logo button on your Tablet PC. In the pre-boot menu that appears, select Setup Utility. (Tap with your finger. Stylus is not supported here.) NOTE:

If you dont want any accidental tapping to invoke the pre-boot menu, you can disable this method by setting the Screen Tapping for Boot Options item in the BIOS Setup Utility. When tapping the screen for operating BIOS Setup, use your finger. The touching of a stylus tip is not supported in this situation. For Windows 10 models, the time period in which you can use the above method is extremely short. You can use the other method as described below. Method 2 (for Windows 10 models only): Tap security Recovery. Under Advanced startup, tap Restart now. In the boot options menu, tap Troubleshoot UEFI Firmware Settings. Tap Restart. In the pre-boot menu that appears, select Setup Utility. Settings Update &

51 Method 2 (for Windows 7 models only) F2 key when the prompt (Press F2 for System Utilities) appears at the bottom left corner of the screen during system startup.

: If a keyboard is connected, press the 52 Menu Descriptions Information Menu The Information menu contains the basic configuration information of the system. There are no user-definable items in this menu. NOTE: The Asset Tag information appears when you have entered the asset number for this Tablet PC using the asset management program. The program is provided in the Asset tag folder of the Driver disc. Main Menu The Main menu contains the various system settings. System Date sets the system date. System Time sets the system time. OS Select specifies which version of Windows your computer is running. Boot Priority determines the first device that the system boots from. Select Legacy First or UEFI First according to your needs. Legacy USB Support enables or disables the systems support for Legacy USB. CSM Support enables or disables CSM (Compatibility Support Mode). You can set this item to Yes for backward compatibility with legacy BIOS services. PXE Boot sets the PXE boot to UEFI or Legacy. PXE (Preboot eXecution Environment) is an environment to boot computers using a network interface independently of data storage devices or installed operating systems. 53 Advanced Menu The Advanced menu contains the advanced settings. Wake Up Capability USB Wake-Up From S3 allow a USB device activity to wake up the system from S3 (Sleep) state. System Policy allows you to choose between Performance and Balance. If battery life is your first priority, select Balance. If you need system performance more than battery life, select Performance. AC Initiation sets if connecting AC power will automatically start or resume the system. Screen Tapping for Boot Options sets if tapping the screen during startup will invoke the boot options menu which provides access to some pre-boot operations. If disabled, tapping the screen during startup has no effect to the systems booting process. Active Management Technology Support (This item appears only on models supporting vPro.) Intel AMT Support enables or disables Intel Active Management Technology BIOS extension execution. AMT allows the system administrator to access an AMT featured computer remotely. Intel AMT Setup Prompt determines whether the prompt for entering Intel MEBx Setup appears or not during POST. Virtualization Technology Setup Intel(R) Virtualization Technology enables or disables Intel VT (Intel Virtualization Technology) feature which provides hardware support for processor virtualization. When enabled, a VMM (Virtual Machine Monitor) can utilize the additional hardware virtualization capabilities provided by this technology. Intel(R) VT for Directed I/O (VT-d) enables or disables VT-d (Intel Virtualization Technology for Directed I/O). When enabled, VT-d helps enhance Intel platforms for efficient virtualization of I/O devices. SW Guard Extensions (SGX) can be set to Disabled, Enabled, or Software Controlled. Intel Software Guard Extensions (Intel SGX) is an Intel technology for increasing the security of application code. It is used by application developers. 54 Graphics Setup DVMT Pre-Allocated sets the amount of pre-allocated (fixed) graphics memory for use by the internal graphics device. Device Configuration enables or disables several hardware components. The items available for setting depend on your model. Security Menu The Security menu contains the security settings, which safeguard your system against unauthorized use. NOTE:

You can set the user password only when the supervisor password has been set. If both the supervisor and user passwords are set, you can enter any of them for starting up the system and/or entering BIOS Setup. However, the user password only allows you to view/change the settings of certain items. A password setting is applied right after it is confirmed. To cancel a password, leave the password empty by pressing the Enter key. Set Supervisor/User Password sets the supervisor/user password. You can set the supervisor/user password to be required for starting up the system and/or entering BIOS Setup. Password on Boot allows you to enable or disable the entering of password for booting up your system. Set HDD 0 User Password sets the password for locking the Primary Master hard disk drive. After setting a password, the hard disk drive can only be unlocked by the password no matter where it is installed. TPM Setup Menu TPM Support enables or disables TPM (Trusted Platform Module) support. TPM (Trusted Platform Module) is a component on your computers mainboard that is specifically designed to enhance platform security by providing a protected space for key operations and other security critical tasks. Change TPM Status allows you to select between No Change and Clear. 55 Boot Menu The Boot menu sets the sequence of the devices to be searched for the operating system. Boot Type Order determines the boot order. You can rearrange the order by dragging the boot device name up or down in the list. Each boot device can be individually set to On or Off. If you want to exclude a boot device from the boot order, set the device to Off. Exit Menu The Exit menu displays ways of exiting BIOS Setup Utility. After finishing with your settings, you must save and exit so that the changes can take effect. Exit Saving Changes saves the changes you have made and exits BIOS Setup Utility. Exit Discarding Changes exits BIOS Setup Utility without saving the changes you have made. Load Setup Defaults loads the factory default values for all the items. Discard Changes restores the previous values for all the items. Saves Changes saves the changes you have made. 56 Chapter 6 Using Getac Software Getac software includes application programs for specific computer components and utility programs for overall management. This chapter briefly introduces the programs. 57 OSD Control Panel The OSD (On Screen Display) Control Panel provides a user-friendly interface for you to quickly activate or operate certain functions on your Tablet PC with a simple tap of the screen. To open the OSD Control Panel, start the program named OSDC. If you have a Windows 7 model, you can also press the Windows Logo button on your Tablet PC to open it. The following screen appears. Help For detailed information on the program, see the programs online help. 58 G-Manager G-Manager is a unified user interface utility that allows you to view, manage, or configure your computer features. With G-Manager, you can perform all or some of the tasks listed below. View system information. Check the battery status and configure the battery. Configure ECO modes (or called power profiles). Set the touchscreen sensitivity mode. Set if a warning message will appear when a connected docking station is removed unexpectedly. Enable the use of external GPS/WWAN/WLAN antenna signal. Change the function of the hardware button. Configure how your system works with the vehicle ignition. Monitor the system. View GPS information. Tap and hold the Getac Utility icon select G-Manager to start the program. The G-Manager window appears, containing several tabs. located on Windows taskbar and NOTE: Depending on your model, the actual items and information appearing on the screen may differ from those shown in this manual. 59 Help For detailed information on the program, see the programs online help. 60 Camera (Optional) G-Camera (for Windows 10) G-Camera is a geo-tagging camera application. Geographical information can be embedded into JPEG files as EXIF 2.2 metadata. NOTE: G-Camera uses the standard location service of Windows. To start the G-Camera application, select All apps G-Camera. In the middle is the preview window with status display. At the two sides are various buttons. For detailed information on the program, see the programs online help. Tap Help. (Internet connection is required.) 61 Getac Camera (for Windows 7) Getac Camera is a geo-tagging camera program, which allows you to stamp geographical information on photos as watermarks and embed such information into JPEG files as EXIF 2.2 metadata. NOTE: Before starting Getac Camera, close any other program that uses the camera; otherwise, Getac Camera can only provide limited functions. Start Getac Camera. The Getac Camera window appears as shown below. The GPS positioning will be automatically activated. When the GPS positioning is completed, you will see the geographical information in the watermark area on the image. For detailed information on the program, see the programs online help. Select and then

. 62 Chapter 7 Care and Maintenance Taking good care of your Tablet PC will ensure a trouble-free operation and reduce the risk of damage to your Tablet PC. This chapter gives you guidelines covering areas such as protecting, storing, cleaning, and traveling. 63 Protecting the Tablet PC To safeguard the integrity of your Tablet PC data as well as the Tablet PC itself, you can protect the Tablet PC in several ways as described in this section. Using an Anti-Virus Strategy You can install a virus-detecting program to monitor potential viruses that could damage your files. Using the Cable Lock You can use a Kensington-type cable lock to protect your Tablet PC against theft. The cable lock is available in computer stores. To use the lock, loop the lock cable around a stationary object such as a table. Insert the lock to the Kensington lock hole and turn the key to secure the lock. Store the key in a safe place. 64 Taking Care of the Tablet PC Location Guidelines For optimal performance, use the Tablet PC where the recommended temperature is between 0 C (32 F) and 55 C (131 F). (Actual operating temperature depends on product specifications.) Avoid placing the Tablet PC in a location subject to high humidity, extreme temperatures, mechanical vibration, direct sunlight, or heavy dust. Using in extreme environments for long periods can result in product deterioration and a shortened product life. Operating in an environment with metallic dust is not allowed. Place the Tablet PC on a flat and steady surface. Do not stand the Tablet PC on its side or store it in an upside-down position. A strong impact by dropping or hitting may damage the Tablet PC. Do not cover or block any ventilation openings on the Tablet PC. For example, do not place the Tablet PC on a bed, sofa, rug, or other similar surface. Otherwise, overheating may occur that results in damage to the Tablet PC. As the Tablet PC can become very hot during operation, keep it away from objects that are vulnerable to heat. Keep the Tablet PC at least 13 cm (5 inches) away from electrical appliances that can generate a strong magnetic field such as a TV, refrigerator, motor, or a large audio speaker. Avoid moving the Tablet PC abruptly from a cold to a warm place. A temperature difference of more than 10 C (18 F) may cause condensation inside the unit, which may damage the storage media. General Guidelines Do not place heavy objects on top of the Tablet PC as this may damage the display. To avoid damaging the screen, do not touch it with any sharp object. 65 LCD image sticking occurs when a fixed pattern is displayed on the screen for a prolonged period of time. You can avoid the problem by limiting the amount of static content on the display. It is recommended that you use a screen saver or turn off the display when it is not in use. To maximize the life of the backlight in the display, allow the backlight to automatically turn off as a result of power management. Cleaning Guidelines Never clean the Tablet PC with its power on. Use a soft cloth moistened with water or a non-alkaline detergent to wipe the exterior of the Tablet PC. Gently wipe the display with a soft, lint-free cloth. If water or liquid is split onto the Tablet PC, wipe it dry and clean when possible. Though your Tablet PC is water-proof, do not leave the Tablet PC wet when you can dry it. If the Tablet PC gets wet where the temperature is 0 C (32 F) or below, freeze damage may occur. Make sure to dry the wet Tablet PC. Battery Pack Guidelines Recharge the battery pack when it is nearly discharged. When recharging, make sure that the battery pack is fully charged. Doing so may avoid harm to the battery pack. The battery pack is a consumable product and the following conditions will shorten its life:

when frequently charging the battery pack when using, charging, or storing the battery in high temperature condition To avoid hastening the deterioration of the battery pack thereby prolonging its useful life, minimize the number of times you charge it so as not to frequently increase its internal temperature. Charge the battery pack between 10 C ~ 30 C (50 F ~ 86 F) temperature range. A higher environment temperature will cause the battery packs temperature to rise. Avoid charging the battery pack inside a closed 66 vehicle and in hot weather condition. Also, charging will not start if the battery pack is not within the allowed temperature range. It is recommended that you do not charge the battery pack more than once a day. It is recommended that you charge the battery pack with the Tablet PCs power off. To maintain the battery packs operating efficiency, store it in a cool dark place removed from the Tablet PC and with 30 % ~ 40 % charge remaining. Important guidelines when using the battery pack. When installing or removing the battery pack take note of the following:

avoid installing or removing the battery pack when the Tablet PC is in Sleep mode. Abruptly removing the battery pack may cause loss of data or the Tablet PC may become unstable. avoid touching the battery pack terminals or damage may occur, thereby causing improper operation to it or the Tablet PC. The Tablet PCs input voltage and surrounding temperature will directly affect the battery packs charge and discharge time:

charging time will be prolonged when the Tablet PC is turned on. To shorten the charging time, it is recommended that you place the Tablet PC in Sleep or Hibernation mode. a low temperature will prolong the charging time as well as hasten the discharge time. When using battery power in an extremely low temperature environment, you may experience shortened operating time and incorrect battery level reading. This phenomenon comes from the chemical characteristics of batteries. The appropriate operating temperature for the battery is -10 C ~ 50 C (14 F ~ 122 F). Do not leave the battery pack in storage for more than six months without recharging it. Touchscreen Guidelines Use the finger or the included stylus on the display. Using a sharp or metallic object other than your finger or stylus may cause scratches and damage the display, thereby causing errors. 67 Use a soft cloth to remove dirt on the display. The touchscreen surface has a special protective coating that prevents dirt from sticking to it. Not using a soft cloth may cause damage to the special protective coating on the touchscreen surface. Turn off the Tablet PC power when cleaning the display. Cleaning the display with the power on may cause improper operation. Do not use excessive force on the display. Avoid placing objects on top of the display as this may cause the glass to break thereby damaging the display. Using the touchscreen during low temperature (below 5 oC / 41 F) may cause a slower response time, this is normal. A normal response time may be restored upon returning to room temperature. When there is noticeable discrepancy in the operation of the touchscreen function (wrong location on intended operation or improper display resolution), refer to the Windows online Help for instructions on recalibrating the touchscreen display. 68 When Traveling Before traveling with your Tablet PC, make a backup of your hard disk data into flash disks or other storage devices. As an added precaution, bring along an extra copy of your important data. Make sure that the battery pack is fully charged. Make sure that the Tablet PC is turned off. Make sure that all the connector covers are closed completely to ensure the waterproof integrity. Disconnect the AC adapter from the Tablet PC and take it with you. Use the AC adapter as the power source and as a battery-charger. Hand-carry the Tablet PC. Do not check it in as luggage. If you need to leave the Tablet PC in the car, put it in the trunk of the car to avoid exposing the Tablet PC to excessive heat. When going through airport security, it is recommended that you send the Tablet PC and flash disks through the X-ray machine (the device you set your bags on). Avoid the magnetic detector (the device you walk through) or the magnetic wand (the handheld device used by security personnel). If you plan to travel abroad with your Tablet PC, consult your dealer for the appropriate AC power cord for use in your country of destination. 69 Chapter 8 Troubleshooting Computer problems can be caused by hardware, software, or both. When you encounter any problem, it might be a typical problem that can easily be solved. This chapter tells you what actions to take when solving common computer problems. 70 Preliminary Checklist Here are helpful hints to follow before you take further actions when you encounter any problem:

Try to isolate which part of the Tablet PC is causing the problem. Make sure that you turn on all peripheral devices before turning on the Tablet PC. If an external device has a problem, make sure that the cable connections are correct and secure. Make sure that the configuration information is properly set in the BIOS Setup program. Make sure that all the device drivers are correctly installed. Make notes of your observations. Are there any messages on the screen?

