FCC ID: PY310400152 G54/N150 Wireless USB Micro Adaptor

 

N150 Wireless Micro USB Adapter WNA1000M User Manual 350 East Plumeria Drive San Jose, CA 95134 USA January 2011 202-10791-01 v1.0 N150 Wireless Micro USB Adapter WNA1000M 2 |

N150 Wireless Micro USB Adapter WNA1000M NETGEAR, Inc. 2011 No part of this publication may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language in any form or by any means without the written permission of NETGEAR, Inc. All rights reserved. Technical Support Thank you for choosing NETGEAR. To register your product, get the latest product updates, or get support online, visit us at http://support.netgear.com. Phone (US & Canada only): 1-888-NETGEAR Phone (Other Countries): See Support information card. Trademarks NETGEAR, the NETGEAR logo, ReadyNAS, NeoTV, ProSafe, Smart Wizard, and Auto Uplink are trademarks or registered trademarks of NETGEAR, Inc. Microsoft, Windows, Windows NT, and Vista are registered trademarks of Microsoft Corporation. Other brand and product names are registered trademarks or trademarks of their respective holders. Statement of Conditions To improve internal design, operational function, and/or reliability, NETGEAR reserves the right to make changes to the products described in this document without notice. NETGEAR does not assume any liability that may occur due to the use, or application of, the product(s) or circuit layout(s) described herein. Revision History Publication Part Number Version 202-10791-01 v1.0 Publish Date January 2011 Description Preliminary publication.

| 3 Table of Contents Chapter 1 Getting Started What You Need Before You Begin . 7 Installation with Custom Setup . 8 First, Install the WNA1000M Software. 8 Then, Install Your Wireless-N USB Adapter . 9 Using the Smart Wizard to Connect to a Wireless Network . 10 Wireless Network and Internet Connections . 11 WNA1000M Icon . 12 Smart Wizard Status Bar . 12 Wireless-N USB Adapter LED . 14 Upgrading the Software. 14 Removing the Software . 15 Chapter 2 Network Connections and Wireless Security Using the Smart Wizard After Installation . 16 Disabling the Windows Zero Configuration Utility . 16 Viewing Wireless Networks in Your Area . 17 Joining a Network without WPS . 18 Using Push 'N' Connect to Join a Network . 19 Creating Profiles to Connect to Networks . 20 Wireless Security. 21 Setting Up WPA2-PSK or WPA-PSK Wireless Security . 21 Setting Up WEP Encryption Security. 22 Viewing Statistics. 23 Viewing the About Tab . 23 Advanced Settings. 24 Working with Ad Hoc Mode . 25 Creating an Ad Hoc Mode Profile . 25 Starting a Computer-to-Computer (Ad Hoc) Network Connection. 27 Chapter 3 Wireless Network Performance Optimizing Wireless Performance . 28 Optimizing Your Network Bandwidth . 29 Networking Technology and Connection Speed . 30 Assessing Your Network Speed Requirements. 30 Chapter 4 Troubleshooting Table of Contents

| 4 N150 Wireless Micro USB Adapter WNA1000M Frequently Asked Questions (FAQs) . 32 Ad Hoc Mode Is Not Working Correctly . 34 Windows XP Occasional Connection Problems. 34 Appendix A Technical Specifications and Factory Default Settings Technical Specifications. 36 Factory Default Settings . 37 Appendix B Related Documents Appendix C Notification of Compliance Table of Contents

| 5 N150 Wireless Micro USB Adapter WNA1000M 6 | Table of Contents 1. Getting Started 1 This chapter describes how to install your wireless-N USB adapter with custom setup and how to connect to a wireless network. For help with express installation, see the N150 Wireless Micro USB Adapter WNA1000M Installation Guide. What You Need Before You Begin Make sure your computer meets the system requirements. You should also know the name of the wireless network you want to join and its wireless security settings (if used). PC with a Pentium 300 MHz or higher compatible processor with a USB 2.0 or 1.1 port. The maximum speed of a USB v2.0 port is 480 Mbps. If your computer has a USB v1.1 port, the wireless-N USB adapter is limited to the ports maximum speed of 14 Mbps. A CD drive. 5 Mbytes of free hard disk space. Vista, Windows XP Home, or Windows XP Professional. Some versions of Windows ask for the original Windows operating system installation files to complete the installation of the WNA1000M software. Note: Windows XP users must install SP2 or install the KB822603 hot fix

(update), which fixes the USB 2.0 host controller driver. Go to the following link to install the hot fix:

http://www.microsoft.com/downloads/details.aspx?displaylang=

en&FamilyID=733dd867-56a0-4956-b7fe-e85b688b7f86 Chapter 1: Getting Started

| 7 N150 Wireless Micro USB Adapter WNA1000M Installation with Custom Setup Note: For help with Express installation, see the N150 Wireless Micro USB Adapter WNA1000M Installation Guide. First, Install the WNA1000M Software 1. Insert the Resource CD in your computers CD drive. If the CD main screen does not display, browse the files on the CD and double-click Autorun.exe. 2. Click Setup. The Software Update Check screen displays. 3. If you are connected to the Internet, click Check for Updates. If not, click Install from CD. 4. Accept the license agreement. Then select Custom and click Next on the Setup Type screen. 8 | Chapter 1: Getting Started N150 Wireless Micro USB Adapter WNA1000M 5. When prompted, browse to select the destination folder for your wireless adapter software, and click Next. 6. Select one of the following methods to configure and manage your wireless network:

Smart Wizard. Manage your wireless networks with the NETGEAR Smart Wizard.

- Automatically. Let the Smart Wizard configure the settings for your wireless-N USB adapter.

- Manual. Specify the settings for your wireless-N USB adapter in the Settings screen. Windows Utility. Connect to and manage your wireless networks using only the Windows configuration utility. Then, Install Your Wireless-N USB Adapter You are prompted to insert your adapter:

1. Insert the adapter into a USB port on your computer. Note: For best results, put the wireless adapter at least 4 feet (1 meter) away from your router. Chapter 1: Getting Started

| 9 N150 Wireless Micro USB Adapter WNA1000M 2. Click Next. The Smart Wizard software detects the adapter. 3. Follow the onscreen prompts to install the driver and complete the installation. How you connect to a network depends on what you selected during custom installation. If you installed the Smart Wizard with automatic configuration, see the following section, Using the Smart Wizard to Connect to a Wireless Network. If you installed the Smart Wizard with manual configuration, the Settings tab displays. See Viewing Wireless Networks in Your Area on page 17. To use a Windows utility, see your Windows documentation or the NETGEAR application note at http://documentation.netgear.com/reference/enu/winzerocfg/index.htm. Using the Smart Wizard to Connect to a Wireless Network After the software is installed, you are prompted to connect to a wireless network. 1. One of the following screens displays:

WPS network No WPS networks WPS network: A network in your area supports Push 'N' Connect (also called WPS). Click Next, and follow the prompts to push the WPS button on your adapter and connect without entering a password. No WPS networks: Select a wireless network from the list and click Next. To connect to a secure network, you must enter its passphrase or network key. 10 | Chapter 1: Getting Started N150 Wireless Micro USB Adapter WNA1000M 2. The adapter connects to the network, which can take a minute or two. Your settings are saved in a profile, which you can name:

3. Click Finish, and the Smart Wizard Settings screen displays. icon appears in the system tray and on the desktop so you can open the Smart The Wizard to make changes or connect to a different wireless network. Wireless Network and Internet Connections The Smart Wizard and wireless-N USB adapter provide several ways to check the status of your connection to a wireless network and to the Internet:

WNA1000M icon. After you install the WNA1000M software, the icon appears on the desktop and in the right on the Windows task bar. It is color coded to show the status of the connection. Smart Wizard status bar. Clicking on the system tray icon opens the Smart Wizard. The status bar at the bottom of the screen shows details about your wireless and Internet connection. See Smart Wizard Status Bar. Adapter LED status lights. The LED on the wireless-N USB adapter shows the network connection. Solid indicates a connection. The LED blinks when the wireless-N USB adapter is looking for a network association and when it is sending or receiving data. See Wireless-N USB Adapter LED on page 14. Chapter 1: Getting Started

| 11 N150 Wireless Micro USB Adapter WNA1000M WNA1000M Icon This icon is on the desktop and in the Windows system tray. The system tray is on one end of the task bar in the Microsoft Windows desktop. The icon color shows the wireless connection. Color Red Meaning Recommended Action The wireless-N USB adapter is not connected to a wireless network. Check your configuration, or try moving to a location where the wireless signal quality is better. Yellow The wireless-N USB adapter has a weak wireless connection. Move to a better location, such as closer to the wireless access point. Also, look for interference such as from a 2.4 GHz cordless phone or large metal surface. Green The wireless connection is good. No action is required Smart Wizard Status Bar For more information, you can view the Smart Wizard status bar. Click the the Smart Wizard status bar. The Smart Wizard Settings tab displays. The status bar is located at the bottom of the Settings tab. icon to open Security Channel Throughput Wireless network Signal strength Join a Network Connection status The following table describes how to interpret the Smart Wizard status bar. Understanding the Status Bar Wireless network Security Channel Throughput Identifies which wireless network you have joined. A closed lock indicates that security is enabled. An open lock indicates an open network without wireless security. The wireless channel used by the network. If many wireless networks in your area use the same channel, they can interfere with one another. To optimize wireless throughput, connect to a network with a high-speed router or access point and a high-speed Internet connection.See Chapter If your computer has a USB v1.1 port, the wireless-N USB adapter is 3. limited to that ports maximum speed, which is 14 Mbps. 12 | Chapter 1: Getting Started N150 Wireless Micro USB Adapter WNA1000M Understanding the Status Bar (Continued) Signal strength More dots indicates a stronger signal. Usually, you experience higher throughput when the signal is strongest. Join a Network Click Join a Network to open the Connection Wizard. Connection status The status of your network connection. Connected to Internet. The wireless Internet connection is OK. Connected to Router. The wireless connection to the router is OK, but 169.254.x.x or ___.___.___.___. The wireless connection to the router is OK, but there is a problem with the router. See the online help or Chapter the router is not connected to the Internet. 4. The connection status is useful in isolating a problem. For example, if you are connected to a router, but not to the Internet, check the routers Internet connection. Internet Connection and Smart Wizard Configuration You can turn off the Internet notification feature on the Status bar. Right-click the system tray icon to view the Enable Internet Connected Notification check mark. If you clear the checkmark, only the IP address is shown. Windows XP Windows 7 and Vista In Microsoft Windows 7 and Vista, there is one more option. If you clear the Enable NETGEAR Smart Wizard check mark, the NETGEAR Smart Wizard is disabled, and you must set up the wireless adapter with auto-configuration. Chapter 1: Getting Started

| 13 N150 Wireless Micro USB Adapter WNA1000M Wireless-N USB Adapter LED The LED shows the status of the wireless link as explained in the following table. Wireless-N USB Adapter LED Off Slow blinking Meaning The wireless-N USB adapter in not plugged in to the USB port. The wireless-N USB adapter is in power save mode (default from Alternating amber and blue. The wireless-N USB adapter is Blue. The wireless-N USB adapter is connecting to a network at scanning for a network. power up or reset). 2.4 GHz. Blinking The wireless-N USB adapter is connected to a wireless network, and is sending or receiving data. Solid The wireless-N USB adapter is connected to a wireless network, but it is not sending or receiving data. Upgrading the Software Upgrades might be available at the NETGEAR website. To check for an update and install it:

1. Open the Smart Wizard and click the About tab:

2. Click the Software Update Check button. 14 | Chapter 1: Getting Started N150 Wireless Micro USB Adapter WNA1000M The Smart Wizard goes to the NETGEAR website and checks for newer software. If there is a newer version of firmware, this screen displays:

3. Click OK. When the file has been downloaded, a message like the following displays:

4. Click Yes. Follow the installer instructions, and if prompted, restart your computer. Removing the Software You can remove the wireless adapter software through the Windows Program List or the Windows Control Panel. Windows Program List: Select Windows Start > Micro USB Adapter program group. Click Uninstall and follow the screen prompts. Control Panel: How you do this depends on your Windows operating system:

- Windows 7: Select Windows Start >Control Panel > Programs and Features >

Micro USB Adapter. Click Uninstall and follow the screen prompts.

- Windows Vista: Select Windows Start >Control Panel > Programs and Features >

Micro USB Adapter. Click Uninstall/Change from the top menu and follow the screen prompts.

- Windows XP: Select Windows Start > Control Panel > Add or Remove Program, and then select Micro USB Adapter. Chapter 1: Getting Started

| 15 2. Network Connections and Wireless Security 2 This chapter explains how to use your wireless-N USB adapter to connect to wireless networks and how to set up wireless security for the wireless-N USB adapter so that it matches the wireless security settings for your network. Using the Smart Wizard After Installation icon appeared on your When you installed the software from the Resource CD, the desktop and in the Windows system tray. The Windows system tray is located on the Windows taskbar. You can either double-click this icon on the desktop or click it in the system tray at any time, to use the Smart Wizard. This software automatically restarts when you reboot your computer. The Smart Wizard provides a complete and easy-to-use set of tools to:

View details about wireless networks in your area. Choose the network that you want to use. Configure wireless settings for your wireless-N USB adapter. Save your wireless network settings in profiles. Remove or reinstall the wireless adapter software. Disabling the Windows Zero Configuration Utility If you chose the Windows XP or Windows Vista Zero Configuration utility during installation, and now you want to use the Smart Wizard that is installed on your PC, you must disable the Windows utility. If you are working with the Vista configuration utility, see the NETGEAR online application note at:

http://documentation.netgear.com/reference/enu/winzerocfg/index.htm To disable the Windows Zero Configuration utility:

1. Attach the wireless adapter to a USB port for your computer. 2. In Windows, select Start > Network Connections. Chapter 2: Network Connections and Wireless Security

| 16 N150 Wireless Micro USB Adapter WNA1000M 3. Select Wireless Network Connection, right-click, and then select Properties. 4. Click the Wireless Networks tab. Then clear the Use Windows to configure my wireless settings check box. Viewing Wireless Networks in Your Area You can use the Networks tab to view all available wireless networks in your area. You can also scan to search for wireless networks and refresh the tab. To view wireless networks:

1. Use the 2. Click the Networks tab to display the following screen:

icon to open the Smart Wizard. You can click a column heading to sort. If many networks use the same channel they can interfere with each other. (G) indicates a 2.4 GHz network. The status bar shows your network connection and Internet connection. The screen shows the following information for each network scanned:

Network Name (SSID). The name of the wireless network. As a security measure, some wireless access points do not broadcast the network name. In such cases, the Network Name (SSID) field is blank even though the rest of the information is displayed. Chapter 2: Network Connections and Wireless Security

| 17 N150 Wireless Micro USB Adapter WNA1000M Channel. The channel determines which operating frequency is used. In this column

(G) indicates a 2.4 GHz network. N. The access point supports wireless N mode. WPS. The access point supports WPS. Security. Identifies whether the wireless network uses security settings such as WPA2-PSK, WPA-PSK, or WEP. Signal. Identifies the signal strength of the communications. MAC Address. Identifies the hardware address (MAC address) of the wireless device broadcasting this information. Mode. Identifies the type of wireless network Access Point (Infrastructure) or Computer-to-Computer (Ad Hoc) The buttons located at the bottom of the Networks tab are:

Help. Display online help. Join a Network. View networks and join a network. See Joining a Network without WPS on page 18. Connect. Connect to the network that you selected. Scan. Check for wireless networks. Clicking Scan refreshes the screen. Close. Close the window of the Wizard. Joining a Network without WPS 1. Use the icon to open the Smart Wizard. On the status bar at the bottom of the screen, click Join a Network. If there is a WPS network in your area, the Smart Wizard displays the WPS screen. To bypass WPS, select No to avoid connecting, and then click Next. 2. Select a network from the drop-down list. If you select a hidden network, you must enter the SSID. Click Next. 3. Follow the wizard steps to specify the wireless security if used, and to create a profile. 4. Review you settings, and click Finish. The status bar shows the status of your wireless connection. 18 | Chapter 2: Network Connections and Wireless Security hidden network N150 Wireless Micro USB Adapter WNA1000M Using Push 'N' Connect to Join a Network Push 'N' Connect (also called WPS) lets you join a secure wireless network by pushing a button instead of entering a passphrase or network key. Your wireless-N USB adapter works with WPS, but only if the wireless network you want to join also supports WPS. An access point or router that supports WPS has a WPS symbol on it. To join a network using WPS:

1. Use the icon to open the Smart Wizard. On the status bar at the bottom of the screen, click Join a Network. The Smart Wizard detects a WPS network. 2. Select the Yes, I will connect using Push

'N' Connect radio button, and then click Next. 3. Either push the WPS button on the wireless-N USB adapter or click the onscreen WPS button. Click Next. 4. On the access point or router for the network you want to join, use its Smart Wizard or WPS configuration utility, and push its WPS button as directed. The access point or router adds the wireless-N USB adapter to the network. The wireless-N USB adapter Smart Wizard status bar shows the status of your wireless connection. 5. Click Close to exit the Smart Wizard. 6. Close the Smart Wizard or configuration utility for the access point or router. Chapter 2: Network Connections and Wireless Security

| 19 N150 Wireless Micro USB Adapter WNA1000M Creating Profiles to Connect to Networks The Smart Wizard can create a profile for each wireless network that you join when using your wireless-N USB adapter. If you connect to different networks, name the profiles and save them to easily connect the next time you join the same network. Advanced users can also set up profiles for Ad Hoc mode connections for peer-to-peer networking. See Working with Ad Hoc Mode on page There are two special profile names: Default and Profile. Default. This profile scans for any available network. You cannot change this profile 25. name. Profile. If you do not enter a name in the Profile Name field when you connect to a network, the name Profile is used to save your settings. If you do this more than once, you are asked if you want to replace the previous settings stored in Profile. To set up a profile to connect to a network:

1. Use the icon to open the Smart Wizard. The Settings tab displays:

2. In the Profiles field, type the name of the profile. 3. In the Network Name (SSID) field, select a network or enter the SSID. Note: You cannot connect wirelessly unless the network SSID matches exactly the SSID used by the wireless network. 4. Make sure that the Access Point (Infrastructure) radio button is selected. This setting allows you to connect to a wireless router or access point. 5. Click Save Profile. 6. Click Apply, then click Close to exit, or click Cancel to return to the previous settings. 7. To make sure your network connection is working, use a browser to connect to the Internet. The status bar in the Smart Wizard shows the current connection status. 20 | Chapter 2: Network Connections and Wireless Security N150 Wireless Micro USB Adapter WNA1000M Wireless Security Many networks use wireless security. The first time you join a network that uses wireless security, you must either know its security settings, or use Push 'N' Connect (WPS) for a WPS-compatible wireless network. The main types of wireless security are:

Wi-Fi Protected Access 2 Pre-Shared Key (WPA2-PSK) Wi-Fi Protected Access Pre-Shared Key (WPA-PSK) Wired Equivalent Privacy (WEP) For more information about wireless security, see the wireless reference document at http://documentation.netgear.com/reference/enu/wireless/index.htm. Setting Up WPA2-PSK or WPA-PSK Wireless Security 1. Use the icon to open the Smart Wizard. The Settings tab displays:

2. In the Profile field, select the profile, or type in a profile name. 3. In the Network Name (SSID) field select the network, or enter the SSID. 4. In the Security section, select the WPA2 or WPA setting for the wireless network that you want to join and enter the passphrase. 5. Click the Save Profile button. All the configuration settings are saved in this profile. 6. Click Apply, and then click Close to exit the Smart Wizard. Chapter 2: Network Connections and Wireless Security

| 21 N150 Wireless Micro USB Adapter WNA1000M Setting Up WEP Encryption Security 1. Use the icon to open the Smart Wizard. The Settings tab displays:

2. In the Profile field, select the profile or type in a profile name. 3. In the Network Name (SSID) field, select the network, or enter the SSID. 4. In the Security section, select WEP and then select the WEP encryption strength:

64-bit WEP data encryption 128-bit WEP data encryption 5. Select Create with Passphrase, and enter the passphrase so that the Smart Wizard will generate the WEP keys. The characters are case-sensitive. Be sure to use the same passphrase for all the wireless devices in the network. If the wireless network that you want to join does not support the passphrase method, you must enter the keys so that they match the wireless network exactly. 6. Click the Save Profile button. 7. Click Apply and then click Close to exit the configuration utility. 22 | Chapter 2: Network Connections and Wireless Security N150 Wireless Micro USB Adapter WNA1000M Viewing Statistics The Statistics tab provides real time and historical trend information about the data traffic and performance of your wireless adapter. Transmit/Receive Performance

(%). A real-time graph identifies the total, receive, and transmit utilization as a percentage the total possible. Transmit, Receive, and Total

(TxRx). Radio buttons let you select whether to display the transmit performance, the receive performance, or both in the same graph. Transmit Statistics. Identifies transmit megabits per second (Mbps), transmit packets per second (Tx Packets/s), total transmitted packets, and transmit errors. Receive Statistics. Identifies receive megabits per second (Mbps), receive packets per second (Rx Packets/s), total received packets, and reception errors. Viewing the About Tab The About tab displays the current version information and allows you to check for software updates (See Upgrading the Software on page 14). The following information is displayed in the About tab:

