FCC ID: P27AP51DA Wireless Internet Access Server Appliance

 

Dual-Band 802.11a/b/g Wireless Access Point User's Guide TABLE OF CONTENTS CHAPTER 1 INTRODUCTION ............................................................................................. 1 Features of your Wireless Access Point........................................................................... 1 Package Contents .............................................................................................................. 2 Physical Details.................................................................................................................. 3 CHAPTER 2 INSTALLATION............................................................................................... 5 Requirements..................................................................................................................... 5 Procedure ........................................................................................................................... 5 CHAPTER 3 ACCESS POINT SETUP .................................................................................. 7 Overview ............................................................................................................................ 7 Setup using the Windows Utility...................................................................................... 7 Setup using a Web Browser............................................................................................ 10 System Screen .................................................................................................................. 13 Access Control ................................................................................................................. 14 2.4GHz Wireless Screens ................................................................................................ 17 Basic Settings 2.4GHz Screen...................................................................................... 17 2.4GHz Security Settings ................................................................................................ 19 Advanced Settings - 2.4GHz........................................................................................... 30 5GHz Wireless Screens ................................................................................................... 32 Basic Settings 5GHz (802.11a) Screen ........................................................................ 32 5GHz Security Settings ................................................................................................... 34 Advanced Settings - 5GHz.............................................................................................. 46 CHAPTER 4 PC AND SERVER CONFIGURATION ....................................................... 48 Overview .......................................................................................................................... 48 Using WEP....................................................................................................................... 48 Using WPA-802.1x .......................................................................................................... 49 802.1x Server Setup (Windows 2000 Server)................................................................ 50 802.1x Client Setup on Windows XP ............................................................................. 60 Using 802.1x Mode (without WPA) ............................................................................... 66 CHAPTER 5 OPERATION AND STATUS......................................................................... 67 Operation ......................................................................................................................... 67 Status Screen.................................................................................................................... 67 CHAPTER 6 OTHER SETTINGS & FEATURES ............................................................. 73 Overview .......................................................................................................................... 73 Admin Login Screen........................................................................................................ 73 Config File........................................................................................................................ 75 SNMP ............................................................................................................................... 76 Firmware Upgrade.......................................................................................................... 77 APPENDIX A SPECIFICATIONS ....................................................................................... 78 Wireless Access Point...................................................................................................... 78 APPENDIX B TROUBLESHOOTING ................................................................................ 82 Overview .......................................................................................................................... 82 General Problems............................................................................................................ 82 APPENDIX C WINDOWS TCP/IP....................................................................................... 84 Overview .......................................................................................................................... 84 Checking TCP/IP Settings - Windows 9x/ME:............................................................. 84 Checking TCP/IP Settings - Windows NT4.0 ............................................................... 86 Checking TCP/IP Settings - Windows 2000.................................................................. 88 Checking TCP/IP Settings - Windows XP .................................................................... 90 i APPENDIX D ABOUT WIRELESS LANS.......................................................................... 92 Overview .......................................................................................................................... 92 Wireless LAN Terminology............................................................................................ 92 P/N: "9560ND0001 Copyright 2004. All Rights Reserved. Document Version: 1.0 All trademarks and trade names are the properties of their respective owners. ii Chapter 1 Introduction 1 This Chapter provides an overview of the Wireless Access Point's features and capabilities. Congratulations on the purchase of your new Wireless Access Point. The Wireless Access Point links your 802.11g or 802.11b Wireless Stations to your wired LAN. The Wireless stations and devices on the wired LAN are then on the same network, and can communicate with each other without regard for whether they are connected to the network via a Wireless or wired connection. Figure 1: Wireless Access Point The auto-sensing capability of the Wireless Access Point allows packet transmission up to 54Mbps for maximum throughput, or automatic speed reduction to lower speeds when the environment does not permit maximum throughput. Features of your Wireless Access Point The Wireless Access Point incorporates many advanced features, carefully designed to provide sophisticated functions while being easy to use. Standards Compliant. The Wireless Router complies with the IEEE802.11g (DSSS) specifications for Wireless LANs. Supports both 802.11b and 802.11g Wireless Stations. The 802.11g standard provides for backward compatibility with the 802.11b standard, so both 802.11b and 802.11g Wireless stations can be used simultaneously. WEP support. Support for WEP (Wired Equivalent Privacy) is included. Both 64 Bit and 128 Bit keys are supported. 1 Wireless Access Point User Guide WPA support. Support for WPA is included. WPA is more secure than WEP, and should be used if possible. 802.1x Support. Support for 802.1x mode is included, providing for the industrial-

strength wireless security of 802.1x authentication and authorization. Radius Client Support. The Wireless Access Point can login to your existing Radius Server (as a Radius client). Radius MAC Authentication. You can centralize the checking of Wireless Station MAC addresses by using a Radius Server. Dynamic WEP key Support. In 802.1x mode, either fixed or Dynamic WEP keys can be used. Upgradeable Firmware. Firmware is stored in a flash memory and can be upgraded easily, using only your Web Browser. Access Control. The Access Control feature can check the MAC address of Wireless clients to ensure that only trusted Wireless Stations can use the Wireless Access Point to gain access to your LAN. UAM Support. The Wireless Access Point supports UAM (Universal Access Method), making it suitable for use in Internet cafes and other sites where user access time must be accounted for. Simple Configuration. If the default settings are unsuitable, they can be changed quickly and easily. DHCP Client Support. Dynamic Host Configuration Protocol provides a dynamic IP address to PCs and other devices upon request. The Wireless Access Point can act as a DHCP Client, and obtain an IP address and related information from your existing DHPC Server. NetBIOS & WINS Support. Support for both NetBIOS broadcast and WINS (Win-

dows Internet Naming Service) allows the Wireless Access Point to easily fit into your existing Windows network. Password - protected Configuration. Optional password protection is provided to prevent unauthorized users from modifying the configuration data and settings. Package Contents The following items should be included:

Wireless Access Point Power Adapter Quick Start Guide CD-ROM containing the on-line manual and setup utility. If any of the above items are damaged or missing, please contact your dealer immediately. 2 Physical Details Front Panel LEDs Introduction Status Power LAN Figure 2: Front Panel On - Error condition. Off - Normal operation. Blinking - During start up, and when the Firmware is being upgraded. On - Normal operation. Off - No power On - The LAN (Ethernet) port is active. Off - No active connection on the LAN (Ethernet) port. Flashing - Data is being transmitted or received via the corresponding LAN (Ethernet) port. 5GHz/802.11a On - 802.11a Wireless connection is available. Off - No 802.11a Wireless connection available. Flashing - Data is being transmitted or received via the 802.11a Wire-

less band. Data includes "network traffic" as well as user data. On - 802.11g and/or 802.11b Wireless connection is available. Off - 802.11g and 802.11b Wireless connections are not available. Flashing Data is being transmitted or received via the 802.11g/a Wire-

less band. Data includes "network traffic" as well as user data. 2.4GHz/802.11 b/g 3 Wireless Access Point User Guide Rear Panel Antenna Power port Reset Button Figure 3 Rear Panel One antenna (aerial) is supplied. Best results are usually obtained with the antenna in a vertical position. Connect the supplied power adapter here. This button has two (2) functions:

Reboot. When pressed and released, the Wireless Access Point will reboot (restart). Reset to Factory Defaults. This button can also be used to clear ALL data and restore ALL settings to the factory default values. To Clear All Data and restore the factory default values:

1. Power Off the Access Point 2. Hold the Reset Button down while you Power On the Access Point. 3. Continue holding the Reset Button until the Status (Red) LED blinks TWICE. 4. Release the Reset Button. The factory default configuration has now been restored, and the Access Point is ready for use. Ethernet Console port Use a standard LAN cable (RJ45 connectors) to connect this port to a 10BaseT or 100BaseT hub on your LAN. DB9 female RS232 port. 4 Chapter 2 Installation 2 This Chapter covers the physical installation of the Wireless Access Point. Requirements Requirements:

TCP/IP network Ethernet cable with RJ-45 connectors Installed Wireless network adapter for each PC that will be wirelessly connected to the network Procedure 1. Select a suitable location for the installation of your Wireless Access Point. To maximize reliability and performance, follow these guidelines:

Use an elevated location, such as wall mounted or on the top of a cubicle. Place the Wireless Access Point near the center of your wireless coverage area. If possible, ensure there are no thick walls or metal shielding between the Wireless Access Point and Wireless stations. Under ideal conditions, the Wireless Access Point has a range of around 150 meters (450 feet). The range is reduced, and transmission speed is lower, if there are any obstructions between Wireless devices. Figure 4: Installation Diagram 2. Use a standard LAN cable to connect the Ethernet port on the Wireless Access Point to a 10/100BaseT hub on your LAN. 5 Wireless Access Point User Guide 3. Connect the supplied power adapter to the Wireless Access Point and a convenient power outlet, and power up. 4. Check the LEDs:

The Status LED should flash, then turn OFF. The Power, WLAN, and LAN LED should be ON. For more information, refer to Front Panel LEDs in Chapter 1. 6 Chapter 3 Access Point Setup 3 This Chapter provides details of the Setup process for Basic Operation of your Wireless Access Point. Overview This chapter describes the setup procedure to make the Wireless Access Point a valid device on your LAN, and to function as an Access Point for your Wireless Stations. Wireless Stations may also require configuration. For details, see Chapter 4 - Wireless Station Configuration. The Wireless Access Point can be configured using either the supplied Windows utility or your Web Browser Setup using the Windows Utility A simple Windows setup utility is supplied on the CD-ROM. This utility can be used to assign a suitable IP address to the Wireless Access Point. Using this utility is recommended, because it can locate the Wireless Access Point even if it has an invalid IP address. Installation 1. 2. 3. Follow the prompts to complete the installation. Insert the supplied CD-ROM in your drive. If the utility does not start automatically, run the SETUP program in the root folder. Main Screen Start the program by using the icon created by the setup program. When run, the program searches the network for all active Wireless Access Points, then lists them on screen, as shown by the example below. 7 Wireless Access Point User Guide Figure 5: Management utility Screen Wireless Access Points The main panel displays a list of all Wireless Access Points found on the network. For each Access Point, the following data is shown:

Server Name IP address MAC Address IEEE Standard The wireless standard or standards used by the Wireless Access Point The Server Name is shown on a sticker on the base of the device. The IP address for the Wireless Access Point. The hardware or physical address of the Wireless Access Point. FW Version Description

(e.g. 802.11b, 802.11g) The current Firmware version installed in the Wireless Access Point. Any extra information for the Wireless Access Point, entered by the administrator. Note: If the desired Wireless Access Point is not listed, check that the device is installed and ON, then update the list by clicking the Refresh button. Buttons Refresh Web Management Set IP Address Exit Click this button to update the Wireless Access Point device listing after changing the name or IP Address. Use this button to connect to the Wireless Access Point's Web-

based management interface. Click this button if you want to change the IP Address of the Wireless Access Point. Exit the Management utility program by clicking this button. 8 Setup Setup Procedure 1. Select the desired Wireless Access Point. 2. Click the Set IP Address button. 3. If prompted, enter the user name and password. The default values are admin for the User Name, and password for the Password. 4. Ensure the IP address, Network Mask, and Gateway are correct for your LAN. Save any changes. 5. Click the Web Management button to connect to the selected Wireless Access Point using your Web Browser. If prompted, enter the User Name and Password again. 6. Configure the following screens, using the on-line help if necessary. The following section also provides more details about each of these screens. Wireless - Basic (Basic Wireless settings) Wireless - Security (Wireless Security) Management - Admin Login (Set login name and password) 7. Setup is now complete. 9 Wireless Access Point User Guide Setup using a Web Browser Your Browser must support JavaScript. The configuration program has been tested on the following browsers:

Netscape V4.08 or later Internet Explorer V4 or later Setup Procedure Before commencing, install the Wireless Access Point in your LAN, as described previously. 1. Check the Wireless Access Point to determine its Default Name. This is shown on a label on the base or rear, and is in the following format:

SCxxxxxx Where xxxxxx is a set of 6 Hex characters ( 0 ~ 9, and A ~ F ). 2. Use a PC which is already connected to your LAN, either by a wired connection or an-

other Access Point. Until the Wireless Access Point is configured, establishing a Wireless connection to it may be not possible. If your LAN contains a Router or Routers, ensure the PC used for configuration is on the same LAN segment as the Wireless Access Point. 3. Start your Web browser. 4. HTTP://SC2D631A In the Address box, enter "HTTP://" and the Default Name of the Wireless Access Point e.g. 5. You should then see a login prompt, which will ask for a User Name and Password. Enter admin for the User Name, and password for the Password. These are the default values. The password (but not the user name) can and should be changed. Always enter the current password, as set on the Admin Login screen. Figure 6: Password Dialog 6. You will then see the Status screen, which displays the current settings and status. No data input is possible on this screen. 10 7. From the menu, check the following screens, and configure as necessary for your envi-

ronment. Details of these screens and settings are described in the following sections of this chapter. Setup System Access Control 2.4GHz Wireless Basic Security Advanced 5GHz Wireless Basic Security Advanced Management Admin Login (Set login name and password) Config File SNMP Upgrade Firmware 8. Setup of the Wireless Access Point is now complete. Wireless stations must now be set to match the Wireless Access Point. See Chapter 4 for details. If you can't connect:

It is likely that your PCs IP address is incompatible with the Wireless Access Points IP address. This can happen if your LAN does not have a DHCP Server. The default IP address of the Wireless Access Point is 192.168.0.228, with a Network Mask of 255.255.255.0. If your PCs IP address is not compatible with this, you must change your PCs IP address to an unused value in the range 192.168.0.1 ~ 192.168.0.254, with a Network Mask of 255.255.255.0. See Appendix C - Windows TCP/IP for details for this procedure. 11 Wireless Access Point User Guide Status Screen When you first connect, you will see the Status screen. This displays the current settings and status of the Wireless Access Point. No data can be input on this screen. Figure 7: Status Screen For further details of this screen, refer to Status Screen in Chapter 5. 12 System Screen Click System on the menu to view a screen like the following. Setup Figure 8: System Screen Data - System Screen Identification Access Point Name Description Country Domain IP Address DHCP Client Fixed Enter a suitable name for this Access Point. If desired, you can enter a description for the Access Point. Select the country or domain matching your current location. Select this option if you have a DHCP Server on your LAN, and you wish the Access Point to obtain an IP address automatically. If selected, the following data must be entered. IP Address - The IP Address of this device. Enter an unused IP address from the address range on your LAN. Subnet Mask - The Network Mask associated with the IP Address above. Enter the value used by other devices on your LAN. Gateway - The IP Address of your Gateway or Router. Enter the value used by other devices on your LAN. DNS - Enter the DNS (Domain Name Server) used by PCs on your LAN. 13 Wireless Access Point User Guide WINS Enable WINS WINS Server Name/IP Ad-

dress HTTP HTTP Port Telnet Enable Telnet Management If your LAN has a WINS server, you can enable this to have this AP register with the WINS server. Enter the name or IP address of your WINS server. Enter the port number to be used when connecting to this interface. The default value is 80. If desired, you can enable this option. If enabled, you will able to connect to this AP using a Telnet client. You will have to provide the same login data (user name, password) as for a HTTP (Web) connec-

tion. Access Control This feature can be used to block access to your LAN by unknown or untrusted wireless stations. Click Access Control on the menu to view a screen like the following. Figure 9: Access Control Screen Data - Access Control Screen Enable Trusted Stations Use this checkbox to Enable or Disable this feature as desired. Warning ! Ensure you own PC is in the "Trusted Wireless Stations"

list before enabling this feature.. This table lists any Wireless Stations you have designated as