Do any indicators light? Do you hear any beeps? Detailed descriptions are useful to the service personnel when you need to consult one for assistance. If any problem persists after you follow the instructions in this chapter, contact an authorized dealer for help. 71 Solving Common Problems Battery Problems The battery does not charge (Battery Charge indicator does not light amber). Make sure that the AC adapter is properly connected. Make sure that the battery is not too hot or cold. Allow time for the battery pack to return to room temperature. If the battery doesn't charge after it has been stored in very low temperatures, try disconnecting and reconnecting the AC adapter to solve the problem. Make sure that the battery pack is installed correctly. Make sure that the battery terminals are clean. The operating time of a fully charged battery becomes shorter. If you often partially recharge and discharge, the battery might not be charged to its full potential. Initialize the battery to solve the problem. The battery operating time indicated by the battery meter does not match the actual operating time. The actual operating time can be different from the estimated time, depending on how you are using the Tablet PC. If the actual operating time is much less than the estimated time, initialize the battery. Bluetooth Wireless Transmission Problems I cannot connect to another device with Bluetooth wireless technology. Make sure that both devices have activated Bluetooth feature. Make sure that the distance between the two devices is within the limit and that there are no walls or other obstructions between the devices. Make sure that the other device is not in Hidden mode. 72 Make sure that both devices are compatible. Display Problems Nothing appears on the screen. During operation, the screen may automatically turn off as a result of power management. Press any key to see if the screen comes back. The brightness level might be too low. Increase the brightness. The characters on the screen are dim. Adjust the brightness and/or contrast. The display brightness cannot be increased. As a protection, the display brightness will be fixed at a low level when the surrounding temperature is too high or too low. It is not a malfunction in this situation. Bad dots appear on the display at all times. A small number of missing, discolored, or bright dots on the screen are an intrinsic characteristic of TFT LCD technology. It is not regarded as a LCD defect. Clouding (or called mura) happens on the screen when you exert forces on the left or right side of the LCD frame. This is a normal phenomenon, not a defect. Hardware Device Problems The Tablet PC does not recognize a newly installed device. The device may not be correctly configured in the BIOS Setup program. Run the BIOS Setup program to identify the new type. Make sure if any device driver needs to be installed. (Refer to the documentation that came with the device.) Make sure if the device needs any jumper or switch settings. (Refer to the documentation that came with the device.) 73 Check the cables or power cords for correct connections. For an external device that has its own power switch, make sure that the power is turned on. Power Management Problems The Tablet PC does not enter Sleep or Hibernation mode automatically. If you have a connection to another computer, the Tablet PC does not enter Sleep or Hibernation mode if the connection is actively in use. Make sure that the Sleep or Hibernation time-out is enabled. The Tablet PC does not enter Sleep or Hibernation mode immediately. If the Tablet PC is performing an operation, it normally waits for the operation to finish. The Tablet PC does not resume from Sleep or Hibernation mode. The Tablet PC automatically enters Sleep or Hibernation mode when the battery pack is empty. Do any one of the following:

Connect the AC adapter to the Tablet PC. Replace the empty battery pack with a fully charged one. Sensor Problems (for Windows 10 Models Only) The built-in digital compass doesnt seem to be accurate. Rotating the display can affect the accuracy of the digital compass. This is normal, not a malfunction. The sensors for the compass require periodic recalibration. Follow this method to recalibrate the sensors:

1. Make sure you are far away from any large metal objects or magnetic fields. 2. Start an application that utilizes the digital compass. 3. Hold the Tablet PC level with the horizon, with the LCD side facing up. 4. Rotate the Tablet PC 360 at least three times around each axis (X, Y, and Z) as shown below. 74 Software Problems An application program does not work correctly. Make sure that the software is correctly installed. If an error message appears on the screen, consult the software programs documentation for further information. If you are sure the operation has stop, reset the Tablet PC. Sound Problems No sound is produced. Make sure that the volume control is not set too low. Increase the volume. 75 Make sure that the sound is not muted. Make sure that the Tablet PC is not in Sleep mode. If using an external speaker, make sure that the speaker is properly connected. Distorted sound is produced. Make sure that the volume control is not set too high or too low. In most cases, a high setting can cause the audio electronics to distort the sound. Startup Problems When you turn on the Tablet PC, it does not respond and the Power Indicator does not light green. If you are using an external AC power, make sure that the AC adapter is correctly and securely connected. If so, make sure that the electrical outlet works properly. If you are using the battery power, make sure that the battery is not discharged. When the ambient temperature is below -20 C (-4 F), the Tablet PC will start up only if both battery packs are installed. When you turn on the Tablet PC, it stops after POST. Reset your Tablet PC. WLAN Problems I cannot use the WLAN feature. Make sure that the WLAN feature is turned on. Transmission quality is poor. Your Tablet PC may be in an out-of-range situation. Move your Tablet PC closer to the Access Point or another WLAN device it is associated with. Check if there is high interference around the environment and solve the problem as described next. 76 Radio interference exists. Move your Tablet PC away from the device causing the radio interference such as microwave oven and large metal objects. Plug your Tablet PC into an outlet on a different branch circuit from that used by the affecting device. Consult your dealer or an experienced radio technician for help. I cannot connect to another WLAN device. Make sure that the WLAN feature is turned on. Make sure that the SSID setting is the same for every WLAN device in the network. Your Tablet PC is not recognizing changes. Restart the Tablet PC. Make sure that the IP address or subnet mask setting is correct. I cannot communicate with the computer in the network when Infrastructure mode is configured. Make sure that the Access Point your Tablet PC is associated with is powered on and all the LEDs are working properly. If the operating radio channel is in poor quality, change the Access Point and all the wireless station(s) within the BSSID to another radio channel. Your Tablet PC may be in an out-of-range situation. Move your Tablet PC closer to the Access Point it is associated with. Make sure that your Tablet PC is configured with the same security option (encryption) to the Access Point. Use the Web Manager/Telnet of the Access Point to check whether it is connected to the network. Reconfigure and reset the Access Point. I cannot access the network. Make sure that the network configuration is appropriate. Make sure that the user name or password is correct. You have moved out of range of the network. 77 Turn off power management. Other Problems The date/time is incorrect. Correct the date and time via the operating system or BIOS Setup program. After you have performed everything as described above and still have the incorrect date and time every time you turn on the Tablet PC, the RTC (Real-Time Clock) battery is at the end of its life. Call an authorized dealer to replace the RTC battery. 78 Resetting the Tablet PC You may have to reset (reboot) your Tablet PC on some occasions when an error occurs and the program you are using hangs up. If you are sure the operation has stopped and you cannot use the restart function of the operating system, reset the Tablet PC. Reset the Tablet PC by any one of these methods:

Press and hold the P1 button for more than 2 seconds. This opens the Ctrl-Alt-Del screen where you can select actions including Restart. If the above action does not work, press and hold the power button for more than 5 seconds to force the system to turn off. Then turn on the power again. 79 System Recovery System Restore, Recovery, or Reset (for Windows 10 Models) Tap Settings Update & security. You have several options. System Restore This option allows you to restore Windows to an earlier point in time if you have created a restore point. Recover from a drive If you have created a recovery drive on Windows 10, you can use the recovery drive to reinstall Windows Reset this PC This option allows you to reinstall Windows with or without keeping your files. See Microsoft website for more information. NOTE: System recovery for Windows 10 typically will take several hours to complete. 80 System Recovery (a Tool for Windows 7 Models) Use System Recovery when:

The Windows 7 operating system does not start at all. You want to restore the system to the factory state. WARNING:

Using this feature will reinstall Windows to your system and configure it to the systems factory default settings. All data on the hard disk drive will be lost. Make sure that power is not interrupted during the recovery process. An unsuccessful recovery may result in Windows startup problems. To run System Recovery:

1. Connect the AC adapter. 2. Turn on the Tablet PC. During system startup when the Getac logo screen appears, double-tap the screen. In the menu that appears, select HDI Recovery. Or, if a keyboard is connected, you can press Ctrl + Alt + F2 keys for four seconds instead of tapping the screen. 3. In the screen that appears, select Recovery to start the recovery process. 81 4. The progress bar shows the percentage completed. When it reaches 100%, the system turns off. 5. Turn on the Tablet PC. The Windows setup wizard starts. Follow the onscreen prompts to continue. 6. When the system restarts, the installer screen appears. The installer will perform system hardware detection and driver installation. 7. When completed, the system restarts and displays Windows desktop. 82 Using the Driver Disc (Optional) NOTE: You can download the latest drivers and utilities from Getac website at http://www.getac.com Support. The Driver disc contains drivers and utilities required for specific hardware in your Tablet PC. Since your Tablet PC comes with drivers and utilities pre-installed, you normally do not need to use the Driver disc. In case you want to manually install Windows, you will have to install the drivers and utilities one by one after installing Windows. To manually install drivers and utilities:

1. Start up the Tablet PC. 2. Prepare an external CD/DVD drive (with USB connection). Connect the drive to your Tablet PC. Wait for the Tablet PC to recognize the drive. 3. Insert the Driver disc. Make sure you use the disc that matches the Windows version of your Tablet PC. 4. The autorun program should automatically start. You will see the installation menu. Tap NEXT to go to the next page if there is more than one. 5. To install a driver or utility, just tap the particular button and follow the onscreen instructions to complete the installation. 83 Appendix A Specifications NOTE: Specifications are subject to change without any prior notice. Parts CPU BIOS Specifications Skylake Platform

- Intel Core i5-6200U Processor, 2.3GHz, up to 2.8GHz 3M cache

- Intel Core i5-6300U vPro Processor, 2.4GHz, up to 3.0GHz 3M cache

- Option: Intel Core i7-6600U vPro Processor, 2.6GHz, up to 3.4GHz 4M cache Insyde, Flash EEPROM, supporting UEFI, NIST, ACPI, and TPM Insyde, 16MB flash EEPROM, supporting UEFI, TPM, vPro, Computrace, HDD Security Eraser, and self-diagnostic 8/16/32GB DDR4 SO-DIMM RAM Video Controller UMA - Intel HD Graphics 520 Display Panel 14-inch (16:9) wide TFT LCD, resolution up to 1366768 HD or 1920x1080 FHD (option),dimmer mode, blackout mode, capacitive multi-touch Capacitive multi-touch screen - 10 point Touchscreen Azalia, High Definition audio Audio Features Speaker Integrated Microphone Integrated Hard disk drive Card slots I/O ports Standard Optional 256/512GB SSD (Solid-State Drive) SD/SDHC microSD Smart Card USB 3.0 x 2, USB 2.0, RJ45 x 2, combo audio (4-pole TRRS 3.5mm type), HDMI, Docking RS232 or VGA, Rugged USB x 1 or x 2, tri antenna pass-through 84 Parts LAN Wireless LAN +

Bluetooth Camera (option) GPS (option) WWAN (option) Barcode scanner

(option) NFC/RFID Reader

(option) Security Specifications Intel i219-LM Gigabit Network Connection, 10/100/1000 Mbps Ethernet, LAN1 and LAN2 Intel 8260NGW 2x2 802.11 AC + BT combo Bluetooth 4.2 class 2 + EDR Front: FHD Rear: 8M pixel, autofocus, LED Internal UART 3G/4G LTE 1D and 2D, with Trigger button Contactless Combo NFC & RFID, supporting HF Protocol: ISO 14443 (A,B), MIFARE, ISO 15693, ISO 18000-3 Kensington lock TPM 2.0 Fingerprint scanner (optional) Power AC adapter Universal 65 W; input: 100240 V, 50/60 Hz; output: 19V Battery pack x 2 Lithium-ion Prismatic type, 3-cell Dimension (LxWD) 359 x 238 x 32.5mm (12.4 8.1 0.9 inch) (without the handle) Weight 2 kg (4.4 lb) (without the handle) Button Functions on Special Occasions On POST/BIOS Setup/Non-ACPI occasions, the five hardware buttons provide keyboard key functions as described below. Button