Region. This is the region setting for the wireless adapter. The approved channels for the region are automatically scanned. Governments regulate the channels used for wireless transmission. Operating the wireless adapter in a different region might violate local laws. Chapter 2: Network Connections and Wireless Security

| 23 N150 Wireless Micro USB Adapter WNA1000M Driver Version and Driver Date: The wireless adapter driver version and release date. MAC Address. The Media Access Control (MAC) address of the adapter. This is a unique 48-bit hardware address. Some wireless networks restrict access based on a list of known MAC addresses. To connect to such a network, you must first provide the MAC address shown here to the network administrator. IP Address. The IP address assigned to this adapter. Smart Wireless Utility. The version and release date of the Smart Wizard. Note: The Get Info button displays technical messages that can be used for troubleshooting. Advanced Settings You can use the Advanced Settings screen to configure the preamble (GHz) that the adapter uses. The available settings are Auto and 2.4 GHz. The 2.4GHz range is commonly used by cordless telephones. Note: The default settings for the Fragmentation Threshold field and RTS/CTS Threshold field usually work fine. Do not change them unless you have a specific reason to do so. By changing the preamble setting, you have the option to connect to the following types of wireless networks. 2.4 GHz only. Connect only to 2.4GHz access points, up to 150 Mbps. 2.4 GHz. Connect to 802.11b/g access points, up to 54 Mbps. To change the preamble (GHz) setting:

1. On the Settings tab, click the Advanced Settings button. Note:

For Windows Vista computers, you must have administrator rights. Otherwise, this option is not available for selection. 2. In the Advanced section of the screen, adjust the settings as needed. Changing the setting in the Preamble field affects which options are available in the Wireless Mode section of this screen. You 24 | Chapter 2: Network Connections and Wireless Security N150 Wireless Micro USB Adapter WNA1000M can change the preamble for better throughput if you experience interference, such as from a cordless telephone. Many cordless phones use 2.4 GHz. Auto. Up to 150 Mbps. 2.4 GHz. Use a 2.4 GHz preamble. Long. 3. Click OK. Working with Ad Hoc Mode Ad Hoc Mode is an advanced feature that allows you to create a wireless network between two computers without using a router or access point. For example, this mode is used when two Windows computers are configured with file and print sharing enabled and you want to exchange files directly between them. Note: Ad Hoc mode does not work using DHCP settings. Ad Hoc mode requires either static IP addresses (such as 192.168.0.1) or the IPX protocol. For help setting up static IP addresses, see the PC Networking Tutorial on the Resource CD. For more information about wireless network modes, see the wireless reference document at: http://documentation.netgear.com/reference/enu/wireless/index.htm. Creating an Ad Hoc Mode Profile 1. Use the icon to open the Smart Wizard. The Settings tab displays:

2. Enter the network settings. a. Select Computer-to-Computer (Ad Hoc) for the network type. b. Select or enter the network name (SSID) for the Ad Hoc network. Chapter 2: Network Connections and Wireless Security

| 25 N150 Wireless Micro USB Adapter WNA1000M In the Profile field, type the name of the profile. c. d. Click Apply. 3. Save your settings in a profile. a. Click Save Profile, and all the configuration settings are saved in this profile. b. Click Apply, then click Close to exit the Smart Wizard, or click Cancel to return to the previous settings. 4. Configure the computer network settings. a. Configure each computer with either a static IP address or with the IPX protocol. b. Restart the computers. 5. Verify wireless connectivity between your peer devices with the ping program:

a. On the Windows taskbar, select Start > Run. b. Assuming the target PC is configured with 192.168.0.1 as its IP address, type:

ping -t 192.168.0.1 and then click OK. c. A continuous ping will be sent to the device with the 192.168.0.1 static IP address. The ping response should change to Reply. At this point the connection is established. Note: If you cannot connect, see Removing the Software on page 15. For problems accessing network resources, the Windows client and rile and print sharing software might not be installed or configured correctly on your computers. See the link to Internet Networking and TCP/IP Addressing:

in Appendix B. 26 | Chapter 2: Network Connections and Wireless Security N150 Wireless Micro USB Adapter WNA1000M Starting a Computer-to-Computer (Ad Hoc) Network Connection 1. On the Settings tab of the Smart Wizard, select or type the network name (SSID). 2. Select the Computer-to-Computer (Ad Hoc) network type. Note: For Windows Vista computers, you must have administrator rights. Otherwise, this option is not available for selection. 3. Click Initiate Ad Hoc. The Ad Hoc Setting screen displays:

4. In the Start Ad Hoc drop-down list, select the wireless standard (802.11a, 802.11b, or 802.11g) for your Ad Hoc computer-to-computer network. 5. In the Channel field, Automatic should work. If there is interference from a nearby wireless device, select a different channel. You can use the Networks tab to view channels in use in your area. The channel number differs depending on the country. The connection speed automatically defaults to the highest speed. 6. Click OK. Chapter 2: Network Connections and Wireless Security

| 27 3. Wireless Network Performance 3 This chapter explains how to maximize the performance of your wireless-N USB adapter within your network. Optimizing Wireless Performance The position of your wireless-N USB adapter and the local environment can affect its wireless performance. Use the plastic cradle that came in the package with your adapter. This lets you place the adapter in a better position for wireless communication. Make sure you do not have interference from other wireless equipment, especially those in the 24002500 MHz frequency band. Common sources of interference are:

- Other computers and fax machines (no closer than 1 foot)

- Copying machines, elevators, and cell phones (no closer than 6 feet)

- Microwave ovens (no closer than 10 feet) How the wireless router or access point is set up also affects wireless communication. For best performance, try the following:

For better throughput and a higher link rate, set your router or access point wireless mode to Up to 150 Mbps, or HT 20/40 Mbps. For a faster connection, set the security for the router as WPA2 or WPA + WPA2 mixed wireless security instead of WPA (TKIP). Wi-Fi regulations allow only the adapter to connect at up to 54 Mbps when WPA (TKIP) security mode is set on the router. Avoid using the same wireless channel as your neighbor. To find out which channels are in use in your area, select the Smart Wizard Networks tab. It lists wireless networks in your area including the channel used by each. Chapter 3: Wireless Network Performance

| 28 N150 Wireless Micro USB Adapter WNA1000M Optimizing Your Network Bandwidth The speed of network connections depends on the type of equipment that you use. Try to use high-speed technologies for network connections with the heaviest traffic to avoid lower-speed bottlenecks. The following illustration shows a home network that includes many different connection speeds. Figure 1. Home Network In this network, the two PCs with gigabit (1000 Mbps) Ethernet adapters have a gigabit connection through the router to the storage server. With a high-speed router this connection allows for extremely fast backups or quick access to large files on the server. The PC connected through a pair of Powerline HD adapters is limited to the 200 Mbps speed of the Powerline HD connection. Although any of the links in this example would work for high-traffic applications such as streaming HD video, the use of older devices such as 10 Mbps Ethernet or 802.11b wireless would create a bottleneck. In planning your network, think about which tasks will have the heaviest traffic flow between them. Examples are:

A media center in one room streaming high-definition video from a server in another room A storage device that is used for backing up your computers Chapter 3: Wireless Network Performance

| 29 N150 Wireless Micro USB Adapter WNA1000M Networking Technology and Connection Speed Common connection types and their speed and security considerations are:

Broadband Internet Your Internet connection speed depends on your modem type, such as ADSL or cable modem, as well as the speed of the sites to which you connect, and general Internet traffic. ADSL and cable modem connections have a lower data rate to the Internet

(upstream) than from the Internet (downstream). Keep in mind that when you connect to someone else who also has an ADSL or cable modem connection, the data rate between your sites is limited by each sides upstream data rate. A typical residential ADSL or cable modem connection provides a downstream throughput of about 1 to 3 megabits per second (Mbps). Newer technologies such as ADSL2+ and Fiber to the Home (FTTH) l increase the connection speed to tens of Mbps. Wireless A high-speed wireless router can provide a wireless data throughput of up to 150 Mbps with excellent range and coverage. WPA and WPA2 wireless security are extremely strong. To get the best performance, connect to networks that use newer routers. Your wireless-N USB adapter will work with older 802.11b and 802.11g routers, but the use of these older wireless technologies in your network can result in lower throughput overall. In addition, many older wireless products do not support the latest security protocols, WPA and WPA2. Powerline You can use Powerline connections for rooms that are upstairs or too far from your router for a good wireless connection. NETGEARs Powerline HD products deliver up to 200 Mbps to any outlet. Data transmissions are encrypted for security, and you can set up a network password to prevent neighbors from connecting. Wired Ethernet Wired Ethernet remains a good choice for speed, economy, and security. Gigabit Ethernet can extend up to 100 meters. Note: Actual data throughput will vary. Network conditions and environmental factors, including volume of network traffic, building materials and construction, and network overhead, can lower actual data throughput rate. Assessing Your Network Speed Requirements Because your Internet connection is likely to operate at a much lower speed than your local network, faster local networking technologies might not improve your Internet experience. However, many emerging home applications require high data rates. For example:

30 | Chapter 3: Wireless Network Performance N150 Wireless Micro USB Adapter WNA1000M Streaming HD video requires 10 to 30 Mbps per stream. Because latency and packet loss can disrupt your video, plan to provide at least twice the capacity you need. Streaming MP3 audio requires less than 1 Mbps per stream and does not strain most modern networks. Like video, however, streaming audio is also sensitive to latency and packet loss, so a congested network or a noisy link can cause problems. Backing up computers over the network has become popular due to the availability of inexpensive mass storage. The following table shows the time to transfer 1 gigabyte (1 GB) of data using various networking technologies. Table 1. Theoretical Transfer Time for 1 Gigabyte Network Connection Gigabit Wired Ethernet RangeMax Dual Band Wireless-N Powerline HD 100 Mbps Wired Ethernet 802.11g wireless 802.11b wireless 10 Mbps Wired Ethernet Cable Modem (3 Mbps) Analog Modem (56 kbps) Theoretical Raw Transfer Time 8 seconds 26 seconds 40 seconds 80 seconds 150 seconds 700 seconds 800 seconds 2700 seconds 144,000 seconds (40 hours) Chapter 3: Wireless Network Performance

| 31 4. Troubleshooting 4 This chapter provides information about troubleshooting your wireless-N USB adapter. You can also refer to the Knowledge Base on the NETGEAR website at http://support.netgear.com. Frequently Asked Questions (FAQs) The wireless-N USB adapter LED is not lit. The wireless-N USB adapter is not inserted securely in the USB port (or USB cable if used) or the WNA1000M software is not installed. Remove and reinsert the wireless-N USB adapter. Check the Windows device manager to see if the wireless-N USB adapter is recognized and enabled. Re-install the WNA1000M software, if necessary. Insert the wireless-N USB adapter in a different USB port on your computer if one is available. I cannot connect to a wireless network. Make sure that your wireless-N USB adapter is inserted securely into the USB port on your computer or the USB cable if you are using it. The wireless-N USB adapter LED should light up or blink (see Wireless-N USB Adapter LED on page 14 for details). Click the icon to open the Smart Wizard and then click the Networks tab to view the networks in your area. Make sure the signal strength is strong and that you have selected the correct wireless network. If the network uses wireless security, you need to either know the wireless security settings or use Push 'N' Connect if the network supports WPS. Some networks also restrict use to only computers or wireless devices with known MAC addresses. If that is the case, use the Smart Wizard About tab to find the MAC address for your wireless-N USB adapter and provide it to the network administrator. Chapter 4: Troubleshooting

| 32 N150 Wireless Micro USB Adapter WNA1000M When I connect to the network I cannot access the Internet. Click the bottom of the screen. to open the Smart Wizard, and then check the connection status in the status bar at Connection status Here is a list of connection statuses and their meanings:

Connected to Internet: The wireless Internet connection is OK. Connected to Router: The wireless connection to the router is OK, but the router is not connected to the Internet. 169.254.x.x or ___.___.___.___: The wireless connection to the router is OK, but there is a problem with the router. If the routers Internet connection is not working, restart the modem, router, and computer. When I connect to the network I cannot access shared resources such as printers. Check to make sure the router or access point is physically connected to the Ethernet network. Make sure that the IP addresses and the Windows networking settings are configured correctly. See the link to Internet Networking and TCP/IP Addressing:

in Appendix B. How can I improve the speed of my wireless connection?

You can use the USB cable and adapter that came in the package to position the wireless-N USB adapter for better wireless communication. The connection speed can vary depending on the type of USB port on your computer, the capacity of the router or access point for the wireless network, and the type of Internet connection. You can view the throughput in the status bar at the bottom of the Smart Wizard screen. If the throughput is 54 Mbps you could be connected to an 802.11g network, or the wireless-N network could be set with WPA (TKIP) security. Wi-Fi regulations allow the wireless-N USB adapter to connect only at up to 54 Mbps when WPA (TKIP) security mode is set on the router. For a faster connection, set the security for the router as WPA2 or WPA + WPA2 mixed wireless security. Then the wireless adapter can connect in 802.11n mode. If you do not have a USB 2.0 port on your computer, the throughput is limited to the 14 Mbps of the older USB 1.1 standard. For more information about connection speeds, see Optimizing Wireless Performance on page 28. Chapter 4: Troubleshooting

| 33 N150 Wireless Micro USB Adapter WNA1000M The Smart Wizard keeps asking me to save settings. If you change the settings, the Smart Wizard offers you the chance to save the changes. To avoid this prompt, click Apply before you close the Smart Wizard. Two WNA1000M icons are in the Windows system tray. You have an older software version installed on your system and it needs to be removed. See Removing the Software on page 15. How can I view the IP address for the wireless-N USB adapter?

Click the icon to open the Smart Wizard. Then click the About tab to view the IP address. No IP address is assigned to the wireless-N USB adapter. This can occur if you upgraded your wireless-N USB adapter software and did not reboot your computer. Either restart your computer, or connect to a different access point. It does not usually help to shut down the Smart Wizard or disable or enable the wireless-N USB adapter. Ad Hoc Mode Is Not Working Correctly You must click the Initiate Ad Hoc button before you click Apply. Note: Be sure that all computers in your Ad Hoc network are configured with static IP addresses in the same subnet. To start an Ad Hoc network:

1. Fill in the Network Name (SSID) field. 2. Select the Computer-to-Computer (Ad Hoc) network type. 3. Click Initiate Ad Hoc. 4. Accept the default settings, or make your changes and click OK. Click Apply. Windows XP Occasional Connection Problems Windows XP users who apply Windows XP Hotfix (SP2) Q815485 from the Windows XP Update Service might not be able to connect to the Internet, might have dropped wireless 34 | Chapter 4: Troubleshooting N150 Wireless Micro USB Adapter WNA1000M connections, or both when using the Micro USB Adapter. You can delete this Hotfix from the Add or Remove Programs utility in the Control Panel. To delete Windows XP Hotfix (SP2) Q815485:

1. Select Start > Control Panel > Add/Remove Programs. 2. Select Windows XP Hotfix (SP2) Q815485, and then click Remove. You might receive an error message that states that some program on the computer might not work correctly if the update is removed. You can ignore this error message, and then click Yes to remove the update. 3. Restart your computer, and rerun the Smart Display Setup Wizard. This should solve your connection issue. You can restore this hotfix by following this link:

http://microsoft.com/downloads/details.aspx?FamilyId=

009D8425-CE2B-47A4-ABEC-274845DC9E91&displaylang=en Chapter 4: Troubleshooting

| 35 A. Technical Specifications and Factory Default Settings A Technical Specifications The following table provides technical specifications for the wireless-N USB adapter. Feature Antenna Standards Description 2 integrated internal wireless antennas 802.11n, 802.11g, or 802.11b Radio Data Rate 1, 2, 5.5, 6, 9, 11, 12, 18, 24, 36, 48, 54, 72, and 150 Mbps

(Auto Rate Sensing) Frequency Power Emissions Bus interface 2.4 GHz to 2.5 GHz CCK and OFDM Modulation);

5V Bus powered FCC, CE USB 2.0 Provided drivers Microsoft Windows 7, Vista, Windows XP Operating Environment Operating temperature: 0 to 40 C Encryption 40-bit (also called 64-bit) and 128-bit WEP data encryption, and WPA-PSK Warranty Limited 1-year warranty Appendix A: Technical Specifications and Factory Default Settings

| 36 N150 Wireless Micro USB Adapter WNA1000M Factory Default Settings The following table lists the default settings of your wireless-N USB adapter. Default Settings Smart Wizard Wireless Wireless communication Enabled Enabled Wireless Network Name (SSID) Any (will connect to the first wireless network that responds. Security Network type Transmission speed Country/Region Operating mode Data rate Disabled Infrastructure Auto1 United States (varies by region) 802.11n, 802.11g, 802.11b Up to 150 Mbps 1 Maximum wireless signal rate (IEEE Standard 802.11). Actual throughput will vary. Network conditions and environmental factors, including volume of network traffic, building materials and construction, and network overhead, lower actual data throughput rate Appendix A: Technical Specifications and Factory Default Settings

| 37 B. Related Documents B This appendix provides links to reference documents you can use to gain a more complete understanding of the technologies used in your NETGEAR product. Document Link Windows XP and Vista Wireless Configuration Utilities Application Note Internet Networking and TCP/IP Addressing:

http://documentation.netgear.com/reference/enu/winzerocfg/index.htm http://documentation.netgear.com/reference/enu/tcpip/index.htm Wireless Communications:

http://documentation.netgear.com/reference/enu/wireless/index.htm Preparing a Computer for Network Access:

Virtual Private Networking

(VPN):

http://documentation.netgear.com/reference/enu/wsdhcp/index.htm http://documentation.netgear.com/reference/enu/vpn/index.htm Glossary:

http://documentation.netgear.com/reference/enu/glossary/index.htm Appendix B: Related Documents

| 38 N150 Wireless Micro USB Adapter WNA1000M Appendix B: Related Documents

| 39 C. Notification of Compliance C Regulatory Compliance Information This section includes user requirements for operating this product in accordance with National laws for usage of radio spectrum and operation of radio devices. Failure of the end-user to comply with the applicable requirements may result in unlawful operation and adverse action against the end-user by the applicable National regulatory authority. Note: This products firmware limits operation to only the channels allowed in a particular Region or Country. Therefore, all options described in this user's guide may not be available in your version of the product. FCC Requirements for Operation in the United States FCC Information to User This product does not contain any user serviceable components and is to be used with approved antennas only. Any product changes or modifications will invalidate all applicable regulatory certifications and approvals FCC Declaration of Conformity We, NETGEAR, Inc., 350 East Plumeria Drive, San Jose, CA 95134, declare under our sole responsibility that the N150 Wireless Micro USB Adapter WNA1000M complies with Part 15 Subpart B of FCC CFR47 Rules. Operation is subject to the following two conditions:

This device may not cause harmful interference, and This device must accept any interference received, including interference that may cause undesired operation. FCC Radio Frequency Interference Warnings & Instructions 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 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 methods:

Reorient or relocate the receiving antenna. Increase the separation between the equipment and the receiver. Connect the equipment into an electrical outlet on a circuit different from that which the radio receiver is Consult the dealer or an experienced radio/TV technician for help. connected. FCC Caution Any changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate this equipment. This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Appendix C. Notification of Compliance

| 40 New Template User Manual FCC Radiation Exposure Statement:

This equipment complies with the US/Canada portable RF exposure limits set forth for an uncontrolled environment and are safe for the intended operation as described in this manual. Further RF exposure reduction can be achieved if the product is kept as far as possible from your body, and the device can be set to lower output power, if such function is available. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. SAR compliance has been established in typical laptop computer(s) with a USB port. Other applications, like handheld PCs or similar devices, have not been verified and may not comply with related RF exposure rules; such use shall be prohibited. The USB dongle transmitter is approved for use in typical laptop computers. To comply with FCC RF exposure requirements, a USB dongle transmitter should not be used certain laptop and tablet computer configurations where the USB connectors on the host computer are unable to provide or ensure the necessary operating configurations intended for the device and its users or bystanders to satisfy RF exposure compliance requirements. The availability of some specific channels and/or operational frequency bands are country dependent and are firmware programmed at the factory to match the intended destination. The firmware setting is not accessible by the end user. Industry Canada statement:

This device complies with RSS-210 of the Industry Canada Rules. Operation is subject to the following two conditions:

(1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Radiation Exposure Statement:

This product complies with the US/Canada portable RF exposure limits set forth for an uncontrolled environment and are safe for intended operation as described in this manual. Further RF exposure reduction can be achieved if the product is kept as far as possible from your body, or you can set the device to a lower power output setting, if such function is available. Ce dispositif est conforme la norme CNR-210 dIndustrie Canada applicable aux appareils radio exempts de licence. Son fonctionnement est sujet aux deux conditions suivantes: (1) le dispositif ne doit pas produire de brouillage prjudiciable, et (2) ce dispositif doit accepter tout brouillage reu, y compris un brouillage susceptible de provoquer un fonctionnement indsirable. NOTE IMPORTANTE:

Dclaration dexposition aux radiations:

Le produit est conforme aux limites dexposition pour les appareils portables RF pour les Etats-Unis et le Canada tablies pour un environnement non contrl. Le produit est sr pour un fonctionnement tel que dcrit dans ce manuel. La rduction aux expositions RF peut tre augmente si lappareil peut tre conserv aussi loin que possible du corps de lutilisateur ou que le dispositif est rgl sur la puissance de sortie la plus faible si une telle fonction est disponible. Europe EU Declaration of Conformity Marking with the above symbol indicates compliance with the Essential Requirements of the R&TTE Directive of the European Union (1999/5/EC). This equipment meets the following conformance standards:

EN300 328 (2.4Ghz), EN301 489-17, EN60950-1 This device is a 2.4 GHz wideband transmission system (transceiver), intended for use in all EU member states and EFTA countries, except in France and Italy where restrictive use applies. Appendix C. Notification of Compliance

| 41 New Template User Manual In Italy, the end-user should apply for a license at the national spectrum authorities in order to obtain authorization to use the device for setting up outdoor radio links and/or for supplying public access to telecommunications and/or network services. This device may not be used for setting up outdoor radio links in France, and in some areas the RF output power may be limited to 10 mW EIRP in the frequency range of 2454 2483.5 MHz. For detailed information contact the national spectrum authority in France. For complete DoC, visit the NETGEAR EU Declarations of Conformity website at:

http://kb.netgear.com/app/answers/detail/a_id/11621 Table 2. EDOC in Languages of the European Community Language Cesky [Czech]