"Trusted". If you have not added any stations, this table will be empty. For each Wireless station, the following data is displayed:

MAC Address - the MAC or physical address of each Wire-

less station. Connected - this indicates whether or not the Wireless station is currently associates with this Access Point. 14 Setup Buttons Modify List Read from File Write to File To change the list of Trusted Stations (Add, Edit, or Delete a Wireless Station or Stations), click this button. You will then see the Trusted Wireless Stations screen, described below. To upload a list of Trusted Stations from a file on your PC, click this button. To download the current list of Trusted Stations from the Access Point to a file on your PC, click this button. Trusted Wireless Stations To change the list of trusted wireless stations, use the Modify List button on the Access Control screen. You will see a screen like the sample below. Figure 10: Trusted Wireless Stations Data - Trusted Wireless Stations Trusted Wireless Stations Other Wireless Stations Address This lists any Wireless Stations which you have designated as Trusted. This list any Wireless Stations detected by the Access Point, which you have not designated as "Trusted". The MAC (physical) address of the Trusted Wireless Station. Use this when adding or editing a Trusted Station. Buttons

<<

Add a Trusted Wireless Station to the list (move from the "Other Stations" list). Select an entry (or entries) in the "Other Stations" list, and click the " << " button. Enter the Address (MAC or physical address) of the wireless station, and click the "Add " button. 15 Wireless Access Point User Guide

>>

Select All Select None Edit Add Clear Delete a Trusted Wireless Station from the list (move to the "Other Stations" list). Select an entry (or entries) in the "Trusted Stations" list. Click the " >> " button. Select all of the Stations listed in the "Other Stations" list. De-select any Stations currently selected in the "Other Stations"

list. To change an existing entry in the "Trusted Stations" list, select it and click this button. 1. Select the Station in the "Trusted Station" list. 2. Click the "Edit" button. The address will be copied to the

"Address" field, and the "Add" button will change to "Update". 3. Edit the address (MAC or physical address) as required. 4. Click "Update" to save your changes. To add a Trusted Station which is not in the "Other Wireless Stations" list, enter the required data and click this button. Clear the Address field. 16 Setup 2.4GHz Wireless Screens There are 3 configuration screens available:

Basic Settings Security Advanced Basic Settings 2.4GHz Screen The settings on this screen must match the settings used by Wireless Stations. Click Basic on the menu to view a screen like the following. Figure 11: Basic Settings Screen Data - Basic Settings Screen Operation Wireless Mode Select the desired option:

Disable - select this if for some reason you do not this AP to transmit or receive at all. 802.11b and 802.11g - this is the default, and will allow connec-

tions by both 802.11b and 802.1g wireless stations. 802.11b - if selected, only 802.11b connections are allowed. 802.11g wireless stations will only be able to connect if they are fully backward-compatible with the 802.11b standard. 802.11g - only 802.11g connections are allowed. If you only have 802.11g, selecting this option may provide a performance im-

provement over using the default setting. Super 802.11g (108Mbps) - select this only if all wireless stations support this mode. Dynamic Super 802.11g (108Mbps) - select this only if all wireless stations support this mode. Static Super 802.11g (108Mbps) - select this only if all wireless stations support this mode. 17 Wireless Access Point User Guide Operating Mode Remote AP MAC Address Channel No Current Channel No. SSID Broadcast SSID Select the desired mode:

Wireless Access Point - operate as a normal Access Point Client Access Point - act as a client for another Access Point. If selected, you must provide the address (MAC address) of the other Access Point (Remote AP). Repeater Access Point - act as a repeater for another Access Point. If selected, you must provide the address (MAC address) of the other Access Point (Remote AP). This is not required unless the Operating Mode is "Client Access Point" or "Repeater Access Point". In either of these modes, you must provide the MAC address of the other AP in this field. You can either enter the MAC address directly, or, if the other AP is on-line, you can click the "Select AP" button and select from a list of available APs. If "Automatic" is selected, the Wireless Access Point will self-select a Wireless Channel. If you experience interference (shown by lost connections and/or slow data transfers) you may need to experiment with different channels to see which Channel is the best. This displays the current channel used by the Access Point. Enter the desired SSID. Wireless Stations must use the same SSID. Note: The SSID is case sensitive. If Enabled, the SSID will be broadcast to all Wireless Stations. Sta-

tions which have no SSID (or a "null" value) can then adopt the correct SSID for connections to this Access Point. 18 Setup 2.4GHz Security Settings Select the desired option, and then enter the settings for the selected method. The available options are:

None - No security is used. Anyone using the correct SSID can connect to your network. WEP - The 802.11b standard. Data is encrypted before transmission, but the encryption system is not very strong. WPA-PSK - Like WEP, data is encrypted before transmission. WPA is more secure than WEP, and should be used if possible. The PSK (Pre-shared Key) must be entered on each Wireless station. The 256Bit encryption key is derived from the PSK, and changes fre-

quently. WPA-802.1x - This version of WPA requires a Radius Server on your LAN to provide the client authentication according to the 802.1x standard. Data transmissions are encrypted using the WPA standard. If this option is selected:

This Access Point must have a "client login" on the Radius Server. Each user must have a "user login" on the Radius Server. Each user's wireless client must support 802.1x and provide the login data when re-

quired. All data transmission is encrypted using the WPA standard. Keys are automatically generated, so no key input is required. 802.1x - This uses the 802.1x standard for client authentication, and WEP for data encryp-

tion. If possible, you should use WPA-802.1x instead, because WPA encryption is much stronger than WEP encryption. If this option is selected:

This Access Point must have a "client login" on the Radius Server. Each user must have a "user login" on the Radius Server. Each user's wireless client must support 802.1x and provide the login data when re-

quired. All data transmission is encrypted using the WEP standard. You only have to select the WEP key size; the WEP key is automatically generated. 19 Wireless Access Point User Guide 2.4GHz Security Settings - None Figure 12: Wireless Security - None No security is used. Anyone using the correct SSID can connect to your network. The only settings available from this screen are Radius MAC Authentication and UAM

(Universal Access Method). Radius-based MAC Authentication Radius MAC Authentication provides for MAC address checking which is centralized on your Radius server. If you don't have a Radius Server, you cannot use this feature. This screen will look different depending on the current security setting. If you have already provided the address of your Radius server, you won't be prompted for it again. Figure 13: Radius-based MAC Authentication Screen Enable ... Radius Server Address Radius Port Client Login Name Shared Key Enable this if you wish to Radius-based MAC authentication. If this field is visible, enter the name or IP address of the Radius Server on your network. If this field is visible, enter the port number used for connections to the Radius Server. If this field is visible, it displays the name used for the Client Login on the Radius Server. This Login name must be created on the Radius Server. If this field is visible, it is used for the Client Login on the Radius h k l h h l h di 20 Setup Server. Enter the key value to match the value on the Radius Server. If this field is visible, it is for the the WEP key used to encrupt data transmissions to the Radius Server. Enter the desired key value 9in HEX), and ensure the Radius Server has the same value. If this field is visible, select the desired key index. Any value can be used, provided it matches the value on the Radius Server. WEP Key WEP Key Index UAM UAM (Universal Access Method) is intended for use in Internet cafes and other sites where user access must be accounted for. To use this feature, you also need a Radius Server. The

"Radius Server Setup" must be completed before you can use UAM. The UAM screen will look different depending on the current security setting. If you have already provided the address of your Radius server, you won't be prompted for it again. Figure 14: UAM Screen Data UAM Screen Enable Internal Web-based Authentication External Web-based Authentication Login URL Login Failure URL Enable this if you wish to use this feature. If selected, then when a user first tries to access the Internet, they will be blocked, and re-directed to the built-in login page. The logon data is then sent to the Radius Server for authentication. If selected, then when a user first tries to access the Internet, they will be blocked, and re-directed to the URL below. This needs to be on your own local Web Server. The page must also link back to the built-

in login page on this device to complete the login procedure. Enter the URL of the page on your local Web Server you wish users to see when they attempt to access the Internet, but are not logged in. Enter the URL of the page on your local Web Server you wish users to see if their login fails. (This may be the same URL as the Login URL). 21 Wireless Access Point User Guide 2.4GHz Security Settings - WEP This is the 802.11b standard. Data is encrypted before transmission, but the encryption system is not very strong. Data - WEP Screen WEP Data Encryption Authentication Key Input Key Value Figure 15: WEP Wireless Security Select the desired WEP Encryption level, and ensure Wireless stations have the same setting and key value. Normally this can be left at the default value of "Automatic." If that fails, select the appropriate value - "Open System" or

"Shared Key." Check your wireless card's documentation to see what method to use. Select "Hex" or "ASCII" depending on your input method. (All keys are converted to Hex, ASCII input is only for conven-

ience.) Enter the key value you wish to use. Other stations must have the same key. 22 Setup Passphrase Radius-based MAC Authentication UAM Use this to generate a key or keys, instead of entering them directly. Enter a word or group of printable characters in the Passphrase box and click the "Generate Key" button to auto-

matically configure the WEP Key(s). If encryption strength is set to 64 bit, then each of the four key fields will be populated with key values. If encryption strength is set to 128 bit, then only the selected WEP key field will be given a key value. Enable this if your network is using this system. If enabled, click the "Configure" button to configure the Radius server. Enable this if your network is using this system. If enabled, click the "Configure" button to configure the Radius server and the Login URL. 23 Wireless Access Point User Guide 2.4GHz Security Settings - WPA-PSK Like WEP, data is encrypted before transmission. WPA is more secure than WEP, and should be used if possible. The PSK (Pre-shared Key) must be entered on each Wireless station. The 256Bit encryption key is derived from the PSK, and changes frequently. Figure 16: WPA-PSK Wireless Security Data - WPA-PSK Screen WPA-PSK Network Key WPA Encryption Enter the key value. Data is encrypted using this key. Other Wireles Stations must use the same key. Select the desired option. Other Wireless Stations must use the same method. This refers to the key used for point-to-point transmissions. Enable this if you want the keys to be updated regularly. TKIP - Unicast (point-to-point) transmissions and multicast

(broadcast) transmissions are encrypted using TKIP. TKIP + 64 bit WEP - Unicast (point-to-point) transmis-

sions are encrypted using TKIP, and multicast (broadcast) transmissions are encrypted using 64 bit WEP. TKIP + 128 bit WEP - Unicast (point-to-point) transmis-

sions are encrypted using TKIP, and multicast (broadcast) transmissions are encrypted using 128 bit WEP. AES - CCMP - Unicast (point-to-point) transmissions and multicast (broadcast) transmissions are encrypted using AES - CCMP. Pairwise Key Update This refers to the key used for point-to-point transmissions. Enable this if you want the keys to be updated regularly. 24 Setup This field determines how often Pairwise keys are dynamically updated. Enter the desired value. This refers to the key used for broadcast transmissions. Enable this if you want the keys to be updated regularly. This field determines how often the Group key is dynamically updated. Enter the desired value. If enabled, the Group key will be updated whenever any mem-

ber leaves the group or disassociates from the Access Point. Key Lifetime Group Key Update Key Lifetime Update Group Key when any membership terminates 25 Wireless Access Point User Guide 2.4GHz Security Settings - WPA-802.1x This version of WPA requires a Radius Server on your LAN to provide the client authentica-

tion according to the 802.1x standard. Data transmissions are encrypted using the WPA standard. If this option is selected:

This Access Point must have a "client login" on the Radius Server. Each user must have a "user login" on the Radius Server. Each user's wireless client must support 802.1x and provide the login data when required. All data transmission is encrypted using the WPA standard. Keys are automatically generated, so no key input is required. Figure 17: WPA-802.1x Wireless Security Data - WPA-802.1x Screen WPA-802.1x Radius Server Address Radius Port Enter the name or IP address of the Radius Server on your network. Enter the port number used for connections to the Radius Server. 26 Setup This read-only field displays the name used for the Client Login on the Radius Server. This Login name must be created on the Radius Server. This is used for the Client Login on the Radius Server. Enter the key value to match the Radius Server. Select the desired option. Other Wireless Stations must use the same method. TKIP - Unicast (point-to-point) transmissions and multicast

(broadcast) transmissions are encrypted using TKIP. TKIP + 64 bit WEP - Unicast (point-to-point) transmissions are encrypted using TKIP, and multicast (broadcast) transmis-

sions are encrypted using 64 bit WEP. TKIP + 128 bit WEP - Unicast (point-to-point) transmissions are encrypted using TKIP, and multicast (broadcast) transmis-

sions are encrypted using 128 bit WEP. AES - CCMP - Unicast (point-to-point) transmissions and multicast (broadcast) transmissions are encrypted using AES -

CCMP. This refers to the key used for point-to-point transmissions. Enable this if you want the keys to be updated regularly. This field determines how often Pairwise keys are dynamically updated. Enter the desired value. This refers to the key used for broadcast transmissions. Enable this if you want the keys to be updated regularly. This field determines how often the Group key is dynamically updated. Enter the desired value. If enabled, the group key will be updated whenever any member leaves the group or disassociates from the Access Point. Enable this if you want this Access Point to send accounting data to the Radius Server. If enabled, the port used by your Radius Server must be entered in the Radius Accounting Port" field. If Radius accounting is enabled, you can enable this and enter the desired update interval. This Access Point will then send updates according to the specified time period. Client Login Name Shared Key WPA Encryption Pairwise Key Up-

date Key Lifetime Group Key Update Key Lifetime Group key update when any member-

ship terminated Radius Accounting Update Report every ... 27 Wireless Access Point User Guide 2.4GHz Security Settings - 802.1x This uses the 802.1x standard for client authentication, and WEP for data encryption. If possi-

ble, you should use WPA-802.1x instead, because WPA encryption is much stronger than WEP encryption. If this option is selected:

This Access Point must have a "client login" on the Radius Server. Each user must have a "user login" on the Radius Server. Each user's wireless client must support 802.1x and provide the login data when required. All data transmission is encrypted using the WEP standard. You only have to select the WEP key size; the WEP key is automatically generated. Figure 18: 802.1x Wireless Security Data - 802.1x Screen 802.1x Radius Server Address Radius Port Client Login Name Enter the name or IP address of the Radius Server on your network. Enter the port number used for connections to the Radius Server. This read-only field displays the name used for the Client Login on the Radius Server. This Login name must be created on the Radius Server. 28 Shared Key WEP Key Size Setup This is used for the Client Login on the Radius Server. Enter the key value to match the Radius Server. Select the desired option. 64 Bit - data is encrypted, using the default key, before being transmitted. You must enter at least the default key. For 64 Bit Encryption, the key size is 5 chars (ASCII) or 10 chars in HEX (0~9 and A~F). 128 Bit - data is encrypted, using the default key, before being transmitted. You must enter at least the default key. For 128 Bit Encryption, the key size is 13 chars (ASCII) or 26 chars in HEX (0~9 and A~F). Key Exchange Radius Accounting Update Report every ... Enable this if you wish the keys to exchanged and updated regularly. If enabled, enter the desired Key Lifetime. Enable this if you want this Access Point to send accounting data to the Radius Server. If enabled, the port used by your Radius Server must be entered in the Radius Accounting Port" field. If Radius accounting is enabled, you can enable this and enter the desired update interval. This Access Point will then send updates according to the specified time period. 29 Wireless Access Point User Guide Advanced Settings - 2.4GHz Clicking the Advanced link on the menu will result in a screen like the following. Figure 19: Advanced Settings Data - Advanced Settings Screen Basic Rate Basic Rate Selection The Basic Rate is used for broadcasting. It does not determine the data transmission rate, which is determined by the "Mode"

setting on the Basic screen. Select the desired option:

Auto-negotiate - This is the default, and will normally give the best results. Options Wireless Separation Worldwide Mode

(802.11d) Fixed Rate - If you don't use to use "Auto-negotiate", you must also select the desired speeds. If enabled, then each Wireless station using the Access Point is invisible to other Wireless stations. In most business situations, this setting should be Disabled. Enable this setting if you wish to use this mode, and your Wireless stations support this mode. 30 Setup Parameters Disassociated Timeout Fragmentation Beacon Interval RTS/CTS Threshold Preamble Type Output Power Level Antenna Selection 802.11b Protection Type Short Slot Time Protection Mode Protection Rate This determines how quickly a Wireless Station will be consid-

ered "Disassociated" with this AP, when no traffic is received. Enter the desired time period. Enter the preferred setting between 256 and 2346. Enter the preferred setting between 0 and 3000. Enter the preferred setting between 256 and 2346. Select the desired preamble type. Select the desired power output. Higher levels will give a greater range, but are also more likely to cause interference with other devices. If your Access Point has only 1 antenna, there is only 1 option available. If your Access Point has 2 antennae, select the option which gives the best results in your location. Select the desired option. Enable or disable this setting as required. Normally, this should be left at "Auto". Select the desired option. 31 Wireless Access Point User Guide 5GHz Wireless Screens There are 3 configuration screens available:

Basic Settings Security Advanced Basic Settings 5GHz (802.11a) Screen The settings on this screen must match the settings used by Wireless Stations. Click Basic on the menu to view a screen like the following. Figure 20: Basic Settings Screen Data - Basic Settings Screen Operation Wireless Mode Select the desired option:

Disable - select this if for some reason you do not this AP to transmit or receive at all on the 5GHz band. 802.11a (54Mbps) - this is the standard 802.11a mode, and is the most compatible of the available modes. Operating Mode Super 802.11a (108Mbps) - Select this only if all your Wireless clients support this mode. Dynamic Super 802.11a (108Mbps) - Select this only if all your Wireless clients support this mode. Static Super 802.11a (108Mbps) - Select this only if all your Wireless clients support this mode. Select the desired mode:

Wireless Access Point - operate as a normal Access Point Client Access Point - act as a client for another Access Point. If selected, you must provide the address (MAC address) of the other Access Point (Remote AP). Repeater Access Point - act as a repeater for another Access Point. 32 Setup If selected, you must provide the address (MAC address) of the other Access Point (Remote AP). This is not required unless the Operating Mode is "Client Access Point" or "Repeater Access Point". In either of these modes, you must provide the MAC address of the other AP in this field. You can either enter the MAC address directly, or, if the other AP is on-line, you can click the "Select AP" button and select from a list of available APs. If "Automatic" is selected, the Access Point will select the best avail-

able Channel. If you experience interference (shown by lost connections and/or slow data transfers) you may need to experiment with manually setting different channels to see which is the best. This displays the current channel used by the Access Point. Enter the SSID (ESSID). Wireless stations on your Wireless LAN must have the same SSID. If Enabled, the SSID will be broadcast to all Wireless Stations. Sta-

tions which have no SSID (or a "null" value) can then adopt the correct SSID for connections to this Access Point. Remote AP MAC Address Channel No Current Channel No. SSID Broadcast SSID 33 Wireless Access Point User Guide 5GHz Security Settings Select the desired option, and then enter the settings for the selected method. The available options are:

None - No security is used. Anyone using the correct SSID can connect to your network. WEP - The 802.11b standard. Data is encrypted before transmission, but the encryption system is not very strong. WPA-PSK - Like WEP, data is encrypted before transmission. WPA is more secure than WEP, and should be used if possible. The PSK (Pre-shared Key) must be entered on each Wireless station. The 256Bit encryption key is derived from the PSK, and changes fre-

quently. WPA-802.1x - This version of WPA requires a Radius Server on your LAN to provide the client authentication according to the 802.1x standard. Data transmissions are encrypted using the WPA standard. If this option is selected:

This Access Point must have a "client login" on the Radius Server. Each user must have a "user login" on the Radius Server. Each user's wireless client must support 802.1x and provide the login data when re-

quired. All data transmission is encrypted using the WPA standard. Keys are automatically generated, so no key input is required. 802.1x - This uses the 802.1x standard for client authentication, and WEP for data encryp-

tion. If possible, you should use WPA-802.1x instead, because WPA encryption is much stronger than WEP encryption. If this option is selected:

This Access Point must have a "client login" on the Radius Server. Each user must have a "user login" on the Radius Server. Each user's wireless client must support 802.1x and provide the login data when re-

quired. All data transmission is encrypted using the WEP standard. You only have to select the WEP key size; the WEP key is automatically generated. 34 5GHz Security Settings - None Setup Figure 21: Wireless Security - None No security is used. Anyone using the correct SSID can connect to your network. The only settings available from this screen are Radius MAC Authentication and UAM

(Universal Access Method). Radius-based MAC Authentication Radius MAC Authentication provides for MAC address checking which is centralized on your Radius server. If you don't have a Radius Server, you cannot use this feature. This screen will look different depending on the current security setting. If you have already provided the address of your Radius server, you won't be prompted for it again. Figure 22: Radius-based MAC Authentication Screen Enable ... Radius Server Address Radius Port Client Login Name Shared Key Enable this if you wish to use this system. If this field is visible, enter the name or IP address of the Radius Server on your network. If this field is visible, enter the port number used for connections to the Radius Server. If this field is visible, it displays the name used for the Client Login on the Radius Server. This Login name must be created on the Radius Server. If this field is visible, it is used for the Client Login on the Radius Server. Enter the key value to match the value on the Radius Server. 35 Wireless Access Point User Guide WEP Key WEP Key Index If this field is visible, it is for the the WEP key used to encrupt data transmissions to the Radius Server. Enter the desired key value 9in HEX), and ensure the Radius Server has the same value. If this field is visible, select the desired key index. Any value can be used, provided it matches the value on the Radius Server. UAM UAM (Universal Access Method) is intended for use in Internet cafes and other sites where user access must be accounted for. To use this feature, you also need a Radius Server. The

"Radius Server Setup" must be completed before you can use UAM. The UAM screen will look different depending on the current security setting. If you have already provided the address of your Radius server, you won't be prompted for it again. Figure 23: UAM Screen Data UAM Screen Enable Enable this if you wish to use this feature. UAM is intended for use in Internet cafes and other sites where user access must be accounted for. To use this feature, you also need a Radius Server. The "Radius Server Setup" must be completed before you can use UAM. If selected, then when a user first tries to access the Internet, they will be blocked, and re-directed to the built-in login page. The logon data is then sent to the Radius Server for authentication. If selected, then when a user first tries to access the Internet, they will be blocked, and re-directed to the URL below. This needs to be on your own local Web Server. The page must also link back to the built-

in login page on this device to complete the login procedure. Enter the URL of the page on your local Web Server you wish users to see when they attempt to access the Internet, but are not logged in. Enter the URL of the page on your local Web Server you wish users to see if their login fails. (This may be the same URL as the Login URL). Internal Web-based Authentication External Web-based Authentication Login URL Login Failure URL 36 Setup 37 Wireless Access Point User Guide 5GHz Security Settings - WEP This is the 802.11b standard. Data is encrypted before transmission, but the encryption system is not very strong. Data - WEP Screen WEP Data Encryption Authentication Key Input Key Value Figure 24: WEP Wireless Security Select the desired WEP Encryption level, and ensure Wireless stations have the same setting and key value. Normally this can be left at the default value of "Automatic." If that fails, select the appropriate value - "Open System" or

"Shared Key." Check your wireless card's documentation to see what method to use. Select "Hex" or "ASCII" depending on your input method. (All keys are converted to Hex, ASCII input is only for conven-

ience.) Enter the key value you wish to use. Other stations must have the same key. 38 Setup Passphrase Radius-based MAC Authentication UAM Use this to generate a key or keys, instead of entering them directly. Enter a word or group of printable characters in the Passphrase box and click the "Generate Key" button to auto-

matically configure the WEP Key(s). If encryption strength is set to 64 bit, then each of the four key fields will be populated with key values. If encryption strength is set to 128 bit, then only the selected WEP key field will be given a key value. Enable this if your network is using this system. If enabled, click the "Configure" button to configure the Radius server. Enable this if your network is using this system. If enabled, click the "Configure" button to configure the Radius server and the Login URL. 39 Wireless Access Point User Guide 5GHz Security Settings - WPA-PSK Like WEP, data is encrypted before transmission. WPA is more secure than WEP, and should be used if possible. The PSK (Pre-shared Key) must be entered on each Wireless station. The 256Bit encryption key is derived from the PSK, and changes frequently. Figure 25: WPA-PSK Wireless Security Data - WPA-PSK Screen WPA-PSK Network Key WPA Encryption Pairwise Key Update Key Lifetime Enter the key value. Data is encrypted using this key. Other Wireless Stations must use the same key. Select the desired option. Other Wireless Stations must use the same method. TKIP - Unicast (point-to-point) transmissions and multicast

(broadcast) transmissions are encrypted using TKIP. TKIP + 64 bit WEP - Unicast (point-to-point) transmis-

sions are encrypted using TKIP, and multicast (broadcast) transmissions are encrypted using 64 bit WEP. TKIP + 128 bit WEP - Unicast (point-to-point) transmis-

sions are encrypted using TKIP, and multicast (broadcast) transmissions are encrypted using 128 bit WEP. AES - CCMP - Unicast (point-to-point) transmissions and multicast (broadcast) transmissions are encrypted using AES - CCMP. This refers to the key used for point-to-point transmissions. Enable this if you want the keys to be updated regularly. This field determines how often Pairwise keys are dynamically updated. Enter the desired value. 40 Setup This refers to the key used for broadcast transmissions. Enable this if you want the keys to be updated regularly. This field determines how often the Group key is dynamically updated. Enter the desired value. If enabled, the Group key will be updated whenever any mem-

ber leaves the group or disassociates from the Access Point. Group Key Update Key Lifetime Update Group Key when any membership terminates 41 Wireless Access Point User Guide 5GHz Security Settings - WPA-802.1x This version of WPA requires a Radius Server on your LAN to provide the client authentica-

tion according to the 802.1x standard. Data transmissions are encrypted using the WPA standard. If this option is selected:

This Access Point must have a "client login" on the Radius Server. Each user must have a "user login" on the Radius Server. Each user's wireless client must support 802.1x and provide the login data when required. All data transmission is encrypted using the WPA standard. Keys are automatically generated, so no key input is required. Figure 26: WPA-802.1x Wireless Security Data - WPA-802.1x Screen WPA-802.1x Radius Server Address Radius Port Enter the name or IP address of the Radius Server on your network. Enter the port number used for connections to the Radius Server. 42 Setup This read-only field displays the name used for the Client Login on the Radius Server. This Login name must be cre-

ated on the Radius Server. This is used for the Client Login on the Radius Server. Enter the key value to match the Radius Server. Select the desired option. Other Wireless Stations must use the same method. TKIP - Unicast (point-to-point) transmissions and multicast

(broadcast) transmissions are encrypted using TKIP. TKIP + 64 bit WEP - Unicast (point-to-point) transmissions are encrypted using TKIP, and multicast (broadcast) transmis-

sions are encrypted using 64 bit WEP. TKIP + 128 bit WEP - Unicast (point-to-point) transmissions are encrypted using TKIP, and multicast (broadcast) transmis-

sions are encrypted using 128 bit WEP. AES - CCMP - Unicast (point-to-point) transmissions and multicast (broadcast) transmissions are encrypted using AES -

CCMP. This refers to the key used for point-to-point transmissions. Enable this if you want the keys to be updated regularly. This field determines how often keys are dynamically updated. Enter the desired value. This refers to the key used for broadcast transmissions. Enable this if you want the keys to be updated regularly. This field determines how often the Group key is dynamically updated. Enter the desired value. If enabled, the Group key will be updated whenever any member leaves the group or disassociates from the Access Point. Enable this if you want this Access Point to send accounting data to the Radius Server. If enabled, the port used by your Radius Server must be entered in the Radius Accounting Port" field. If Radius accounting is enabled, you can enable this and enter the desired update interval. This Access Point will then send updates according to the specified time period. Client Login Name Shared Key WPA Encryption Pairwise Key Up-

date Key Lifetime Group Key Update Key Lifetime Group key update when any member-

ship terminated Radius Accounting Update Report every ... 43 Wireless Access Point User Guide 5GHz Security Settings - 802.1x This uses the 802.1x standard for client authentication, and WEP for data encryption. If possi-

ble, you should use WPA-802.1x instead, because WPA encryption is much stronger than WEP encryption. If this option is selected:

This Access Point must have a "client login" on the Radius Server. Each user must have a "user login" on the Radius Server. Each user's wireless client must support 802.1x and provide the login data when required. All data transmission is encrypted using the WEP standard. You only have to select the WEP key size; the WEP key is automatically generated. Figure 27: 802.1x Wireless Security Data - 802.1x Screen 802.1x Radius Server Address Radius Port Client Login Name Enter the name or IP address of the Radius Server on your network. Enter the port number used for connections to the Radius Server. This read-only field displays the name used for the Client Login on the Radius Server. This Login name must be created on the Radius Server. 44 Shared Key WEP Key Size Setup This is used for the Client Login on the Radius Server. Enter the key value to match the Radius Server. Select the desired option. 64 Bit - data is encrypted, using the default key, before being transmitted. You must enter at least the default key. For 64 Bit Encryption, the key size is 5 chars (ASCII) or 10 chars in HEX (0~9 and A~F). 128 Bit - data is encrypted, using the default key, before being transmitted. You must enter at least the default key. For 128 Bit Encryption, the key size is 13 chars (ASCII) or 26 chars in HEX (0~9 and A~F). Key Exchange Radius Accounting Update Report every ... Enable this if you wish the keys to exchanged and updated regularly. If enabled, enter the desired Key Lifetime. Enable this if you want this Access Point to send accounting data to the Radius Server. If enabled, the port used by your Radius Server must be entered in the Radius Accounting Port" field. If Radius accounting is enabled, you can enable this and enter the desired update interval. This Access Point will then send updates according to the specified time period. 45 Wireless Access Point User Guide Advanced Settings - 5GHz Clicking the Advanced link on the menu will result in a screen like the following. Figure 28: Advanced Settings Data - Advanced Settings Screen Basic Rate Basic Rate Selection The Basic Rate is used for broadcasting. It does not determine the data transmission rate, which is determined by the "Mode"

setting on the Basic screen. Select the desired option:

Auto-negotiate - This is the default, and will normally give the best results. Options Wireless Separation Worldwide Mode

(802.11d) Parameters Disassociated Timeout Fragmentation Beacon Interval RTS/CTS Threshold Preamble Type Fixed Rate - If you don't use to use "Auto-negotiate", you must also select the desired speeds. If enabled, then each Wireless station using the Access Point is invisible to other Wireless stations. In most business situations, this setting should be Disabled. Enable this setting if you wish to use this mode, and your Wireless stations support this mode. This determines how quickly a Wireless Station will be consid-

ered "Disassociated" with this AP, when no traffic is received. Enter the desired time period. Enter the preferred setting between 256 and 2346. Enter the preferred setting between 0 and 3000. Enter the preferred setting between 256 and 2346. Select the desired preamble type. 46 Setup Output Power Level Antenna Selection Select the desired power output. Higher levels will give a greater range, but are also more likely to cause interference with other devices. If your Access Point has only 1 antenna, there is only 1 option available. If your Access Point has 2 antennae, select the option which gives the best results in your location. 47 Chapter 4 PC and Server Configuration 4 This Chapter details the PC Configuration required for each PC on the local LAN. Overview All Wireless Stations need to have settings which match the Wireless Access Point. These settings depend on the mode in which the Access Point is being used. If using WEP or WPA-PSK, it is only necessary to ensure that each Wireless station's settings match those of the Wireless Access Point, as described below. For WPA-802.1x and 802.1x modes, configuration is much more complex. The Radius Server must be configured correctly, and setup of each Wireless station is also more com-

plex. Using WEP For each of the following items, each Wireless Station must have the same settings as the Wireless Access Point. Mode SSID (ESSID) Wireless Security On each PC, the mode must be set to Infrastructure. This must match the value used on the Wireless Access Point. The default value is wireless Note! The SSID is case sensitive. Each Wireless station must be set to use WEP data encryption. The Key size (64 bit or 128 bit) must be set to match the Access Point. The keys values on the PC must match the key values on the Access Point. Note:

On some systems, the "64 bit" key is shown as "40 bit" and "128 bit" is shown as "104 bit". This difference arises because the key input by the user is 24 bits less than the key size used for encryption. 48 PC and Server Configuration Using WPA-802.1x This is the most secure and most complex system. 802.1x mode provides greater security and centralized management, but it is more complex to configure. Wireless Station Configuration For each of the following items, each Wireless Station must have the same settings as the Wireless Access Point. Mode SSID (ESSID) 802.1x Authentication 802.1x Encryption On each PC, the mode must be set to Infrastructure. This must match the value used on the Wireless Access Point. The default value is wireless Note! The SSID is case sensitive. Each client must obtain a Certificate which is used for authentication for the Radius Server. Typically, EAP-TLS is used. This is a dynamic key system, so keys do NOT have to be entered on each Wireless station. Radius Server Configuration If using WPA-802.1x mode, the Radius Server on your network must be configured as follow:

There must be a Client Login for the Wireless Access Point itself. It must provide and accept Certificates for user authentication. The Wireless Access Point will use its Default Name as its Client Login name. The Shared Key, set on the Security Screen of the Access Point, must match the Shared Secret value on the Radius Server. Encryption settings must be correct. 49 Wireless Access Point User Guide 802.1x Server Setup (Windows 2000 Server) dhcpd dns rras This section describes using Microsoft Internet Authentication Server as the Radius Server, since it is the most common Radius Server available that supports the EAP-TLS authentication method. The following services on the Windows 2000 Domain Controller (PDC) are also required:

webserver (IIS) Radius Server (Internet Authentication Service) Certificate Authority Windows 2000 Domain Controller Setup 1. Run dcpromo.exe from the command prompt. 2. Follow all of the default prompts, ensure that DNS is installed and enabled during installa-

tion. Services Installation 1. Select the Control Panel - Add/Remove Programs. 2. Click Add/Remove Windows Components from the left side. 3. Ensure that the following components are activated (selected):

Certificate Services. After enabling this, you will see a warning that the computer cannot be renamed and joined after installing certificate services. Select Yes to select certificate services and continue World Wide Web Server. Select World Wide Web Server on the Internet Information Services (IIS) component. From the Networking Services category, select Dynamic Host Configuration Protocol

(DHCP), and Internet Authentication Service (DNS should already be selected and in-

stalled). 50 PC and Server Configuration Figure 29: Components Screen 4. Click Next. 5. Select the Enterprise root CA, and click Next. 6. Enter the information for the Certificate Authority, and click Next. Figure 30: Certification Screen 51 Wireless Access Point User Guide Figure 31: CA Screen 7. Click Next if you don't want to change the CA's configuration data. 8. Installation will warn you that Internet Information Services are running, and must be stopped before continuing. Click Ok, then Finish. DHCP server configuration 1. Click on the Start - Programs - Administrative Tools - DHCP 2. Right-click on the server entry as shown, and select New Scope. Figure 32: DHCP Screen 3. Click Next when the New Scope Wizard Begins. 4. Enter the name and description for the scope, click Next. 5. Define the IP address range. Change the subnet mask if necessary. Click Next. 52 PC and Server Configuration Figure 33:IP Address Screen 6. Add exclusions in the address fields if required. If no exclusions are required, leave it blank. Click Next. 7. Change the Lease Duration time if preferred. Click Next. 8. Select Yes, I want to configure these options now, and click Next. 9. Enter the router address for the current subnet. The router address may be left blank if there is no router. Click Next. 10. For the Parent domain, enter the domain you specified for the domain controller setup, and enter the server's address for the IP address. Click Next. Figure 34: DNS Screen 11. If you don't want a WINS server, just click Next. 12. Select Yes, I want to activate this scope now. Click Next, then Finish. 13. Right-click on the server, and select Authorize. It may take a few minutes to complete. 53 Wireless Access Point User Guide Certificate Authority Setup 1. Select Start - Programs - Administrative Tools - Certification Authority. 2. Right-click Policy Settings, and select New - Certificate to Issue. Figure 35: Certificate Authority Screen 3. Select Authenticated Session and Smartcard Logon (select more than one by holding down the Ctrl key). Click OK. Figure 36: Template Screen 4. Select Start - Programs - Administrative Tools - Active Directory Users and Computers. 5. Right-click on your active directory domain, and select Properties. 54 PC and Server Configuration 6. Select the Group Policy tab, choose Default Domain Policy then click Edit. Figure 37: Active Directory Screen Figure 38: Group Policy Tab 7. Select Computer Configuration - Windows Settings - Security Settings - Public Key Policies, right-click Automatic Certificate Request Settings - New - Automatic Certificate Request. 55 Wireless Access Point User Guide Figure 39: Group Policy Screen 8. When the Certificate Request Wizard appears, click Next. 9. Select Computer, then click Next. Figure 40: Certificate Template Screen 10. Ensure that your certificate authority is checked, then click Next. 11. Review the policy change information and click Finish. 12. Click Start - Run, type cmd and press enter. Enter secedit /refreshpolicy machine_policy This command may take a few minutes to take effect. 56 Internet Authentication Service (Radius) Setup 1. Select Start - Programs - Administrative Tools - Internet Authentication Service 2. Right-click on Clients, and select New Client. PC and Server Configuration Figure 41: Service Screen 3. Enter a name for the access point, click Next. 4. Enter the address or name of the Wireless Access Point, and set the shared secret, as entered on the 2.4GHz Security Settings of the Wireless Access Point. 5. Click Finish. 6. Right-click on Remote Access Policies, select New Remote Access Policy. 7. Assuming you are using EAP-TLS, name the policy eap-tls, and click Next. 8. Click Add... If you don't want to set any restrictions and a condition is required, select Day-And-Time-

Restrictions, and click Add... Figure 42: Attribute Screen 9. Click Permitted, then OK. Select Next. 10. Select Grant remote access permission. Click Next. 57 Wireless Access Point User Guide 11. Click Edit Profile... and select the Authentication tab. Enable Extensible Authentication Protocol, and select Smart Card or other Certificate. Deselect other authentication meth-

ods listed. Click OK. 12. Select No if you don't want to view the help for EAP. Click Finish. Figure 43: Authentication Screen 58 PC and Server Configuration Remote Access Login for Users 1. Select Start - Programs - Administrative Tools- Active Directory Users and Computers. 2. Double click on the user who you want to enable. 3. Select the Dial-in tab, and enable Allow access. Click OK. Figure 44: Dial-in Screen 59 Wireless Access Point User Guide 802.1x Client Setup on Windows XP Windows XP ships with a complete 802.1x client implementation. If using Windows 2000, you can install SP3 (Service Pack 3) to gain the same functionality. If you don't have either of these systems, you must use the 802.1x client software provided with your wireless adapter. Refer to your vendor's documentation for setup instructions. The following instructions assume that:

You are using Windows XP You are connecting to a Windows 2000 server for authentication. You already have a login (User name and password) on the Windows 2000 server. Client Certificate Setup 1. Connect to a network which doesn't require port authentication. 2. Start your Web Browser. In the Address box, enter the IP address of the Windows 2000 Server, followed by /certsrv e.g http://192.168.0.2/certsrv 3. You will be prompted for a user name and password. Enter the User name and Password assigned to you by your network administrator, and click OK. Figure 45: Connect Screen 4. On the first screen (below), select Request a certificate, click Next. 60 PC and Server Configuration Figure 46: Wireless CA Screen 5. Select User certificate request and select User Certificate, the click Next. Figure 47: Request Type Screen 6. Click Submit. 61 Wireless Access Point User Guide Figure 48: Identifying Information Screen 7. A message will be displayed, then the certificate will be returned to you. Click Install this certificate. Figure 49:Certificate Issued Screen 8. You will receive a confirmation message. Click Yes. 62 PC and Server Configuration Figure 50: Root Certificate Screen 9. Certificate setup is now complete. 802.1x Authentication Setup 1. Open the properties for the wireless connection, by selecting Start - Control Panel -

Network Connections. 2. Right Click on the Wireless Network Connection, and select Properties. 3. Select the Authentication Tab, and ensure that Enable network access control using IEEE 802.1X is selected, and Smart Card or other Certificate is selected from the EAP type. Figure 51: Authentication Tab Encryption Settings The Encryption settings must match the APs (Access Points) on the Wireless network you wish to join. Windows XP will detect any available Wireless networks, and allow you to configure each network independently. 63 Wireless Access Point User Guide Your network administrator can advise you of the correct settings for each network. 802.1x networks typically use EAP-TLS. This is a dynamic key system, so there is no need to enter key values. Enabling Encryption To enable encryption for a wireless network, follow this procedure:

1. Click on the Wireless Networks tab. Figure 52: Wireless Networks Screen 2. Select the wireless network from the Available Networks list, and click Configure. 3. Select and enter the correct values, as advised by your Network Administrator. For example, to use EAP-TLS, you would enable Data encryption, and click the checkbox for the setting The key is provided for me automatically, as shown below. 64 PC and Server Configuration Figure 53: Properties Screen Setup for Windows XP and 802.1x client is now complete. 65 Wireless Access Point User Guide Using 802.1x Mode (without WPA) This is very similar to using WPA-802.1x. The only difference is that on your client, you must NOT enable the setting The key is pro-

vided for me automatically. Instead, you must enter the WEP key manually, ensuring it matches the WEP key used on the Access Point. Figure 54: Properties Screen Note:

On some systems, the "64 bit" WEP key is shown as "40 bit" and the "128 bit" WEP key is shown as "104 bit". This difference arises because the key input by the user is 24 bits less than the key size used for encryption. 66 Chapter 5 Operation and Status 5 This Chapter details the operation of the Wireless Access Point and the status screens. Operation Once both the Wireless Access Point and the PCs are configured, operation is automatic. However, you may need to perform the following operations on a regular basis. If using the Access Control feature, update the Trusted PC database as required. (See Access Control in Chapter 3 for details.) If using 802.1x mode, update the User Login data on the Windows 2000 Server, and configure the client PCs, as required. Status Screen Use the Status link on the main menu to view this screen. Figure 55: Status Screen 67 Wireless Access Point User Guide Data - Status Screen Access Point Access Point Name MAC Address Domain Firmware Version TCP/IP IP Address Subnet Mask Gateway DHCP Client Wireless SSID Channel/Frequency Mode Security Authentication Encryption Access Control Buttons Log Stations Statistics The current name will be displayed. The MAC (physical) address of the Wireless Access Point. This is the region for which this Wireless Access Point is licensed for use. The version of the firmware currently installed. The IP Address of the Wireless Access Point. The Network Mask (Subnet Mask) for the IP Address above. Enter the Gateway for the LAN segment to which the Wireless Access Point is attached (the same value as the PCs on that LAN segment). This indicates whether the current IP address was obtained from a DHCP Server on your network. It will display "Enabled" or "Disabled". The current SSID. The Channel currently in use is displayed. The current operational mode is displayed. This displays the current Authentication setting. This displays the current Encryption setting. This indicates whether or not the MAC-level "Access Control"

feature is enabled. Click this to open a sub-window where you can view the activity log. Click this to open a sub-window where you can view the list of all current Wireless Stations using the Access Point. Click this to open a sub-window where you can view Statistics on data transmitted or received by the Access Point. 68 Activity Log This screen is displayed when the Log button on the Status screen is clicked. Operation and Status Figure 56: Activity Log Screen The system date and time is displayed. The Log shows details of the existing connections to the Wireless Access Point. Update the data on screen. Save the log to a file on your pc. This will delete all data currently in the Log. This will make it easier to read new messages. Data - Activity Log Data Current Time Log Buttons Refresh Save to file Clear Log 69 Wireless Access Point User Guide Station List This screen is displayed when the Stations button on the Status screen is clicked. Figure 57 Station List Screen Data - Station List Screen Station List MAC Address Mode Status Refresh Button The MAC (physical) address of each Wireless Station is displayed. The mode of each Wireless Station. The current status of each Wireless Station is displayed. Update the data on screen. 70 Statistics Screen This screen is displayed when the 2.4GHz Statistics button on the Status screen is clicked. It shows details of the traffic flowing through the Wireless Access Point. Operation and Status Figure 58: Statistics Screen Data - Statistics Screen System Up Time System Up Time This indicates how long the system has been running since the last restart or reboot. 2.4GHz Wireless Authentication Deauthentication Association Disassociation Reassociation Wireless MSDU Data The number of "Authentication" packets received. Authentication is the process of identification between the AP and the client. The number of "Deauthentication" packets received. Deauthentica-

tion is the process of ending an existing authentication relationship. The number of "Association" packets received. Association creates a connection between the AP and the client. Usually, clients sssoci-

ate with only one (1) AP at any time. The number of "Disassociation" packets received. Disassociation breaks the existing connection between the AP and the client. The number of "Reassociation" packets received. Reassociation is the service that enables an established association (between AP and client) to be transferred from one AP to another (or the same) AP. Number of valid Data packets transmitted to or received from Wireless Stations, at application level. Number of valid Data packets transmitted to or received from Wireless Stations, at driver level. 71 Wireless Access Point User Guide Multicast Packets Management Control Number of Broadcast packets transmitted to or received from Wireless Stations, using Multicast transmission. Number of Management packets transmitted to or received from Wireless Stations. Number of Control packets transmitted to or received from Wireless Stations. 72 Chapter 6 Other Settings & Features This Chapter explains when and how to use the Wireless Access Point's

"Management" Features. 6 Overview This Chapter covers the following features, available on the Wireless Access Points Man-

agement menu. Admin Login Config File SNMP Upgrade Firmware Admin Login Screen The Admin Login screen allows you to assign a password to the Wireless Access Point. This password limits access to the configuration interface. The default password is password. It is recommended that this be changed, using this screen. Figure 59: Admin Login Screen Data - Admin Login Screen User Name New Password Repeat New Password Enter the user name here Enter the new password here Re-enter the new password in this field. You will be prompted for the password when you connect, as shown below. 73 Wireless Access Point User Guide Figure 60: Password Dialog Enter admin for the User Name. Enter the Wireless Access Points password, as set on the Admin Login screen above. 74 Other Settings & Features Config File This screen allows you to Backup (download) the configuration file, and to restore (upload) a previously-saved configuration file. You can also set the Wireless Access Point back to its factory default settings. To reach this screen, select Config File in the Management section of the menu. Figure 61: Config File Screen Data - Config File Screen Backup Save a copy of cur-

rent settings Restore Restore saved settings from a file Click the Backup button to download the current settings to a file on your PC. If you have a previously-saved configuration file, you can use this to restore those settings by uploading the file. 1. Click the Browse button and navigate to the location of the configuration file. Defaults Revert to factory default settings 2. Select the upgrade file. Its name will appear in the File field. 3. Click the Restore button to commence the upload. 4. The Wireless Access Point will need to restart, and will be unavailable during the restart. All exiting connections will be broken. Use this to set the Wireless Access Point back to its factory default settings. Click Set to Defaults to start the procedure. The Wireless Access Point will need to restart, and will be unavailable during the restart. All exiting connections will be broken. 75 Wireless Access Point User Guide SNMP Data - SNMP Screen SNMP Enable SNMP Community Access Rights Managers Traps Figure 62: SNMP Screen Use this to enable or disable SNMP as required. Enter the community string, usually either "Public" or "Private". Select the desired option:

Read-only - Data can be read, but not changed. Read/Write - Data can be read, and setting changed. Select the desired option:

Any station - The IP address of the manager station is not checked. A specific station - The IP address is checked, and must match the address you enter in the IP address field provided. Select the desired option:

Disabled - Select this if you do not wish to use SNMP Traps. Broadcast - Select this to have Traps broadcast on your network. This makes them available to any PC. Send to - Select this to have Trap messages sent to the specified PC only. If selected, you must enter the IP Address of the desired PC. Trap Version - Select the desired option, as supported by your SNMP Management program. 76 Other Settings & Features Firmware Upgrade The firmware (software) in the Wireless Access Point can be upgraded using your Web Browser. You must first download the upgrade file, and then select Upgrade Firmware in the Manage-

ment section of the menu. You will see a screen like the following. Figure 63: Firmware Upgrade Screen To perform the Firmware Upgrade:

1. Click the Browse button and navigate to the location of the upgrade file. 2. Select the upgrade file. Its name will appear in the Upgrade File field. 3. Click the Upgrade button to commence the firmware upgrade. The Wireless Access Point is unavailable during the upgrade process, and must restart when the up-

grade is completed. Any connections to or through the Wireless Access Point will be lost. 77 A Appendix A Specifications Wireless Access Point Hardware Specifications CPU Radio-on-Chip DRAM Flash ROM LAN port Wireless Interface Operating temperature Storage temperature Power Adapter Dimensions Wireless Specifications Receive Sensitivity at 11Mbps Receive Sensitivity at 5.5Mbps Receive Sensitivity at 2Mbps Receive Sensitivity at 1Mbps Maximum Receive Level Transmit Power Modulation AR2312 AR2112 8 Mbytes (Expand to 64MB) 2 Mbytes (Expand to 8MB) 1 x Auto-MDIX RJ 45 for 10/100Mbps Ethernet Embedded Atheros solution Network Standard IEEE 802.11b (Wi-Fi) and IEEE 802.11g compliance OFDM; 802.11b: CCK (11 Mbps, 5.5 Mbps), DQPSK (2 Mbps), DBPSK (1 Mbps) Operating Frequencies 2.412.2.497 GHz Operating Channels 802.11g: 13 for North America, 13 for Europe (ETSI), 14 for Japan 802.11b: 11 for North America, 14 for Japan, 13 for Europe (ETSI) 0~55

-20~70 DC 12V/1.2A 141mm (W) x 100mm (D) x 27mm (H) min. -85dBm min. -89dBm min. -90dBm min. -93dBm min. -5dBm 18 dBm Direct Sequence Spread Spectrum BPSK / QPSK / CCK 78 Throughput Operating Range Appendix A - Specifications Up to 19 Mbps Indoors Outdoors 30 Meters (100ft.) @ 11Mbps 50 Meters (165ft.) @ 5.5Mbps 70 Meters (230ft.) @ 2Mbps 9 1Meters (300ft.) @ 1Mbps 152 Meters (500ft.) @ 11Mbps 270 Meters (885ft.) @ 5.5Mbps 396 Meters (1300ft.) @ 2 Mbps 457 Meters (1500ft.) @ 1 Mbps IEEE 802.11g/11b compliance Software Specifications Details Feature Access point support Wireless Roaming supported Supper G (up to 108Mbps) Auto Sensing Open System / Share Key authentication Wireless Channels Support Automatic Wireless Channel Selection Antenna selection Tx Power Adjustment Country Selection Preamble Type: long or short support RTS Threshold Adjustment Fragmentation Threshold Adjustment Beacon Interval Adjustment SSID assignment Common AP Repeater Client AP Open, shared, WPA, and WPA-PSK authentication EAP-TLS, EAP-TTLS, PEAP Block inter-wireless station communication Block SSID broadcast Web based configuration RADIUS Accounting RADIUS-On feature RADIUS Accounting update Operation Mode 802.1x support Management Security 79 Wireless Access Point User Guide CLI Message Log Access Control list file support Configuration file Backup/Restore Statistics support Device discovery program Windows Utility DHCP client WINS client Other Features Firmware Upgrade HTTP, FTP network protocol download 80 Appendix A - Specifications FCC Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communica-

tions. 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 of the following measures:

Reorient or relocate the receiving antenna. Connect the equipment into an outlet on a circuit different from that to which the receiver Increase the separation between the equipment and receiver. is connected. Consult the dealer or an experienced radio/TV technician for help. To assure continued compliance, any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment.

(Example - use only shielded interface cables when connecting to computer or peripheral devices). FCC Radiation Exposure Statement This equipment complies with FCC RF radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with a minimum distance of 20 centimeters between the radiator and your body. This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:

(1) This device may not cause harmful interference, and

(2) this device must accept any interference received, including interference that may cause undesired operation. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. 81 Appendix B Troubleshooting Overview B This chapter covers some common problems that may be encountered while using the Wireless Access Point and some possible solutions to them. If you follow the suggested steps and the Wireless Access Point still does not function properly, contact your dealer for further advice. General Problems Problem 1:

Solution 1:

Can't connect to the Wireless Access Point to configure it. Check the following:

The Wireless Access Point is properly installed, LAN connections are OK, and it is powered ON. Check the LEDs for port status. Ensure that your PC and the Wireless Access Point are on the same network segment. (If you don't have a router, this must be the case.) If your PC is set to "Obtain an IP Address automatically" (DHCP client), restart it. You can use the following method to determine the IP address of the Wireless Access Point, and then try to connect using the IP address, in-

stead of the name. To Find the Access Point's IP Address 1. Open a MS-DOS Prompt or Command Prompt Window. 2. Use the Ping command to ping the Wireless Access Point. Enter ping followed by the Default Name of the Wireless Access Point. e.g. ping SC003318 3. Check the output of the ping command to determine the IP address of the Wireless Access Point, as shown below. Figure 64: Ping If your PC uses a Fixed (Static) IP address, ensure that it is using an IP Address which is compatible with the Wireless Access Point. (If no DHCP Server is found, the Wireless Access Point will default to an IP Address and Mask of 192.168.0.228 and 255.255.255.0.) On Windows PCs, you can use Control Panel-Network to check the Properties for the TCP/IP protocol. 82 Appendix B - Troubleshooting Problem 2: My PC can't connect to the LAN via the Wireless Access Point. Solution 2 Check the following:

The SSID and WEP settings on the PC match the settings on the Wire-

less Access Point. On the PC, the wireless mode is set to "Infrastructure"

If using the Access Control feature, the PC's name and address is in the Trusted Stations list. If using 802.1x mode, ensure the PC's 802.1x software is configured correctly. See Chapter 4 for details of setup for the Windows XP 802.1x client. If using a different client, refer to the vendor's documentation. 83 Appendix C Windows TCP/IP Overview C Normally, no changes need to be made. By default, the Wireless Access Point will act as a DHCP client, automatically obtaining a suitable IP Address (and related information) from your DHCP Server. If using Fixed (specified) IP addresses on your LAN (instead of a DHCP Server), there is no need to change the TCP/IP of each PC. Just configure the Wireless Access Point to match your existing LAN. The following sections provide details about checking the TCP/IP settings for various types of Windows, should that be necessary. Checking TCP/IP Settings - Windows 9x/ME:

1. Select Control Panel - Network. You should see a screen like the following:

Figure 65: Network Configuration 2. Select the TCP/IP protocol for your network card. 3. Click on the Properties button. You should then see a screen like the following. 84 Appendix B - Troubleshooting Figure 66: IP Address (Win 95) Ensure your TCP/IP settings are correct, as follows:

Using DHCP To use DHCP, select the radio button Obtain an IP Address automatically. This is the default Windows settings. To work correctly, you need a DHCP server on your LAN. Using "Specify an IP Address"

If your PC is already configured for a fixed (specified) IP address, no changes are required.

(The Administrator should configure the Wireless Access Point with a fixed IP address from the same address range used on the PCs.) 85 Wireless Access Point User Guide Checking TCP/IP Settings - Windows NT4.0 1. Select Control Panel - Network, and, on the Protocols tab, select the TCP/IP protocol, as shown below. Figure 67: Windows NT4.0 - TCP/IP 2. Click the Properties button to see a screen like the one below. Figure 68: Windows NT4.0 - IP Address 86 Appendix B - Troubleshooting 3. Select the network card for your LAN. 4. Select the appropriate radio button - Obtain an IP address from a DHCP Server or Specify an IP Address, as explained below. Obtain an IP address from a DHCP Server This is the default Windows setting. This is the default Windows settings. To work correctly, you need a DHCP server on your LAN. Using "Specify an IP Address"

If your PC is already configured for a fixed (specified) IP address, no changes are required.

(The Administrator should configure the Wireless Access Point with a fixed IP address from the same address range used on the PCs.) 87 Wireless Access Point User Guide Checking TCP/IP Settings - Windows 2000 1. Select Control Panel - Network and Dial-up Connection. 2. Right click the Local Area Connection icon and select Properties. You should see a screen like the following:

Figure 69: Network Configuration (Win 2000) 3. Select the TCP/IP protocol for your network card. 4. Click on the Properties button. You should then see a screen like the following. Figure 70: TCP/IP Properties (Win 2000) 88 Appendix B - Troubleshooting 5. Ensure your TCP/IP settings are correct:

Using DHCP To use DHCP, select the radio button Obtain an IP Address automatically. This is the default Windows setting. This is the default Windows settings. To work correctly, you need a DHCP server on your LAN. Using a fixed IP Address ("Use the following IP Address") If your PC is already configured for a fixed (specified) IP address, no changes are required.