+

P1 P2 P3 P4 Function Up Down Enter Tab Esc 85 Appendix B Regulatory Information This appendix provides regulatory statements and safety notices on your Tablet PC. NOTE: Marking labels located on the exterior of your Tablet PC indicate the regulations that your model complies with. Please check the marking labels and refer to the corresponding statements in this appendix. Some notices apply to specific models only. 86 On the Use of the System Class B Regulations USA Federal Communications Commission Radio Frequency Interference Statement NOTE:

This equipment 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 equipment 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 equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. Any changes or modifications not expressly approved by the manufacturer could void the users authority to operate the equipment. Please note:

The use of a non-shielded interface cable with this equipment is prohibited. 87 Canada Canadian Department of Communications Radio Interference Regulations Class B Compliance Notice This Class B digital apparatus meets all requirements of the Canada Interference-Causing equipment regulations. Cet appareil numrique de Classe B respecte toutes les exigences du Rglement Canadien sur le matriel brouileur. This digital apparatus does not exceed the Class B limits for radio noise emissions from digital apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications. Le prsent appareil numrique nmet pas de bruits radiolectriques dpassant les limites applicables aux appareils numriques de la classe B prescrites dans le Rglement sur le brouillage radiolectrique dict par le ministre des Communications du Canada. ANSI Warning Equipment approved for ANSI/ISA 12.12.01, Nonincendive Electrical Equipment for use in Class 1, Division 2, Group A, B, C, and D. Maximum ambient temperature: 40C WARNING: To prevent ignition of a hazardous atmosphere, batteries must only be changed or charged in an area known to be non-hazardous. EXPLOSION HARZARD WARNING: External connections/hubs through the connectors as mentioned (USB connector, Ethernet connector, video port, serial port, power supply connector, microphone jack, headphones jack, and buttons/switches) are not to be used in a hazardous location. Power adapter shall not be used in hazardous locations. 88 Safety Notices About the Battery Caution Texts Concerning Lithium Batteries DANISH ADVARSEL! Lithiumbatteri Eksplosionsfare ved fejlagtig hndtering. Udskiftning m kun ske med batteri af samme fabrikat og type. Levr det brugte batteri tilbage til leverandren. NORWEGIAN ADVARSEL: Eksplosjonsfare ved feilaktig skifte av batteri. Benytt samme batteritype eller en tilsvarende type anbefalt av apparatfabrikanten. Brukte batterier kasseres i henhold til fabrikantens instruksjoner. SWEDISH VARNING: Explosionsfara vid felaktigt batteribyte. Anvnd samma batterityp eller en ekvivalent typ som rekommenderas av apparattillverkaren. Kassera anvnt batteri enligt fabrikantens instruktion. FINNISH VAROITUS: Paristo voi rjht, jos se on virheellisesti asennettu. Vaihda paristo ainoastaan valmistajan suosittelemaan tyyppiin. Hvit kytetty paristo valmistajan ohjeiden mukaisesti. ENGLISH CAUTION: Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the equipment manufacturer. Discard used batteries according to manufacturer's instructions. DEUTSCH VORSICHT: Explosionsgefahr bei unsachgemem Austausch der Batterie. Ersatz nur durch denselben oder einen vom Hersteller empfohlenen gleich-wertigen Typ. Entsorgung gebrauchter Batterien nach Angaben des Herstellers. FRENCH ATTENTION: II y a danger dexplosion sil y a remplacement incorrect de la batterie. Remplacer uniquement avec une batterie du mme type ou dun type quivalent recommand par le constructeur. Mettre au rebut les batteries usages conformment aux instructions du fabricant. 89 Attention (for USA Users) The product that you have purchased contains a rechargeable battery. The battery is recyclable. At the end of its useful life, under various state and local laws, it may be illegal to dispose of this battery into the municipal waste stream. Check with your local solid waste officials for details in your area for recycling options or proper disposal. About the AC Adapter Use only the AC adapter supplied with your computer. Use of another type of AC adapter will result in malfunction and/or danger. Do not use the adapter in a high moisture environment. Never touch the adapter when your hands or feet are wet. Allow adequate ventilation around the adapter when using it to operate the device or charge the battery. Do not cover the AC adapter with paper or other objects that will reduce cooling. Do not use the AC adapter while it is inside a carrying case. Connect the adapter to a proper power source. The voltage requirements are found on the product case and/or packaging. Do not use the adapter if the cord becomes damaged. Do not attempt to service the unit. There are no serviceable parts inside. Replace the unit if it is damaged or exposed to excess moisture. 90 On the Use of the RF Device USA and Canada Safety Requirements and Notices IMPORTANT NOTE: To comply with FCC RF exposure compliance requirements, the antenna used for this transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. Radio Frequency Interference Requirements and SAR This device meets the governments requirements for exposure to radio waves. This device is designed and manufactured not to exceed the emission limits for exposure to radio frequency (RF) energy set by the Federal Communications Commission of the U.S. Government. This device complies with FCC radiation exposure limits set forth for an uncontrolled environment. EMC Requirements This device uses, generates and radiates radio frequency energy. The radio frequency energy produced by this device is well below the maximum exposure allowed by the Federal Communications Commission (FCC). 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.

(2) This device must accept any interference received, including interference that may cause undesired operation. The FCC limits are designed to provide reasonable protection against harmful interference when the equipment is installed and used in accordance with the instruction manual and operated in a commercial environment. However, there is no guarantee that interference will not occur in a particular commercial installation, or if operated in a residential area. If harmful interference with radio or television reception occurs when the device is turned on, the user must correct the situation at the users own 91 expense. The user is encouraged to try one or more of the following corrective measures:

Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. CAUTION: The Part 15 radio device operates on a non-interference basis with other devices operating at this frequency. Any changes or modification to said product not expressly approved by the manufacturer could void the users authority to operate this device. Canada Radio Frequency Interference Requirements To prevent radio interference to the licensed service, this device is intended to be operated indoors and away from windows to provide maximum shielding. Equipment (or its transmit antenna) that is installed outdoors is subject to licensing. Pour empcher que cet appareil cause du brouillage au service faisant l'objet d'une licence, il doit tre utilis l'intrieur et devrait tre plac loin des fentres afin de fournir un cran de blindage maximal. Si le matriel (ou son antenne d'mission) est install l'extrieur, il doit faire l'objet d'une licence. European Union CE Marking and Compliance Notices Statements of Compliance English This product follows the provisions of the European Directive 1999/5/EC. Danish Dette produkt er i overensstemmelse med det europiske direktiv 1999/5/EC. 92 Dutch Dit product is in navolging van de bepalingen van Europees Directief 1999/5/EC. Finnish Tm tuote noudattaa EU-direktiivin 1999/5/EC mryksi. French Ce produit est conforme aux exigences de la Directive Europenne 1999/5/EC. German Dieses Produkt entspricht den Bestimmungen der Europischen Richtlinie 1999/5/EC. Greek To 1999/5/EC. Icelandic essi vara stenst regluger Evrpska Efnahags Bandalagsins nmer 1999/5/EC. Italian Questo prodotto conforme alla Direttiva Europea 1999/5/EC. Norwegian Dette produktet er i henhold til bestemmelsene i det europeiske direktivet 1999/5/EC. Portuguese Este produto cumpre com as normas da Diretiva Europia 1999/5/EC. Spanish Este producto cumple con las normas del Directivo Europeo 1999/5/EC. Swedish Denna produkt har tillverkats i enlighet med EG-direktiv 1999/5/EC. 93 User Notification of Take-back Service To Institutional (B2B) Users in United States:

Getac believes in providing our institutional customers with easy-to-use solutions to recycle your Getac-brand products for free. Getac understands the institutional customers will likely be recycling multiple items at once and as such. Getac wants to make the recycling process for these larger shipments as streamlined as possible. Getac works with recycling vendors with the highest standards for protecting our environment, ensuring worker safety, and complying with global environmental laws. Our commitment to recycling our old equipment grows out of our work to protect the environment in many ways. Please see the product type below for information on Getac product, battery and packaging recycling in USA. For Product Recycling:

Your portable Getac products contain hazardous materials. While they pose no risk to you during normal use, they should never be disposed with other wastes. Getac provides a free take-back service for recycling your Getac products. Our electronics recycler will provide competitive bids for recycling non-Getac products as well. For Battery Recycling:

The batteries used to power your portable Getac products contain hazardous materials. While they pose no risk to you during normal use, they should never be disposed with other wastes. Getac provides a free take-back service for recycling your batteries from Getac products. For Packaging Recycling:

Getac has chosen the packaging materials used to transport our products carefully, to balance the requirements of shipping the product to you safely while minimizing the amount of material used. The materials used in our packaging are designed to be recycled locally. If you have the above for recycling, please contact our recycler, All Green Electronics Recycling, LLC. For more information on recycling, visit the website http://www.allgreenrecycling.com. 94 ENERGY STAR 6.1 ENERGY STAR is a government program that offers businesses and consumers energy-efficient solutions, making it easy to save money while protecting the environment for future generations. Please reference ENERGY STAR related information from http://www.energystar.gov. As an ENERGY STAR Partner, Getac Technology Corporation has determined that this product meets the ENERGY STAR guidelines for energy efficiency. An ENERGY STAR qualified computer uses 70 % less electricity than computers without enabled power management features. Earning the ENERGY STAR When every home office is powered by equipment that has earned the ENERGY STAR, the change will keep over 289 billion pounds of greenhouse gases out of the air. If left inactive, ENERGY STAR qualified computers enter a low-power mode and may use 15 watts or less. New chip technologies make power management features more reliable, dependable, and user-friendly than even just a few years ago. Spending a large portion of time in low-power mode not only saves energy, but helps equipment run cooler and last longer. Businesses that use ENERGY STAR enabled office equipment may realize additional savings on air conditioning and maintenance. 95 Over its lifetime, ENERGY STAR qualified equipment in a single home office (e.g., computer, monitor, printer, and fax) can save enough electricity to light an entire home for more than 4 years. Power management (sleep settings) on computers and monitors can result in much savings annually. Remember, saving energy prevents pollution Because most computer equipment is left on 24 hours a day, power management features are important for saving energy and are an easy way to reduce air pollution. By using less energy, these products help lower consumers utility bills, and prevent greenhouse gas emissions. Getac Product Compliance All Getac products with ENERGY STAR logo comply with the ENERGY STAR standard, and the power management feature is enabled by default. As recommended by the ENERGY STAR program for optimal energy savings, the computer is automatically set to sleep after 15 minutes (in battery mode) and 30 minutes (in AC mode) of user inactivity. To wake up the computer, press the power button. If you want to configure power management settings such as inactivity time and ways to initiate/end Sleep mode, go to Power Options by right-clicking the battery icon on the Windows taskbar and then selecting Power Options in the pop-up menu. Please visit http://www.energystar.gov/powermanagement for detail information on power management and its benefits to the environment. 96 Battery Recycling For the U.S. and Canada only:

To recycle the battery, please go to the RBRC Call2Recycle website or use the Call2Recycle Helpline at 800-822-8837. Call2Recycle is a product stewardship program providing no-cost battery and cellphone recycling solutions across the U.S. and Canada. Operated by Call2Recycle, Inc., a 501(c)4 nonprofit public service organization, the program is funded by battery and product manufacturers committed to responsible recycling. See more at: http://www.call2recycle.org 97

 

 

PR533 USB NFC integrated reader solution Rev. 3.6 27 October 2014 206436 Product short data sheet COMPANY PUBLIC 1. General description The PR5331C3HN is a highly integrated transceiver module for contactless reader/writer communication at 13.56 MHz. A dedicated ROM code is implemented to handle different RF protocols by an integrated microcontroller. The system host controller communicates with the PR5331C3HN by using the USB or the HSU link. The protocol between the host controller and the PR5331C3HN, on top of this physical link is the CCID protocol. 1.1 RF protocols PR5331C3HN supports the PCD mode for FeliCa (212 kbps and 424 kbps), ISO/IEC14443 Type A and B (from 106 kbps to 848 kbps), MIFARE (106 kbps), B' cards

(106 kbps), picoPass tag (106 kbps) and Innovision Jewel cards (106 kbps) The Initiator passive mode (from 106 kbps to 424 kbps) can be supported through the PC/SC transparent mode. 1.2 Interfaces The PR5331C3HN supports a USB 2.0 full speed interface (bus powered or host powered mode). Alternatively to the USB interface, a High Speed UART (from 9600b up to 1.2 Mb) can be used to connect the PR533 to a host. The PR5331C3HN has also a master I2C-bus interface that allows to connect one of the following peripherals:

An external EEPROM: in this case the PR5331C3HN is configured as master and is able to communicate with external EEPROM (address A0h) which can store configuration data like PID, UID and RF parameters. When a USB host interface is used, these parameters are retrieved from the EEPROM at startup of the device A TDA8029 contact smart card reader 1.3 Standards compliancy PR5331C3HN offers commands in order for applications to be compliant with EMV Contactless Communication Protocol Specification V2.0.1. PR5331C3HN supports RF protocols ISO/IEC 14443A and B such as compliancy with Smart eID standard can be achieved at application level. NXP Semiconductors PR533 USB NFC integrated reader solution Support of USB 2.0 full speed, interoperable with USB 3.0 hubs. The PR533C3HN in PCD mode is compliant with EMV contactless specification V2.0.1. 1.4 Supported operating systems Microsoft Windows 2000 Microsoft Windows XP (32 and 64 bits) Microsoft Windows 2003 Server (32 and 64 bits) Microsoft Windows 2008 Server (32 and 64 bits) Microsoft Windows Vista (32 and 64 bits) Microsoft Windows 7 (32 and 64 bits) The PR533 is supported by the following OS through the PCSC-Lite driver:

GNU/Linux using libusb 1.0.x and later Mac OS Leopard (1.5.6 and newer) Mac OS Snow Leopard (1.6.X) Solaris FreeBSD 2. Features and benefits USB 2.0 full speed host interface and CCID protocol support Integrated microcontroller implements high-level RF protocols Buffered output drivers to connect an antenna with minimum number of external components Integrated RF level detector Integrated data mode detector Supports ISO/IEC 14443A Reader/Writer mode up to 848 kbit/s Supports ISO/IEC 14443B Reader/Writer mode up to 848 kbit/s Supports contactless communication according to the FeliCa protocol at 212 kbit/s and 424 kbit/s Supports MIFARE encryption Typical operating distance in Read/Write mode for communication to ISO/IEC 14443A/MIFARE, ISO/IEC 14443B or FeliCa cards up to 50 mm depending on antenna size and tuning I2C-bus master interface allows to connect an external I2C EEPROM for configuration data storage or to control a TDA8029 contact smart card reader Low-power modes Hard power-down mode Soft power-down mode Only one external oscillator required (27.12 MHz Crystal oscillator) Power modes USB bus power mode 2.5 V to 3.6 V power supply operating range in non-USB bus power mode PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 2 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution Dedicated I/O ports for external device control 3. Quick reference data Table 1. Symbol VBUS Quick reference data Parameter bus supply voltage VDDA VDDD VDD(TVDD) VDD(PVDD) VDD(SVDD) analog supply voltage digital supply voltage TVDD supply voltage PVDD supply voltage SVDD supply voltage IBUS bus supply current Ipd power-down current ICCSL IDDD IDD(SVDD) IDDA IDD(TVDD) Ptot Tamb suspended low-power device supply current digital supply current SVDD supply current analog supply current TVDD supply current total power dissipation ambient temperature Min 4.02 2.5 Typ 5 3.3 Max 5.25 3.6 Unit V V Conditions

(non-USB mode);

VBUS = VDDD; VSSD = 0 V VDDA = VDDD = VDD(TVDD) =

VDD(PVDD); VSSA = VSSD =

VSS(PVSS) = VSS(TVSS) = 0 V

[1] 2.5 3.3

[1] 2.5 3.3

[1] 2.5 3.3 1.6

-

VDDD 0.1 -

3.6 3.6 3.6 3.6 VDDD VSSA = VSSD = VSS(PVSS) =

VSS(TVSS) = 0 V; reserved for future use maximum load current (USB mode); measured on VBUS maximum inrush current lim-

itation; at power-up

(curlimoff = 0) VDDA = VDDD = VDD(TVDD) = VDD(PVDD) = 3 V; not powered from USB 150 100 hard power-down;

RF level detector off soft power-down; RF level detector on RF level detector on, (with-

out resistor on DP/DM) RF level detector on, VDD(SVDD) switch off VDDS = 3 V RF level detector on during RF transmission;

VDD(TVDD) = 3 V Tamb = 30 to +85 C

[1]

-

-

-

-

-

-

30

-

15

-

6 60

-

-

10 30 250

-

30

-

100 0.55

+85 V V V V V mA mA A A A mA mA mA mA W C

[1] VDDD, VDDA and VDD(TVDD) must always be at the same supply voltage. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 3 of 36 NXP Semiconductors 4. Ordering information PR533 USB NFC integrated reader solution Table 2. Type number Ordering information Package Name Description PR5331C3HN/C360[1][2][3] HVQFN40 plastic thermal enhanced very thin quad flat package; no leads;

PR5331C3HN/C370[1][2][3]

40 terminals; body 6 6 0.85 mm Version SOT618-1

[1]

60 or 70 refers to the ROM code version described in the User Manual. For differences of romcode versions refer to the release note of the product.

[2] Refer to Section 14.4 Licenses.

[3] MSL 2 (Moisture Sensitivity Level). 5. Block diagram The following block diagram describes hardware blocks controlled by PR5331C3HN firmware or which can be accessible for data transaction by a host baseband. RSTPD_N RSTOUT_N DVDD P70_IRQ AVSS VBUS DVSS OSCIN OSCOUT DELATT I0 I1 MATX SUPPLY SUPERVISOR REGULATOR 3.3 V SVDD SWITCH PCR 27 MHz OSC AND FRAC N PLL 48 MHz USB DEVICE 80C51 CPU 44 k ROM 1.2 k BYTES RAM NFC ANALOG FRONT END AND CLUART SDA P50_SCL I2C MASTER SVDD SIGIN SIGOUT P34 TVDD AVDD RX VMID TX1 TVSS TX2 PVDD P30 P31 P32_INT0 P33_INT0 P35 GPIOs aaa-000043 Fig 1. Block diagram PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 4 of 36 NXP Semiconductors 6. Pinning information 6.1 Pinning terminal 1 index area DVSS LOADMOD TVSS1 TX1 TVDD TX2 TVSS2 AVDD VMID RX 1 2 3 4 5 6 7 8 9 10 PR533 USB NFC integrated reader solution T U O G S I 4 3 P A D S L C S _ 0 5 P I 1 T N _ 3 3 P N _ D P T S R D D V S S U B V D D V D I N G S I 0 4 9 3 8 3 7 3 6 3 5 3 4 3 3 3 2 3 1 3 PR533 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 1 0 2 S S V A 1 X U A 2 X U A S S V D I N C S O T U O C S O 0 I 1 I 5 3 P N E T S E T Transparent top view 30 29 28 27 26 25 24 23 22 21 P32_INT0 P31 P30 DELATT PVDD DP DM DVSS RSTOUT_N P70_IRQ aaa-000044 Fig 2. Pin configuration for HVQFN 40 (SOT618-1) 6.2 Pin description PR533 pin description Pin Type Pad ref voltage Description 1 2 3 4 5 6 7 8 9 10 11 12 13 14 G O G O P O G P P I G O O G DVDD TVDD TVDD AVDD AVDD DVDD DVDD digital ground load modulation output provides digital signal for FeliCa and MIFARE card operating mode transmitter ground: supplies the output stage of TX1 transmitter 1: transmits modulated 13.56 MHz energy carrier transmitter power supply: supplies the output stage of TX1 and TX2 transmitter 2: delivers the modulated 13.56 MHz energy carrier transmitter ground: supplies the output stage of TX2 analog power supply internal reference voltage: This pin delivers the internal reference voltage. receiver input: Input pin for the reception signal, which is the load modulated 13.56 MHz energy carrier from the antenna circuit analog ground auxiliary output 1: This pin delivers analog and digital test signals auxiliary output 2: This pin delivers analog and digital test signals digital ground Table 3. Symbol DVSS LOADMOD TVSS1 TX1 TVDD TX2 TVSS2 AVDD VMID RX AVSS AUX1 AUX2 DVSS PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 5 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution PR533 pin description continued Table 3. Symbol OSCIN OSCOUT I0 I1 TESTEN P35 P70_IRQ RSTOUT_N DVSS DM DP PVDD DELATT P30 Pin Type Pad ref voltage AVDD 15 I 16 17 18 19 20 21 22 23 24 25 26 27 28 O I I I I/O I/O O G I/O I/O P O I/O AVDD DVDD DVDD DVDD DVDD PVDD PVDD PVDD PVDD PVDD PVDD P31 29 I/O PVDD P32_INT0 P33_INT1 P50_SCL SDA P34 SIGOUT 30 31 32 33 34 35 I/O I/O I/O I/O I/O O PVDD PVDD DVDD DVDD SVDD SVDD SIGIN 36 I SVDD SVDD 37 P Description crystal oscillator input: input to the inverting amplifier of the oscillator. This pin is also the input for an externally generated clock (fclk = 27.12 MHz). crystal oscillator output: output of the inverting amplifier of the oscillator. interface mode lines: selects the used host interface; in test mode I0 is used as test signals. test enable pin:

when set to 1 enable the test mode. when set to 0 reset the TCB and disable the access to the test mode. general purpose I/O signal interrupt request: output to signal an interrupt event to the host (Port 7 bit 0) output reset signal; when LOW it indicates that the circuit is in reset state. digital ground USB D data line in USB mode or TX in HSU mode; in test mode this signal is used as input and output test signal USB D+ data line in USB mode or RX in HSU mode; in test mode this signal is used as input and output test signal. I/O pad power supply optional output for an external 1.5 k resistor connection on D+. general purpose I/O signal. Can be configured to act either as RX line of the second serial interface UART or general purpose I/O. In test mode this signal is used as input and output test signal. general purpose I/O signal. Can be configured to act either as TX line of the second serial interface UART or general purpose I/O. In test mode this signal is used as input and output test signal. general purpose I/O signal. Can also be used as an interrupt source In test mode this signal is used as input and output test signal. general purpose I/O signal. Can be used to generate an HZ state on the out-

put of the selected interface for the Host communication and to enter into power-down mode without resetting the internal state of PR533. In test mode this signal is used as input and output test signal. I2C-bus clock line - open-drain in output mode I2C-bus data line - open-drain in output mode general purpose I/O signal or clock signal for the SAM contactless communication interface output: delivers a serial data stream according to NFCIP-1 and output signal for the SAM. In test mode this signal is used as test signal output. contactless communication interface input: accepts a digital, serial data stream according to NFCIP-1 and input signal from the SAM. In test mode this signal is used as test signal input. output power for SAM power supply. Switched on by Firmware with an over-

load detection. Used as a reference voltage for SAM communication. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 6 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution Table 3. Symbol RSTPD_N PR533 pin description continued Pin Type Pad ref voltage PVDD 38 I Description reset and power-down: When LOW, internal current sources are switched off, the oscillator is inhibited, and the input pads are disconnected from the out-

side world. With a negative edge on this pin the internal reset phase starts. digital power supply USB power supply. DVDD VBUS 39 40 P P

[1] Pin types: I= Input, O = Output, I/O = Input/Output, P = Power and G = Ground. 7. Limiting values Conditions Limiting values Table 4. In accordance with the Absolute Maximum Rating System (IEC 60134). Symbol VDDA VDDD VDD(TVDD) VDD(PVDD) VDD(SVDD) VBUS Ptot IDD(SVDD) Parameter analog supply voltage digital supply voltage TVDD supply voltage PVDD supply voltage SVDD supply voltage bus supply voltage total power dissipation SVDD supply current maximum current in VDDS switch TX1, TX2, RX pins HBM MM CDM input signal at 13.56 MHz input signal at 13.56 MHz input signal at 13.56 MHz output signal at 13.56 MHz output signal at 13.56 MHz Vi VESD input voltage electrostatic discharge voltage Tstg Tj Vi(dyn)(RX) Vi(dyn)(TX1) Vi(dyn)(TX2) ITX1 ITX2 storage temperature junction temperature dynamic input voltage on pin RX dynamic input voltage on pin TX1 dynamic input voltage on pin TX2 current on pin TX1 current on pin TX2 1500 , 100 pF; EIA/JESD22-A114-A 0.75 mH, 200 pF; EIA/JESD22-A115-A

[1]

[2]

[3] Field induced model; EIA/JESC22-C101-C Min 0.5 0.5 0.5 0.5 0.5 0.5

-

-

0.5

[1]

[2] -

[3] -

55 40 0.7 1.2 1.2 300 300 Max

+4

+4

+4

+4

+4

+5.5 500 30 Unit V V V V V V mW mA V

+4 kV 2.0 V 200 kV 1 C

+150

+125 C VDD(AVDD) + 1.0 V VDD(TVDD) + 1.3 V VDD(TVDD) + 1.3 V

+300

+300 mA mA PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 7 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution 8. Recommended operating conditions Table 5. Symbol VBUS Operating conditions Parameter bus supply voltage VSSA = VSSD = VSS(PVSS) = VSS(TVSS) = 0 V Conditions supply voltage (non-USB mode); VBUS = VDDD;

VSSA = VSSD = VSS(PVSS) = VSS(TVSS) = 0 V VDDA = VDDD = VDD(TVDD) = VDD(PVDD);

VSSA = VSSD = VSS(PVSS) = VSS(TVSS) = 0 V VDDA = VDDD = VDD(TVDD) = VDD(PVDD);

VSSA = VSSD = VSS(PVSS) = VSS(TVSS) = 0 V VDDA = VDDD = VDD(TVDD) = VDD(PVDD);

VSSA = VSSD = VSS(PVSS) = VSS(TVSS) = 0 V supply pad for host interface;

VDDA = VDDD = VDD(TVDD) = VDD(PVDD);

VSSA = VSSD = VSS(PVSS) = VSS(TVSS) = 0 V VDDA VDDD analog supply volt-

age digital supply volt-

age VDD(TVDD) TVDD supply volt-

age VDD(PVDD) PVDD supply volt-

age Tamb ambient tempera-

ture Min 4.02 2.5

[1][2] 2.5

[1][2] 2.5

[1][2] 2.5 Typ 5 3.3 3.3 3.3 3.3 Max 5.25 3.6 3.6 3.6 3.6

[2] 1.6 1.8 to 3.3 3.6 Unit V V V V V V 30

+25

+85 C

[1] VSSA, VDDD and VDD(TVDD) shall always be on the same voltage level.