Dansk [Danish]

Deutsch [German]

Eesti [Estonian]

English Espaol [Spanish]

[Greek]

Franais [French]

Italiano [Italian]

Latviski [Latvian]

Statement NETGEAR Inc. tmto prohlauje, e tento Radiolan je ve shode se zkladnmi poadavky a dalmi prslunmi ustanovenmi smernice 1999/5/ES. Undertegnede NETGEAR Inc. erklrer herved, at flgende udstyr Radiolan overholder de vsentlige krav og vrige relevante krav i direktiv 1999/5/EF. Hiermit erklrt NETGEAR Inc., dass sich das Gert Radiolan in bereinstimmung mit den grundlegenden Anforderungen und den brigen einschlgigen Bestimmungen der Richtlinie 1999/5/EG befindet. Kesolevaga kinnitab NETGEAR Inc. seadme Radiolan vastavust direktiivi 1999/5/E phinuetele ja nimetatud direktiivist tulenevatele teistele asjakohastele stetele. Hereby, NETGEAR Inc., declares that this Radiolan is in compliance with the essential requirements and other relevant provisions of Directive 1999/5/EC. Por medio de la presente NETGEAR Inc. declara que el Radiolan cumple con los requisitos esenciales y cualesquiera otras disposiciones aplicables o exigibles de la Directiva 1999/5/CE. NETGEAR Inc. Radiolan 1999/5/. Par la prsente NETGEAR Inc. dclare que l'appareil Radiolan est conforme aux exigences essentielles et aux autres dispositions pertinentes de la directive 1999/5/CE. Con la presente NETGEAR Inc. dichiara che questo Radiolan conforme ai requisiti essenziali ed alle altre disposizioni pertinenti stabilite dalla direttiva 1999/5/CE. Ar o NETGEAR Inc. deklar, ka Radiolan atbilst Direktvas 1999/5/EK btiskajm prasbm un citiem ar to saisttajiem noteikumiem. Lietuvi [Lithuanian]

iuo NETGEAR Inc. deklaruoja, kad is Radiolan atitinka esminius reikalavimus ir kitas 1999/5/EB Direktyvos nuostatas. Nederlands [Dutch]

Hierbij verklaart NETGEAR Inc. dat het toestel Radiolan in overeenstemming is met de essentile eisen en de andere relevante bepalingen van richtlijn 1999/5/EG. Malti [Maltese]

Hawnhekk, NETGEAR Inc., jiddikjara li dan Radiolan jikkonforma mal-htigijiet essenzjali u ma provvedimenti ohrajn relevanti li hemm fid-Dirrettiva 1999/5/EC. Magyar [Hungarian Alulrott, NETGEAR Inc. nyilatkozom, hogy a Radiolan megfelel a vonatkoz alapvet kvetelmnyeknek s az 1999/5/EC irnyelv egyb elrsainak. 42 | Appendix C. Notification of Compliance New Template User Manual Table 2. EDOC in Languages of the European Community Language Polski [Polish]

Statement Niniejszym NETGEAR Inc. owiadcza, e Radiolan jest zgodny z zasadniczymi wymogami oraz pozostaymi stosownymi postanowieniami Dyrektywy 1999/5/EC. Portugus [Portuguese] NETGEAR Inc. declara que este Radiolan est conforme com os requisitos essenciais e outras disposies da Directiva 1999/5/CE. Slovensko [Slovenian]

NETGEAR Inc. izjavlja, da je ta Radiolan v skladu z bistvenimi zahtevami in ostalimi relevantnimi doloili direktive 1999/5/ES. Slovensky [Slovak]

NETGEAR Inc. tmto vyhlasuje, e Radiolan spa zkladn poiadavky a vetky prslun ustanovenia Smernice 1999/5/ES. Suomi [Finnish]

NETGEAR Inc. vakuuttaa tten ett Radiolan tyyppinen laite on direktiivin 1999/5/EY oleellisten vaatimusten ja sit koskevien direktiivin muiden ehtojen mukainen. Svenska [Swedish]

Hrmed intygar NETGEAR Inc. att denna Radiolan str I verensstmmelse med de vsentliga egenskapskrav och vriga relevanta bestmmelser som framgr av direktiv 1999/5/EG. slenska [Icelandic]

Hr me lsir NETGEAR Inc. yfir v a Radiolan er samrmi vi grunnkrfur og arar krfur, sem gerar eru tilskipun 1999/5/EC. Norsk [Norwegian]

NETGEAR Inc. erklrer herved at utstyret Radiolan er i samsvar med de grunnleggende krav og vrige relevante krav i direktiv 1999/5/EF. GPL License Agreement GPL may be included in this product; to view the GPL license agreement go to ftp://downloads.netgear.com/files/GPLnotice.pdf. For GNU General Public License (GPL) related information, please visit http://kbserver.netgear.com/kb_web_files/open_src.asp . Interference Reduction Table The table below shows the Recommended Minimum Distance between NETGEAR equipment and household appliances to reduce interference (in feet and meters). Household Appliance Microwave ovens Baby Monitor - Analog Baby Monitor - Digital Cordless phone - Analog Cordless phone - Digital Bluetooth devices ZigBee Recommended Minimum Distance

(in feet and meters) 30 feet / 9 meters 20 feet / 6 meters 40 feet / 12 meters 20 feet / 6 meters 30 feet / 9 meters 20 feet / 6 meters 20 feet / 6 meters Appendix C. Notification of Compliance

| 43

 

 

 

 

 

 

 

 

 

 

9.76 2.84 4.50 0.98 1.69 0.55 Font(): Arial Size(): 2.7pt

 

 

Netgear Inc. 350 East Plumeria Drive San Jose, CA 95134 Date: 2011-01-20 General Declaration General Declaration General Declaration General Declaration FCC ID: PY310400152 We, Netgear Inc. declares that the device does not have Ad Hoc on non-US frequencies and/or on DFS frequencies. If you have any questions regarding the declaration, please dont hesitate to contact us. Thank you!

Sincerely yours,

-------------------------------------------------

Mark Gandler / project manager Netgear Inc. TEL.: 408-907-8000 FAX: 408-907-8097 E-mail: mark.Gandlerl@netgear.com

 

 

Netgear Inc. 350 East Plumeria Drive San Jose, CA 95134 FCC ID: PY310400152 Date: 2011-01-20 Federal Communications Commission Authorization and Evaluation Division Confidentiality Request Pursuant to Sections 0.457 and 0.459 of the Commissions Rules, the Applicant hereby requests confidential treatment of information accompanying this Application as outlined below:

Schematics Block diagram The above materials contain trade secrets and proprietary information not customarily released to the public. The public disclosure of these matters might be harmful to the Applicant and provide unjustified benefits to its competitors. The Applicant understands that pursuant to Rule 0.457, disclosure of this Application and all accompanying documentation will not be made before the date of the Grant for this application. Sincerely,

-------------------------------------------------

Mark Gandler/ project manager Netgear Inc. TEL.: 408-907-8000 FAX: 408-907-8097 E-mail: mark.gandler@netgear.com

 

 

FCC ID: PY310400152 OPERATIONAL DESCRIPTION This device is a G54/N150 Wireless USB Micro Adaptor, which operates in the 2.4GHz frequency spectrum with throughput of up to 150Mbps which OFDM technique will be applied. If the signal to noise ratio is too poor which could not support 150Mbps, the 11Mbps data rate with DSSS technique will be applied. The transmitter of the EUT is powered by 5Vdc from the host equipment. The antenna is PIFA antenna without antenna connector. For more detailed instruction, please take a look at the users manual. Report No.: RF110114C02

 

 

Netgear Inc. 350 East Plumeria Drive San Jose, CA 95134 A U T H O R I Z A T I O N L E T T E R FCC ID: PY310400152 Date:2011/3/3 To whom it may concern:

We, the undersigned UNetgear Inc.U hereby authorize Bureau Veritas Consumer Products Services

(H.K.) Ltd., Taoyuan Branch (BV CPS Taoyuan) of Taiwan to act on our behalf in all matters relating to all processes required in FCC Part15C and any communication needed with the national authority. Any and all acts carried out by BV CPS Taoyuan on our behalf shall have the same effects as acts of our own. If you have any questions regarding the authorization, please dont hesitate to contact us. Thank you!

Sincerely yours,

-------------------------------------------------

Mark Gandler / project manager Netgear Inc. TEL.: 408-907-8000 FAX: 408-907-8097 E-mail: mark.Gandler@netgear.com

 

 

SAR TEST REPORT REPORT NO.: SA110114C02 MODEL NO.: WNA1000M FCC ID: PY310400152 RECEIVED: Dec. 03, 2010 TESTED: Jan. 28, 2011 ISSUED: Feb. 10, 2011 APPLICANT: NETGEAR, INC. ADDRESS: 350 East Plumeria Drive San Jose, CA 95134 ISSUED BY: Bureau Veritas Consumer Products Services

(H.K.) Ltd., Taoyuan Branch LAB ADDRESS: No. 47, 14th Ling, Chia Pau Tsuen, Lin Kou Hsiang, Taipei Hsien 244, Taiwan, R.O.C. TEST LOCATION: No. 19, Hwa Ya 2nd Rd, Wen Hwa Tsuen, Kwei Shan Hsiang, Taoyuan Hsien 333, Taiwan, R.O.C. This test report consists of 28 pages in total. It may be duplicated completely for legal use with the approval of the applicant. It should not be reproduced except in full, without the written approval of our laboratory. The client should not use it to claim product certification, approval, or endorsement by TAF or any government agency. The test results in the report only apply to the tested sample. Report No.: SA110114C02 1 Report Format Version 4.0.0 TABLE OF CONTENTS CERTIFICATION .............................................................................................................. 4 1. 2. GENERAL INFORMATION .............................................................................................. 5 2.1 GENERAL DESCRIPTION OF EUT................................................................................. 5 2.2 GENERAL DESCRIPTION OF APPLIED STANDARDS.................................................. 6 2.3 GENERAL INOFRMATION OF THE SAR SYSTEM ........................................................ 7 2.4 TEST EQUIPMENT........................................................................................................ 10 2.5 GENERAL DESCRIPTION OF THE SPATIAL PEAK SAR EVALUATION ..................... 11 2.6 DESCRIPTION OF SUPPORT UNITS........................................................................... 14 DESCRIPTION OF ANTENNA LOCATION.................................................................... 15 3. 4. RECIPES FOR TISSUE SIMULATING LIQUIDS........................................................... 16 5. SYSTEM VALIDATION................................................................................................... 19 5.1 TEST PROCEDURE ...................................................................................................... 19 5.2 VALIDATION RESULTS ................................................................................................. 20 5.3 SYSTEM VALIDATION UNCERTAINTIES ..................................................................... 21 6. TEST RESULTS............................................................................................................. 22 6.1 TEST PROCEDURES.................................................................................................... 22 6.2 CONDUCTED POWER.................................................................................................. 24 6.3 DESCRIPTION OF TEST CONDITION.......................................................................... 24 6.4 MEASURED SAR RESULT............................................................................................ 25 6.5 POWER DRIFT TABLE .................................................................................................. 26 6.6 SAR LIMITS ................................................................................................................... 27 7. INFORMATION ON THE TESTING LABORATORIES................................................... 28 APPENDIX A: TEST CONFIGURATIONS AND TEST DATA APPENDIX B: ADT SAR MEASUREMENT SYSTEM APPENDIX C: PHOTOGRAPHS OF SYSTEM VALIDATION APPENDIX D: SYSTEM CERTIFICATE & CALIBRATION Report No.: SA110114C02 2 Report Format Version 4.0.0 RELEASE CONTROL RECORD ISSUE NO. Original release REASON FOR CHANGE NA DATE ISSUED Feb. 10, 2011 Report No.: SA110114C02 3 Report Format Version 4.0.0 1. CERTIFICATION PRODUCT: G54/N150 Wireless USB Micro Adaptor MODEL: WNA1000M BRAND: NETGEAR APPLICANT: NETGEAR, INC. TESTED: Jan. 28, 2011 TEST SAMPLE: ENGINEERING SAMPLE STANDARDS: FCC Part 2 (Section 2.1093) FCC OET Bulletin 65, Supplement C (01-01) RSS-102 Issue 4 (2010-03) The above equipment (model: WNA1000M) has been tested by Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, and found compliance with the requirement of the above standards. The test record, data evaluation &

Equipment Under Test (EUT) configurations represented herein are true and accurate accounts of the measurements of the samples EMC characteristics under the conditions specified in this report. Andrea Hsia / Specialist

:

:

Gary Chang / Assistant Manager

, DATE:

Feb. 10, 2011

, DATE:

Feb. 10, 2011 PREPARED BY APPROVED BY Report No.: SA110114C02 4 Report Format Version 4.0.0 2. GENERAL INFORMATION 2.1 GENERAL DESCRIPTION OF EUT EUT MODEL NO. FCC ID POWER SUPPLY MODULATION TYPE G54/N150 Wireless USB Micro Adaptor WNA1000M PY310400152 5Vdc CCK, DQPSK, DBPSK for DSSS 64QAM, 16QAM, QPSK, BPSK for OFDM MODULATION TECHNOLOGY DSSS, OFDM TRANSFER RATE OPERATING FREQUENCY NUMBER OF CHANNEL 802.11b:11.0/ 5.5/ 2.0/ 1.0Mbps 802.11g: 54.0/ 48.0/ 36.0/ 24.0/ 18.0/ 12.0/ 9.0/ 6.0Mbps 802.11n: up to 150.0Mbps 2412 ~ 2462MHz 11 for 802.11b, 802.11g, 802.11n (20MHz) 7 for 802.11n (40MHz) 0.852W/kg PIFA antenna with 1dBi gain NA USB NA MAXIMUM SAR (1g) ANTENNA TYPE DATA CABLE I/O PORTS ACCESSORY DEVICES NOTE:

1. The EUT provides one completed transmitter and one receiver. MODULATION MODE TX FUNCTION 802.11b 802.11g 802.11n (20MHz) 802.11n (40MHz) 1TX 1TX 1TX 1TX 2. The above EUT information was declared by manufacturer and for more detailed features description, please refer to the manufacturer's specifications or user's manual. Report No.: SA110114C02 5 Report Format Version 4.0.0 2.2 GENERAL DESCRIPTION OF APPLIED STANDARDS According to the specifications of the manufacturer, this product must comply with the requirements of the following standards:

FCC Part 2 (2.1093) FCC OET Bulletin 65, Supplement C (01- 01) RSS-102 Issue 4 (2010-03) IEEE 1528-2003 All test items have been performed and recorded as per the above standards. Report No.: SA110114C02 6 Report Format Version 4.0.0 2.3 GENERAL INOFRMATION OF THE SAR SYSTEM DASY4 (software 4.7 Build 80) consists of high precision robot, probe alignment sensor, phantom, robot controller, controlled measurement server and near-field probe. The robot includes six axes that can move to the precision position of the DASY4 software defined. The DASY4 software can define the area that is detected by the probe. The robot is connected to controlled box. Controlled measurement server is connected to the controlled robot box. The DAE includes amplifier, signal multiplexing, AD converter, offset measurement and surface detection. It is connected to the Electro-optical coupler (ECO). The ECO performs the conversion form the optical into digital electric signal of the DAE and transfers data to the PC. EX3DV4 ISOTROPIC E-FIELD PROBE CONSTRUCTION FREQUENCY DIRECTIVITY DYNAMIC RANGE DIMENSIONS APPLICATION Symmetrical design with triangular core Built-in shielding against static charges PEEK enclosure material (resistant to organic solvents, e.g., DGBE) 10 MHz to > 6 GHz Linearity: 0.2 dB (30 MHz to 6 GHz) 0.3 dB in HSL (rotation around probe axis) 0.5 dB in tissue material (rotation normal to probe axis) 10 W/g to > 100 mW/g Linearity: 0.2 dB (noise: typically < 1 W/g) Overall length: 330 mm (Tip: 20 mm) Tip diameter: 2.5 mm (Body: 12 mm) Typical distance from probe tip to dipole centers: 1 mm High precision dosimetric measurements in any exposure scenario

(e.g., very strong gradient fields). Only probe which enables compliance testing for frequencies up to 6 GHz with precision of better 30%. NOTE 1. The Probe parameters have been calibrated by the SPEAG. Please reference APPENDIX D for the Calibration Certification Report. 2. For frequencies above 800MHz, calibration in a rectangular wave-guide is used, because wave-guide size is manageable. 3. For frequencies below 800MHz, temperature transfer calibration is used because the wave-guide size becomes relatively large. Report No.: SA110114C02 7 Report Format Version 4.0.0 TWIN SAM V4.0 CONSTRUCTION SHELL THICKNESS FILLING VOLUME DIMENSIONS The shell corresponds to the specifications of the Specific Anthropomorphic Mannequin (SAM) phantom defined in IEEE 1528-2003, EN 62209-1 and IEC 62209. It enables the dosimetric evaluation of left and right hand phone usage as well as body mounted usage at the flat phantom region. A cover prevents evaporation of the liquid. Reference markings on the phantom allow the complete setup of all predefined phantom positions and measurement grids by manually teaching three points with the robot. 2 0.2mm Approx. 25liters Height: 810mm; Length: 1000mm; Width: 500mm SYSTEM VALIDATION KITS:

CONSTRUCTION CALIBRATION FREQUENCY RETURN LOSS POWER CAPABILITY OPTIONS Symmetrical dipole with l/4 balun enables measurement of feedpoint impedance with NWA matched for use near flat phantoms filled with brain simulating solutions. Includes distance holder and tripod adaptor Calibrated SAR value for specified position and input power at the flat phantom in brain simulating solutions 2450MHz

> 20dB at specified validation position

> 100W (f < 1GHz); > 40W (f > 1GHz) Dipoles for other frequencies or solutions and other calibration conditions upon request Report No.: SA110114C02 8 Report Format Version 4.0.0 DEVICE HOLDER FOR SAM TWIN PHANTOM CONSTRUCTION The device holder for the mobile phone device is designed to cope with different positions given in the standard. It has two scales for the device rotation (with respect to the body axis) and the device inclination (with respect to the line between the ear reference points). The rotation centers for both scales is the ear reference point (ERP). Thus the device needs no repositioning when changing the angles. The holder has been made out of low-loss POM material having the following dielectric parameters: relative permittivity=3 and loss tangent

=0.02. The amount of dielectric material has been reduced in the closest vicinity of the device, since measurements have suggested that the influence of the clamp on the test results could thus be lowered. The device holder for the portable device makes up of the polyethylene foam. The dielectric parameters of material close to the dielectric parameters of the air. DATA ACQUISITION ELECTRONICS CONSTRUCTION The data acquisition electronics (DAE3) consists of a highly sensitive electrometer grade preamplifier with auto-zeroing, a channel and gain-switching multiplex, a fast 16 bit AD converter and a command decoder and control logic unit. Transmission to the measurement server is accomplished through an optical downlink for data and status information as well as an optical uplink for commands and the clock. The mechanical probe is mounting device includes two different sensor systems for frontal and sideways probe contacts. They are used for mechanical surface detection and probe collision detection. The input impedance of the DAE3 box is 200MOhm;

the inputs are symmetrical and floating. Common mode rejection is above 80 dB. Report No.: SA110114C02 9 Report Format Version 4.0.0 2.4 TEST EQUIPMENT FOR SAR MEASURENENT ITEM NAME BRAND TYPE SERIES NO. DATE OF CALIBRATION DUE DATE OF CALIBRATION 1 SAM Phantom 2 Signal Generator 3 4 E-Field Probe DAE 5 Robot Positioner S & P Agilent S & P S & P Staubli Unimation QD000 P40 CA TP-1202 NA NA E8257C EX3DV4 DAE 3 NA MY43320668 Feb. 23, 2010 Feb. 22, 2011 Jun. 22, 2010 Jun. 21, 2011 Sep. 20, 2010 Sep. 19, 2011 3578 579 NA 737 NA NA Feb. 19, 2010 Feb. 18, 2011 6 Validation Dipole S & P D2450V2 NOTE: Before starting the measurement, all test equipment shall be warmed up for 30min. FOR TISSUE PROPERTY ITEM NAME BRAND TYPE SERIES NO. DATE OF CALIBRATION DUE DATE OF CALIBRATION 1 Network Analyzer Agilent E5071C MY46104190 Apr. 06, 2010 Apr. 05, 2011 2 Dielectric Probe Agilent 85070D US01440176 NA NA NOTE:

1. Before starting, all test equipment shall be warmed up for 30min. 2. The tolerance (k=1) specified by Agilent for general dielectric measurements, deriving from inaccuracies in the calibration data, analyzer drift, and random errors, are usually 2.5% and 5% for measured permittivity and conductivity, respectively. However, the tolerances for the conductivity is smaller for material with large loss tangents, i.e., less than 2.5% (k=1). It can be substantially smaller if more accurate methods are applied. Report No.: SA110114C02 10 Report Format Version 4.0.0 2.5 GENERAL DESCRIPTION OF THE SPATIAL PEAK SAR EVALUATION The DASY4 post-processing software (SEMCAD) automatically executes the following procedures to calculate the field units from the micro-volt readings at the probe connector. The parameters used in the evaluation are stored in the configuration modules of the software:

Probe parameters:

Device parameters:

Media parameters:

- Sensitivity

- Conversion factor

- Diode compression point

- Frequency

- Crest factor

- Conductivity

- Density Normi, ai0, ai1, ai2 ConvFi dcpi F Cf The first step of the evaluation is a linearization of the filtered input signal to account for the compression characteristics of the detector diode. The compensation depends on the input signal, the diode type and the DC-transmission factor from the diode to the evaluation electronics. If the exciting field is pulsed, the crest factor of the signal must be known to correctly compensate for peak power. The formula for each channel can be given as:

V i

=

U i

+

U 2 i cf dcp i

=compensated signal of channel i

=input signal of channel I

=crest factor of exciting field

=diode compression point

(i = x, y, z)

(i = x, y, z)

(DASY parameter)

(DASY parameter) Vi Ui Cf dcpi Report No.: SA110114C02 11 Report Format Version 4.0.0 From the compensated input signals the primary field data for each channel can be evaluated:

E-fieldprobes:

E i

=

V 1 ConvF Norm i H-fieldprobes:

H i

=

aV i

+

i 0 fa i 1 f

+

fa i 2 2 Vi Normi ConvF aij F Ei Hi

=compensated signal of channel I

=sensor sensitivity of channel i V/(V/m)2 for E-field Probes

= sensitivity enhancement in solution

= sensor sensitivity factors for H-field probes

= carrier frequency [GHz]

= electric field strength of channel i in V/m

= magnetic field strength of channel i in A/m

(i = x, y, z)

(i = x, y, z) The RSS value of the field components gives the total field strength (Hermitian magnitude):

E tot

=

E 2 x

+

E 2 y

+

E 2 z The primary field data are used to calculate the derived field units. SAR

=

totE 2

'1 000 SAR Etot

= local specific absorption rate in mW/g

= total field strength in V/m

= conductivity in [mho/m] or [Siemens/m]

= equivalent tissue density in g/cm3 Report No.: SA110114C02 12 Report Format Version 4.0.0 Note that the density is set to 1, to account for actual head tissue density rather than the density of the tissue simulating liquid. The entire evaluation of the spatial peak values is performed within the Post-processing engine (SEMCAD). The system always gives the maximum values for the 1g and 10g cubes. The algorithm to find the cube with highest averaged SAR is divided into the following stages:

1. The extraction of the measured data (grid and values) from the Zoom Scan 2. The calculation of the SAR value at every measurement point based on all stored data

(A/D values and measurement parameters) 3. The generation of a high-resolution mesh within the measured volume 4. The interpolation of all measured values from the measurement grid to the high-resolution grid 5. The extrapolation of the entire 3-D field distribution to the phantom surface over the distance from sensor to surface 6. The calculation of the averaged SAR within masses of 1g and 10g. The probe is calibrated at the center of the dipole sensors that is located 1 to 2.7mm away from the probe tip. During measurements, the probe stops shortly above the phantom surface, depending on the probe and the surface detecting system. Both distances are included as parameters in the probe configuration file. The software always knows exactly how far away the measured point is from the surface. As the probe cannot directly measure at the surface, the values between the deepest measured point and the surface must be extrapolated. The angle between the probe axis and the surface normal line is less than 30 degree. Report No.: SA110114C02 13 Report Format Version 4.0.0 The maximum search is automatically performed after each area scan measurement. It is based on splines in two or three dimensions. The procedure can find the maximum for most SAR distributions even with relatively large grid spacing. After the area scanning measurement, the probe is automatically moved to a position at the interpolated maximum. The following scan can directly use this position for reference, e.g., for a finer resolution grid or the cube evaluations. The 1g and 10g peak evaluations are only available for the predefined cube 7 x 7 x 7 scans. The routines are verified and optimized for the grid dimensions used in these cube measurements. The measured volume of 30 x 30 x 30mm contains about 30g of tissue. The first procedure is an extrapolation (incl. boundary correction) to get the points between the lowest measured plane and the surface. The next step uses 3D interpolation to get all points within the measured volume in a 1mm grid

(42875 points). In the last step, a 1g cube is placed numerically into the volume and its averaged SAR is calculated. This cube is the moved around until the highest averaged SAR is found. If the highest SAR is found at the edge of the measured volume, the system will issue a warning: higher SAR values might be found outside of the measured volume. In that case the cube measurement can be repeated, using the new interpolated maximum as the center. 2.6 DESCRIPTION OF SUPPORT UNITS NO. PRODUCT BRAND MODEL NO. SERIAL NO. 1 NOTEBOOK HP nx6215 CND5390CMP FCC ID NA NO. 1 NA SIGNAL CABLE DESCRIPTION OF THE ABOVE SUPPORT UNITS NOTE: All power cords of the above support units are non shielded (1.8m). Report No.: SA110114C02 14 Report Format Version 4.0.0 Antenna 3. DESCRIPTION OF ANTENNA LOCATION Report No.: SA110114C02 15 Report Format Version 4.0.0 4. RECIPES FOR TISSUE SIMULATING LIQUIDS For the measurement of the field distribution inside the SAM phantom, the phantom must be filled with 25 litters of tissue simulation liquid. The following ingredients are used WATER-

DGMBE-

Deionized water (pure H20), resistivity _16 M - as basis for the liquid Diethylenglycol-monobuthyl ether (DGMBE), Fluka Chemie GmbH, CAS # 112-34-5 - to reduce relative permittivity THE RECIPES FOR 2450MHz SIMULATING LIQUID TABLE INGREDIENT BODY SIMULATING LIQUID 2450MHz (MSL-2450) Water DGMBE Dielectric Parameters at 22 69.83%

30.17%

f= 2450MHz

= 52.7 5%

= 1.95 5% S/m Report No.: SA110114C02 16 Report Format Version 4.0.0 Testing the liquids using the Agilent Network Analyzer E8358A and Agilent Dielectric Probe Kit 85070D.The testing procedure is following as 1. Turn Network Analyzer on and allow at least 30min. warm up. 2. Mount dielectric probe kit so that interconnecting cable to Network Analyzer will not be moved during measurements or calibration. 3. Pour de-ionized water and measure water temperature (1). 4. Set water temperature in Agilent-Software (Calibration Setup). 5. Perform calibration. 6. Validate calibration with dielectric material of known properties (e.g. polished ceramic slab with >8mm thickness '=10.0, ''=0.0). If measured parameters do not fit within tolerance, repeat calibration (0.2 for ': 0.1 for ''). 7. Conductivity can be calculated from '' by = 0 '' ='' f [GHz] / 18. 8. Measure liquid shortly after calibration. Repeat calibration every hour. 9. Stir the liquid to be measured. Take a sample (~ 50ml) with a syringe from the center of the liquid container. 10. Pour the liquid into a small glass flask. Hold the syringe at the bottom of the flask to avoid air bubbles. 11. Put the dielectric probe in the glass flask. Check that there are no air bubbles in front of the opening in the dielectric probe kit. 12. Perform measurements. 13. Adjust medium parameters in DASY4 for the frequencies necessary for the measurements (Setup Config, select medium (e.g. Brain 900MHz) and press Option-button. 14. Select the current medium for the frequency of the validation (e.g. Setup Medium Brain 900MHz). Report No.: SA110114C02 17 Report Format Version 4.0.0 FOR SIMULATING LIQUID LIQUID TYPE SIMULATING LIQUID TEMP. TEST DATE TESTED BY MSL-2450 21.8 Jan. 28, 2011 Morrison Huang FREQ.

(MHz) LIQUID PARAMETER STANDARD VALUE MEASUREMENT VALUE 2412 2437 2450 2462 2412 2437 2450 2462 Permitivity

() Conductivity

() S/m 52.75 52.72 52.70 52.68 1.91 1.94 1.95 1.97 52.55 52.48 52.31 52.27 1.94 1.97 2.00 2.01 ERROR PERCENTAGE

(%)

-0.38

-0.46

-0.74

-0.78 1.57 1.55 2.56 2.03 LIMIT(%) 5 Report No.: SA110114C02 18 Report Format Version 4.0.0 5. SYSTEM VALIDATION The system validation was performed in the flat phantom with equipment listed in the following table. Since the SAR value is calculated from the measured electric field, dielectric constant and conductivity of the body tissue and the SAR is proportional to the square of the electric field. So, the SAR value will be also proportional to the RF power input to the system validation dipole under the same test environment. In our system validation test, 250mW RF input power was used. 5.1 TEST PROCEDURE Before the system performance check, we need only to tell the system which components

(probe, medium, and device) are used for the system performance check; the system will take care of all parameters. The dipole must be placed beneath the flat section of the SAM Twin Phantom with the correct distance holder in place. The distance holder should touch the phantom surface with a light pressure at the reference marking (little cross) and be oriented parallel to the long side of the phantom. Accurate positioning is not necessary, since the system will search for the peak SAR location, except that the dipole arms should be parallel to the surface. The device holder for mobile phones can be left in place but should be rotated away from the dipole. 1. The Power Reference Measurement and Power Drift Measurement jobs are located at the beginning and end of the batch process. They measure the field drift at one single point in the liquid over the complete procedure. The indicated drift is mainly the variation of the amplifier output power. If it is too high (above 0.1 dB), the system performance check should be repeated; some amplifiers have very high drift during warm-up. A stable amplifier gives drift results in the DASY system below 0.02dB. 2. The Surface Check job tests the optical surface detection system of the DASY system by repeatedly detecting the surface with the optical and mechanical surface detector and comparing the results. The output gives the detecting heights of both systems, the difference between the two systems and the standard deviation of the detection repeatability. Air bubbles or refraction in the liquid due to separation of the sugar-water mixture gives poor repeatability (above 0.1mm). In that case it is better to abort the system performance check and stir the liquid. Report No.: SA110114C02 19 Report Format Version 4.0.0 3. The Area Scan job measures the SAR above the dipole on a plane parallel to the surface. It is used to locate the approximate location of the peak SAR. The proposed scan uses large grid spacing for faster measurement; due to the symmetric field, the peak detection is reliable. If a finer graphic is desired, the grid spacing can be reduced. Grid spacing and orientation have no influence on the SAR result. 4. The Zoom Scan job measures the field in a volume around the peak SAR value assessed in the previous Area Scan job (for more information see the application note on SAR evaluation). About the validation dipole positioning uncertainty, the constant and low loss dielectric spacer is used to establish the correct distance between the top surface of the dipole and the bottom surface of the phantom, the error component introduced by the uncertainty of the distance between the liquid (i.e., phantom shell) and the validation dipole in the DASY4 system is less than 0.1mm. SARtolerance

[%]

=

100 a

((

2

) d 2

+

a

)1 As the closest distance is 10mm, the resulting tolerance SARtolerance[%] is <2%. 5.2 VALIDATION RESULTS SYSTEM VALIDATION TEST OF SIMULATING LIQUID FREQUENCY

(MHz) REQUIRED SAR (mW/g) MEASURED SAR (mW/g) DEVIATION

(%) SEPARATION DISTANCE TESTED DATE MSL2450 13.10 (1g) 12.9

-1.53 10mm Jan. 28, 2011 NOTE: Please see Appendix for the photo of system validation test. Report No.: SA110114C02 20 Report Format Version 4.0.0 5.3 SYSTEM VALIDATION UNCERTAINTIES In the table below, the system validation uncertainty with respect to the analytically assessed SAR value of a dipole source as given in the IEEE 1528 standard is given. This uncertainty is smaller than the expected uncertainty for mobile phone measurements due to the simplified setup and the symmetric field distribution. Error Description Tolerance

(%) Probability Distribution Divisor

(Ci) Standard Uncertainty

(%)

(vi)

(1g)

(10g)

(1g)

(10g) Probe Calibration Axial Isotropy Hemispherical Isotropy Boundary effects Linearity System Detection Limits Readout Electronics Response Time Integration Time RF Ambient Noise RF Ambient Reflections Probe Positioner Probe Positioning Max. SAR Eval. Sample positioning Device holder uncertainty Output power variation-SAR drift measrurement 5.50 0.25 1.30 1.00 0.30 1.00 0.30 0.80 2.60 3.00 3.00 0.40 2.90 1.00 1.90 2.80 Measurement System Normal Normal Rectangular Rectangular Rectangular Rectangular Rectangular 1 3 3 3 3 3 1 3 3 3 3 3 3 3 Test sample related Rectangular Rectangular Rectangular Rectangular Rectangular Rectangular Rectangular Normal Normal 1 1 4.50 Rectangular 3 Dipole Axis to Liquid Distance Input Power Drift Phantom Uncertainty Liquid Conductivity

(target) Liquid Conductivity

(measurement) Liquid Permittivity

(target) Liquid Permittivity

(measurement) 1.60 1.65 4.00 5.00 2.56 5.00 0.78 Dipole Related Rectangular Rectangular 3 3 Phantom and Tissue parameters Rectangular Rectangular Normal Rectangular Normal 3 3 1 3 1 Combined Standard Uncertainty Coverage Factor for 95%

Expanded Uncertainty (K=2) 1 0.7 0.7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0.64 0.64 0.6 0.6 1 0.7 0.7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0.43 0.43 0.49 0.49 5.50 0.10 0.53 0.58 0.17 0.58 0.30 0.46 1.50 1.73 1.73 0.23 1.67 0.58 5.50 0.10 0.53 0.58 0.17 0.58 0.30 0.46 1.50 1.73 9 1.73 9 0.23 1.67 0.58 1.90 1.90 2.80 2.80 2.60 2.60 0.92 0.95 0.92 0.95 4 4 1 4 1 2.31 2.31 1.85 1.24 1.64 1.10 9 1.73 1.41 0.47 8.81 17.62 0.38 8.55 Kp=2 17.11 9 NOTE: About the system validation uncertainty assessment, please reference the section 7. Report No.: SA110114C02 21 Report Format Version 4.0.0 6. TEST RESULTS 6.1 TEST PROCEDURES The EUT plugged into the notebook. Use the software to control the EUT channel and transmission power. Then record the conducted power before the testing. Place the EUT to the specific test location. After the testing, must writing down the conducted power of the EUT into the report. The SAR value was calculated via the 3D spline interpolation algorithm that has been implemented in the software of DASY4 SAR measurement system manufactured and calibrated by SPEAG. According to the IEEE 1528 standards, the recommended procedure for assessing the peak spatial-average SAR value consists of the following steps:

Power reference measurement Verification of the power reference measurement Area scan Zoom scan Power reference measurement The area scan was performed for the highest spatial SAR location. The zoom scan with was performed for SAR value averaged over 1g and 10g spatial volumes. Report No.: SA110114C02 22 Report Format Version 4.0.0 In the zoom scan, the distance between the measurement point at the probe sensor location (geometric center behind the probe tip) and the phantom surface is 2mm and maintained at a constant distance of 0.5mm during a zoom scan to determine peak SAR locations. The distance is 2mm between the first measurement point and the bottom surface of the phantom. The secondary measurement point to the bottom surface of the phantom is with 8mm separation distance. The cube size is 7 x 7 x 7 points consists of 343 points and the grid space is 5mm. The measurement time is 0.5s at each point of the zoom scan. The probe boundary effect compensation shall be applied during the SAR test. Because of the tip of the probe to the Phantom surface separated distances are longer than half a tip probe diameter. In the area scan, the separation distance is 2mm between the each measurement point and the phantom surface. The scan size shall be included the transmission portion of the EUT. The measurement time is the same as the zoom scan. At last the reference power drift shall be less than 5%. Report No.: SA110114C02 23 Report Format Version 4.0.0 6.2 CONDUCTED POWER TEST MODE MODULATION TYPE DBPSK DBPSK DBPSK TEST MODE MODULATION TYPE BPSK BPSK BPSK TEST MODE MODULATION TYPE BPSK BPSK BPSK TEST MODE MODULATION TYPE BPSK BPSK BPSK FREQ.

(MHz) 2412

(Low) 2437

(Mid.) 2462

(High) FREQ.

(MHz) 2412

(Low) 2437

(Mid.) 2462

(High) FREQ.

(MHz) 2412

(Low) 2437

(Mid.) 2462

(High) FREQ.

(MHz) 2422

(Low) 2437

(Mid.) 2452

(High) DATA RATE

(Mbps) 1 1 1 DATA RATE

(Mbps) 6 6 6 DATA RATE

(Mbps) 6.5 6.5 6.5 DATA RATE

(Mbps) 13.0 13.0 13.0 CHAN. 1 6 11 CHAN. 1 6 11 CHAN. 1 6 11 CHAN. 1 4 7 802.11b 802.11g 802.11n (20MHz) 802.11n (40MHz) AVG 18.1 17.1 17.2 AVG 18.5 18.7 16.3 AVG 18.3 18.5 16.4 AVG 18.2 18.3 16.1 PEAK 20.1 19.4 19.5 PEAK 25.9 26.0 24.2 PEAK 25.9 26.1 24.1 PEAK 25.5 25.6 23.8 6.3 DESCRIPTION OF TEST CONDITION TEST DATE TEMPERATURE(C) LIQUID AIMBENT HUMIDITY(%RH) TESTED BY Jan. 28, 2011 22.7 21.8 61 Morrison Huang Report No.: SA110114C02 24 Report Format Version 4.0.0 6.4 MEASURED SAR RESULT Position / Test distance Body / 5mm Position Horizontal-Down Vertical-Front Horizontal-Up Vertical-Back Tip CH1: 2412MHz 0.497 0.444 11b 11g 0.588 0.262 0.111 CH1: 2412MHz CH6: 2437MHz CH11: 2462MHz CH1: 2412MHz CH6: 2437MHz CH11: 2462MHz

-

0.741

-

-

0.737

-

-

0.658

-

802.11n (20MHz)

-

0.657

-

802.11n (40MHz) 0.632 0.849 0.557 0.633 0.852 0.564

-

0.411

-

-

0.399

-

-

0.135

-

-

0.132

-

CH4: 2437MHz 0.681 0.601 0.792 0.365 0.12 NOTE:

1. In this testing, the limit for General Population Spatial Peak averaged over 1g, 1.6 W/kg, is applied. 2. Please see the Appendix A for the data. 3. The variation of the EUT conducted power measured before and after SAR testing should not over 5%. 4. Per KDB 447498, when 1-g SAR for the highest output channel is less than 0.8 W/kg, testing for the other channels is not required. Report No.: SA110114C02 25 Report Format Version 4.0.0 6.5 POWER DRIFT TABLE Test Mode Test Position Communication Mode 802.11b 802.11g 802.11n (20MHz) 802.11n (40MHz) 802.11b 802.11g 802.11n (20MHz) 802.11n (40MHz) 802.11b 802.11g 802.11g 802.11g 802.11n (20MHz) 802.11n (20MHz) 802.11n (20MHz) 802.11n (40MHz) 802.11b 802.11g 802.11n (20MHz) 802.11n (40MHz) 802.11b 802.11g 802.11n (20MHz) 802.11n (40MHz) Test Channel 1 6 6 4 1 6 6 4 1 1 6 11 1 6 11 4 1 6 6 4 1 6 6 4 Test Frequency Begin 2412MHz 18.1 18.7 2437MHz 18.5 2437MHz 2437MHz 18.3 18.1 2412MHz 18.7 2437MHz 2437MHz 18.5 18.3 2437MHz 18.1 2412MHz 2412MHz 18.5 18.7 2437MHz 16.3 2462MHz 2412MHz 18.3 18.5 2437MHz 16.4 2462MHz 2437MHz 18.3 18.1 2412MHz 18.7 2437MHz 2437MHz 18.5 18.3 2437MHz 18.1 2412MHz 2437MHz 18.7 18.5 2437MHz 2437MHz 18.3 Power (dBm) After 18.0 18.6 18.4 18.1 18.0 18.5 18.4 18.2 18.0 18.4 18.6 16.1 18.2 18.4 16.3 18.2 18.0 18.5 18.4 18.2 18.0 18.6 18.3 18.2 Power Drift (%)

-2.28

-2.28

-2.28

-4.50

-2.28

-4.50

-2.28

-2.28

-2.28

-2.28

-2.28

-4.50

-2.28

-2.28

-2.28

-2.28

-2.28

-4.50

-2.28

-2.28

-2.28

-2.28

-4.50

-2.28 Horizontal-Down Vertical-Front Horizontal-Up Vertical-Back Tip 1 2 3 4 5 6 7 8 9 10 10 10 11 11 11 12 13 14 15 16 17 18 19 20 Report No.: SA110114C02 26 Report Format Version 4.0.0 6.6 SAR LIMITS HUMAN EXPOSURE Spatial Average

(whole body) Spatial Peak

(averaged over 1 g) Spatial Peak

(hands / wrists / feet / ankles averaged over 10 g) SAR (W/kg)

(GENERAL POPULATION /

UNCONTROLLED EXPOSURE ENVIRONMENT)

(OCCUPATIONAL /

CONTROLLED EXPOSURE ENVIRONMENT) 0.08 1.6 4.0 0.4 8.0 20.0 NOTE: This limits accord to 47 CFR 2.1093 Safety Limit. Report No.: SA110114C02 27 Report Format Version 4.0.0 7. INFORMATION ON THE TESTING LABORATORIES We, Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, were founded in 1988 to provide our best service in EMC, Radio, Telecom and Safety consultation. Our laboratories are accredited and approved according to ISO/IEC 17025. Copies of accreditation certificates of our laboratories obtained from approval agencies can be downloaded from our web site: www.adt.com.tw/index.5/phtml. If you have any comments, please feel free to contact us at the following:

Linko EMC/RF Lab:

Tel: 886-2-26052180 Fax: 886-2-26051924 Hwa Ya EMC/RF/Safety/Telecom Lab:

Tel: 886-3-3183232 Fax: 886-3-3185050 Web Site: www.adt.com.tw Hsin Chu EMC/RF Lab:

Tel: 886-3-5935343 Fax: 886-3-5935342 The address and road map of all our labs can be found in our web site also.