(The Administrator should configure the Wireless Access Point with a fixed IP address from the same address range used on the PCs.) 89 Wireless Access Point User Guide Checking TCP/IP Settings - Windows XP 1. Select Control Panel - Network Connection. 2. Right click the Local Area Connection and choose Properties. You should see a screen like the following:

Figure 71: Network Configuration (Windows XP) 3. Select the TCP/IP protocol for your network card. 4. Click on the Properties button. You should then see a screen like the following. Figure 72: TCP/IP Properties (Windows XP) 90 Appendix B - Troubleshooting 5. Ensure your TCP/IP settings are correct. Using DHCP To use DHCP, select the radio button Obtain an IP Address automatically. This is the default Windows setting. To work correctly, you need a DHCP server on your LAN. Using a fixed IP Address ("Use the following IP Address") If your PC is already configured for a fixed (specified) IP address, no changes are required.

(The Administrator should configure the Wireless Access Point with a fixed IP address from the same address range used on the PCs.) 91 Appendix D About Wireless LANs Overview D Wireless networks have their own terms and jargon. It is necessary to understand many of these terms in order to configure and operate a Wireless LAN. Wireless LAN Terminology Modes Wireless LANs can work in either of two (2) modes:

Ad-hoc Infrastructure Ad-hoc Mode Ad-hoc mode does not require an Access Point or a wired (Ethernet) LAN. Wireless Sta-

tions (e.g. notebook PCs with wireless cards) communicate directly with each other. Infrastructure Mode In Infrastructure Mode, one or more Access Points are used to connect Wireless Stations

(e.g. Notebook PCs with wireless cards) to a wired (Ethernet) LAN. The Wireless Stations can then access all LAN resources. Access Points can only function in "Infrastructure" mode, and can communicate only with Wireless Stations which are set to "Infrastructure" mode. SSID/ESSID BSS/SSID A group of Wireless Stations and a single Access Point, all using the same ID (SSID), form a Basic Service Set (BSS). Using the same SSID is essential. Devices with different SSIDs are unable to communi-

cate with each other. However, some Access Points allow connections from Wireless Stations which have their SSID set to any or whose SSID is blank ( null ). ESS/ESSID A group of Wireless Stations, and multiple Access Points, all using the same ID (ESSID), form an Extended Service Set (ESS). 92 Appendix C - Windows TCP/IP Different Access Points within an ESS can use different Channels. To reduce interference, it is recommended that adjacent Access Points SHOULD use different channels. As Wireless Stations are physically moved through the area covered by an ESS, they will automatically change to the Access Point which has the least interference or best perform-

ance. This capability is called Roaming. (Access Points do not have or require Roaming capabilities.) Channels The Wireless Channel sets the radio frequency used for communication. Access Points use a fixed Channel. You can select the Channel used. This allows you to choose a Channel which provides the least interference and best performance. For 802.11g, 13 channels are available in the USA and Canada., but 11channels are available in North America if using 802.11b. If using multiple Access Points, it is better if adjacent Access Points use different Chan-

nels to reduce interference. The recommended Channel spacing between adjacent Access Points is 5 Channels (e.g. use Channels 1 and 6, or 6 and 11). In "Infrastructure" mode, Wireless Stations normally scan all Channels, looking for an Access Point. If more than one Access Point can be used, the one with the strongest signal is used. (This can only happen within an ESS.) If using "Ad-hoc" mode (no Access Point), all Wireless stations should be set to use the same Channel. However, most Wireless stations will still scan all Channels to see if there is an existing "Ad-hoc" group they can join. WEP WEP (Wired Equivalent Privacy) is a standard for encrypting data before it is transmitted. This is desirable because it is impossible to prevent snoopers from receiving any data which is transmitted by your Wireless Stations. But if the data is encrypted, then it is meaningless unless the receiver can decrypt it. If WEP is used, the Wireless Stations and the Wireless Access Point must have the same settings. WPA-PSK Like WEP, data is encrypted before transmission. WPA is more secure than WEP, and should be used if possible. The PSK (Pre-shared Key) must be entered on each Wireless station. The 256Bit encryption key is derived from the PSK, and changes frequently. WPA-802.1x WPA-802.1x - This version of WPA requires a Radius Server on your LAN to provide the client authentication according to the 802.1x standard. Data transmissions are encrypted using the WPA standard. If this option is used:

The Access Point must have a "client login" on the Radius Server. Each user must have a "user login" on the Radius Server. Each user's wireless client must support 802.1x and provide the login data when required. 93 Wireless Access Point User Guide All data transmission is encrypted using the WPA standard. Keys are automatically generated, so no key input is required. 802.1x This uses the 802.1x standard for client authentication, and WEP for data encryption. If possi-

ble, you should use WPA-802.1x instead, because WPA encryption is much stronger than WEP encryption. If this option is used:

The Access Point must have a "client login" on the Radius Server. Each user must have a "user login" on the Radius Server. Each user's wireless client must support 802.1x and provide the login data when required. All data transmission is encrypted using the WEP standard. You only have to select the WEP key size; the WEP key is automatically generated. 94

 

 

ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Page 6 of 13 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Page 7 of 13 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Page 8 of 13 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Page 9 of 13 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015

 

 

ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Appendix A. Pictures Page 1 of 13 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Page 2 of 13 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Page 3 of 13 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Page 4 of 13 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Page 5 of 13 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015

 

 

Input:zavoc Polarity: o@

FCC ID:P27APS1DA This doviescomples win Part 15. tho FCC rules. Operation sutact, flowing two condtions(1 This device may not cause harm

 

 

fd 4-R1.5 m m 0

. 5 6 Model No.:

Serial No.:

Server Name:

Input:24VDC FCC ID:P27AP51DA This device complies with Part 15 of the FCC rules. Operation is subject to the following two conditions:(1) This device may not cause harmful interference.(2)This device must accept any interference received including interference that may cause undesired operation. Polarity:

500mA 0681 Tested to Comply With FCC Standards FOR HOME OR OFFICE USE Made in Taiwan 101.00 mm 1.#50PO37. 2.. 3.. 4.. 5. 0.2mm

//AP51DA 9320ND0001 v1

 

 

 

 

 

 

8K, No.3-1, YuanQu St. NanKang, ve Taipei 115,) R.0.C. fe 86-2-2655-3988 SerComm Corporation Fax: 886-2-6615-8898 Federal Communications Commission Dear Sir:

We, the undersigned, hereby authorize ETS Dr.Genz Taiwan PS Co.,Ltd. to act on our behalf in all matters relating to application for Product Name : AP, Model Number : AP51DA , FCC ID :P27AP51DA authorization, including the signing of all documents relating to these matters. Any and all acts carried out by ETS Dr.Genz Taiwan PS Co.,Ltd. on our behalf shall have the same effect as acts of our own. The applicant certifies that in the case of an individual applicant ( e.g., corporation ), no party to the applicant is subject to a denial of federal benefits, that includes FCC benefits, pursuant to section 5301 of the Anti-drug abuse act of 1988.21 U.S.C.862. For a definition of a party for these purposes see 47 C.F.R.1.200(b). By: Psa ee =F By: Kevin Tseng

( Signature ) ff ( Printed ) Title: Manager Applicant:SERCOMM CORPORATION Address: 8F, No.3-1, YuanQu St., NanKang,, Taipei 115,Taiwan, R.O.C. Tel: _+886-2-26553988 Fax: _ +886-2-66158898 Date: FEB.18.2004

 

 

8K, No.3-1, YuanQu St, NanKang, oa Taipei U5 , R.0.C. Tel: 886-2-2655-3988 e SerComm Corporation Fax: 886-2-615.8898 Federal Communications Commission FCC ID:P27AP51DA Dear Sir:

This is to request confidentiality on information submitted for above application. We would like to request confidentiality on some exhibits we submitted for above original application for the reason of trade secret. If those exhibits are available for public inspection, any person who once gets the information contained in those exhibits will be able to design and to make the same products very easily. This is a very serious problem and huge loss for us, because we did invest so much on it. Please be not made the Exhibit Types listed below routinely available for public inspection:

PCB Layout + Schematics and Part List. By: Kevin Tseng

(Printed)

(Signature) Title: Manager Applicant: SERCOMM CORPORATION Address: 8F, No.3-1, YuanQu St., NanKang,, Taipei 115,Taiwan, R.O.C. Tel: _+886-2-26553988 Fax: _ +886-2-66158898

 

 

ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH BZT ETS CERTIFICATION GMBH Mr. DIETER GRIEP; Mr. ANDREAS HERRMANN Storkower Str. 38c 15526 Reichenwalde b. Berlin GERMANY IHR ZEICHEN / YOUR REF. Subject:

IHR SCHREIBEN / YOUR INFORM. UNSER ZEICHEN / OUR REF. am DATUM / DATE 2004-08-13 Application for TCB Certification Applicant: SerComm Corporation Equipment: Wireless Internet Access Server Appliance FCC ID: P27AP51DA Dear Sirs, Submitted herewith, on behalf of SerComm Corporation, is an application for certification under FCC Rule 15c of the following equipment:

Wireless Internet Access Server Appliance Attached are the 731Form, Confidentiality request letter, test report (TestRpt1=test data, TestRpt2=test plots), FCC ID label and label location information, test setup photographs, internal and external photographs, operational description, parts list, block diagrams, schematics, antenna spec. information, RF Exposure and user manual. In accordance with 0.459 of CFR 47 SerComm Corporation hereby requests confidentiality of all Block Diagrams and Circuit Diagrams (Schematics), Parts List and Operational Description (see attached Confidentiality Request Letter) for the subject application. Should you have any questions or comments concerning the above, please contact the following e-mail addresses: a.mueller@ets-bzt.com Best Regards Axel Mller Electronic Technology Systems Dr. Genz GmbH Storkower Strasse 38c 15526 Reichenwalde bei Berlin Germany e-mail: a.mueller@ets-bzt.com ___________________________________________________________________________________ ETS Electronic Technology Systems Dr. Genz GmbH Storkower Strasse 38c D-15526 Reichenwalde b. Berlin Handelsregister:

Amtsgericht Frankfurt/Oder HRB 5151 Geschftsfhrung: Dr. Dietmar Genz Norbert Kaspar Bankverbindung:

Sparkasse Oder-Spree BLZ 170 550 50 Kto. Nr. 3105165974

 

 

ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Page 10 of 13 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Page 11 of 13 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Page 12 of 13 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Page 13 of 13 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015

 

 

 

 

 

 

ELECTRONIC TECHNOLOGY SYSTEMS DR. GENZ GMBH TEST - REPORT FCC PART 15 for U-NII devices FCC ID: P27AP51DA Test report no.:

W6M20402-5015-C-2 DR. GENZ GMBH ELECTRONIC TECHNOLOGY SYSTEMS STORKOWER STRASSE 38C, D-15526 REICHENWALDE B. BERLIN PHONE +49-33631-888 00 FAX +49-33631-888 66 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH TABLE OF CONTENTS General information 1 Notes 1.1 1.2 Testing laboratory Details of approval holder 1.3 Application details 1.4 Test item 1.5 1.6 Test standards 2 2.1 2.2 2.3 2.4 2.4.1 2.4.2 2.4.3 2.4.4 2.4.5 Technical test Summary of test results Test environment Test equipment utilized Test Procedures Emission Bandwidth, FCC 15.407 (a) Peak Transmit Power, FCC 15.407 (a)(1,2,3,4) Peak Power Spectral Density, FCC 15.407 (a)(1,2,4,5) Ratio of the Peak Excursion of the modulation envelope, FCC 15.407 (a)(6) Peak Emissions outside the frequency bands of operation, FCC 15.205, 15.209, 15.407 (b) Automatic Discontinuation of transmission, FCC 15.407 (c) Transmitting Antenna, FCC 15.407 (d) Indoor Operation Restriction, FCC 15.407 (e) Radio Frequency Radiation Exposure, FCC 15.407 (f) Frequency Stability, FCC 15.407 (g) Spurious Emissions related to AC power line, FCC 15.207 Test Results Emission Bandwidth, FCC 15.407 (a) Peak Transmit Power, FCC 15.407 (a)(1,2,3,4) Peak Power Spectral Density, FCC 15.407 (a)(1,2,4,5) Ratio of the Peak Excursion of the modulation envelope, FCC 15.407 (a)(6) Peak Emissions outside the frequency bands of operation, FCC 15.205, 15.209, 15.407 (b) Automatic Discontinuation of transmission, FCC 15.407 (c) Transmitting Antenna, FCC 15.407 (d) Indoor Operation Restriction, FCC 15.407 (e) Radio Frequency Radiation Exposure, FCC 15.407 (f) Frequency Stability, FCC 15.407 (g) Spurious emissions related to AC power line, FCC 15.207 2.4.6 2.4.7 2.4.8 2.4.9 2.4.10 2.4.11 3 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10 3.11 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 1 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH General Information Notes 1 1.1 The purpose of conformity testing is to increase the probability of adherence to the essential requirements or conformity specifications, as appropriate. The complexity of the technical specifications, however, means that full and thorough testing is impractical for both technical and economic reasons. Furthermore, there is no guarantee that a test sample which has Passed all the relevant tests conforms to a specification. Neither is there any guarantee that such a test sample will interoperate with other genuinely open systems. The existence of the tests nevertheless provides the confidence that the test sample possesses the qualities as maintained and that is performance generally conforms to representative cases of communications equipment. The test results of this test report relate exclusively to the item tested as specified in 1.5. The test report may only be reproduced or published in full. Reproduction or publication of extracts from the report requires the prior written approval of the ELECTRONIC TECHNOLOGY SYSTEMS DR. GENZ GMBH. Specific Conditions:

Usage of the hereunder tested device in combination with other integrated or external antennas requires at least additional output power measurements, spurious emission measurements, conducted emission measurements (AC supply lines) and radio frequency exposure evaluations for each individual configuration are performed, for certification by FCC. The test sample is able to work according IEEE 802.11 a,b,g. This report is related to FCC Part 15 E (UNII device, IEEE 802.11a) only and do not cover requirements for other parts like FCC Part 15 C (e.g. for IEEE 802.11b,g). Tester:

N. Kaspar 10.08.2004 Date Technical responsibility for area of testing:

ETS-Lab. Name Signature 10.08.2004 Date Dr. Genz ETS Name Signature ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 2 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Location Testing laboratory Details of accreditation status 1.2 1.2.1 ELECTRONIC TECHNOLOGY SYSTEM DR. GENZ GMBH (ETS) Storkower Strae 38c D-15526 Reichenwalde b. Berlin Germany Telefon : +49 33631 888 00 Telefax : +49 33631 888 66 1.2.2 ACCREDITED TESTING LABORATORY DAR-REGISTRATION NUMBER: TTI-P-G 126/96 ACCREDITED COMPETENT BODY DAR-REGISTRATION NUMBER: BPT-ZE-026/96 FCC FILED TEST LABORATORY REG. NO. 96970 Bluetooth Qualification Test Facility (BQTF) Accredited by:Bluetooth Qualification Review Board (BQRF) INDUSTRY CANADA FILED TEST LABORATORY A2LA ACCREDITED Certificate Number: 1983-01 1.3 Details of approval holder Name Street Town Country Telephone Fax Contact Telephone E-mail

: SerComm Corporation

: 8F., No,3-1, YuanQu St., NanKang

: Taipei 115

: Taiwan, R.O.C

: +886 2 2655 3988

: +886 2 2655 3966

: Mr. Kevin Tseng

: +886 2 2655 3988

:

REG. NO. IC 3470 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 3 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH

: 04.02.2004

: 04.02.2004

: 04.02.2004 01.04.2004; 08.07.2004 - 25.07.2004

: AP Wireless LAN access point

: AP51DA

: Test model without serial number.