[2] Supply voltages below 3 V reduces the performance (e.g. the achievable operating distance). 9. Thermal characteristics Thermal characteristics Table 6. Symbol Parameter Rth(j-a) thermal resistance from junction to ambient Conditions in free air with exposed pad soldered on a 4 layer Jedec PCB-0.5 Min Typ Max Unit

-

41.1 K/W 37 10. Characteristics Unless otherwise specified, the limits are given for the full operating conditions. The typical value is given for 25 C, VDDD = 3.4 V and VDD(PVDD) = 3 V in non-USB bus power mode, VBUS = 5 V in USB power mode. Timings are only given from characterization results. 10.1 Power management characteristics 10.1.1 Current consumption characteristics Typical value using a complementary driver configuration and an antenna matched to 40 between TX1 and TX2 at 13.56 MHz. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 8 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution Table 7. Symbol Ipd ICCSL IDDD IDDA Current consumption characteristics Parameter power-down current Conditions Typ Max VDDA = VDDD = VDD(TVDD) = VDD(PVDD) = 3 V; not powered from USB 10 Min 1.3

[1]

-

hard power-down current; not powered from USB; RF level detector off soft power-down current; not powered from USB; RF level detector on

[1]

[1]

9 30 120 250 Unit A A A

-

-

-

-

-

-

-

-

suspended low-power device supply current digital supply current analog supply current VBUS = 5 V; VDDA = VDDD = VDD(TVDD) =

VDD(PVDD) = 3 V; VDDS = 0 V; RF level detector on (without resistor on pin DP

(D+)) VDDA = VDDD = VDD(TVDD) = VDD(PVDD)

= 3 V; RF level detector on VDDA = VDDD = VDD(TVDD) = VDD(PVDD) = 3 V RF level detector on RF level detector off IDD(PVDD) IDD(SVDD) IDD(TVDD) PVDD supply current SVDD supply current TVDD supply current sam_switch_en set to 1 continuous wave; VDD(TVDD) = 3 V

[2]

[3]

[4][5]

Ipd is the total currents over all supplies. IDD(PVDD) depends on the overall load at the digital pins. IDD(SVDD) depends on the overall load on VDD(SVDD) pad. IDD(TVDD) depends on VDD(TVDD) and the external circuitry connected to TX1 and TX2.

[1]

[2]

[3]

[4]

[5] During operation with a typical circuitry the overall current is below 100 mA. 10.1.2 Voltage regulator characteristics Voltage regulator characteristics[1]

Table 8. Symbol VBUS VDDD Parameter bus supply voltage digital supply voltage Conditions USB mode; VSS = 0 V after inrush current limitation (USB mode); from IVDDD = 0 mA to IVDDD = 150 mA USB mode; measure on VBUS at power-up (curlimofff = 0) regulator reset IBUS Iinrush(lim) Vth(rst)reg Vth(rst)reg(hys) bus supply current inrush current limit regulator reset threshold voltage regulator reset threshold voltage hysteresis VDDD decoupling capacitor 12

-

mA 3 1.5

-

-

60 6 5 30 30 100 mA mA mA mA mA Min Typ Max Unit 4.02 5 2.95 3.3 5.25 V 3.6 V

-

-

150 mA 100 mA

-

-

1.90 2.15 2.40 V 35 mV 60 85 8 10

-

F

[1] The internal regulator is only enabled when the USB interface is selected by I0 and I1. 10.2 Antenna presence self test thresholds The values in Table 9 are guaranteed by design. Only functional is done in production for cases andet_ithl[1:0] = 10b and for andet_ithh[2:0] = 011b. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 9 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution Antenna presence detection Table 9. Parameter Min IVDDD lower current threshold for antenna presence detection andet_ithl[1:0]

Conditions IVDDD upper current threshold for antenna presence detection andet_ithh[2:0]

00b 01b 10b 11b 000b 001b 010b 011b 100b 101b 110b 111b Typ Max Unit 5 15 25 35 45 60 75 90 105 120 135 150

-

-

-

-

-

-

-

-

-

-

-

-

mA mA mA mA mA mA mA mA mA mA mA mA

-

-

-

-

-

-

-

-

-

-

-

-

PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 10 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution 10.3 Typical 27.12 MHz Crystal requirements Table 10. Crystal requirements Symbol Parameter fxtal ESR CL Pxtal crystal frequency equivalent series resistance load capacitance crystal power dissipation Conditions Min 27.107

-

-

100 Typ 27.12

-

10

-

Max Unit 27.133 MHz 100

-

-

pF W 10.4 Pin characteristics for 27.12 MHz XTAL Oscillator (OSCIN, OSCOUT) Conditions RSTPD_N = 0 V Table 11. Pin characteristics for 27.12 MHz XTAL Oscillator (OSCIN, OSCOUT) Symbol ILI VIH VIL VOH VOL fclk n(th) fn(th) Parameter input leakage current HIGH-level input voltage LOW-level input voltage HIGH-level output voltage LOW-level output voltage clock frequency duty cycle phase noise threshold phase noise threshold fre-

quency n(th) = 140dBc/Hz;

20dB/decade slope Min 1 0.7 VDDA 0

-

-

0.05 %

40

[1] -

[1] -

OSCIN Vi Ci OSCOUT Ci input voltage input capacitance input capacitance DC VDDA = 2.8 V; Vi (DC) = 0.65 V;

Vi (AC) = 1 V p-p

-

-

-

Typ

-

-

-

1.1 0.2 27.12 50

-

-

0.65 2 2 Max

+1 VDDA 0.3 VDDA

-

-

+0.05 %

60 140 50 Unit mA V V V V MHz

%

dBc/Hz kHz

-

-

-

V pF pF

[1] n(th) and fn(th) define the mask for maximum acceptable phase noise of the clock signal at the OSCIN, OSCOUT inputs. See Figure 3 27.12 MHz input clock phase noise spectrum mask. phase noise

(dBc/Hz) n(th)

-20 dB/decade acceptable phase noise area fn(th) frequency (Hz) 001aao393 Fig 3. 27.12 MHz input clock phase noise spectrum mask PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 11 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution 10.5 RSTPD_N input pin characteristics Table 12. RSTPD_N input pin characteristics Symbol Parameter VIH Conditions HIGH-level input volt-

age LOW-level input volt-

age HIGH-level input cur-

rent LOW-level input current VI = 0 V input capacitance VI = VDD(PVDD) VIL IIH IIL Ci Min VDD(PVDD) 0.4 -

Typ Max Unit VDD(PVDD) V 0 1 1

-

-

-

-

2.5 0.4 1 1

-

V A A pF 10.6 Input pin characteristics for I0, I1 and TESTEN Table 13. Symbol VIH VIL IIH Input pin characteristics for I0, I1 and TESTEN Parameter Min HIGH-level input voltage LOW-level input voltage HIGH-level input current Conditions

[1] 0.7 VDDD

[2] 0

[3] 1 Typ Max VDDD

-

0.3 VDDD 1

-

Unit V V A LOW-level input current input capacitance IIL Ci

[1] To minimize power consumption when in soft power-down mode, the limit is VDDD 0.4 V.

[2] To minimize power consumption when in soft power-down mode, the limit is 0.4 V.

[3] TESTEN should never be set to high level in the application. It is used for production test purpose only. It is

-

2.5 A pF 1

-

1

-

recommended to connect TESTEN to ground although there is a pull-down included. I0 and I1;

VI = VDDD VI = 0 V PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 12 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution 10.7 RSTOUT_N output pin characteristics Table 14. RSTOUT_N output pin characteristics Symbol Parameter VOH HIGH-level output voltage VOL IOH IOL CL tr tf LOW-level output voltage HIGH-level output current LOW-level output current load capacitance rise time fall time Conditions VDD(PVDD) = 3 V; IOH = 4 mA VDD(PVDD) = 1.8 V; IOH = 2 mA VDD(PVDD) = 3 V; IOL = 4 mA VDD(PVDD) = 1.8 V; IOL = 2 mA VDD(PVDD) = 3 V; VOH =

0.8 VDD(PVDD) VDD(PVDD) = 1.8 V; VOH =

0.7 VDD(PVDD) VDD(PVDD) = 3 V; VOL =

0.2 VDD(PVDD) VDD(PVDD) = 1.8 V; VOL =

0.3 VDD(PVDD) VDD(PVDD) = 3 V;

VOH = 0.8 VDD(PVDD); CL = 30 pF VDDP = 1.8 V;

VOH = 0.7 VDD(PVDD); CL = 30 pF VDD(PVDD) = 3 V;

VOL = 0.2 VDD(PVDD); CL = 30 pF VDD(PVDD) = 1.8 V;

VOL = 0.3 VDD(PVDD); CL = 30 pF Min 0.7 VDD(PVDD)

[1] 0.7 VDD(PVDD) 0

[1] 0

[2] 4 2

[2] 4 2

-

-

-

-

Typ Max

-

-

-

-

-

Unit V VDD(PVDD) VDD(PVDD) V 0.3 VDD(PVDD) V 0.3 VDD(PVDD) V

-

mA

-

-

-

-

-

-

-

-

-

-

-

30 13.5 10.8 13.5 10.8 mA mA mA pF ns ns ns ns

[1] Data at VDD(PVDD) = 1.8V are only given from characterization results.

[2]

IOH and IOL give the output drive capability from which the rise and fall times may be calculated as a function of the load capacitance. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 13 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution 10.8 Input/output characteristics for pin P70_IRQ Input/output pin characteristics for pin P70_IRQ Table 15. Symbol Parameter VIH HIGH-level input volt-

age LOW-level input voltage HIGH-level output volt-

age LOW-level output volt-

age HIGH-level input current LOW-level input current HIGH-level output cur-

rent LOW-level output cur-

rent input leakage current input capacitance load capacitance rise time VIL VOH VOL IIH IIL IOH IOL ILI Ci CL tr tf fall time Conditions Min

[1] 0.7 VDD(PVDD) Typ Max

-

VDD(PVDD) Unit V push-pull mode;

VDD(PVDD) = 3 V; IOH = 4 mA push-pull mode;

VDD(PVDD) = 1.8 V; IOH = -2 mA push-pull mode;

VDD(PVDD) = 3 V; IOL = 4 mA push-pull mode;

VDD(PVDD) = 1.8 V; IOL = 2 mA input mode; VI = VDDD input mode; VI = 0 V VDD(PVDD) = 3 V;

VOH = 0.8 VDD(PVDD) VDD(PVDD) = 3 V;

VOL = 0.2 VDD(PVDD) RSTPD_N = 0.4 V VDD(PVDD) = 3 V;

VOH = 0.8 VDD(PVDD);

CL = 30 pF VDD(PVDD) = 1.8 V;

VOH = 0.7 VDD(PVDD);

CL = 30 pF VDD(PVDD) = 3 V;

VOL = 0.2 VDD(PVDD);

CL= 30 pF VDD(PVDD) = 1.8 V;

VOL = 0.3 VDD(PVDD);

CL = 30 pF

[2] 0 0.7 VDD(PVDD)

[3] 0.7 VDD(PVDD) 0

[3] 0 1 1

[5] 4

[5] 4 1

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

2.5

-

-

-

-

-

0.3 VDD(PVDD) V VDD(PVDD) V VDD(PVDD) V 0.3 VDD(PVDD) V 0.3 VDD(PVDD) V 1 1

-

-

1 30 13.5 10.8 13.5 10.8 A A mA mA A pF pF ns ns ns ns

[1] To minimize power consumption when in soft power-down mode, the limit is VDD(PVDD) 0.4 V.

[2] To minimize power consumption when in soft power-down mode, the limit is 0.4 V.

[3] Data at VDD(PVDD) = 1.8 V are only given from characterization results.