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Report No.: SA110114C02 28 Report Format Version 4.0.0 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch APPENDIX A: TEST DATA Product Name: G54/N150 Wireless USB Micro Adapter ; Model Number: WNA1000M Liquid Level Photo Tissue 2450MHz D=150mm 1 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 08:53:06 M01-11b-Ch1 Communication System: 802.11b ; Frequency: 2412 MHz ; Duty Cycle: 1:1 ; Modulation type: DBPSK Medium: MSL2450 Medium parameters used: f = 2412 MHz; = 1.94 mho/m; r = 52.55; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The horizontal-down side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Low Channel 1/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.764 mW/g Body Position - Low Channel 1/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 18.9 V/m; Power Drift = -0.183 dB Peak SAR (extrapolated) = 1.12 W/kg SAR(1 g) = 0.497 mW/g; SAR(10 g) = 0.220 mW/g 2 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 09:09:17 M02-11g-Ch6 Communication System: 802.11g ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The horizontal-down side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 6/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 1.17 mW/g Body Position - Mid Channel 6/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 21.6 V/m; Power Drift = -0.104 dB Peak SAR (extrapolated) = 1.70 W/kg SAR(1 g) = 0.741 mW/g; SAR(10 g) = 0.326 mW/g Maximum value of SAR (measured) = 1.16 mW/g 3 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 09:27:14 M03-11n 20M-Ch6 Communication System: 802.11n 20MHz ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The horizontal-down side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 6/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 1.15 mW/g Body Position - Mid Channel 6/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 21.2 V/m; Power Drift = -0.122 dB Peak SAR (extrapolated) = 1.70 W/kg SAR(1 g) = 0.737 mW/g; SAR(10 g) = 0.324 mW/g 4 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 09:43:29 M04-11n 40M-Ch4 Communication System: 802.11n 40MHz ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The horizontal-down side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 4/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 1.06 mW/g Body Position - Mid Channel 4/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 20.2 V/m; Power Drift = -0.016 dB Peak SAR (extrapolated) = 1.57 W/kg SAR(1 g) = 0.681 mW/g; SAR(10 g) = 0.299 mW/g 5 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 06:38:56 M05-11b-Ch1 Communication System: 802.11b ; Frequency: 2412 MHz ; Duty Cycle: 1:1 ; Modulation type: DBPSK Medium: MSL2450 Medium parameters used: f = 2412 MHz; = 1.94 mho/m; r = 52.55; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The vertical-front side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Low Channel 1/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.725 mW/g Body Position - Low Channel 1/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 14.5 V/m; Power Drift = -0.043 dB Peak SAR (extrapolated) = 1.05 W/kg SAR(1 g) = 0.444 mW/g; SAR(10 g) = 0.187 mW/g Maximum value of SAR (measured) = 0.706 mW/g 6 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 06:55:45 M06-11g-Ch6 Communication System: 802.11g ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The vertical-front side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 6/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 1.09 mW/g Body Position - Mid Channel 6/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 18.1 V/m; Power Drift = -0.152 dB Peak SAR (extrapolated) = 1.57 W/kg SAR(1 g) = 0.658 mW/g; SAR(10 g) = 0.275 mW/g Maximum value of SAR (measured) = 1.06 mW/g 7 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 07:12:02 M07-11n 20M-Ch6 Communication System: 802.11n 20MHz ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The vertical-front side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 6/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 1.09 mW/g Body Position - Mid Channel 6/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 18.0 V/m; Power Drift = -0.171 dB Peak SAR (extrapolated) = 1.58 W/kg SAR(1 g) = 0.657 mW/g; SAR(10 g) = 0.275 mW/g Maximum value of SAR (measured) = 1.05 mW/g 8 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 08:28:20 M08-11n 40M-Ch4 Communication System: 802.11n 40MHz ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The vertical-front side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 4/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.988 mW/g Body Position - Mid Channel 4/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 17.0 V/m; Power Drift = -0.096 dB Peak SAR (extrapolated) = 1.45 W/kg SAR(1 g) = 0.601 mW/g; SAR(10 g) = 0.251 mW/g Maximum value of SAR (measured) = 0.964 mW/g 9 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 10:02:19 M09-11b-Ch1 Communication System: 802.11b ; Frequency: 2412 MHz ; Duty Cycle: 1:1 ; Modulation type: DBPSK Medium: MSL2450 Medium parameters used: f = 2412 MHz; = 1.94 mho/m; r = 52.55; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The horizontal-up side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Low Channel 1/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.958 mW/g Body Position - Low Channel 1/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 19.8 V/m; Power Drift = -0.117 dB Peak SAR (extrapolated) = 1.31 W/kg SAR(1 g) = 0.588 mW/g; SAR(10 g) = 0.257 mW/g Maximum value of SAR (measured) = 0.927 mW/g 10 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 10:36:06 M10-11g-Ch1 Communication System: 802.11g ; Frequency: 2412 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2412 MHz; = 1.94 mho/m; r = 52.55; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The horizontal-up side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Low Channel 1/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 1.01 mW/g Body Position - Low Channel 1/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 20.0 V/m; Power Drift = -0.193 dB Peak SAR (extrapolated) = 1.41 W/kg SAR(1 g) = 0.632 mW/g; SAR(10 g) = 0.277 mW/g Maximum value of SAR (measured) = 1.00 mW/g 11 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 10:19:55 M10-11g-Ch6 Communication System: 802.11g ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The horizontal-up side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 6/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 1.37 mW/g Body Position - Mid Channel 6/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 23.0 V/m; Power Drift = -0.105 dB Peak SAR (extrapolated) = 1.91 W/kg SAR(1 g) = 0.849 mW/g; SAR(10 g) = 0.371 mW/g Maximum value of SAR (measured) = 1.34 mW/g 12 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 10:52:04 M10-11g-Ch11 Communication System: 802.11g ; Frequency: 2462 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2462 MHz; = 2.01 mho/m; r = 52.27; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The horizontal-up side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - High Channel 11/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.855 mW/g Body Position - High Channel 11/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 17.4 V/m; Power Drift = 0.148 dB Peak SAR (extrapolated) = 1.27 W/kg SAR(1 g) = 0.557 mW/g; SAR(10 g) = 0.241 mW/g Maximum value of SAR (measured) = 0.887 mW/g 13 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 11:24:07 M11-11n 20M-Ch1 Communication System: 802.11n 20MHz ; Frequency: 2412 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2412 MHz; = 1.94 mho/m; r = 52.55; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The horizontal-up side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Low Channel 1/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.999 mW/g Body Position - Low Channel 1/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 19.8 V/m; Power Drift = -0.131 dB Peak SAR (extrapolated) = 1.42 W/kg SAR(1 g) = 0.633 mW/g; SAR(10 g) = 0.276 mW/g Maximum value of SAR (measured) = 1.00 mW/g 14 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 11:08:08 M11-11n 20M-Ch6 Communication System: 802.11n 20MHz ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The horizontal-up side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 6/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 1.41 mW/g Body Position - Mid Channel 6/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 24.0 V/m; Power Drift = -0.198 dB Peak SAR (extrapolated) = 1.92 W/kg SAR(1 g) = 0.852 mW/g; SAR(10 g) = 0.371 mW/g Maximum value of SAR (measured) = 1.35 mW/g 15 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch 16 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 11:40:06 M11-11n 20M-Ch11 Communication System: 802.11n 20MHz ; Frequency: 2462 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2462 MHz; = 2.01 mho/m; r = 52.27; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The horizontal-up side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - High Channel 11/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.867 mW/g Body Position - High Channel 11/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 17.6 V/m; Power Drift = 0.118 dB Peak SAR (extrapolated) = 1.28 W/kg SAR(1 g) = 0.564 mW/g; SAR(10 g) = 0.243 mW/g Maximum value of SAR (measured) = 0.893 mW/g 17 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 11:56:13 M12-11n 40M-Ch4 Communication System: 802.11n 40MHz ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The horizontal-up side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 4/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 1.31 mW/g Body Position - Mid Channel 4/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 23.3 V/m; Power Drift = -0.185 dB Peak SAR (extrapolated) = 1.79 W/kg SAR(1 g) = 0.792 mW/g; SAR(10 g) = 0.344 mW/g Maximum value of SAR (measured) = 1.26 mW/g 18 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 13:45:54 M13-11b-Ch1 Communication System: 802.11b ; Frequency: 2412 MHz ; Duty Cycle: 1:1 ; Modulation type: DBPSK Medium: MSL2450 Medium parameters used: f = 2412 MHz; = 1.94 mho/m; r = 52.55; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The vertical-back side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Low Channel 1/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.436 mW/g Body Position - Low Channel 1/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 13.2 V/m; Power Drift = -0.138 dB Peak SAR (extrapolated) = 0.625 W/kg SAR(1 g) = 0.262 mW/g; SAR(10 g) = 0.113 mW/g Maximum value of SAR (measured) = 0.426 mW/g 19 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 14:02:55 M14-11g-Ch6 Communication System: 802.11g ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The vertical-back side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 6/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.679 mW/g Body Position - Mid Channel 6/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 16.5 V/m; Power Drift = -0.127 dB Peak SAR (extrapolated) = 0.990 W/kg SAR(1 g) = 0.411 mW/g; SAR(10 g) = 0.176 mW/g Maximum value of SAR (measured) = 0.670 mW/g 20 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 14:19:23 M15-11n 20M-Ch6 Communication System: 802.11n 20MHz ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The vertical-back side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 6/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.654 mW/g Body Position - Mid Channel 6/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 16.1 V/m; Power Drift = -0.164 dB Peak SAR (extrapolated) = 0.962 W/kg SAR(1 g) = 0.399 mW/g; SAR(10 g) = 0.172 mW/g Maximum value of SAR (measured) = 0.655 mW/g 21 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 14:35:26 M16-11n 40M-Ch4 Communication System: 802.11n 40MHz ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The vertical-back side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 4/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.591 mW/g Body Position - Mid Channel 4/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 15.4 V/m; Power Drift = -0.199 dB Peak SAR (extrapolated) = 0.875 W/kg SAR(1 g) = 0.365 mW/g; SAR(10 g) = 0.157 mW/g Maximum value of SAR (measured) = 0.594 mW/g 22 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 14:55:11 M17-11b-Ch1 Communication System: 802.11b ; Frequency: 2412 MHz ; Duty Cycle: 1:1 ; Modulation type: DBPSK Medium: MSL2450 Medium parameters used: f = 2412 MHz; = 1.94 mho/m; r = 52.55; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The tip side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Low Channel 1/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.217 mW/g Body Position - Low Channel 1/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 12.7 V/m; Power Drift = -0.101 dB Peak SAR (extrapolated) = 0.331 W/kg SAR(1 g) = 0.111 mW/g; SAR(10 g) = 0.049 mW/g Maximum value of SAR (measured) = 0.201 mW/g 23 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 15:11:38 M18-11g-Ch6 Communication System: 802.11g ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The tip side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 6/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.220 mW/g Body Position - Mid Channel 6/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 11.8 V/m; Power Drift = -0.190 dB Peak SAR (extrapolated) = 0.397 W/kg SAR(1 g) = 0.135 mW/g; SAR(10 g) = 0.059 mW/g Maximum value of SAR (measured) = 0.241 mW/g 24 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 15:27:47 M19-11n 20M-Ch6 Communication System: 802.11n 20MHz ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The tip side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 6/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.213 mW/g Body Position - Mid Channel 6/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 11.3 V/m; Power Drift = -0.138 dB Peak SAR (extrapolated) = 0.397 W/kg SAR(1 g) = 0.132 mW/g; SAR(10 g) = 0.057 mW/g Maximum value of SAR (measured) = 0.235 mW/g 25 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 15:44:10 M20-11n 40M-Ch4 Communication System: 802.11n 40MHz ; Frequency: 2437 MHz ; Duty Cycle: 1:1 ; Modulation type: BPSK Medium: MSL2450 Medium parameters used: f = 2437 MHz; = 1.97 mho/m; r = 52.48; = 1000 kg/m 3 Phantom section: Flat Section ; Separation distance : 5 mm (The tip side of the EUT to the Phantom) DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 Body Position - Mid Channel 4/Area Scan (6x7x1): Measurement grid: dx=8mm, dy=8mm Maximum value of SAR (measured) = 0.194 mW/g Body Position - Mid Channel 4/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 10.8 V/m; Power Drift = -0.190 dB Peak SAR (extrapolated) = 0.364 W/kg SAR(1 g) = 0.120 mW/g; SAR(10 g) = 0.052 mW/g Maximum value of SAR (measured) = 0.220 mW/g 26 Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Date/Time: 2011/1/28 05:16:34 SystemPerformanceCheck-D2450V2-MSL2450MHz DUT: Dipole 2450 MHz ; Type: D2450V2 ; Serial: D2450V2 - SN:737 ; Test Frequency: 2450 MHz Communication System: CW ; Frequency: 2450 MHz; Duty Cycle: 1:1; Modulation type: CW Medium: MSL2450;Medium parameters used: f = 2450 MHz; = 2 mho/m; r = 52.31; = 1000 kg/m 3 ;

Liquid level : 10 mm Phantom section: Flat Section ; Separation distance : 10 mm (The feet point of the dipole to the Phantom)Air temp. : 22.7 degrees ; Liquid temp. : 21.8 degrees DASY4 Configuration:

Probe: EX3DV4 - SN3578; ConvF(6.51, 6.51, 6.51); Calibrated: 2010/6/22 Sensor-Surface: 2mm (Mechanical Surface Detection) Electronics: DAE3 Sn579; Calibrated: 2010/9/20 Phantom: SAM Twin Phantom V4.0; Type: QD 000 P40 CA; Serial: TP 1202 Measurement SW: DASY4, V4.7 Build 80; Postprocessing SW: SEMCAD, V1.8 Build 186 d=10mm, Pin=250mW/Area Scan (7x7x1): Measurement grid: dx=15mm, dy=15mm Maximum value of SAR (measured) = 13.3 mW/g d=10mm, Pin=250mW/Zoom Scan (7x7x7)/Cube 0: Measurement grid: dx=5mm, dy=5mm, dz=5mm Reference Value = 98.1 V/m; Power Drift = -0.071 dB Peak SAR (extrapolated) = 28.6 W/kg SAR(1 g) = 12.9 mW/g; SAR(10 g) = 5.82 mW/g Maximum value of SAR (measured) = 20.1 mW/g 27 APPENDIX D: SYSTEM CERTIFICATE & CALIBRATION D1: PHANTOM D2: DOSIMETRIC E-FIELD PROBE D3: DAE D4: SYSTEM VALIDATION DIPOLE

 

 

FCC TEST REPORT REPORT NO.: RF110114C02 MODEL NO.: WNA1000M FCC ID: PY310400152 RECEIVED: Dec. 03, 2010 TESTED: Dec. 03, 2010 ~ Jan. 26, 2011 ISSUED: Feb. 10, 2011 APPLICANT: NETGEAR, INC. ADDRESS: 350 East Plumeria Drive San Jose, CA 95134 ISSUED BY: Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch LAB ADDRESS: No. 47, 14th Ling, Chia Pau Tsuen, Lin Kou Hsiang, Taipei Hsien 244, Taiwan, R.O.C. TEST LOCATION: No. 19, Hwa Ya 2nd Rd, Wen Hwa Tsuen, Kwei Shan Hsiang, Taoyuan Hsien 333, Taiwan, R.O.C. This test report consists of 68 pages in total. It may be duplicated completely for legal use with the approval of the applicant. It should not be reproduced except in full, without the written approval of our laboratory. The client should not use it to claim product, certification, approval or endorsement by TAF or any government agency. The test results in the report only apply to the tested sample. The test results in this report are traceable to the national or international standards. Report No.: RF110114C02 1 Report Format Version 4.0.0 TABLE OF CONTENTS RELEASE CONTROL RECORD...........................................................................................4 CERTIFICATION .......................................................................................................5 1. 2. SUMMARY OF TEST RESULTS ...............................................................................6 2.1 MEASUREMENT UNCERTAINTY ............................................................................6 GENERAL INFORMATION........................................................................................7 3. GENERAL DESCRIPTION OF EUT..........................................................................7 3.1 3.2 DESCRIPTION OF TEST MODES............................................................................8 3.2.1 CONFIGURATION OF SYSTEM UNDER TEST .......................................................8 3.2.2 TEST MODE APPLICABILITY AND TESTED CHANNEL DETAIL............................9 GENERAL DESCRIPTION OF APPLIED STANDARDS ......................................... 11 3.3 3.4 DESCRIPTION OF SUPPORT UNITS .................................................................... 11 TEST TYPES AND RESULTS .................................................................................12 4. 4.1 RADIATED EMISSION MEASUREMENT ...............................................................12 4.1.1 LIMITS OF RADIATED EMISSION MEASUREMENT.............................................12 4.1.2 TEST INSTRUMENTS.............................................................................................13 4.1.3 TEST PROCEDURES .............................................................................................14 4.1.4 DEVIATION FROM TEST STANDARD ...................................................................14 4.1.5 TEST SETUP...........................................................................................................15 4.1.6 EUT OPERATING CONDITIONS ............................................................................15 4.1.7 TEST RESULT.........................................................................................................16 4.2 CONDUCTED EMISSION MEASUREMENT ..........................................................29 4.2.1 LIMITS OF CONDUCTED EMISSION MEASUREMENT........................................29 4.2.2 TEST INSTRUMENTS.............................................................................................29 4.2.3 TEST PROCEDURES .............................................................................................30 4.2.4 DEVIATION FROM TEST STANDARD ...................................................................30 4.2.5 TEST SETUP...........................................................................................................31 4.2.6 EUT OPERATING CONDITIONS ............................................................................31 4.2.7 TEST RESULTS ......................................................................................................32 4.3 6dB BANDWIDTH MEASUREMENT.......................................................................34 4.3.1 LIMITS OF 6dB BANDWIDTH MEASUREMENT....................................................34 4.3.2 TEST INSTRUMENTS.............................................................................................34 4.3.3 TEST PROCEDURE................................................................................................34 4.3.4 DEVIATION FROM TEST STANDARD ...................................................................34 4.3.5 TEST SETUP...........................................................................................................35 4.3.6 EUT OPERATING CONDITIONS ............................................................................35 4.3.7 TEST RESULTS ......................................................................................................36 4.4 MAXIMUM OUTPUT POWER.................................................................................40 4.4.1 LIMITS OF MAXIMUM OUTPUT POWER MEASUREMENT .................................40 4.4.2 INSTRUMENTS.......................................................................................................40 4.4.3 TEST PROCEDURES .............................................................................................40 4.4.4 DEVIATION FROM TEST STANDARD ...................................................................41 4.4.5 TEST SETUP...........................................................................................................41 4.4.6 EUT OPERATING CONDITIONS ............................................................................41 4.4.7 TEST RESULTS ......................................................................................................42 4.5 POWER SPECTRAL DENSITY MEASUREMENT..................................................43 4.5.1 LIMITS OF POWER SPECTRAL DENSITY MEASUREMENT ...............................43 4.5.2 TEST INSTRUMENTS.............................................................................................43 4.5.3 TEST PROCEDURE................................................................................................43 4.5.4 DEVIATION FROM TEST STANDARD ...................................................................44 Report No.: RF110114C02 2 Report Format Version 4.0.0 4.5.5 TEST SETUP...........................................................................................................44 4.5.6 EUT OPERATING CONDITION ..............................................................................44 4.5.7 TEST RESULTS ......................................................................................................45 4.6 BAND EDGES MEASUREMENT ............................................................................49 4.6.1 LIMITS OF BAND EDGES MEASUREMENT..........................................................49 4.6.2 TEST INSTRUMENTS.............................................................................................49 4.6.3 TEST PROCEDURE................................................................................................49 4.6.4 DEVIATION FROM TEST STANDARD ...................................................................49 4.6.5 EUT OPERATING CONDITION ..............................................................................49 4.6.6 TEST RESULTS ......................................................................................................50 5. PHOTOGRAPHS OF THE TEST CONFIGURATION..............................................66 INFORMATION ON THE TESTING LABORATORIES ............................................67 6. APPENDIX A - MODIFICATIONS RECORDERS FOR ENGINEERING CHANGES 7. TO THE EUT BY THE LAB......................................................................................68 Report No.: RF110114C02 3 Report Format Version 4.0.0 RELEASE CONTROL RECORD ISSUE NO. Original release REASON FOR CHANGE NA DATE ISSUED Feb. 10, 2011 Report No.: RF110114C02 4 Report Format Version 4.0.0 1. CERTIFICATION PRODUCT: G54/N150 Wireless USB Micro Adaptor MODEL: WNA1000M BRAND: NETGEAR APPLICANT: NETGEAR, INC. TESTED: Dec. 03, 2010 ~ Jan. 26, 2011 TEST SAMPLE: ENGINEERING SAMPLE STANDARDS: FCC Part 15, Subpart C (Section 15.247) ANSI C63.4-2003 ANSI C63.10-2009 The above equipment (Model: WNA1000M) has been tested by Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, and found compliance with the requirement of the above standards. The test record, data evaluation & Equipment Under Test (EUT) configurations represented herein are true and accurate accounts of the measurements of the samples EMC characteristics under the conditions specified in this report. PREPARED BY APPROVED BY

:

:

, DATE:

Feb. 10, 2011 Andrea Hsia / Specialist Gary Chang / Assistant Manager

, DATE:

Feb. 10, 2011 Report No.: RF110114C02 5 Report Format Version 4.0.0 2. SUMMARY OF TEST RESULTS The EUT has been tested according to the following specifications:

APPLIED STANDARD: FCC PART 15, SUBPART C (SECTION 15.247) STANDARD SECTION TEST TYPE AND LIMIT RESULT REMARK 15.207 AC Power Conducted Emission PASS Meet the requirement of limit. Minimum passing margin is

-23.59dB at 0.173MHz. 15.247(a)(2) 15.247(b) 15.247(d) 15.247(e) 15.247(d) 15.203 Spectrum Bandwidth of a Direct Sequence Spread Spectrum System Limit: min. 500kHz Maximum Output Power Limit: max. 30dBm Radiated Emissions Limit: Table 15.209 Power Spectral Density Limit: max. 8dBm Band Edge Measurement Limit: 20dB less than the peak value of fundamental frequency Antenna Requirement PASS Meet the requirement of limit. PASS Meet the requirement of limit. PASS Meet the requirement of limit. Minimum passing margin is

-1.0dB at 4874.00 & 4924.00MHz. PASS Meet the requirement of limit. PASS Meet the requirement of limit. PASS No antenna connector is used. 2.1 MEASUREMENT UNCERTAINTY Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the EUT as specified in CISPR 16-4-2:

MEASUREMENT Conducted emissions Radiated emissions FREQUENCY 9kHz~30MHz 30MHz ~ 200MHz 200MHz ~1000MHz 1GHz ~ 18GHz 18GHz ~ 40GHz UNCERTAINTY 2.44 dB 2.93 dB 2.95 dB 2.26 dB 1.94 dB This uncertainty represents an expanded uncertainty expressed at approximately the 95% confidence level using a coverage factor of k = 2. Report No.: RF110114C02 6 Report Format Version 4.0.0 3. GENERAL INFORMATION 3.1 GENERAL DESCRIPTION OF EUT EUT MODEL NO. FCC ID POWER SUPPLY MODULATION TYPE G54/N150 Wireless USB Micro Adaptor WNA1000M PY310400152 5Vdc CCK, DQPSK, DBPSK for DSSS 64QAM, 16QAM, QPSK, BPSK for OFDM MODULATION TECHNOLOGY DSSS, OFDM TRANSFER RATE OPERATING FREQUENCY NUMBER OF CHANNEL 802.11b:11.0/ 5.5/ 2.0/ 1.0Mbps 802.11g: 54.0/ 48.0/ 36.0/ 24.0/ 18.0/ 12.0/ 9.0/ 6.0Mbps 802.11n: up to 150.0Mbps 2412 ~ 2462MHz 11 for 802.11b, 802.11g, 802.11n (20MHz) 7 for 802.11n (40MHz) 407.4mW PIFA antenna with 1dBi gain NA NA USB NA OUTPUT POWER ANTENNA TYPE ANTENNA CONNECTOR DATA CABLE I/O PORTS ACCESSORY DEVICES NOTE:

1. The EUT provides one completed transmitter and one receiver. MODULATION MODE TX FUNCTION 802.11b 802.11g 802.11n (20MHz) 802.11n (40MHz) 1TX 1TX 1TX 1TX 2. The above EUT information is declared by manufacturer and for more detailed features description, please refer to the manufacturer's specifications or user's manual. Report No.: RF110114C02 7 Report Format Version 4.0.0 3.2 DESCRIPTION OF TEST MODES 11 channels are provided for 802.11b, 802.11g and 802.11n (20MHz):

CHANNEL FREQUENCY CHANNEL FREQUENCY 1 2 3 4 5 6 2412MHz 2417MHz 2422MHz 2427MHz 2432MHz 2437MHz 7 8 9 10 11 2442MHz 2447MHz 2452MHz 2457MHz 2462MHz 7 channels are provided for 802.11n (40MHz):

CHANNEL FREQUENCY CHANNEL FREQUENCY 1 2 3 4 2422MHz 2427MHz 2432MHz 2437MHz 5 6 7 2442MHz 2447MHz 2452MHz 3.2.1 CONFIGURATION OF SYSTEM UNDER TEST Notebook

*Test Table EUT (Power from host equipment) Report No.: RF110114C02 8 Report Format Version 4.0.0 3.2.2 TEST MODE APPLICABILITY AND TESTED CHANNEL DETAIL EUT CONFIGURE MODE

-

Where APPLICABLE TO RE1G RE<1G PLC APCM

-

DESCRIPTION RE1G: Radiated Emission above 1GHz PLC: Power Line Conducted Emission RE<1G: Radiated Emission below 1GHz APCM: Antenna Port Conducted Measurement RADIATED EMISSION TEST (ABOVE 1GHz):

Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. MODE 802.11b 802.11g 802.11n (20MHz) 802.11n (40MHz) AVAILABLE CHANNEL TESTED CHANNEL MODULATION TECHNOLOGY 1 to 11 1 to 11 1 to 11 1 to 7 1, 6, 11 1, 6, 11 1, 6, 11 1, 4, 7 DSSS OFDM OFDM OFDM MODULATION DATA RATE TYPE DBPSK BPSK BPSK BPSK

(Mbps) 1.0 6.0 6.5 13.5 RADIATED EMISSION TEST (BELOW 1GHz):

Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. MODE AVAILABLE CHANNEL TESTED CHANNEL MODULATION TECHNOLOGY 802.11n (20MHz) 1 to 11 6 OFDM MODULATION DATA RATE TYPE BPSK

(Mbps) 6.5 POWER LINE CONDUCTED EMISSION TEST:

Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. MODE AVAILABLE CHANNEL TESTED CHANNEL MODULATION TECHNOLOGY 802.11n (20MHz) 1 to 11 6 OFDM MODULATION DATA RATE TYPE BPSK

(Mbps) 6.5 Report No.: RF110114C02 9 Report Format Version 4.0.0 BANDEDGE MEASUREMENT:

Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. MODE 802.11b 802.11g 802.11n (20MHz) 802.11n (40MHz) AVAILABLE CHANNEL TESTED CHANNEL MODULATION TECHNOLOGY 1 to 11 1 to 11 1 to 11 1 to 7 1, 11 1, 11 1, 11 1, 7 DSSS OFDM OFDM OFDM MODULATION DATA RATE TYPE DBPSK BPSK BPSK BPSK

(Mbps) 1.0 6.0 6.5 13.5 ANTENNA PORT CONDUCTED MEASUREMENT:

This item includes all test value of each mode, but only includes spectrum plot of worst value of each mode. Pre-Scan has been conducted to determine the worst-case mode from all possible combinations between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture). Following channel(s) was (were) selected for the final test as listed below. MODE 802.11b 802.11g 802.11n (20MHz) 802.11n (40MHz) AVAILABLE CHANNEL TESTED CHANNEL MODULATION TECHNOLOGY 1 to 11 1 to 11 1 to 11 1 to 7 1, 6, 11 1, 6, 11 1, 6, 11 1, 4, 7 DSSS OFDM OFDM OFDM MODULATION DATA RATE TYPE DBPSK BPSK BPSK BPSK

(Mbps) 1.0 6.0 6.5 13.5 TEST CONDITION:

APPLICABLE TO ENVIRONMENTAL CONDITIONS RE1G RE<1G PLC APCM 22deg. C, 65%RH, 1009 hPa 24deg. C, 65%RH, 1009 hPa 23deg. C, 66%RH, 1010 hPa 25deg. C, 64%RH, 1014 hPa 22deg. C, 65%RH, 1014 hPa INPUT POWER

(SYSTEM) 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz 120Vac, 60Hz TESTED BY Frank Wang David Huang David Huang Frank Wang Report No.: RF110114C02 10 Report Format Version 4.0.0 3.3 GENERAL DESCRIPTION OF APPLIED STANDARDS The EUT is a RF Product. According to the specifications of the manufacturer, it must comply with the requirements of the following standards:

FCC Part 15, Subpart C (15.247) ANSI C63.4-2003 ANSI C63.10-2009 All test items have been performed and recorded as per the above standards. NOTE: The EUT is also considered as a kind of computer peripheral, because the connection to computer is necessary for typical use. It has been verified to comply with the requirements of FCC Part 15, Subpart B, Class B (DoC). The test report has been issued separately. 3.4 DESCRIPTION OF SUPPORT UNITS The EUT has been tested as an independent unit together with other necessary accessories or support units. The following support units or accessories were used to form a representative test configuration during the tests. NO. PRODUCT 1 NOTEBOOK BRAND DELL MODEL NO. PP05L SERIAL NO. 12130898320 FCC ID E2K24CLNS NO. 1 NA SIGNAL CABLE DESCRIPTION OF THE ABOVE SUPPORT UNITS NOTE: All power cords of the above support units are non shielded (1.8m). Report No.: RF110114C02 11 Report Format Version 4.0.0 4. TEST TYPES AND RESULTS 4.1 RADIATED EMISSION MEASUREMENT 4.1.1 LIMITS OF RADIATED EMISSION MEASUREMENT Emissions radiated outside of the specified bands, shall be according to the general radiated limits in 15.209 as following:

FREQUENCIES

(MHz) FIELD STRENGTH

(microvolts/meter) MEASUREMENT DISTANCE

(meters) 0.009 ~ 0.490 0.490 ~ 1.705 1.705 ~ 30.0 30 ~ 88 88 ~ 216 216 ~ 960 Above 960 2400/F(kHz) 24000/F(kHz) 30 100 150 200 500 300 30 30 3 3 3 3 NOTE:

1. The lower limit shall apply at the transition frequencies. 2. Emission level (dBuV/m) = 20 log Emission level (uV/m). 3. As shown in 15.35(b), for frequencies above 1000MHz, the field strength limits are based on average detector, however, the peak field strength of any emission shall not exceed the maximum permitted average limits, specified above by more than 20dB under any condition of modulation. Report No.: RF110114C02 12 Report Format Version 4.0.0 4.1.2 TEST INSTRUMENTS DESCRIPTION &

MANUFACTURER Test Receiver ROHDE & SCHWARZ Spectrum Analyzer ROHDE & SCHWARZ BILOG Antenna SCHWARZBECK HORN Antenna SCHWARZBECK HORN Antenna SCHWARZBECK Preamplifier Agilent Preamplifier Agilent RF signal cable HUBER+SUHNNER RF signal cable Worken Software MODEL NO. SERIAL NO. DATE OF CALIBRATION DUE DATE OF CALIBRATION ESCI 100424 Aug. 04, 2010 Aug. 03, 2011 FSP40 100041 Jul. 09, 2010 Jul. 08, 2011 VULB9168 9168-156 Apr. 30, 2010 Apr. 29, 2011 BBHA 9120 D 9120D-209 Aug. 02, 2010 Aug. 01, 2011 BBHA 9170 BBHA9170243 Dec. 27, 2010 Dec. 26, 2011 8449B 3008A01910 Sep. 09, 2010 Sep. 08, 2011 8447D 2944A10638 Nov. 03, 2010 Nov. 02, 2011 SUCOFLEX 104 218190/4 231241/4 May 14, 2010 May 13, 2011 8D-FB Cable-HYCH9-01 Aug. 20, 2010 Aug. 19, 2011 ADT_Radiated_ V7.6.15.9.2 NA NA NA 2070/2080 512.835.4684 Antenna Tower EMCO Turn Table EMCO Antenna Tower &Turn Table Controller EMCO NOTE: 1. The calibration interval of the above test instruments is 12 months and the calibrations 2087-2.03 2090 NA NA NA NA NA NA NA NA are traceable to NML/ROC and NIST/USA. 2. The test was performed in HwaYa Chamber 9. 3. The horn antenna and HP preamplifier (model: 8449B) are used only for the measurement of emission frequency above 1GHz if tested. 4. The FCC Site Registration No. is 460141. 5. The IC Site Registration No. is IC 7450F-4. Report No.: RF110114C02 13 Report Format Version 4.0.0 4.1.3 TEST PROCEDURES a. The EUT was placed on the top of a rotating table 0.8 meters above the ground at a 3 meters semi-anechoic chamber. The table was rotated 360 degrees to determine the position of the highest radiation. b. The EUT was set 3 meters away from the interference-receiving antenna, which was mounted on the top of a variable-height antenna tower. c. The antenna is a broadband antenna, and its height is varied from one meter to four meters above the ground to determine the maximum value of the field strength. Both horizontal and vertical polarizations of the antenna are set to make the measurement. d. For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to heights from 1 meter to 4 meters and the rotatable table was turned from 0 degrees to 360 degrees to find the maximum reading. e. The test-receiver system was set to Peak Detect Function and Specified Bandwidth with Maximum Hold Mode. f. If the emission level of the EUT in peak mode was lower than the limit specified, then testing could be stopped and the peak values of the EUT would be reported. Otherwise the emissions would be re-tested one by one using peak, quasi-peak or average method as specified and then reported in a data sheet. NOTE:

1. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 120kHz for Quasi-peak detection at frequency below 1GHz. 2. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 3MHz for Peak detection at frequency above 1GHz. 3. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and the video bandwidth is 10Hz for Average detection (AV) at frequency above 1GHz. 4. All modes of operation were investigated and the worst-case emissions are reported. 4.1.4 DEVIATION FROM TEST STANDARD No deviation. Report No.: RF110114C02 14 Report Format Version 4.0.0 4.1.5 TEST SETUP For the actual test configuration, please refer to the attached file (Test Setup Photo). 4.1.6 EUT OPERATING CONDITIONS a. Plugged the EUT into notebook and placed them on the testing table. b. The notebook system ran a test program (provided by manufacturer) to enable EUT under transmission condition continuously at specific channel frequency. c. The necessary accessories enable the system in full functions. Report No.: RF110114C02 15 Report Format Version 4.0.0 4.1.7 TEST RESULT 802.11b EUT TEST CONDITION CHANNEL INPUT POWER

(SYSTEM) ENVIRONMENTAL CONDITIONS Channel 1 120Vac, 60 Hz 22deg. C, 65%RH 1009 hPa MEASUREMENT DETAIL FREQUENCY RANGE 1 ~ 25GHz DETECTOR Peak (PK) FUNCTION Average (AV) TESTED BY Frank Wang ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2412.00

*2412.00 4824.00 4824.00 RAW VALUE TABLE ANGLE

(Degree) EMISSION LIMIT ANTENNA HEIGHT (m)

(dBuV)

(dBuV/m) 74.0 54.0

-17.1

-10.3 MARGIN (dB) LEVEL

(dBuV/m) 56.9 PK 26.40 43.7 AV 13.20 106.7 PK 76.10 102.7 AV 72.10 53.6 PK 17.00 50.5 AV 13.90 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION 1.00 H 1.00 H 1.04 H 1.04 H 1.16 H 1.16 H 243 243 180 180 139 139

-20.4

-3.5 74.0 54.0 RAW VALUE MARGIN (dB) ANTENNA HEIGHT (m) TABLE ANGLE

(Degree) NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2412.00

*2412.00 4824.00 4824.00 LEVEL

(dBuV/m) 52.3 PK 42.6 AV 103.8 PK 99.8 AV 54.8 PK 52.8 AV LIMIT

(dBuV/m) 74.0 54.0 74.0 54.0

-21.7

-11.4

-19.2

-1.2 1.00 V 1.00 V 1.00 V 1.00 V 1.00 V 1.00 V 236 236 278 278 322 322

(dBuV) 21.80 12.10 73.20 69.20 18.20 16.20 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.60 30.60 36.60 36.60 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.60 30.60 36.60 36.60 REMARKS: 1. Emission level (dBuV/m) = Raw Value (dBuV) + Correction Factor (dB/m). 2. Correction Factor (dB/m) = Antenna Factor (dB/m) + Cable Factor (dB). 3. The other emission levels were very low against the limit. 4. Margin value = Emission level Limit value. 5. * : Fundamental frequency. Report No.: RF110114C02 16 Report Format Version 4.0.0 EUT TEST CONDITION CHANNEL INPUT POWER

(SYSTEM) ENVIRONMENTAL CONDITIONS Channel 6 120Vac, 60 Hz 22deg. C, 65%RH 1009 hPa MEASUREMENT DETAIL FREQUENCY RANGE 1 ~ 25GHz DETECTOR Peak (PK) FUNCTION Average (AV) TESTED BY Frank Wang ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2437.00

*2437.00 4874.00 4874.00 RAW VALUE TABLE ANGLE

(Degree) EMISSION LIMIT ANTENNA HEIGHT (m)

(dBuV)

(dBuV/m) 74.0 54.0

-17.2

-10.5 MARGIN (dB) LEVEL

(dBuV/m) 56.8 PK 26.30 43.5 AV 13.00 106.3 PK 75.60 102.1 AV 71.40 53.6 PK 16.90 50.4 AV 13.70 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION 1.00 H 1.00 H 1.03 H 1.03 H 1.00 H 1.00 H 230 230 180 180 194 194

-20.4

-3.6 74.0 54.0 RAW VALUE MARGIN (dB) ANTENNA HEIGHT (m) TABLE ANGLE

(Degree) NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2437.00

*2437.00 4874.00 4874.00 LEVEL

(dBuV/m) 53.7 PK 43.3 AV 103.4 PK 99.4 AV 55.4 PK 53.0 AV LIMIT

(dBuV/m) 74.0 54.0 74.0 54.0

-20.3

-10.7

-18.6

-1.0 1.00 V 1.00 V 1.00 V 1.00 V 1.10 V 1.10 V 266 266 278 278 221 221

(dBuV) 23.20 12.80 72.70 68.70 18.70 16.30 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.70 30.70 36.70 36.70 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.70 30.70 36.70 36.70 REMARKS: 1. Emission level (dBuV/m) = Raw Value (dBuV) + Correction Factor (dB/m). 2. Correction Factor (dB/m) = Antenna Factor (dB/m) + Cable Factor (dB). 3. The other emission levels were very low against the limit. 4. Margin value = Emission level Limit value. 5. * : Fundamental frequency. Report No.: RF110114C02 17 Report Format Version 4.0.0 EUT TEST CONDITION CHANNEL INPUT POWER

(SYSTEM) ENVIRONMENTAL CONDITIONS Channel 11 120Vac, 60 Hz 22deg. C, 65%RH 1009 hPa MEASUREMENT DETAIL FREQUENCY RANGE 1 ~ 25GHz DETECTOR Peak (PK) FUNCTION Average (AV) TESTED BY Frank Wang ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M NO. FREQ. (MHz) 1 2 3 4 5 6

*2462.00

*2462.00 2483.50 2483.50 4924.00 4924.00 RAW VALUE TABLE ANGLE

(Degree) EMISSION LIMIT ANTENNA HEIGHT (m)

(dBuV)

(dBuV/m) MARGIN (dB) LEVEL

(dBuV/m) 106.5 PK 75.70 102.7 AV 71.90 54.3 PK 23.40 44.5 AV 13.60 55.4 PK 18.60 53.0 AV 16.20 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION 1.06 H 1.06 H 1.00 H 1.00 H 1.07 H 1.07 H 177 177 221 221 188 188

-19.7

-9.5

-18.6

-1.0 74.0 54.0 74.0 54.0 RAW VALUE MARGIN (dB) ANTENNA HEIGHT (m) TABLE ANGLE

(Degree) NO. FREQ. (MHz) 1 2 3 4 5 6

*2462.00

*2462.00 2483.50 2483.50 4924.00 4924.00 LEVEL

(dBuV/m) 103.0 PK 99.0 AV 53.6 PK 44.0 AV 55.2 PK 52.8 AV LIMIT

(dBuV/m) 74.0 54.0 74.0 54.0

-20.4

-10.0

-18.8

-1.2 1.51 V 1.51 V 1.05 V 1.05 V 1.12 V 1.12 V 274 274 163 163 278 278

(dBuV) 72.20 68.20 22.70 13.10 18.40 16.00 CORRECTION FACTOR

(dB/m) 30.80 30.80 30.90 30.90 36.80 36.80 CORRECTION FACTOR

(dB/m) 30.80 30.80 30.90 30.90 36.80 36.80 REMARKS: 1. Emission level (dBuV/m) = Raw Value (dBuV) + Correction Factor (dB/m). 2. Correction Factor (dB/m) = Antenna Factor (dB/m) + Cable Factor (dB). 3. The other emission levels were very low against the limit. 4. Margin value = Emission level Limit value. 5. * : Fundamental frequency. Report No.: RF110114C02 18 Report Format Version 4.0.0 802.11g EUT TEST CONDITION CHANNEL INPUT POWER

(SYSTEM) ENVIRONMENTAL CONDITIONS Channel 1 120Vac, 60 Hz 24deg. C, 65%RH 1009 hPa MEASUREMENT DETAIL FREQUENCY RANGE 1 ~ 25GHz DETECTOR Peak (PK) FUNCTION Average (AV) TESTED BY Frank Wang ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2412.00

*2412.00 4824.00 4824.00 RAW VALUE TABLE ANGLE

(Degree) EMISSION LIMIT ANTENNA HEIGHT (m)

(dBuV)

-8.9

-3.5

(dBuV/m) 74.0 54.0 MARGIN (dB) LEVEL

(dBuV/m) 34.60 65.1 PK 20.00 50.5 AV 76.90 107.5 PK 67.20 97.8 AV 20.80 57.4 PK 42.2 AV 5.60 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION 1.08 H 1.08 H 1.07 H 1.07 H 1.00 H 1.00 H 355 355 354 354 12 12

-16.6

-11.8 74.0 54.0 RAW VALUE MARGIN (dB) ANTENNA HEIGHT (m) TABLE ANGLE

(Degree) NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2412.00

*2412.00 4824.00 4824.00 LEVEL

(dBuV/m) 62.8 PK 48.4 AV 104.0 PK 94.3 AV 57.9 PK 43.2 AV LIMIT

(dBuV/m) 74.0 54.0 74.0 54.0

-11.2

-5.6

-16.1

-10.8 1.00 V 1.00 V 1.00 V 1.00 V 1.00 V 1.00 V 95 95 95 95 36 36

(dBuV) 32.30 17.90 73.40 63.70 21.30 6.60 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.60 30.60 36.60 36.60 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.60 30.60 36.60 36.60 REMARKS: 1. Emission level (dBuV/m) = Raw Value (dBuV) + Correction Factor (dB/m). 2. Correction Factor (dB/m) = Antenna Factor (dB/m) + Cable Factor (dB). 3. The other emission levels were very low against the limit. 4. Margin value = Emission level Limit value. 5. * : Fundamental frequency. Report No.: RF110114C02 19 Report Format Version 4.0.0 EUT TEST CONDITION CHANNEL INPUT POWER

(SYSTEM) ENVIRONMENTAL CONDITIONS Channel 6 120Vac, 60 Hz 24deg. C, 65%RH 1009 hPa MEASUREMENT DETAIL FREQUENCY RANGE 1 ~ 25GHz DETECTOR Peak (PK) FUNCTION Average (AV) TESTED BY Frank Wang ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2437.00