[4] The IOH and IOL give the output driving capability and allow to calculate directly the rise and fall time as function of the load capacitance. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 14 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution 10.9 Input/output pin characteristics for P30 / UART_RX, P31 / UART_TX, P32_INT0, P33_INT1 Input/output pin characteristics for P30 / UART_RX, P31 / UART_TX, P32_INT0, P33_INT1 Table 16. Symbol Parameter VIH VIL VOH HIGH-level input voltage LOW-level input voltage HIGH-level output volt-

age VOL LOW-level output volt-

age Conditions push-pull mode;

VDD(PVDD) = 3 V;

IOH = 4 mA VDD(PVDD) = 1.8 V;

IOH = 2 mA push-pull mode;

VDD(PVDD) = 3 V;

IOL = 4 mA VDD(PVDD) = 1.8 V;

IOL = 2 mA input mode;

VI = VDD(PVDD) input mode; VI = 0 V VDD(PVDD) = 3 V;

VOH = 0.8 VDD(PVDD) VOL = 0.2 VDD(PVDD) RSTPD_N = 0.4 V VDD(PVDD) = 3 V;

VOH = 0.8 VDD(PVDD);

CL = 30 pF VDD(PVDD) = 1.8 V;

VOH = 0.7 VDD(PVDD);

CL = 30 pF VDD(PVDD) = 3 V;

VOL = 0.2 VDD(PVDD);

CL= 30 pF VDD(PVDD) = 1.8 V;

VOL = 0.3 VDD(PVDD);

CL = 30 pF Min

[1] 0.7 VDD(PVDD)

[2] 0 VDD(PVDD) 0.4 Typ

-

-

-

Max VDD(PVDD) 0.3 VDD(PVDD) VDD(PVDD) Unit V V V

[3] VDD(PVDD) 0.4 0

[3] 0 1 1

[4] 4

[4] 4 1

-

-

-

-

-

-

-

-

-

-

-

-

-

-

2.5

-

-

-

-

-

VDD(PVDD) 0.4 0.4 1 1

-

-

1

-

30 13.5 10.8 13.5 10.8 V V V A A mA mA A pF pF ns ns ns ns IIH IIL IOH IOL ILI Ci CL tr HIGH-level input current LOW-level input current HIGH-level output cur-

rent LOW-level output current VDD(PVDD) = 3 V;

input leakage current input capacitance load capacitance rise time tf fall time

[1] To minimize power consumption when in soft power-down mode, the limit is VDD(PVDD) 0.4 V.

[2] To minimize power consumption when in soft power-down mode, the limit is 0.4 V

[3] Data at VDD(PVDD) = 1.8 V are only given from characterization results.

[4] The IOH and IOL give the output driving capability and allow to calculate directly the rise and fall time as function of the load capacitance. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 15 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution 10.10 Input/output pin characteristics for P35 Table 17. Symbol Parameter VIH VIL VOH Input/output pin characteristics for P35 Conditions VDDD = 3 V; IOH = 4 mA HIGH-level input voltage LOW-level input voltage HIGH-level output volt-

age LOW-level output voltage VDDD = 3 V; IOL = 4 mA HIGH-level input current VI = VDDD LOW-level input current HIGH-level output current VDDD = 3 V;

VI = 0 V VOH = 0.8 VDD(PVDD) LOW-level output current VDDD = 3 V;

VOL = 0.2 VDD(PVDD) RSTPD_N = 0.4 V input leakage current input capacitance load capacitance rise time VOL IIH IIL IOH IOL ILI Ci CL tr tf fall time VDDD = 3 V; VOH = 0.8 VDDD;

CL = 30 pF VDDD = 1.8 V; VOH = 0.7 VDDD;

CL = 30 pF VDDD = 3 V; VOL = 0.2 VDDD;

CL= 30 pF VDDD = 1.8 V; VOL = 0.3 VDDD;

CL = 30 pF Min

[1] 0.7 VDDD

[2] 0 VDDD 0.4 0 1 1

[3] 4

[3] 4 1

-

-

-

-

-

-

Typ

-

-

-

-

-

-

-

-

-

2.5

-

-

-

-

-

Max VDDD 0.3 VDDD VDDD 0.4 1 1

-

-

1

-

30 13.5 10.8 13.5 10.8 Unit V V V V A A mA mA A pF pF ns ns ns ns

[1] To minimize power consumption when in soft power-down mode, the limit is VDDD 0.4 V.

[2] To minimize power consumption when in soft power-down mode, the limit is 0.4 V.

[3] The IOH and IOL give the output driving capability and allow to calculate directly the rise and fall time as function of the load capacitance. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 16 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution 10.11 Input/output pin characteristics for DP and DM Input/output pin characteristics for DP and DM for USB interface Table 18. Symbol Parameter VIH VIL VOH HIGH-level input voltage LOW-level input voltage HIGH-level output voltage VOL IOH LOW-level output voltage HIGH-level output current IOL LOW-level output current IIH IIL ILI Ci ZINP ZDRV tFDRATE tDJ1 tDJ2 tFDEOP tJR1 tJR2 tFEOPT tFEOPR tFST HIGH-level input current LOW-level input current input leakage current input capacitance input impedance exclusive of pull-up/pull-down (for low-/full speed) driver output impedance for driver which is not high-speed capable full-speed data rate for devices which are not high-speed capable source jitter total (including fre-

quency tolerance) to next transition source jitter total (including fre-

quency tolerance) for paired transi-

tions source jitter for differential transition to SE0 transition receiver jitter to next transition receiver jitter for paired transitions source SE0 interval of EOP receiver SE0 interval of EOP width of SE0 interval during differ-

ential transition Conditions VDD(PVDD) = 3.3 V VDD(PVDD) = 3.3 V;

RPD = 1.5 to VSS VDD(PVDD) = 3.3 V;

RPD = 1.5 to VDD(PVDD) VDD(PVDD) = 3.3 V;

VOH = 0.8 VDD(PVDD) VDD(PVDD) = 1.8 V;

VOH = 0.7 VDD(PVDD) VDD(PVDD) = 3.3 V;

VOL = 0.2 VDD(PVDD) VDD(PVDD) = 1.8 V;

VOL = 0.3 VDD(PVDD) VI = VDD(PVDD) VI = 0 V RSTPD_N = 0 V Min 2

[1] 0 2.8 0

[2] 4 2

[2] 4 2

-

-

1

-

300 28 11.97 3.5 4 2 18.5 9 160 82

-

Typ

-

-

-

-

-

-

-

-

-

-

-

2.5

-

-

-

-

-

-

-

-

-

-

-

Unit Max V 3.6 0.8 V VDD(PVDD) V 0.3

-

-

-

-

1 1

+1 3.5

-

44 V mA mA mA mA A A A pF k 12.03 Mb/s

+3.5

+4

+5

+18.5

+9 175

-

14 ns ns ns ns ns ns ns ns

[1] The value does not guarantee the power-down consumptions. To reach the specified power-down consumptions, the limit is 0.4 V.

[2] The IOH and IOL give the output driving capability and allow to calculate directly the rise and fall time as function of the load capacitance. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 17 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution Table 19. USB DP/DM differential receiver input levels Symbol VDI Conditions

-

Parameter differential input sen-

sitivity voltage differential common mode voltage range

-

VCM tf fall time Parameter rise time Table 20. USB DP/DM driver characteristics Symbol Conditions CL = 50 pF;

tr 10 % to 90 %

of (VOH - VOL) CL = 50 pF;

10 % to 90 %

of (VOH - VOL)

(tFR/tFF); excluding the first transition from Idle state excluding the first transition from Idle state differential rise and fall time matching output signal cross-

over voltage tFRFM VCRS Min 0.2 0.8 Min 4 4 90 1.3 Typ

-

-

Typ

-

-

-

-

Max

-

2.5 Max 20 20 111.1 2.0 Unit V V Unit ns ns

%

V level 1 point 3 point 4

+400 mV differential point 1 point 2 0 V differential point 5 point 6

-400 mV differential level 2 0 %

unit interval 100 %

001aan914 Fig 4. Transmit waveform at DP/DM PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 18 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution Table 21. Symbol VIH VIL IIH IIL ILI Ci Conditions Input Pin characteristics for DP for HSU interface Parameter HIGH-level input voltage LOW-level input voltage HIGH-level input current LOW-level input current input leakage current input capacitance Vi = VDD(PVDD) Vi = 0 V RSTPD_N = 0 V Min

[1] 0.7 VDD(PVDD)

[2] 0

-

-

1

-

Typ

-

-

-

-

2.5 Unit Max VDD(PVDD) V 0.3 VDD(PVDD) V 1 1 1 3.5 mA mA mA pF

[1] The value does not guarantee the power-down consumptions. To reach the specified power-down consumptions, the limit is VDD(PVDD) 0.4 V.

[2] The value does not guarantee the power-down consumptions. To reach the specified power-down consumptions, the limit is 0.4 V. Table 22. Output Pin characteristics for DM for HSU interface Symbol VOH Parameter HIGH-level output voltage LOW-level output volt-

age HIGH-level output current LOW-level output cur-

rent Conditions VDD(PVDD) = 3 V; IOH = 4 mA VDD(PVDD) = 1.8 V; IOH = 2 mA VDD(PVDD) = 3 V; IOL = 4 mA VDD(PVDD) = 1.8 V; IOL = 2 mA VDD(PVDD) = 3 V;

VOH = 0.8 VDD(PVDD) VDD(PVDD) = 1.8 V;

VOH = 0.7 VDD(PVDD) VDD(PVDD) = 3.3 V;

VOL = 0.2 VDD(PVDD) VDD(PVDD) = 1.8 V;

VOL = 0.3 VDD(PVDD) input leakage current RSTPD_N = 0 V load capacitance rise time VOL IOH IOL ILI CL tr tf fall time VDDP = 3 V;

VOH = 0.8 VDD(PVDD);

CL = 30 pF VDD(PVDD) = 1.8 V;

VOH = 0.7 VDD(PVDD);

CL = 30 pF VDD(PVDD) = 3 V;

VOL = 0.2 VDD(PVDD);

CL= 30 pF VDDP = 1.8 V;

VOL = 0.3 VDD(PVDD);

CL = 30 pF Typ Min VDD(PVDD) 0.4 -

VDD(PVDD) 0.4 -

-

0 0

-

[1] 4

-

Max VDD(PVDD) VDD(PVDD) 0.4 0.4

-

2

[1] 4 2 1

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

1 30 13.5 10.8 13.5 10.8 Unit V V V V mA mA mA mA mA pF ns ns ns ns

[1] The IOH and IOL give the output driving capability and allow to calculate directly the rise and fall time as function of the load capacitance PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 19 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution 10.12 Input pin characteristics for SCL Input/output drain output pin characteristics for SCL I2C interface Min Conditions Table 23. Symbol Parameter VIH VIL VOL HIGH-level input voltage LOW-level input voltage LOW-level output voltage VDDD = 3 V;

IOL = 4 mA VI = VDDD VI = 0 V RSTPD_N = 0.4 V

[1] 0.7 VDD(PVDD)

[2] 0 0 1 1 1

-

-

[3] 20

[3] 20 Unit Typ Max V

-

VDDD 0.3 VDDD V

-

-

0.3 V

-

-

-

2.5

-

-

-

1 1 1 30 300 300 A A A pF pF ns ns IIH IIL ILI Ci CL tr tf HIGH-level input current LOW-level input current input leakage current input capacitance load capacitance rise time of both SDA and SCL signals fall time of both SDA and SCL signals

[1] To minimize power consumption when in soft power-down mode, the limit is VDDD 0.4 V.

[2] To minimize power consumption when in soft power-down mode, the limit is 0.4 V.

[3] The PR533 has a slope control according to the I2C-bus specification for the Fast mode. The slope control is always present and not dependent of the I2C-bus speed. 10.13 Input/output pin characteristics for SDA Input/output drain output pin characteristics for SDA I2C interface Min Conditions Table 24. Symbol Parameter VIH VIL VOL HIGH-level input voltage LOW-level input voltage LOW-level output voltage IIH IIL ILI Ci CL tr tf HIGH-level input current LOW-level input current input leakage current input capacitance load capacitance rise time of both SDA and SCL signals fall time of both SDA and SCL signals VDDD = 3 V;

IOL = 4 mA VI = VDDD VI = 0 V RSTPD_N = 0.4 V

[1] 0.7 VDD(PVDD)

[2] 0 0 1 1 1

-

-

[3] 20

[3] 20 Unit Typ Max VDDD

-

V 0.3 VDDD V

-

V 0.3

-

-

-

-

2.5

-

-

-

1 1 1 30 300 300 A A A pF pF ns ns

[1] To minimize power consumption when in soft power-down mode, the limit is VDDD 0.4 V.

[2] To minimize power consumption when in soft power-down mode, the limit is 0.4 V.

[3] The PR533 has a slope control according to the I2C-bus specification for the Fast mode. The slope control is always present and not dependent of the I2C-bus speed. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 20 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution 10.14 Output pin characteristics for DELATT Conditions Table 25. Output pin characteristics for DELATT Symbol Parameter VOH VIL IIH IIL ILI Ci HIGH-level output voltage LOW-level input voltage HIGH-level input current LOW-level input current input leakage current input capacitance input mode; VI = VDD(SVDD) input mode; VI = 0 V RSTPD_N = 0.4 V Min

[1] 0.7 VDD(SVDD) 0 1 1 1

-

Typ

-

-

-

-

-

2.5 Unit Max V VDD(SVDD) 0.3 VDD(PVDD) V A 1 A 1 1 A pF

-

[1] To minimize power consumption when in soft power-down mode, the limit is VDD(PVDD) 0.4 V. 10.15 Input pin characteristics for SIGIN Input/output pin characteristics for SIGIN Table 26. Symbol Parameter VIH VIL IIH IIL ILI Ci HIGH-level input voltage LOW-level input voltage HIGH-level input current LOW-level input current input leakage current input capacitance Conditions VI = VDD(SVDD) VI = 0 V RSTPD_N = 0.4 V Min

[1] 0.7 VDD(SVDD)

[2] 0 1 1 1

-

Typ

-

-

-

-

-

2.5 Max VDD(SVDD) 0.3 VDD(SVDD)

+1

+1

+1

-

Unit V V A A A pF

[1] To minimize power consumption when in soft power-down mode, the limit is VDD(SVDD) 0.4 V.