*2437.00 4874.00 4874.00 RAW VALUE TABLE ANGLE

(Degree) EMISSION LIMIT ANTENNA HEIGHT (m)

(dBuV)

(dBuV/m) 74.0 54.0

-16.5

-10.2 MARGIN (dB) LEVEL

(dBuV/m) 27.00 57.5 PK 13.30 43.8 AV 76.40 107.1 PK 66.60 97.3 AV 21.70 58.4 PK 43.5 AV 6.80 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION 1.06 H 1.06 H 1.06 H 1.06 H 1.00 H 1.00 H 347 347 347 347 141 141

-15.6

-10.5 74.0 54.0 RAW VALUE MARGIN (dB) ANTENNA HEIGHT (m) TABLE ANGLE

(Degree) NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2437.00

*2437.00 4874.00 4874.00 LEVEL

(dBuV/m) 52.1 PK 40.2 AV 104.1 PK 94.1 AV 54.1 PK 40.3 AV LIMIT

(dBuV/m) 74.0 54.0 74.0 54.0

-21.9

-13.8

-19.9

-13.7 1.00 V 1.00 V 1.00 V 1.00 V 1.00 V 1.00 V 87 87 87 87 266 266

(dBuV) 21.60 9.70 73.40 63.40 17.40 3.60 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.70 30.70 36.70 36.70 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.70 30.70 36.70 36.70 REMARKS: 1. Emission level (dBuV/m) = Raw Value (dBuV) + Correction Factor (dB/m). 2. Correction Factor (dB/m) = Antenna Factor (dB/m) + Cable Factor (dB). 3. The other emission levels were very low against the limit. 4. Margin value = Emission level Limit value. 5. * : Fundamental frequency. Report No.: RF110114C02 20 Report Format Version 4.0.0 EUT TEST CONDITION CHANNEL INPUT POWER

(SYSTEM) ENVIRONMENTAL CONDITIONS Channel 11 120Vac, 60 Hz 24deg. C, 65%RH 1009 hPa MEASUREMENT DETAIL FREQUENCY RANGE 1 ~ 25GHz DETECTOR Peak (PK) FUNCTION Average (AV) TESTED BY Frank Wang ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M NO. FREQ. (MHz) 1 2 3 4 5 6

*2462.00

*2462.00 2483.50 2483.50 4924.00 4924.00 RAW VALUE TABLE ANGLE

(Degree) EMISSION LIMIT ANTENNA HEIGHT (m)

(dBuV)

(dBuV/m) MARGIN (dB) LEVEL

(dBuV/m) 75.50 106.3 PK 65.90 96.7 AV 34.90 65.8 PK 20.90 51.8 AV 20.60 57.4 PK 42.2 AV 5.40 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION 1.05 H 1.05 H 1.02 H 1.02 H 1.00 H 1.00 H 358 358 354 354 13 13

-8.2

-2.2

-16.6

-11.8 74.0 54.0 74.0 54.0 RAW VALUE MARGIN (dB) ANTENNA HEIGHT (m) TABLE ANGLE

(Degree) NO. FREQ. (MHz) 1 2 3 4 5 6

*2462.00

*2462.00 2483.50 2483.50 4924.00 4924.00 LEVEL

(dBuV/m) 102.2 PK 92.2 AV 62.2 PK 48.1 AV 58.0 PK 42.7 AV LIMIT

(dBuV/m) 74.0 54.0 74.0 54.0

-11.8

-5.9

-16.0

-11.3 1.00 V 1.00 V 1.00 V 1.00 V 1.00 V 1.00 V 97 97 97 97 41 41

(dBuV) 71.40 61.40 31.30 17.20 21.20 5.90 CORRECTION FACTOR

(dB/m) 30.80 30.80 30.90 30.90 36.80 36.80 CORRECTION FACTOR

(dB/m) 30.80 30.80 30.90 30.90 36.80 36.80 REMARKS: 1. Emission level (dBuV/m) = Raw Value (dBuV) + Correction Factor (dB/m). 2. Correction Factor (dB/m) = Antenna Factor (dB/m) + Cable Factor (dB). 3. The other emission levels were very low against the limit. 4. Margin value = Emission level Limit value. 5. * : Fundamental frequency. Report No.: RF110114C02 21 Report Format Version 4.0.0 802.11n (20MHz) EUT TEST CONDITION CHANNEL INPUT POWER

(SYSTEM) ENVIRONMENTAL CONDITIONS Channel 1 120Vac, 60 Hz 24deg. C, 65%RH 1009 hPa MEASUREMENT DETAIL FREQUENCY RANGE 1 ~ 25GHz DETECTOR Peak (PK) FUNCTION Average (AV) TESTED BY Frank Wang ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2412.00

*2412.00 4824.00 4824.00 RAW VALUE TABLE ANGLE

(Degree) EMISSION LIMIT ANTENNA HEIGHT (m)

(dBuV)

-5.0

-3.4

(dBuV/m) 74.0 54.0 MARGIN (dB) LEVEL

(dBuV/m) 38.50 69.0 PK 20.10 50.6 AV 75.70 106.3 PK 65.40 96.0 AV 22.00 58.6 PK 40.6 AV 4.00 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION 1.39 H 1.39 H 1.08 H 1.08 H 1.26 H 1.26 H 24 24 18 18 112 112

-15.4

-13.4 74.0 54.0 RAW VALUE MARGIN (dB) ANTENNA HEIGHT (m) TABLE ANGLE

(Degree) NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2412.00

*2412.00 4824.00 4824.00 LEVEL

(dBuV/m) 65.8 PK 47.9 AV 101.9 PK 92.0 AV 57.2 PK 40.7 AV LIMIT

(dBuV/m) 74.0 54.0 74.0 54.0

-8.2

-6.1

-16.8

-13.3 1.44 V 1.44 V 1.42 V 1.42 V 1.22 V 1.22 V 336 336 338 338 112 112

(dBuV) 35.30 17.40 71.30 61.40 20.60 4.10 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.60 30.60 36.60 36.60 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.60 30.60 36.60 36.60 REMARKS: 1. Emission level (dBuV/m) = Raw Value (dBuV) + Correction Factor (dB/m). 2. Correction Factor (dB/m) = Antenna Factor (dB/m) + Cable Factor (dB). 3. The other emission levels were very low against the limit. 4. Margin value = Emission level Limit value. 5. * : Fundamental frequency. Report No.: RF110114C02 22 Report Format Version 4.0.0 EUT TEST CONDITION CHANNEL INPUT POWER

(SYSTEM) ENVIRONMENTAL CONDITIONS Channel 6 120Vac, 60 Hz 24deg. C, 65%RH 1009 hPa MEASUREMENT DETAIL FREQUENCY RANGE 1 ~ 25GHz DETECTOR Peak (PK) FUNCTION Average (AV) TESTED BY Frank Wang ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2437.00

*2437.00 4874.00 4874.00 RAW VALUE TABLE ANGLE

(Degree) EMISSION LIMIT ANTENNA HEIGHT (m)

(dBuV)

(dBuV/m) 74.0 54.0

-20.7

-11.8 MARGIN (dB) LEVEL

(dBuV/m) 22.80 53.3 PK 11.70 42.2 AV 76.00 106.7 PK 65.80 96.5 AV 23.60 60.3 PK 43.7 AV 7.00 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION 1.08 H 1.08 H 1.08 H 1.08 H 1.20 H 1.20 H 54 54 36 36 142 142

-13.7

-10.3 74.0 54.0 RAW VALUE MARGIN (dB) ANTENNA HEIGHT (m) TABLE ANGLE

(Degree) NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2437.00

*2437.00 4874.00 4874.00 LEVEL

(dBuV/m) 49.5 PK 40.6 AV 102.2 PK 92.1 AV 52.3 PK 40.3 AV LIMIT

(dBuV/m) 74.0 54.0 74.0 54.0

-24.5

-13.4

-21.7

-13.7 1.40 V 1.40 V 1.40 V 1.42 V 1.20 V 1.20 V 326 326 326 326 137 137

(dBuV) 19.00 10.10 71.50 61.40 15.60 3.60 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.70 30.70 36.70 36.70 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.70 30.70 36.70 36.70 REMARKS: 1. Emission level (dBuV/m) = Raw Value (dBuV) + Correction Factor (dB/m). 2. Correction Factor (dB/m) = Antenna Factor (dB/m) + Cable Factor (dB). 3. The other emission levels were very low against the limit. 4. Margin value = Emission level Limit value. 5. * : Fundamental frequency. Report No.: RF110114C02 23 Report Format Version 4.0.0 EUT TEST CONDITION CHANNEL INPUT POWER

(SYSTEM) ENVIRONMENTAL CONDITIONS Channel 11 120Vac, 60 Hz 24deg. C, 65%RH 1009 hPa MEASUREMENT DETAIL FREQUENCY RANGE 1 ~ 25GHz DETECTOR Peak (PK) FUNCTION Average (AV) TESTED BY Frank Wang ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M NO. FREQ. (MHz) 1 2 3 4 5 6

*2462.00

*2462.00 2483.50 2483.50 4924.00 4924.00 RAW VALUE TABLE ANGLE

(Degree) EMISSION LIMIT ANTENNA HEIGHT (m)

(dBuV)

(dBuV/m) MARGIN (dB) LEVEL

(dBuV/m) 74.70 105.5 PK 64.60 95.4 AV 38.40 69.3 PK 21.40 52.3 AV 21.50 58.3 PK 40.3 AV 3.50 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION 1.05 H 1.05 H 1.06 H 1.06 H 1.00 H 1.00 H 63 63 174 174 149 149

-4.7

-1.7

-15.7

-13.7 74.0 54.0 74.0 54.0 RAW VALUE MARGIN (dB) ANTENNA HEIGHT (m) TABLE ANGLE

(Degree) NO. FREQ. (MHz) 1 2 3 4 5 6

*2462.00

*2462.00 2483.50 2483.50 4924.00 4924.00 LEVEL

(dBuV/m) 101.6 PK 92.4 AV 64.7 PK 48.7 AV 57.1 PK 40.1 AV LIMIT

(dBuV/m) 74.0 54.0 74.0 54.0

-9.3

-5.3

-16.9

-13.9 1.41 V 1.41 V 1.00 V 1.00 V 1.00 V 1.00 V 306 306 275 275 187 187

(dBuV) 70.80 61.60 33.80 17.80 20.30 3.30 CORRECTION FACTOR

(dB/m) 30.80 30.80 30.90 30.90 36.80 36.80 CORRECTION FACTOR

(dB/m) 30.80 30.80 30.90 30.90 36.80 36.80 REMARKS: 1. Emission level (dBuV/m) = Raw Value (dBuV) + Correction Factor (dB/m). 2. Correction Factor (dB/m) = Antenna Factor (dB/m) + Cable Factor (dB). 3. The other emission levels were very low against the limit. 4. Margin value = Emission level Limit value. 5. * : Fundamental frequency. Report No.: RF110114C02 24 Report Format Version 4.0.0 802.11n (40MHz) EUT TEST CONDITION CHANNEL INPUT POWER

(SYSTEM) ENVIRONMENTAL CONDITIONS Channel 1 120Vac, 60 Hz 24deg. C, 65%RH 1009 hPa MEASUREMENT DETAIL FREQUENCY RANGE 1 ~ 25GHz DETECTOR Peak (PK) FUNCTION Average (AV) TESTED BY Frank Wang ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2422.00

*2422.00 4844.00 4844.00 RAW VALUE TABLE ANGLE

(Degree) EMISSION LIMIT ANTENNA HEIGHT (m)

(dBuV)

-6.3

-2.5

(dBuV/m) 74.0 54.0 MARGIN (dB) LEVEL

(dBuV/m) 67.7 PK 37.20 51.5 AV 21.00 101.6 PK 71.00 91.5 AV 60.90 43.3 PK 6.70 29.0 AV

-7.60 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION 1.00 H 1.00 H 1.03 H 1.03 H 1.00 H 1.00 H 16 16 151 151 136 136

-30.7

-25.0 74.0 54.0 RAW VALUE MARGIN (dB) ANTENNA HEIGHT (m) TABLE ANGLE

(Degree) NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2422.00

*2422.00 4844.00 4844.00 LEVEL

(dBuV/m) 66.2 PK 50.8 AV 98.7 PK 89.4 AV 41.3 PK 27.9 AV LIMIT

(dBuV/m) 74.0 54.0 74.0 54.0

-7.8

-3.2

-32.7

-26.1 1.03 V 1.03 V 1.04 V 1.04 V 1.00 V 1.00 V 274 274 283 283 226 226

(dBuV) 35.70 20.30 68.10 58.80 4.70

-8.70 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.60 30.60 36.60 36.60 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.60 30.60 36.60 36.60 REMARKS: 1. Emission level (dBuV/m) = Raw Value (dBuV) + Correction Factor (dB/m). 2. Correction Factor (dB/m) = Antenna Factor (dB/m) + Cable Factor (dB). 3. The other emission levels were very low against the limit. 4. Margin value = Emission level Limit value. 5. * : Fundamental frequency. Report No.: RF110114C02 25 Report Format Version 4.0.0 EUT TEST CONDITION CHANNEL INPUT POWER

(SYSTEM) ENVIRONMENTAL CONDITIONS Channel 4 120Vac, 60 Hz 24deg. C, 65%RH 1009 hPa MEASUREMENT DETAIL FREQUENCY RANGE 1 ~ 25GHz DETECTOR Peak (PK) FUNCTION Average (AV) TESTED BY Frank Wang ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2437.00

*2437.00 4874.00 4874.00 RAW VALUE TABLE ANGLE

(Degree) EMISSION LIMIT ANTENNA HEIGHT (m)

(dBuV)

(dBuV/m) 74.0 54.0

-10.4

-5.0 MARGIN (dB) LEVEL

(dBuV/m) 63.6 PK 33.10 49.0 AV 18.50 101.8 PK 71.10 91.8 AV 61.10 48.7 PK 12.00 34.6 AV

-2.10 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION 1.03 H 1.03 H 1.03 H 1.03 H 1.00 H 1.00 H 162 162 264 162 134 134

-25.3

-19.4 74.0 54.0 RAW VALUE MARGIN (dB) ANTENNA HEIGHT (m) TABLE ANGLE

(Degree) NO. FREQ. (MHz) 1 2 3 4 5 6 2390.00 2390.00

*2437.00

*2437.00 4874.00 4874.00 LEVEL

(dBuV/m) 61.4 PK 46.3 AV 98.8 PK 89.7 AV 41.3 PK 28.3 AV LIMIT

(dBuV/m) 74.0 54.0 74.0 54.0

-12.6

-7.7

-32.7

-25.7 1.03 V 1.03 V 1.03 V 1.03 V 1.00 V 1.00 V 264 264 264 264 204 204

(dBuV) 30.90 15.80 68.10 59.00 4.60

-8.40 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.70 30.70 36.70 36.70 CORRECTION FACTOR

(dB/m) 30.50 30.50 30.70 30.70 36.70 36.70 REMARKS: 1. Emission level (dBuV/m) = Raw Value (dBuV) + Correction Factor (dB/m). 2. Correction Factor (dB/m) = Antenna Factor (dB/m) + Cable Factor (dB). 3. The other emission levels were very low against the limit. 4. Margin value = Emission level Limit value. 5. * : Fundamental frequency. Report No.: RF110114C02 26 Report Format Version 4.0.0 EUT TEST CONDITION CHANNEL INPUT POWER

(SYSTEM) ENVIRONMENTAL CONDITIONS Channel 7 120Vac, 60 Hz 24deg. C, 65%RH 1009 hPa MEASUREMENT DETAIL FREQUENCY RANGE 1 ~ 25GHz DETECTOR Peak (PK) FUNCTION Average (AV) TESTED BY Frank Wang ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M NO. FREQ. (MHz) 1 2 3 4 5 6

*2452.00

*2452.00 2483.50 2483.50 4904.00 4904.00 RAW VALUE TABLE ANGLE

(Degree) EMISSION LIMIT ANTENNA HEIGHT (m)

(dBuV)

(dBuV/m) MARGIN (dB) LEVEL

(dBuV/m) 99.2 PK 68.40 89.4 AV 58.60 67.5 PK 36.60 52.6 AV 21.70 43.2 PK 6.40 29.5 AV

-7.30 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION 1.04 H 1.04 H 1.33 H 1.33 H 1.00 H 1.00 H 162 162 19 19 165 165

-6.5

-1.4

-30.8

-24.5 74.0 54.0 74.0 54.0 RAW VALUE MARGIN (dB) ANTENNA HEIGHT (m) TABLE ANGLE

(Degree) NO. FREQ. (MHz) 1 2 3 4 5 6

*2452.00

*2452.00 2483.50 2483.50 4904.00 4904.00 LEVEL

(dBuV/m) 95.8 PK 86.0 AV 67.1 PK 50.9 AV 41.1 PK 28.0 AV LIMIT

(dBuV/m) 74.0 54.0 74.0 54.0

-6.9

-3.1

-32.9

-26.0 1.03 V 1.03 V 1.28 V 1.28 V 1.00 V 1.00 V 254 254 4 4 185 185

(dBuV) 65.00 55.20 36.20 20.00 4.30

-8.80 CORRECTION FACTOR

(dB/m) 30.80 30.80 30.90 30.90 36.80 36.80 CORRECTION FACTOR

(dB/m) 30.80 30.80 30.90 30.90 36.80 36.80 REMARKS: 1. Emission level (dBuV/m) = Raw Value (dBuV) + Correction Factor (dB/m). 2. Correction Factor (dB/m) = Antenna Factor (dB/m) + Cable Factor (dB). 3. The other emission levels were very low against the limit. 4. Margin value = Emission level Limit value. 5. * : Fundamental frequency. Report No.: RF110114C02 27 Report Format Version 4.0.0 BELOW 1GHz WORST-CASE DATA802.11n (20MHz) EUT TEST CONDITION CHANNEL INPUT POWER

(SYSTEM) ENVIRONMENTAL CONDITIONS Channel 6 120Vac, 60 Hz 23deg. C, 66%RH 1010 hPa MEASUREMENT DETAIL FREQUENCY RANGE Below 1000MHz DETECTOR FUNCTION Quasi-Peak TESTED BY Frank Wang ANTENNA POLARITY & TEST DISTANCE: HORIZONTAL AT 3 M NO. FREQ. (MHz) 1 2 3 4 5 6 300.16 480.52 543.19 640.41 753.18 803.73 RAW VALUE TABLE ANGLE

(Degree) EMISSION LIMIT ANTENNA HEIGHT (m)

(dBuV)

(dBuV/m) MARGIN (dB) LEVEL

(dBuV/m) 38.1 QP 24.40 42.4 QP 23.70 34.4 QP 13.80 31.7 QP 9.40 35.9 QP 11.80 38.9 QP 13.50 ANTENNA POLARITY & TEST DISTANCE: VERTICAL AT 3 M EMISSION 1.00 H 1.50 H 1.50 H 1.25 H 1.25 H 2.00 H

-7.9

-3.6

-11.6

-14.3

-10.1

-7.1 46.0 46.0 46.0 46.0 46.0 46.0 217 241 223 214 205 226 RAW VALUE MARGIN (dB) ANTENNA HEIGHT (m) TABLE ANGLE

(Degree) NO. FREQ. (MHz) 1 2 3 4 5 6 158.22 234.05 432.37 480.97 642.35 795.95 LEVEL

(dBuV/m) 32.3 QP 28.2 QP 34.3 QP 43.6 QP 34.3 QP 41.6 QP LIMIT

(dBuV/m) 43.5 46.0 46.0 46.0 46.0 46.0

-11.2

-17.8

-11.7

-2.4

-11.7

-4.4 1.00 V 1.00 V 1.25 V 1.00 V 1.00 V 1.25 V 109 94 304 289 10 253

(dBuV) 18.50 16.00 17.10 24.90 12.00 16.30 CORRECTION FACTOR

(dB/m) 13.70 18.70 20.60 22.30 24.10 25.40 CORRECTION FACTOR

(dB/m) 13.80 12.20 17.20 18.70 22.30 25.30 REMARKS: 1. Emission level (dBuV/m) = Raw Value (dBuV) + Correction Factor (dB/m). 2. Correction Factor (dB/m) = Antenna Factor (dB/m) + Cable Factor (dB). 3. The other emission levels were very low against the limit. 4. Margin value = Emission level Limit value. Report No.: RF110114C02 28 Report Format Version 4.0.0 4.2 CONDUCTED EMISSION MEASUREMENT 4.2.1 LIMITS OF CONDUCTED EMISSION MEASUREMENT FREQUENCY OF EMISSION (MHz) CONDUCTED LIMIT (dBV) 0.15 ~ 0.5 0.5 ~ 5 5 ~ 30 Quasi-peak 66 to 56 56 60 Average 56 to 46 46 50 NOTE: 1. The lower limit shall apply at the transition frequencies. 2. The limit decreases in line with the logarithm of the frequency in the range of 0.15 to 0.50MHz. 3. All emanations from a class A/B digital device or system, including any network of conductors and apparatus connected thereto, shall not exceed the level of field strengths specified above. 4.2.2 TEST INSTRUMENTS DESCRIPTION &

MANUFACTURER MODEL NO. SERIAL NO. DATE OF CALIBRATION DUE DATE OF CALIBRATION Nov. 29, 2011 5D-FB 100291 ESCS30 ESH3-Z5 Nov. 30, 2010 Cable-HYC01-01 Dec. 30, 2010 Test Receiver ROHDE & SCHWARZ RF signal cable Woken LISN ROHDE & SCHWARZ LISN ROHDE & SCHWARZ V-LISN SCHWARZBECK LISN ROHDE & SCHWARZ Software ADT NOTE: 1. The calibration interval of the above test instruments is 12 months and the calibrations Feb. 10, 2010 Jun. 28, 2010 NNBL 8226-2 Jun. 11, 2010 Jul. 12, 2010 ADT_Cond_ 835239/001 8226-142 ESH3-Z5 ENV216 100312 100072 V7.3.7 NA NA NA Jun. 27, 2011 Feb. 09, 2011 Jun. 10, 2011 Dec. 29, 2011 Jul. 11, 2011 are traceable to NML/ROC and NIST/USA. 2. The test was performed in HwaYa Shielded Room 1. 3. The VCCI Site Registration No. is C-2040. Report No.: RF110114C02 29 Report Format Version 4.0.0 4.2.3 TEST PROCEDURES a. The EUT was placed 0.4 meters from the conducting wall of the shielded room with EUT being connected to the power mains through a line impedance stabilization network (LISN). Other support units were connected to the power mains through another LISN. The two LISNs provide 50 ohm/ 50uH of coupling impedance for the measuring instrument. b. Both lines of the power mains connected to the EUT were checked for maximum conducted interference. c. The frequency range from 150kHz to 30MHz was searched. Emission levels under (Limit - 20dB) was not recorded. NOTE: All modes of operation were investigated and the worst-case emissions are reported. 4.2.4 DEVIATION FROM TEST STANDARD No deviation. Report No.: RF110114C02 30 Report Format Version 4.0.0 4.2.5 TEST SETUP Ve rtic a l G ro u n d R e fe re n c e P la n e Te s t R e c e iv e r 4 0 c m E U T L IS N 8 0 c m H o riz o n ta l G ro u n d R e fe re n c e P la n e N o te : 1 .S u p p o rt u n its w e re c o n n e c te d to s e c o n d L IS N . 2 .B o th o f L IS N s (A M N ) a re 8 0 c m fro m E U T a n d a t le a s t 8 0 fro m o th e r u n its a n d o th e r m e ta l p la n e s For the actual test configuration, please refer to the attached file (Test Setup Photo). 4.2.6 EUT OPERATING CONDITIONS Same as 4.1.6. Report No.: RF110114C02 31 Report Format Version 4.0.0 4.2.7 TEST RESULTS CONDUCTED WORST-CASE DATA802.11n (20MHz) PHASE Line 1 6dB BANDWIDTH 9kHz No 1 2 3 4 5 6 Freq.