[2] To minimize power consumption when in soft power-down mode, the limit is 0.4 V. 10.16 Output pin characteristics for SIGOUT Table 27. Output pin characteristics for SIGOUT Symbol Parameter VOH Conditions HIGH-level output voltage VDDD 0.1 < VDD(SVDD) < VDDD IOH = 4 mA LOW-level output voltage VDDD 0.1 < VDD(SVDD) < VDDD IOL = +4 mA HIGH-level output current VDDD 0.1 < VDD(SVDD) < VDDD LOW-level output current input leakage current input capacitance load capacitance rise time fall time IOH = 4 mA VDDD 0.1 < VDD(SVDD) < VDDD IOL = +4 mA RSTPD_N = 0.4 V VDD(SVDD) = 3 V;

VOH = 0.8 VDD(SVDD); Cout = 30 pF VDD(SVDD) = 3 V;

VOL = 0.2 VDD(SVDD); Cout = 30 pF VOL IOH IOL ILI Ci CL tr tf Min VDD(SVDD) 0.4 0 0.4 4 1

-

-

-

-

Typ Max

-

VDD(SVDD) V Unit

-

-

-

-

2.5

-

-

-

0.4

-

-

+1 30 9 9 V mA mA A pF pF ns ns PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 21 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution 10.17 Input/output pin characteristics for P34 Input/output pin characteristics for P34 Table 28. Symbol Parameter VIH VIL VOH HIGH-level input voltage LOW-level input voltage HIGH-level output volt-

age VOL IIH IIL VOH VOL ILI Ci CL tr tf LOW-level output volt-

age HIGH-level input current LOW-level input current HIGH-level output volt-

age LOW-level output volt-

age input leakage current input capacitance load capacitance rise time fall time Conditions push-pull;

VDDD 0.1 < VDD(SVDD) < VDDD IOH = 4 mA push-pull;

VDDD 0.1 < VDD(SVDD) < VDDD IOH = +4 mA input mode; VI = VDD(SVDD) input mode; VI = 0 V VDDD 0.1 < VDD(SVDD) < VDDD IOH = 4 mA VDDD 0.1 < VDD(SVDD) < VDDD IOL = +4 mA RSTPD_N = 0.4 V VDDD = 0.1 < VDDD VOH = 0.8 VDD(SVDD);

Cout = 30 pF VDDD = 0.1 < VDDD VOL = 0.2 VDD(SVDD);

Cout = 30 pF Min

[1] 0.7 VDD(SVDD)

[2] 0 Typ

-

-

VDD(SVDD) 0.4 -

Unit Max V VDD(SVDD) 0.3 VDD(SVDD) V VDD(SVDD) V 0 1 1 0.4 4 1

-

-

[3] -

[3] -

-

-

-

-

-

-

2.5 13.5 0.4

+1

+1

-

-

+1 30

-

13.5

-

V A A V V A pF pF ns ns

[1] To minimize power consumption when in soft power-down mode, the limit is VDD(SVDD) 0.4 V.

[2] To minimize power consumption when in soft power-down mode, the limit is 0.4 V.

[3]

IOH and IOL specify the output drive capability from which the rise and fall times may be calculated as a function of the load capacitance. 10.18 Output pin characteristics for LOADMOD Table 29. Output pin characteristics for LOADMOD Symbol Parameter VOH Conditions HIGH-level output voltage VDDD = 3 V;

IOH = 4 mA LOW-level output voltage VDDD = 3 V;

IOL = 4 mA load capacitance rise time fall time VDDD = 3 V;

VOH = 0.8 VDDD;

Cout = 10 pF VDDD = 3 V;

VOL = 0.2 VDDD;

Cout = 10 pF VOL CL tr tf Min VDDD 0.4 -

Typ Max VDDD Unit V 0

-

-

-

-

-

-

-

0.4 10 4.5 V pF ns 4.5 ns PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 22 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution 10.19 Input pin characteristics for RX Vin, RX AVDD +1 V Miller coded signals mRXmil =

VRX, IV, mil - Vmod VRX, IV, mil + Vmod VRX, IV, mil Vmod VMID 0 V 13.56 MHz carrier Vin, RX AVDD +1 V Manchester coded signals VRXMod, Man VRX, IV, Man Vmod VMID 0 V 13.56 MHz carrier Fig 5. RX input parameters Input pin characteristics for RX Table 30. Symbol Vi Parameter input voltage Ci Rs input capacitance series resistance Minimum dynamic input voltage Conditions dynamic; signal frequency at 13.56 MHz RX input;

VDDA = 3 V;

receiver active;

VRX(p-p) = 1 V;

1.5 V DC offset aaa-002342 Min 0.7 6 315 Typ Max Unit VDDA +1 V 10 14 350 385 pF PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 23 of 36 NXP Semiconductors Table 30. Symbol VRX(p-p) PR533 USB NFC integrated reader solution Input pin characteristics for RX continued Parameter peak-to-peak receiver voltage Maximum dynamic input voltage VRX(p-p) peak-to-peak receiver voltage Minimum modulation voltage Vmod modulation voltage Minimum modulation index m modulation index Min

-

-

VDDA VDDA

-

-

-

-

Conditions Miller coded;

106 kbit/s Manchester coded; 212 kbit/s and 424 kbit/s Miller coded;

106 kbit/s Manchester coded;

212 and 424 kbit/s RxGain = 6 and 7 RxGain = 4 and 5 RxGain = 0 to 3

[1]

[1]

[1]

Miller coded;

106 kbit/s VRX(p-p)= 1.5 V;

SensMiller = 3 Typ Max 150 500 100 200 Unit mV mV

-

-

-

-

-

-

-

6 18 120 33

-

V V mV mV mV

%

[1] The minimum modulation voltage is valid for all modulation schemes except Miller coded signals. 10.20 Output pin characteristics for AUX1/AUX2 Table 31. Output pin characteristics for AUX1/AUX2 Symbol Parameter VOH Conditions HIGH-level output voltage VDDD = 3 V;

IOH = 4 mA VDDD = 3 V;

IOL = 4 mA LOW-level output voltage HIGH-level output current VDDD= 3 V; VOH =

VDDD 0.3 VDDD= 3 V; VOL =

VDDD -0.3 RSTPD_N = 0 V LOW-level output current input leakage current input capacitance load capacitance VOL IOH IOL ILI Ci CL Min VDDD 0.4 -

Typ Max VDDD Unit V VSSD 4 4 1

-

-

-

-

-

-

2.5

-

VSSD +0.4 V

-

-

+1

-

15 mA mA A pF pF PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 24 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution Parameter HIGH-level output voltage 10.21 Output pin characteristics for TX1/TX2 Table 32. Output pin characteristics for TX1/TX2 Conditions Symbol VDD(TVDD) = 3 V;

VOH IO = 32 mA; CWGsN = Fh VDD(TVDD) = 3 V;

IO = 80 mA; CWGsN = Fh VDD(TVDD) = 2.5 V;

IO = 32 mA; CWGsN = Fh VDD(TVDD) = 2.5 V;

IO = 80 mA; CWGsN = Fh LOW-level output voltage VOL Table 33. Output resistance for TX1/TX2 Conditions1 Symbol Parameter VDD(TVDD) = 3 V; VO =

ROH VDD(TVDD) 100 mV HIGH-level out-

put resistance ROL LOW-level output resistance CWGsP 01h 02h 04h 08h 10h 20h 3Fh 10h 20h 40h 80h F0h Min

-

Typ Max Unit

-

150 mV

-

-

-

Min 133 67 34 17 8.5 4.7 2.3 34 17 8.5 4.7 2.3

-

-

-

400 mV 240 mV 640 mV Typ Max Unit 180 90 46 23 12 6 3 46 23 12 6 3 251 125 62 31 15.5 7.8 4.4 62 31 15.5 7.8 4.4 PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 25 of 36 NXP Semiconductors 10.22 System reset timing PR533 USB NFC integrated reader solution Vth(rst)reg + Vth(rst)reg(hys) VDD(PVDD) RSTPD_N RSTOUT_N Fig 6. System reset overview trst tPOR tw(rst) Vth(rst)reg(hys) 001aao394 Table 34. Reset duration time Symbol tPOR trst tw(rst) Parameter power-on reset time reset time reset pulse width Conditions hard power-down time; user dependent reset time when RSTPD_N is released Min

[1] 0.1

[2] 20

[1] 0.1 Typ 0.4

-

0.4 Max 2

-

2 Unit ms ns ms

[1] Dependent on the 27.12 MHz crystal oscillator startup time.

[2]

If the trst pulse is shorter than 20 ns, the device may be only partially reset. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 26 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution 10.23 Timing for the I2C-bus interface SDA SCL tf tLOW tSU;DAT tf tSP tHD;STA tr tBUF tr tHD;STA S tHIGH tHD;DAT tSU;STA Sr tSU;STO P S 001aaj635 Fig 7. I2C-bus parameters I2C-bus timing specification Table 35. Symbol Parameter fSCL tHD;STA SCL clock frequency hold time (repeated) START condi-

tion tSU;STA tSU;STO tLOW tHIGH tHD;DAT tSU;DAT tr tf tBUF tstretch set-up time for a repeated START condition set-up time for STOP condition LOW period of the SCL clock HIGH period of the SCL clock data hold time data set-up time rise time of both SDA and SCL sig-

nals fall time of both SDA and SCL sig-

nals bus free time between a STOP and START condition stretch time th hold time Conditions after this period, the first clock pulse is generated Min 0 600 Typ Max Unit kHz

-

-

ns 400

-

600

-

-

-

600 1300 -

-

600

-

0 100

-

[1] 20

-

[1] 20 1.3

[2]

-

-

-

-

-

-

-

900

-

300 300

-

1 ns ns ns ns ns ns ns ns ms ms 330

-

[3]

590

-

270 -

ns ns P50_SCL P50_SCL P50_SCL P50_SCL stretching time on P50_SCL when woken-up on its own address internal for SDA internal for SDA in SPD mode

[1] The PR533 has a slope control according to the I2C-bus specification for the Fast mode. The slope control

[2]

is always present and not dependent of the I2C-bus speed. 27.12 MHz quartz starts in less than 800 s. For example, quartz like TAS-3225A, TAS-7 or KSS2F with appropriate layout.

[3] The PR533 has an internal hold time of around 270 ns for the SDA signal to bridge the undefined region of the falling edge of P50_SCL. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 27 of 36 NXP Semiconductors 10.24 Temperature sensor PR533 USB NFC integrated reader solution Table 36. Temperature sensor characteristics Symbol Parameter Tth(act)otp overtemperature protection acti-

vation threshold temperature Conditions CIU Min

[1] 100 Typ Max Unit 125 140 C

[1] The temperature sensor embedded in the PR533 is not intended to monitor the temperature. Its purpose is to prevent destruction of the IC due to excessive heat. The external application should include circuitry to ensure that the ambient temperature does not exceed 85 C as specified in Table 5 Operating conditions. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 28 of 36 NXP Semiconductors 11. Application information PR533 USB NFC integrated reader solution interface supply RSDA RSCL SDA P50_SCL l2C MEMORY supply VBUS DVDD PVDD PR533 R O S S E C O R P

-

T S O H RTSPD_N host interface P70_IRQ DVSS SECURE CORE CRX R1 R2 CVMID C1 RQ C0 C0 C1 C2 C2 RQ SVDD SIGOUT SIGIN P34 RX VMID TX1 L0 TVSS1 TVSS2 TX2 L0 TVDD AVDD AVSS OSCIN OSCOUT 27.12 MHz antenna aaa-000042 Fig 8. Application diagram of PR533 12. Abbreviations Table 37. Abbreviations Acronym CDM CRC EEPROM HBM HPD MM NFC SPD Description Charge device Body Model Cyclic Redundancy Check Electrically Erasable Programmable Read-Only Memory Human Body Model Hard Power Down Machine Model Near Field Communication Soft Power Down mode PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 29 of 36 NXP Semiconductors 13. Revision history Table 38. Revision history Document ID PR533_SDS v.3.6 Modifications:

PR533_SDS v.3.5[1]

Modifications:

PR533_SDS v.3.3 Modifications:

PR533_SDS v.3.2 Modifications:

PR5331C3HN_SDS v.3.0 20110803 Product short data sheet Data sheet status Product short data sheet Release date 20141027 Section 1.2 Interfaces: updated 20141003 Template updated. Descriptive title updated. Alternative descriptive title updated. 20121020 Section 14.4 Licenses: updated 20120306 Section 4 Ordering information: updated General update to comply full data sheet Product short data sheet Product short data sheet Product short data sheet PR533 USB NFC integrated reader solution Change notice

-

Supersedes PR533_SDS v.3.5

-

-

-

-

PR533_SDS v.3.4 PR533_SDS v.3.2 PR5331C3HN_SDS v.3.0

-

[1] Revision 3.4 is not available. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 30 of 36 NXP Semiconductors 14. Legal information 14.1 Data sheet status Product status[3]

Document status[1][2]

Objective [short] data sheet Development Preliminary [short] data sheet Qualification Product [short] data sheet Production PR533 USB NFC integrated reader solution Definition This document contains data from the objective specification for product development. This document contains data from the preliminary specification. This document contains the product specification.

[1]

[2]

[3]

Please consult the most recently issued document before initiating or completing a design. The term short data sheet is explained in section Definitions. The product status of device(s) described in this document may have changed since this document was published and may differ in case of multiple devices. The latest product status information is available on the Internet at URL http://www.nxp.com. 14.2 Definitions Draft The document is a draft version only. The content is still under internal review and subject to formal approval, which may result in modifications or additions. NXP Semiconductors does not give any representations or warranties as to the accuracy or completeness of information included herein and shall have no liability for the consequences of use of such information. Short data sheet A short data sheet is an extract from a full data sheet with the same product type number(s) and title. A short data sheet is intended for quick reference only and should not be relied upon to contain detailed and full information. For detailed and full information see the relevant full data sheet, which is available on request via the local NXP Semiconductors sales office. In case of any inconsistency or conflict with the short data sheet, the full data sheet shall prevail. Product specification The information and data provided in a Product data sheet shall define the specification of the product as agreed between NXP Semiconductors and its customer, unless NXP Semiconductors and customer have explicitly agreed otherwise in writing. In no event however, shall an agreement be valid in which the NXP Semiconductors product is deemed to offer functions and qualities beyond those described in the Product data sheet. 14.3 Disclaimers Limited warranty and liability Information in this document is believed to be accurate and reliable. However, NXP Semiconductors does not give any representations or warranties, expressed or implied, as to the accuracy or completeness of such information and shall have no liability for the consequences of use of such information. NXP Semiconductors takes no responsibility for the content in this document if provided by an information source outside of NXP Semiconductors. In no event shall NXP Semiconductors be liable for any indirect, incidental, punitive, special or consequential damages (including - without limitation - lost profits, lost savings, business interruption, costs related to the removal or replacement of any products or rework charges) whether or not such damages are based on tort (including negligence), warranty, breach of contract or any other legal theory. Notwithstanding any damages that customer might incur for any reason whatsoever, NXP Semiconductors aggregate and cumulative liability towards customer for the products described herein shall be limited in accordance with the Terms and conditions of commercial sale of NXP Semiconductors. Right to make changes NXP Semiconductors reserves the right to make changes to information published in this document, including without limitation specifications and product descriptions, at any time and without notice. This document supersedes and replaces all information supplied prior to the publication hereof. Suitability for use NXP Semiconductors products are not designed, authorized or warranted to be suitable for use in life support, life-critical or safety-critical systems or equipment, nor in applications where failure or malfunction of an NXP Semiconductors product can reasonably be expected to result in personal injury, death or severe property or environmental damage. NXP Semiconductors and its suppliers accept no liability for inclusion and/or use of NXP Semiconductors products in such equipment or applications and therefore such inclusion and/or use is at the customers own risk. Applications Applications that are described herein for any of these products are for illustrative purposes only. NXP Semiconductors makes no representation or warranty that such applications will be suitable for the specified use without further testing or modification. Customers are responsible for the design and operation of their applications and products using NXP Semiconductors products, and NXP Semiconductors accepts no liability for any assistance with applications or customer product design. It is customers sole responsibility to determine whether the NXP Semiconductors product is suitable and fit for the customers applications and products planned, as well as for the planned application and use of customers third party customer(s). Customers should provide appropriate design and operating safeguards to minimize the risks associated with their applications and products. NXP Semiconductors does not accept any liability related to any default, damage, costs or problem which is based on any weakness or default in the customers applications or products, or the application or use by customers third party customer(s). Customer is responsible for doing all necessary testing for the customers applications and products using NXP Semiconductors products in order to avoid a default of the applications and the products or of the application or use by customers third party customer(s). NXP does not accept any liability in this respect. Limiting values Stress above one or more limiting values (as defined in the Absolute Maximum Ratings System of IEC 60134) will cause permanent damage to the device. Limiting values are stress ratings only and (proper) operation of the device at these or any other conditions above those given in the Recommended operating conditions section (if present) or the Characteristics sections of this document is not warranted. Constant or repeated exposure to limiting values will permanently and irreversibly affect the quality and reliability of the device. Terms and conditions of commercial sale NXP Semiconductors products are sold subject to the general terms and conditions of commercial sale, as published at http://www.nxp.com/profile/terms, unless otherwise agreed in a valid written individual agreement. In case an individual agreement is concluded only the terms and conditions of the respective agreement shall apply. NXP Semiconductors hereby expressly objects to applying the customers general terms and conditions with regard to the purchase of NXP Semiconductors products by customer. No offer to sell or license Nothing in this document may be interpreted or construed as an offer to sell products that is open for acceptance or the grant, conveyance or implication of any license under any copyrights, patents or other industrial or intellectual property rights. PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 31 of 36 NXP Semiconductors Export control This document as well as the item(s) described herein may be subject to export control regulations. Export might require a prior authorization from competent authorities. Quick reference data The Quick reference data is an extract of the product data given in the Limiting values and Characteristics sections of this document, and as such is not complete, exhaustive or legally binding. Non-automotive qualified products Unless this data sheet expressly states that this specific NXP Semiconductors product is automotive qualified, the product is not suitable for automotive use. It is neither qualified nor tested in accordance with automotive testing or application requirements. NXP Semiconductors accepts no liability for inclusion and/or use of non-automotive qualified products in automotive equipment or applications. In the event that customer uses the product for design-in and use in automotive applications to automotive specifications and standards, customer

(a) shall use the product without NXP Semiconductors warranty of the product for such automotive applications, use and specifications, and (b) whenever customer uses the product for automotive applications beyond NXP Semiconductors specifications such use shall be solely at customers own risk, and (c) customer fully indemnifies NXP Semiconductors for any liability, damages or failed product claims resulting from customer design and use of the product for automotive applications beyond NXP Semiconductors standard warranty and NXP Semiconductors product specifications. Translations A non-English (translated) version of a document is for reference only. The English version shall prevail in case of any discrepancy between the translated and English versions. 15. Contact information PR533 USB NFC integrated reader solution 14.4 Licenses Purchase of NXP ICs with ISO/IEC 14443 type B functionality This NXP Semiconductors IC is ISO/IEC 14443 Type B software enabled and is licensed under Innovatrons Contactless Card patents license for ISO/IEC 14443 B. The license includes the right to use the IC in systems and/or end-user equipment. RATP/Innovatron Technology Purchase of NXP ICs with NFC technology Purchase of an NXP Semiconductors IC that complies with one of the Near Field Communication (NFC) standards ISO/IEC 18092 and ISO/IEC 21481 does not convey an implied license under any patent right infringed by implementation of any of those standards. 14.5 Trademarks Notice: All referenced brands, product names, service names and trademarks are the property of their respective owners. MIFARE is a trademark of NXP Semiconductors N.V. I2C-bus logo is a trademark of NXP Semiconductors N.V. For more information, please visit: http://www.nxp.com For sales office addresses, please send an email to: salesaddresses@nxp.com PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 32 of 36 NXP Semiconductors PR533 USB NFC integrated reader solution Notes PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 33 of 36 NXP Semiconductors 16. Tables PR533 USB NFC integrated reader solution Table 1. Quick reference data . 3 Table 2. Ordering information . 4 Table 3. PR533 pin description . 5 Table 4. Limiting values . 7 Table 5. Operating conditions . 8 Table 6. Thermal characteristics . 8 Table 7. Current consumption characteristics . 9 Table 8. Voltage regulator characteristics[1] . 9 Table 9. Antenna presence detection. 10 Table 10. Crystal requirements. 11 Table 11. Pin characteristics for 27.12 MHz XTAL Oscillator (OSCIN, OSCOUT). 11 Table 12. RSTPD_N input pin characteristics . 12 Table 13. Input pin characteristics for I0, I1 and TESTEN . 12 Table 14. RSTOUT_N output pin characteristics . 13 Table 15. Input/output pin characteristics for pin P70_IRQ . 14 Table 16. Input/output pin characteristics for P30 /

UART_RX, P31 / UART_TX, P32_INT0, P33_INT1 . 15 Table 17. Input/output pin characteristics for P35 . 16 Table 18. Input/output pin characteristics for DP and DM for USB interface. 17 Table 19. USB DP/DM differential receiver input levels . 18 Table 20. USB DP/DM driver characteristics . 18 Table 21. Input Pin characteristics for DP for HSU interface . 19 Table 22. Output Pin characteristics for DM for HSU interface . 19 Table 23. Input/output drain output pin characteristics for SCL I2C interface. 20 Table 24. Input/output drain output pin characteristics for SDA I2C interface . 20 Table 25. Output pin characteristics for DELATT . 21 Table 26. Input/output pin characteristics for SIGIN. 21 Table 27. Output pin characteristics for SIGOUT . 21 Table 28. Input/output pin characteristics for P34 . 22 Table 29. Output pin characteristics for LOADMOD . 22 Table 30. Input pin characteristics for RX . 23 Table 31. Output pin characteristics for AUX1/AUX2 . 24 Table 32. Output pin characteristics for TX1/TX2. 25 Table 33. Output resistance for TX1/TX2 . 25 Table 34. Reset duration time . 26 Table 35. I2C-bus timing specification . 27 Table 36. Temperature sensor characteristics . 28 Table 37. Abbreviations . 29 Table 38. Revision history . 30 PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 34 of 36 PR533 USB NFC integrated reader solution NXP Semiconductors 17. Figures Fig 1. Block diagram . 4 Fig 2. Pin configuration for HVQFN 40 (SOT618-1) . 5 Fig 3. 27.12 MHz input clock phase noise spectrum mask . 11 Fig 4. Transmit waveform at DP/DM . 18 Fig 5. RX input parameters . 23 Fig 6. System reset overview. 26 I2C-bus parameters . 27 Fig 7. Fig 8. Application diagram of PR533 . 29 PR533_SDS Product short data sheet COMPANY PUBLIC All information provided in this document is subject to legal disclaimers. NXP Semiconductors N.V. 2014. All rights reserved. Rev. 3.6 27 October 2014 206436 35 of 36 NXP Semiconductors 18. Contents 1 1.1 1.2 1.3 1.4 2 3 4 5 6 6.1 6.2 7 8 9 10 10.1 10.1.1 10.1.2 10.2 10.3 10.4 10.5 10.6 10.7 10.8 10.9 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.17 10.18 10.19 10.20 10.21 10.22 10.23 10.24 General description . 1 RF protocols . 1 Interfaces . 1 Standards compliancy. 1 Supported operating systems. 2 Features and benefits . 2 Quick reference data . 3 Ordering information. 4 Block diagram . 4 Pinning information. 5 Pinning . 5 Pin description . 5 Limiting values. 7 Recommended operating conditions. 8 Thermal characteristics . 8 Characteristics. 8 Power management characteristics . 8 Current consumption characteristics . 8 Voltage regulator characteristics. 9 Antenna presence self test thresholds . 9 Typical 27.12 MHz Crystal requirements . 11 Pin characteristics for 27.12 MHz XTAL Oscillator (OSCIN, OSCOUT). 11 RSTPD_N input pin characteristics . 12 Input pin characteristics for I0, I1 and TESTEN . 12 RSTOUT_N output pin characteristics . 13 Input/output characteristics for pin P70_IRQ . 14 Input/output pin characteristics for P30 /

UART_RX, P31 / UART_TX, P32_INT0, P33_INT1 . 15 Input/output pin characteristics for P35 . 16 Input/output pin characteristics for DP and DM 17 Input pin characteristics for SCL. 20 Input/output pin characteristics for SDA . 20 Output pin characteristics for DELATT . 21 Input pin characteristics for SIGIN . 21 Output pin characteristics for SIGOUT . 21 Input/output pin characteristics for P34 . 22 Output pin characteristics for LOADMOD. 22 Input pin characteristics for RX. 23 Output pin characteristics for AUX1/AUX2 . 24 Output pin characteristics for TX1/TX2. 25 System reset timing . 26 Timing for the I2C-bus interface . 27 Temperature sensor . 28 PR533 USB NFC integrated reader solution 11 12 13 14 14.1 14.2 14.3 14.4 14.5 15 16 17 18 Application information . 29 Abbreviations . 29 Revision history . 30 Legal information . 31 Data sheet status . 31 Definitions . 31 Disclaimers . 31 Licenses. 32 Trademarks . 32 Contact information . 32 Tables . 34 Figures . 35 Contents. 36 Please be aware that important notices concerning this document and the product(s) described herein, have been included in section Legal information. NXP Semiconductors N.V. 2014. For more information, please visit: http://www.nxp.com For sales office addresses, please send an email to: salesaddresses@nxp.com All rights reserved. Date of release: 27 October 2014 206436