[MHz]

0.173 0.232 0.295 0.529 2.832 11.145 Corr. Reading Value Factor

(dB) 0.14 0.14 0.14 0.16 0.28 0.88

[dB (uV)]

AV.

-

-

-

-

-

-

Q.P. 41.06 32.45 31.71 27.57 19.96 25.80 Emission Level

[dB (uV)]

AV.

-

-

-

-

-

-

Q.P. 41.20 32.59 31.85 27.73 20.24 26.68 Limit

[dB (uV)]

AV. 54.79 52.38 50.40 46.00 46.00 50.00 Q.P. 64.79 62.38 60.40 56.00 56.00 60.00 Margin

(dB) Q.P.

-23.59

-29.79

-28.54

-28.27

-35.76

-33.32 AV.

-

-

-

-

-

-

REMARKS: 1. Q.P. and AV. are abbreviations of quasi-peak and average individually. 2. "-": The Quasi-peak reading value also meets average limit and measurement with the average detector is unnecessary. 3. The emission levels of other frequencies were very low against the limit. 4. Margin value = Emission level - Limit value 5. Correction factor = Insertion loss + Cable loss 6. Emission Level = Correction Factor + Reading Value. Report No.: RF110114C02 32 Report Format Version 4.0.0 PHASE Line 2 6dB BANDWIDTH 9kHz No 1 2 3 4 5 6 Freq.

[MHz]

0.170 0.181 0.470 1.059 3.004 11.074 Corr. Reading Value Factor

(dB) 0.13 0.13 0.14 0.18 0.27 0.78

[dB (uV)]

AV.

-

-

-

-

-

-

Q.P. 31.34 39.36 30.51 21.62 21.46 28.88 Emission Level

[dB (uV)]

AV.

-

-

-

-

-

-

Q.P. 31.47 39.49 30.65 21.80 21.73 29.66 Limit

[dB (uV)]

AV. 54.98 54.43 46.51 46.00 46.00 50.00 Q.P. 64.98 64.43 56.51 56.00 56.00 60.00 Margin

(dB) Q.P.

-33.52

-24.94

-25.85

-34.20

-34.27

-30.34 AV.

-

-

-

-

-

-

REMARKS: 1. Q.P. and AV. are abbreviations of quasi-peak and average individually. 2. "-": The Quasi-peak reading value also meets average limit and measurement with the average detector is unnecessary. 3. The emission levels of other frequencies were very low against the limit. 4. Margin value = Emission level - Limit value 5. Correction factor = Insertion loss + Cable loss 6. Emission Level = Correction Factor + Reading Value. Report No.: RF110114C02 33 Report Format Version 4.0.0 4.3 6dB BANDWIDTH MEASUREMENT 4.3.1 LIMITS OF 6dB BANDWIDTH MEASUREMENT The minimum of 6dB Bandwidth Measurement is 0.5 MHz. 4.3.2 TEST INSTRUMENTS DESCRIPTION &

MANUFACTURER SPECTRUM ANALYZER R&S MODEL NO. SERIAL NO. DATE OF CALIBRATION DUE DATE OF CALIBRATION FSP40 100040 Jul. 17, 2010 Jul. 16, 2011 NOTE: The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML/ROC and NIST/USA. 4.3.3 TEST PROCEDURE The transmitter output was connected to the spectrum analyzer through an attenuator. The bandwidth of the fundamental frequency was measured by spectrum analyzer with 100kHz RBW and 300kHz VBW. The 6dB bandwidth is defined as the total spectrum the power of which is higher than peak power minus 6dB. 4.3.4 DEVIATION FROM TEST STANDARD No deviation. Report No.: RF110114C02 34 Report Format Version 4.0.0 4.3.5 TEST SETUP EUT SPECTRUM ANALYZER 20dB ATTENUATION PAD 4.3.6 EUT OPERATING CONDITIONS The software provided by client to enable the EUT under transmission condition continuously at lowest, middle and highest channel frequencies individually. Report No.: RF110114C02 35 Report Format Version 4.0.0 4.3.7 TEST RESULTS 802.11b CHANNEL 1 6 11 CH 1 CHANNEL FREQUENCY

(MHz) 2412 2437 2462 6dB BANDWIDTH

(MHz) MINIMUM LIMIT

(MHz) PASS / FAIL 10.14 10.12 10.14 0.5 0.5 0.5 PASS PASS PASS Report No.: RF110114C02 36 Report Format Version 4.0.0 802.11g CHANNEL CHANNEL FREQUENCY

(MHz) 6dB BANDWIDTH

(MHz) MINIMUM LIMIT

(MHz) PASS / FAIL 2412 2437 2462 16.59 16.62 16.59 0.5 0.5 0.5 PASS PASS PASS 1 6 11 CH 6 Report No.: RF110114C02 37 Report Format Version 4.0.0 6dB BANDWIDTH

(MHz) MINIMUM LIMIT

(MHz) PASS / FAIL 17.80 17.84 17.79 0.5 0.5 0.5 PASS PASS PASS 802.11n (20MHz) CHANNEL 1 6 11 CH 6 CHANNEL FREQUENCY

(MHz) 2412 2437 2462 Report No.: RF110114C02 38 Report Format Version 4.0.0 802.11n (40MHz) CHANNEL CHANNEL FREQUENCY

(MHz) 6dB BANDWIDTH

(MHz) MINIMUM LIMIT

(MHz) PASS / FAIL 2422 2437 2452 36.53 36.56 36.54 0.5 0.5 0.5 PASS PASS PASS 1 4 7 CH 4 Report No.: RF110114C02 39 Report Format Version 4.0.0 4.4 MAXIMUM OUTPUT POWER 4.4.1 LIMITS OF MAXIMUM OUTPUT POWER MEASUREMENT The Maximum Output Power Measurement is 30dBm. 4.4.2 INSTRUMENTS DESCRIPTION &

MANUFACTURER High Speed Peak Power Meter MODEL NO. SERIAL NO. DATE OF CALIBRATION DUE DATE OF CALIBRATION ML2495A 0842014 Apr. 21, 2010 Apr. 20, 2011 Power Sensor MA2411B 0738404 Apr. 21, 2010 Apr. 20, 2011 NOTE:

1. The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML/ROC and NIST/USA. 2. Measurement Bandwidth of ML2495A is 65MHz greater than 6dB bandwidth of emission. 4.4.3 TEST PROCEDURES A power sensor was used on the output port of the EUT. A power meter was used to read the response of the power sensor. Record the power level. Report No.: RF110114C02 40 Report Format Version 4.0.0 4.4.4 DEVIATION FROM TEST STANDARD No deviation. 4.4.5 TEST SETUP EUT 20dB ATTENUATION PAD Power Sensor Power Meter 4.4.6 EUT OPERATING CONDITIONS Same as Item 4.3.6. Report No.: RF110114C02 41 Report Format Version 4.0.0 4.4.7 TEST RESULTS 802.11b CHANNEL 1 6 11 802.11g CHANNEL 1 6 11 CHANNEL FREQUENCY

(MHz) 2412 2437 2462 CHANNEL FREQUENCY

(MHz) 2412 2437 2462 802.11n (20MHz) CHANNEL 1 6 11 CHANNEL FREQUENCY

(MHz) 2412 2437 2462 802.11n (40MHz) CHANNEL FREQUENCY

(MHz) 2422 2437 2452 CHANNEL 1 4 7 POWER OUTPUT (mW) POWER OUTPUT (dBm) POWER LIMIT

(dBm) PASS/FAIL 102.3 87.1 89.1 20.1 19.4 19.5 30 30 30 PASS PASS PASS POWER OUTPUT (mW) POWER OUTPUT (dBm) POWER LIMIT

(dBm) PASS/FAIL 389.0 398.1 263.0 25.9 26.0 24.2 30 30 30 PASS PASS PASS POWER OUTPUT (mW) POWER OUTPUT (dBm) POWER LIMIT

(dBm) PASS/FAIL 389.0 407.4 257.0 25.9 26.1 24.1 30 30 30 PASS PASS PASS POWER OUTPUT (mW) POWER OUTPUT (dBm) POWER LIMIT

(dBm) PASS/FAIL 354.8 363.1 239.9 25.5 25.6 23.8 30 30 30 PASS PASS PASS Report No.: RF110114C02 42 Report Format Version 4.0.0 4.5 POWER SPECTRAL DENSITY MEASUREMENT 4.5.1 LIMITS OF POWER SPECTRAL DENSITY MEASUREMENT The Maximum of Power Spectral Density Measurement is 8dBm. 4.5.2 TEST INSTRUMENTS DESCRIPTION &

MANUFACTURER SPECTRUM ANALYZER R&S MODEL NO. SERIAL NO. DATE OF CALIBRATION DUE DATE OF CALIBRATION FSP40 100040 Jul. 17, 2010 Jul. 16, 2011 NOTE: The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML/ROC and NIST/USA. 4.5.3 TEST PROCEDURE The transmitter output was connected to the spectrum analyzer through an attenuator, the bandwidth of the fundamental frequency was measured with the spectrum analyzer using 3kHz RBW and 30kHz VBW, set sweep time = span/3kHz. The power spectral density was measured and recorded. The sweep time is allowed to be longer than span/3kHz for a full response of the mixer in the spectrum analyzer. Report No.: RF110114C02 43 Report Format Version 4.0.0 4.5.4 DEVIATION FROM TEST STANDARD No deviation. 4.5.5 TEST SETUP EUT 20dB ATTENUATION PAD SPECTRUM ANALYZER 4.5.6 EUT OPERATING CONDITION Same as Item 4.3.6. Report No.: RF110114C02 44 Report Format Version 4.0.0 4.5.7 TEST RESULTS 802.11b CHANNEL 1 6 11 CH 1 CHANNEL FREQUENCY

(MHz) 2412 2437 2462 RF POWER LEVEL IN 3 kHz BW

(dBm)

-11.1

-11.7

-11.5 MAXIMUM LIMIT

(dBm) PASS/FAIL 8 8 8 PASS PASS PASS Report No.: RF110114C02 45 Report Format Version 4.0.0 802.11g CHANNEL CHANNEL FREQUENCY

(MHz) 1 6 11 2412 2437 2462 RF POWER LEVEL IN 3 kHz BW

(dBm)

-10.5

-10.2

-12.4 MAXIMUM LIMIT

(dBm) PASS/FAIL 8 8 8 PASS PASS PASS CH 6 Report No.: RF110114C02 46 Report Format Version 4.0.0 CHANNEL FREQUENCY

(MHz) 2412 2437 2462 RF POWER LEVEL IN 3 kHz BW

(dBm)

-9.5

-9.3

-11.2 MAXIMUM LIMIT

(dBm) PASS/FAIL 8 8 8 PASS PASS PASS 802.11n (20MHz) CHANNEL 1 6 11 CH 6 Report No.: RF110114C02 47 Report Format Version 4.0.0 CHANNEL FREQUENCY

(MHz) 2422 2437 2452 RF POWER LEVEL IN 3 kHz BW

(dBm)

-12.4

-12.2

-14.2 MAXIMUM LIMIT

(dBm) PASS/FAIL 8 8 8 PASS PASS PASS 802.11n (40MHz) CHANNEL 1 4 7 CH 4 Report No.: RF110114C02 48 Report Format Version 4.0.0 4.6 BAND EDGES MEASUREMENT 4.6.1 LIMITS OF BAND EDGES MEASUREMENT Below 20dB of the highest emission level of operating band (in 100kHz Resolution Bandwidth). 4.6.2 TEST INSTRUMENTS DESCRIPTION &

MANUFACTURER SPECTRUM ANALYZER R&S MODEL NO. SERIAL NO. DATE OF CALIBRATION DUE DATE OF CALIBRATION FSP40 100040 Jul. 17, 2010 Jul. 16, 2011 NOTE: The calibration interval of the above test instruments is 12 months and the calibrations are traceable to NML/ROC and NIST/USA. 4.6.3 TEST PROCEDURE The transmitter output was connected to the spectrum analyzer via a low lose cable. Set both RBW and VBW of spectrum analyzer to 100kHz with suitable frequency span including 300kMHz bandwidth from band edge. The band edges was measured and recorded. The spectrum plots (Peak RBW =100kHz, VBW = 300kHz; Average RBW = 1MHz, VBW = 10Hz) are attached on the following pages. 4.6.4 DEVIATION FROM TEST STANDARD No deviation. 4.6.5 EUT OPERATING CONDITION Same as Item 4.3.6. Report No.: RF110114C02 49 Report Format Version 4.0.0 4.6.6 TEST RESULTS The spectrum plots are attached on the following pages. D1 line indicates the highest level, and D2 line indicates the 20dB offset below D1. It shows compliance with the requirement in part 15.247(d). 802.11b RESTRICT BAND (2310 ~ 2390 MHz) FREQUENCY

(MHz) FUNDAMENTAL EMISSION

(dBuV/m) DELTA (dB) MAXIMUM FIELD STRENGTH IN RESTRICT BAND

(dBuV/m) 2412.00 (PK) 2412.00 (AV) 106.7 102.7 52.15 56.32 54.55 46.38 RESTRICT BAND (2483.5 ~ 2500 MHz) FREQUENCY

(MHz) FUNDAMENTAL EMISSION

(dBuV/m) DELTA (dB) MAXIMUM FIELD STRENGTH IN RESTRICT BAND

(dBuV/m) 2462.00 (PK) 2462.00 (AV) 106.5 102.7 51.77 55.88 54.73 46.82 LIMIT

(dBuV/m) 74.00 54.00 LIMIT

(dBuV/m) 74.00 54.00 NOTE:

1. Delta = Amplitude between the peak of the fundamental and the peak of the band edge emission. Please check following 3 pages. 2. Maximum field strength in restrict band = Fundamental emission Delta. Report No.: RF110114C02 50 Report Format Version 4.0.0 Report No.: RF110114C02 51 Report Format Version 4.0.0 Report No.: RF110114C02 52 Report Format Version 4.0.0 Report No.: RF110114C02 53 Report Format Version 4.0.0 802.11g RESTRICT BAND (2310 ~ 2390 MHz) FREQUENCY

(MHz) FUNDAMENTAL EMISSION

(dBuV/m) DELTA (dB) MAXIMUM FIELD STRENGTH IN RESTRICT BAND

(dBuV/m) 2412.00 (PK) 2412.00 (AV) 107.5 97.8 40.42 45.54 67.08 52.26 RESTRICT BAND (2483.5 ~ 2500 MHz) FREQUENCY

(MHz) FUNDAMENTAL EMISSION

(dBuV/m) DELTA (dB) MAXIMUM FIELD STRENGTH IN RESTRICT BAND

(dBuV/m) 2462.00 (PK) 2462.00 (AV) 106.3 96.7 42.87 47.28 63.43 49.42 LIMIT

(dBuV/m) 74.00 54.00 LIMIT

(dBuV/m) 74.00 54.00 NOTE:

1. Delta = Amplitude between the peak of the fundamental and the peak of the band edge emission. Please check following 3 pages. 2. Maximum field strength in restrict band = Fundamental emission Delta. Report No.: RF110114C02 54 Report Format Version 4.0.0 Report No.: RF110114C02 55 Report Format Version 4.0.0 Report No.: RF110114C02 56 Report Format Version 4.0.0 Report No.: RF110114C02 57 Report Format Version 4.0.0 802.11n (20MHz) RESTRICT BAND (2310 ~ 2390 MHz) FREQUENCY

(MHz) FUNDAMENTAL EMISSION

(dBuV/m) DELTA (dB) MAXIMUM FIELD STRENGTH IN RESTRICT BAND

(dBuV/m) 2412.00 (PK) 2412.00 (AV) 106.3 96.0 38.70 44.84 67.60 51.16 RESTRICT BAND (2483.5 ~ 2500 MHz) FREQUENCY

(MHz) FUNDAMENTAL EMISSION

(dBuV/m) DELTA (dB) MAXIMUM FIELD STRENGTH IN RESTRICT BAND

(dBuV/m) 2462.00 (PK) 2462.00 (AV) 105.5 95.4 40.42 46.29 65.08 49.11 LIMIT

(dBuV/m) 74.00 54.00 LIMIT

(dBuV/m) 74.00 54.00 NOTE:

1. Delta = Amplitude between the peak of the fundamental and the peak of the band edge emission. Please check following 3 pages. 2. Maximum field strength in restrict band = Fundamental emission Delta. Report No.: RF110114C02 58 Report Format Version 4.0.0 Report No.: RF110114C02 59 Report Format Version 4.0.0 Report No.: RF110114C02 60 Report Format Version 4.0.0 Report No.: RF110114C02 61 Report Format Version 4.0.0 802.11n (40MHz) RESTRICT BAND (2310 ~ 2390 MHz) FREQUENCY

(MHz) FUNDAMENTAL EMISSION

(dBuV/m) DELTA (dB) MAXIMUM FIELD STRENGTH IN RESTRICT BAND

(dBuV/m) 2422.00 (PK) 2422.00 (AV) 101.6 91.5 35.03 40.23 66.57 51.27 RESTRICT BAND (2483.5 ~ 2500 MHz) FREQUENCY

(MHz) FUNDAMENTAL EMISSION

(dBuV/m) DELTA (dB) MAXIMUM FIELD STRENGTH IN RESTRICT BAND

(dBuV/m) 2452.00 (PK) 2452.00 (AV) 99.2 89.4 35.38 40.03 63.82 49.37 LIMIT

(dBuV/m) 74.00 54.00 LIMIT

(dBuV/m) 74.00 54.00 NOTE:

1. Delta = Amplitude between the peak of the fundamental and the peak of the band edge emission. Please check following 3 pages. 2. Maximum field strength in restrict band = Fundamental emission Delta. Report No.: RF110114C02 62 Report Format Version 4.0.0 Report No.: RF110114C02 63 Report Format Version 4.0.0 Report No.: RF110114C02 64 Report Format Version 4.0.0 Report No.: RF110114C02 65 Report Format Version 4.0.0 5. PHOTOGRAPHS OF THE TEST CONFIGURATION Please refer to the attached file (Test Setup Photo). Report No.: RF110114C02 66 Report Format Version 4.0.0 6. INFORMATION ON THE TESTING LABORATORIES We, Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, were founded in 1988 to provide our best service in EMC, Radio, Telecom and Safety consultation. Our laboratories are accredited and approved according to ISO/IEC 17025. Copies of accreditation certificates of our laboratories obtained from approval agencies can be downloaded from our web site:

www.adt.com.tw/index.5.phtml. If you have any comments, please feel free to contact us at the following:

Linko EMC/RF Lab:

Tel: 886-2-26052180 Fax: 886-2-26051924 Hwa Ya EMC/RF/Safety Telecom Lab:

Tel: 886-3-3183232 Fax: 886-3-3185050 Web Site: www.adt.com.tw Hsin Chu EMC/RF Lab:

Tel: 886-3-5935343 Fax: 886-3-5935342 The address and road map of all our labs can be found in our web site also. Report No.: RF110114C02 67 Report Format Version 4.0.0 7. APPENDIX A - MODIFICATIONS RECORDERS FOR ENGINEERING CHANGES TO THE EUT BY THE LAB No any modifications are made to the EUT by the lab during the test.

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Report No.: RF110114C02 68 Report Format Version 4.0.0

 

 

PHOTOGRAPHS OF THE TEST CONFIGURATION CONDUCTED EMISSION TEST 1 RADIATED EMISSION TEST 2 3

(SAR Test Set Up Photos) Horizontal Up Horizontal Down Vertical Front Vertical Back Top edge Antenna Location 4 Test Set Up 5