: See annex 1.4 Application details Date of receipt of application Date of receipt of test item Date of test 1.5 Test item Description of test item Type identification Serial number Photos Technical data Frequency bands Band (GHz)

:

Operating Channel numbers U-NII lower band

(5.15 5.25) U-NII middle band

(5.25 5.35) U-NII (new) band

(5.470 5.725) U-NII upper band

(5.725 5.825) U-NII lower and middle band

(5.15 5.35) 36 40 44 48 52 56 60 64 100 104 108 112 116 120 124 128 132 136 140 149 153 157 161 42 50 58 Channel center frequency (MHz) 5180 5200 5220 5240 5260 5280 5300 5320 5500 5520 5540 5560 5580 5600 5620 5640 5660 5680 5700 5745 5765 5785 5805 5210 5250 5290 Supported by Test item Yes / No Yes / No Yes / No Yes / No Yes / No ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 4 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Operating modes Type of modulation

: duplex

: OFDM Data rate

(Mbits/s) 6 18 36 54 Modulation BPSK QPSK 16-QAM 64-QAM Supported by Test item Yes / No Yes / No Yes / No Yes / No Fixed point-to-point operation: Yes/No Antenna Antenna connector Antenna gain Power supply Emission designator Host device

: integral Dual Band RF antenna

: I-Pex connector on main board

: 2 dBi (peak gain) for 5 GHz

: 120 V AC/DC Adapter (12V / 1,2A)

: U-NII lower band (5.15 5.25) U-NII middle band (5.25 5.35) U-NII upper band (5.725 5.825) U-NII lower & middle band (5.15 5.35)

: none

:

Classification 24M7W7D 24M7W7D 24M9W7D 42M9W7D Fixed Device Mobile Device (Human Body distance > 20cm) Portable Device (Human Body distance < 20cm) Manufacturer:

(if applicable) Name Street Town Country ETS Dr. Genz GmbH, Germany

:

:

:

:

Registration number: W6M20402-5015-C-2 Page 5 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH 1.6 Test standards Technical standard Additional information

:

FCC RULES PART 15 E

: For this report the function according IEEE 802.11a is considered only. The scheme for frequency generation, spectrum spreading, receiver parameters, synchronization procedure, and other parameters are determined by the mentioned standard above. The test sample provides an additional function called Turbo mode for increasing the data rate. This function uses two channel blocks at the same time. The related test results are documented as applicable. The integral antenna is permanent. The I-PEX connectors are inside of a non-accessible on main board. There is no need for the user to ever open the case.

Technical test 2 2.1 Summary of test results No deviations from the technical specification(s) were ascertained in the course of the tests performed. or The deviations as specified in 2.5 were ascertained in the course of the tests performed. 2.2 Test environment Temperature Relative humidity content Air pressure Details of power supply Extrem conditions parameters:

: test voltage - extreme min :

max:

: 120 V AC/DC Adapter

-- V, AC

-- V, AC

... 103 kPa

... 75 %

: 23oC

: 20

: 86 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 6 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Test equipment utilized 2.3 No. ETS 0001 ETS 0002 ETS 0003 ETS 0004 ETS 0005 ETS 0006 ETS 0007 ETS 0008 ETS 0009 ETS 0010 ETS 0011 ETS 0012 ETS 0013 ETS 0014 ETS 0015 ETS 0016 ETS 0017 ETS 0018 ETS 0019 ETS 0020 ETS 0021 ETS 0022 ETS 0023 ETS 0024 ETS 0025 ETS 0026 ETS 0027 ETS 0028 ETS 0029 ETS 0030 ETS 0031 ETS 0032 ETS 0033 ETS 0034 ETS 0035 ETS 0036 ETS 0037 ETS 0038 ETS 0039 ETS 0040 ETS 0041 ETS 0042 ETS 0043 ETS 0044 Measurement device:

Test receiver Test receiver Test receiver Spectrum- and Network-Analyzer Test receiver Test receiver system Spectrum analyzer Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna mast Antenna mast Tripod Tripod Tripod Tripod Turn table Turn table Controller RF generator RF generator/ Amplifier RF generator/ Amplifier RF amplifier RF amplifier RF amplifier Absorbing clamp Artificial mains Artificial mains Artificial mains Artificial mains Artificial mains Type:

ESHS 10 ESVP ESVS 10 FSMS 26 SMV 11 SME 12 PSA-65A Loop antenna Loop antenna Loop antenna van Veen/ Frame HK 116 HL 223 HL 025 HL 025 VHAP VHAP UHAP UHAP DP 21 DP 3 SAS-200/ 521 DP 1 AF 2 AF 2 STA 2 TT 1 DS 412 HD 050 SMG SMLR SMLM 10W 1000AM2 50W 1000 150L MDS 21 ESH3-Z5 ESH3-Z4 ESH3-Z6 NNB 11 NNB 111 Manufacturer:

Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz MEB MEB Avcom Siemens MEB MEB ETS Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Schwarzbeck Schwarzbeck Schwarzbeck Schwarzbeck MEB MEB A.H. Systeme / USA MEB MEB MEB Heinrich Deisel Heinrich Deisel C. Lorenz AG Berlebach ETS Heinrich Deisel Heinrich Deisel Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Amplifier Research Amplifier Research Amplifier Research Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz MEB MEB ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 7 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Blank plug-in Measurement device:

Stripe line Power supply Power supply Power supply Power supply Power supply Oscilloscope Audio analyzer ECAT Control center EFT simulator No. ETS 0045 ETS 0046 ETS 0047 ETS 0048 ETS 0049 ETS 0050 ETS 0051 ETS 0052 ETS 0053 ETS 0054 ETS 0055 Module network coupler ETS 0056 ETS 0057 Module SURGE with DC coupler ETS 0058 ETS 0059 ETS 0060 ETS 0061 ETS 0062 ETS 0063 ETS 0064 ETS 0065 ETS 0066 ETS 0067 ETS 0068 ETS 0069 ETS 0070 ETS 0071 ETS 0072 ETS 0073 ETS 0074 ETS 0075 ETS 0076 ETS 0077 ETS 0078 ETS 0079 ETS 0080 ETS 0081 ETS 0082 ETS 0083 ETS 0084 ETS 0085 ETS 0086 ETS 0087 ETS 0088 ETS 0089 ETS 0090 ETS 0091 ETS 0092 ETS 0093 Capacitive coupling clamp Kikusui amplifier Xitron power analyzer Power/ Arb (Harm., Ramp) Reference impedance Blank plug-in Filter system IEC 1000-4-6 ESD-generator minizap EM Injection Clamp Calibration Fixture Filter system IEC 1000-4-6 EM Radiation Monitor PC Transfer set EMR-20 Video camera system Interphone system Audio noise meter RF milivoltmeter NF generator Feeding bridge A Audio/ Video Filter LCR meter Functional generator EMI Software EMI Software PC Novell network system Apple computer system Process controller Shielded room Anechoic chamber Climatic cell Color TV pattern generator Radio communication tester DECT type approval CTR06 RF signal generator DM-Coder Pulse Modulator Type:

IEC 801-3 LTS 006 TG 20/ 1 TG 20/ 1 T 102 T 101b TDS 640A UPA 4 PCR 2000L IEC 801-2031 CF CDN EMR-20 EMR-20 KMB012 JS-1400 GSM 2 QRV 2 GF 22 SBA 1000 AV 55020 SR 720 MX-2020 ES-K1 ES-K10 Novell Performa 630 PSA 15 SR 1 AC 1 HC 4033 PM 5518-TX VPS CMS 54 TS 8930 SME 03 SME-B11 SM-B8 Manufacturer:

ETS RFT Statron Statron TPW TPW Tektronic Rohde&Schwarz Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV FCC/ EMV FCC/ EMV FCC/ EMV Wandel&Goltermann Wandel&Goltermann Kocom Jiuh Sheng MKD/ RFT MKD/ RFT Prcitronic ESP ETS SRS Maxcom Rohde&Schwarz Rohde&Schwarz Esotronic Macintosh Rohde&Schwarz Frankonia Frankonia Heraeus Philips Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 8 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Manufacturer:

Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz ETS Rohde&Schwarz Rohde&Schwarz Avcom Avcom INCO Serute Dagatron Rohde&Schwarz Rohde&Schwarz Type:

Measurement device:

SME-B19 Rear-panel connectors PSMD DECT system controller PSMD-B11 DECT Signaling unit TS 89RA Rack, 19", 36 HU CS 893BE System engineering and software TS 8930B Extension unit for basic version SME-06 RF signal generator SME-B11 DM-Coder SM-B8 Pulse modulator SM-B4 Pulse generator SME-B19 Rear-panel connectors SMP 22 High power synthesizer/ sweeper SMP-B11 Frequency extension SMP-B15 RF attenuator for SMP 22 TS 1220 DECT protocol tester TBR 22 PSM 2 Process controller Real time signaling unit PSMD-B2 PCM Realtime audio interface for PSMD-B3 PSMD-B4 Synthesizer Module Keyboard PSA-Z2 RF step attenuator RSG Glide path RF Millivoltmeter Insertion unit No. ETS 0094 ETS 0095 ETS 0096 ETS 0097 ETS 0098 ETS 0099 ETS 0100 ETS 0101 ETS 0102 ETS 0103 ETS 0104 ETS 0105 ETS 0106 ETS 0107 ETS 0108 ETS 0109 ETS 0110 ETS 0111 ETS 0112 ETS 0113 ETS 0114 ETS 0115 ETS 0116 ETS 0117 ETS 0118 Mixer ETS 0119 Mixer ETS 0120 RF step attenuator ETS 0121 Oscilloscope ETS 0122 Oscilloscope ETS 0123 RF step attenuator ETS 0124 Tripod ETS 0125 Small components ETS 0126 Uninterruptible power supply ETS 0127 Uninterruptible power supply ETS 0128 Uninterruptible power supply ETS 0129 Uninterruptible power supply ETS 0130 Uninterruptible power supply ETS 0131 Telephone connection box ETS 0132 Frequency doubler ETS 0133 Probe body ETS 0134 Mains filter ETS 0135 Measuring switching point ETS 0136 Attenuator ETS 0137 Multimeter ETS 0138 Multimeter ETS 0139 Multimeter ETS 0140 ETS 0141 ETS 0142 URV 55 URV-Z2 MFC 1000 MFC 2000 TRI-50-20 EO 147A 5201 RBU STA 2 High voltage generator Sliding bridge Impedance converter UPS - 1500 UPS - 1000 LC UPS - 1000 UPS - 500 Power saver TR-0616 P6015 MSF AK 11 33-6-34 YX-360TRA DT-9410 ST-9202 IP 6Wa J 573 TK 11 Sendon Sendon Sendon Sendon Sendon Systel EMG Tektronix Erika Fiedler RFT Weinschel Mastech Diditec Standard TPW RFT RFT ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 9 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Type:

TK 103 ESH2-Z2 21PT4301/00 ZAPD-21 HR07-720 NSG 500C NSG 506C (I) NSG 506C (II) SMG SMG NKS VTG 700 VTG 700 TOE 8815 PI 6001 D 403-A BK 4602 BK 4185 BK 4227 BK 4231 CAS TE I CTR 10 MFE III MFE IV TEH HNG III.1 Canton S Pluss TK 12 Measurement device:

Impedance converter Probe Active probe Test TV Power divider Switcher Interference pulse generator Simulator for Load-Dump-Impulse Simulator for Load-Dump-Impulse Signal generator Signal generator Adjacent channel power meter TV and Sat-Signal generator TV and Sat Signal generator Programmable power supply Protective wire and isolation tester Filter system / consumer electronic Acoustic chamber Test head Simulator ear Simulator mouth Acoustic calibrator Communication Analysis System Acoustical test for DECT No. ETS 0143 ETS 0144 ETS 0145 ETS 0146 ETS 0147 ETS 0148 ETS 0149 ETS 0150 ETS 0151 ETS 0152 ETS 0153 ETS 0154 ETS 0155 ETS 0156 ETS 0157 ETS 0158 ETS 0159 ETS 0160 ETS 0161 ETS 0162 ETS 0163 ETS 0164 ETS 0165 ETS 0166 ETS 0167 ETS 0168 ETS 0169 Measurement - Frontend (analog) ETS 0170 Measurement - Frontend (digital) ETS 0171 ETS 0172 ETS 0173 ETS 0174 Measurement - Frontend line interface MFE V ETS 0175 ETS 0176 ETS 0177 ETS 0178 ETS 0179 ETS 0180 ETS 0181 ETS 0182 ETS 0183 ETS 0184 ETS 0185 ETS 0186 ETS 0187 ETS 0188 ETS 0189 ETS 0190 ETS 0191 Software Line interface (analog) Acoustic volt meter Feeding bridge B Open area test side Open area test side Artificial mains Test pin for protective wire Power supply Frequency counter Function generator Digital multimeter Power supply Power supply High voltage generator Spectrum Analyzer Function generator Sweep function generator Electronic test cradle Noise generator Speaker COPTZV5 COP 4 SBA 1000 30m 30m NNB01/RFZ PE 156-i MX-9300 MX-9300 MX-9300 MX-9300 DF 1730 FSEB MX 2020 7202 Manufacturer:

RFT MEB Rohde&Schwarz Philips MCL Wisi Schaffner Schaffner Schaffner Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Grundig Grundig Toellner SPS electronic Fiedler IAC Brel & Kjr Brel & Kjr Brel & Kjr Brel & Kjr HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics ESP ETS ETS ETS SPS electronic Maxcom Maxcom Maxcom Maxcom WJG TPW/RFT Rohde&Schwarz Maxcom Dagatron ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 10 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Measurement device:

Hazardous live probe Hazardous live probe Ball pressure test apparatus Glow Wire tester Force indicator 50N Audio generator Vibration table Digital multimeter Thermo hygro recorder Digital thermometer Digital thermometer Digital thermometer Digital thermometer Digital thermometer / hygro meter Digital thermometer / hygro meter Digital thermometer Digital thermometer Digital thermometer High voltage test generator High voltage test accessories Socket-Outlet torque balance Unjointed Finger probe Flexible Finger probe Spring operated impact hammer No. ETS 0192 ETS 0193 ETS 0194 ETS 0195 ETS 0196 ETS 0197 ETS 0198 ETS 0199 ETS 0200 ETS 0201 ETS 0202 ETS 0203 ETS 0204 ETS 0205 ETS 0206 ETS 0207 ETS 0208 ETS 0209 ETS 0210 ETS 0211 Metallic ball ETS 0212 ETS 0213 ETS 0214 ETS 0215 ETS 0216 ETS 0217 Millivolt meter ETS 0218 ETS 0219 ETS 0220 ETS 0221 ETS 0222 ETS 0223 ETS 0224 ETS 0225 ETS 0226 ETS 0227 ETS 0228 ETS 0229 ETS 0230 ETS 0231 ETS 0232 ETS 0233 ETS 0234 ETS 0235 ETS 0236 ETS 0237 ETS 0238 ETS 0239 ETS 0240 RF probe Power sensor Insertion unit ISDN-S0-Analyzer ISDN Protocol Analyser GSM/ PCN/ PCS-Simul. GSM System Simulator SIM Simulator SIM Editor Vibration table Climatic chamber Radio Commun. Tester Radio Commun. Tester Testreceiver Radiation test source Direction coupler Power meter RF-network-analyser RF-amplifier RF-amplifier Field strong meter Isotr. field probe 40 GHz Isotr. field probe 1 GHz Type:

7101 N1-201-M PMM 208 AK-688 ad 170th ad 31th ad 90h 37950-10 ad 15th Type K ad 20th HA 3300 D HVGZ 312 F 37.13 P 10.05 P 10.01 P 22.50 F 53.32 P 10.06 P 10.11 T 10.02 T 03.14 P 10.31 URV 55 URV5-Z7 NRV-Z2 URV5-Z4 K1403 TE965 TS8915B FTA TIRA vib VT 4010 CMT 54 CMD 65 ESVS 30 VSQ 1 RK 100 NRVD 8752 C 100A100 100W1000M1 FM 2000 FP 2080 Kit FP 2000 Kit Manufacturer:

Dagatron Sandox Dagatron Amarell KD Prima ama-digit ama-digit ama-digit Cole Parmer ama-digit Amarell ama-digit SPS electronic SPS electronic PTL PTL PTL PTL PTL PTL PTL PTL PTL PTL Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Siemens Tekelec Teleco. Rohde & Schwarz Rohde & Schwarz Orga Orga GenRad Vtsch Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz MEB MEB Rohde & Schwarz Hewlett Packard Amplifier Research Amplifier Research Amplifier Research Amplifier Research Amplifier Research ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 11 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH No. ETS 0241 ETS 0242 ETS 0243 ETS 0244 ETS 0245 ETS 0246 ETS 0247 ETS 0248 ETS 0249 ETS 0250 ETS 0252 ETS 0253 ETS 0254 ETS 0255 ETS 0256 ETS 0257 ETS 0258 ETS 0259 ETS 0260 ETS 0261 ETS 0262 ETS 0263 ETS 0264 ETS 0265 ETS 0267 ETS 0268 ETS 0270 ETS 0271 ETS 0272 ETS 0273 ETS 0274 ETS 0275 ETS 0276 ETS 0277 ETS 0278 ETS 0279 ETS 0280 ETS 0281 ETS 0282 ETS 0283 ETS 0284 ETS 0285 ETS 0286 ETS 0287 ETS 0288 ETS 0289 ETS 0290 ETS 0291 ETS 0292 Measurement device:

Pulse Generator Harmonics analyser AC-clamp 1000 A Burst generator Load dump generator Voltage drop simulator Microsecond generator Switch unit Coupling network Coupling clamp System controller Spectrum analyser RF generator RF generator RF generator Step attenuator Rubidium standard Power meter Power sensor Power sensor Switching unit Signaling unit Spectrum analyser Loop antenna RF signal generator RF signal generator RF signal generator Test receiver RF signal generator RF signal generator RF signal generator Power sensor Audio analyser Power sensor Power sensor Step attenuator Power meter Spectrum analyser RF bridge RF bridge Field probe Field probe Limiter Test receiver Artifical mains Audio generator Audio generator Loop antenna RF generator Type:

4050 F 41B 80i 1000s EFT 200 LD 200 VDS 200 MPG 200 AN 200 CNA 200 ACC PSM 12 FSIQ SMIQ 03 SMIQ 03 SMP 03 RSP RSTU NRVD NRVD-Z1 NRVD-Z1 SSCU F 1048 HFRA 9150 SMT 03 SMP 02 SMP 04 ESI 40 SME 03 SME 03 SMY 01 NRV-Z51 UPL NRV-Z1 NRV-Z31 RSP NRVD FSM 86207 A 86205 A 11940 A 11941 A 11867 A ESHS 10 ESH2-Z5 TAG 101 TAG 101 HFH2-Z2 SMHU Manufacturer:

PicoSecond PL Fluke Fluke EM-Test EM-Test EM-Test EM-Test EM-Test EM-Test EM-Test Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz DATUM GmbH Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Wird HAMEG Schwarzbeck Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Hewlett Packard Hewlett Packard Hewlett Packard Hewlett Packard Hewlett Packard Rohde & Schwarz Rohde & Schwarz Troneer Troneer Rohde & Schwarz Rohde & Schwarz ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 12 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH No. ETS 0293 ETS 0294 ETS 0295 ETS 0296 ETS 0297 ETS 0298 ETS 0299 ETS 0300 ETS 0301 ETS 0302 ETS 0303 ETS 0304 ETS 0305 ETS 0306 ETS 0307 ETS 0308 ETS 0309 ETS 0310 ETS 0311 ETS 0312 ETS 0313 ETS 0314 ETS 0315 ETS 0316 ETS 0317 ETS 0318 ETS 0319 ETS 0320 ETS 0321 ETS 0322 ETS 0323 ETS 0324 ETS 0325 ETS 0326 ETS 0327 ETS 0328 ETS 0330 ETS 0333 ETS 0334 ETS 0335 ETS 0336 ETS 0337 ETS 0338 ETS 0339 ETS 0340 ETS 0431 ETS 0432 ETS 0433 ETS 0434 Measurement device:

Artifical mains Biconical antenna LPD antenna Oscilloscope Power pulse generator ICO tester DECT protocol tester RF amplifier Relay switch unit Data line CDN Telecom line CDN Test receiver Test receiver Function generator Commu. Sign. Analyzer Spectrum analyzer Anechoic chamber Anechoic chamber Anechoic chamber Climatic chamber Power sensor LPD antenna Biconical antenna Switcher Switcher Dial pulse/ DTMF tester Opto link Opto link RF Millivoltmeter Insertion unit DECT portable part DECT fix part DECT portable part DECT fix part Blue Unit BT Protocol tester Spectrum analyser turn table Controller BT Development kit LPD Antenna Professional Power Amplifier Coupling network Isolating Transformer Bluetooth test set AC Mains Adaptor RF Verstrkermatrix RF Verstrkermatrix Reserviert Tre Type:

NNBM 8125 HK 116 HL 223 TDS 520 A IGUF 2910 TS 1232 TS 1220 75 A 250 RSU CM-I/O CD CM-TEL CD ESHS 10 ESVS 10 HP 33120A CSA 803 A R 3361A AC 2 AC 3 AC 4 VC 0033 NRV-Z51 HL 223 HK 116 Hr 07-720 Hr 07-720 210 GPIB 140 GPIB 140 URV 55 URV5-Z4 Gigaset 1000 Gigaset 1000 V 2.0 PTW 60 FSM DE 350 HD 100 CASIRA HL 223 SE-1200 KN002 KN003 TS8960 BS5733 RSU-ETS-BT RSU-ETS-CTR6 RSU-ETS-GSM Manufacturer:

Schwarzbeck Rohde & Schwarz Rohde & Schwarz Tektronix Schwarzbeck Rohde & Schwarz Rohde & Schwarz Amplifier Research Rohde & Schwarz Keytek Keytek Rohde & Schwarz Rohde & Schwarz Hewlett Packard Tektronix Advantest Frankonia Frankonia Frankonia Vtsch Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz WISI WISI HE NI NI Rohde & Schwarz Rohde & Schwarz SIEMENS SIEMENS Philipps Philipps Nokia Rohde & Schwarz Rohde & Schwarz Heinrich Deisel Heinrich Deisel CSR Rohde & Schwarz Wharfedale Pro ETS ETS Rohde & Schwarz Travel Emporium ETS ETS ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 13 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Measurement device:

HP-Filter HP-Filter HP-Filter HP-Filter Reserviert Tre Reserviert Tre Bluetooth Protcol Tester Nokia Tester for Bluetooth 1.1 IBM BT PC Card Sony BT DUN Modem RF-Attenuattor 6dB RF-Attenuattor 30dB KFZ-Bordnetznachbildung RF Power Amplifier Stubli Robot Stubli Robot Controller DASY 4 Measurement Server Control Pendant Compaq Computer Dabu Acquisition Electronis Dummy Probe Dosimetric E-Field Probe Dosimetric E-Field Probe Dosimetric H-Field Probe System Validation Kit System Validation Kit System Validation Kit System Validation Kit Probe Alignment Unit SAM Twin phantom No. ETS 0435 ETS 0436 ETS 0437 ETS 0438 ETS 0439 ETS 0440 ETS 0441 ETS 0442 ETS 0443 ETS 0444 ETS 0445 ETS 0446 ETS 0447 ETS 0448 ETS 0449 ETS 0450 ETS 0451 ETS 0452 ETS 0453 ETS 0454 ETS 0455 ETS 0456 ETS 0457 ETS 0458 ETS 0459 ETS 0460 ETS 0461 ETS 0462 ETS 0463 ETS 0464 ETS 0465 Mounting Device ETS 0466 ETS 0467 ETS 0468 ETS 0469 ETS 0470 ETS 0471 ETS 0472 ETS 0473 ETS 0474 ETS 0475 ETS 0476 ETS 0477 ETS 0478 ETS 0479 ETS 0480 ETS 0481 ETS 0482 ETS 0483 Antenna GSM / UMTS System Simulator Antenna Verstrker Test receiver GPS-System(aktive GPS-antenne) Crystal filter Directional Coupler Universal Radio Communication T Dielectric Probe Kit Amplifier Validation Dipole 40GHz Standard Gain Horn mit 40GHz High Gain Antenna Verstrker Type:

H1G04G01 H1G04G01 H0G408G1 H0G408G1 PTW 60 DTL - 1 BTPCN101 BTA- NW 1 50FH-006-300 50FH-030-300 LN-KFZ/200 AR 60S1G3 RX90B L CS/MBs&p Pentium IV 2 GHz DAE3V1 ET3DV6 ET3DV6 H3DV6 D900V2 D1800V2 D1900V2 D2450V2 LBV2 V4.0 V 3.1 HP 87300B CMU 200 85070C AM-1300-1103 Manufacturer:

Microwave Microwave Microwave Microwave R & S Nokia IBM / Motorola Sony JFK JFK R. Heine AR Amplifier Resarch Stubli Stubli Schmidt & Partner Stubli Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner R & S Agilent MITEQ Frankonia R&S Frankonia BTA-H TS 8950 BTA-H AFS4-00101800-U MITEQ ESCS 30 4490 MQF 127.50-2400/F Vectron International R&S HOPF DB 3 22240-25 AT4560 AFD3010040-15-LN Miteq EMCO Flann Microwave Amplifier research ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 14 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH EUT Attenuator Spectrum Analyzer Emission Bandwidth, FCC 15.407 (a) 2.4 Test Procedure The test procedures are performed following the test stands ANSI STANDARD C63.4 and Public Notice DA 02-2138 Measurement Procedure for Peak Transmit Power in the Unlicensed National Information Infrastructure (U-NII) Bands. 2.4.1 The Emission Bandwidth B is the bandwidth at 26 dB down relative to the maximum level of the modulated carrier. The result B is used for determining of Peak Power Transmit limits. The measurement is performed according FCC Public Notice DA 02-2138. The test are performed at the frequencies (low and high channels of the EUT operating band), full rated power levels and all applicable data rates of the transmitter. 2.4.2 Peak Transmit Power is the maximum transmit power as measured over an interval of time of at most 30/B or the transmission pulse duration of the device, whichever is less, under all conditions of modulation. The applied FCC Public Notice DA 02-2138 describes three different methods to measure Peak Transmit Power. If transmitting antennas of directional gain AG greater than 6 dBi are used, the Peak Transmit Power shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6 dBi. Fixed point-to-point U-NII devices operating in the band 5.725 5.825 GHz may employ transmitting antennas with directional gain AG up to 23 dBi without any corresponding reduction. For antenna gains greater than 23 dBi, a 1 dB reduction in Peak Transmit Power for each 1 dB of antenna gain in excess of 23 dBi would be required. 2.4.3 The Peak Power Spectral Density is the maximum power spectral density, measured with a specified bandwidth, within the U-NII device operating band. FCC Public Notice DA 02-2138 specifies two different methods for this conducted measuring at the antenna port. If the device can not connected directly, alternative techniques can be used. If transmitting antennas of directional gain greater than 6 dBi are used, the Peak Power Spectral Density shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6 dBi. Peak Power Spectral Density, FCC 15.407 (a)(1,2,4,5) Peak Transmit Power, FCC 15.407 (a)(1,2,3,4) ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 15 of 27 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Fixed point-to-point U-NII devices operating in the band 5.725 5.825 GHz may employ transmitting antennas with directional gain up to 23 dBi without any corresponding reduction. For antenna gains greater than 23 dBi, a 1 dB reduction in Peak Power Spectral Density for each 1 dB of antenna gain in excess of 23 dBi would be required. Ratio of the Peak Excursion of the modulation envelope, FCC 15.407 (a)(6) 2.4.4 The Ratio of the Peak Excursion of the modulation envelope to the Peak Transmit Power shall not exceed 13 dB across any 1 MHz bandwidth or the emission bandwidth whichever is less. The used measurement method is described in FCC Public Notice DA 02-2138. 2.4.5 Peak Emissions outside the frequency bands of operation, FCC 15.205, 15.209, 15.407 (b) Peak Emissions outside the frequency band of operation are called Spurious Emissions in this test report. Here the spurious emissions are measured as field strength values. The given power value limits of 27 dBm and 17 dBm are calculated to field strength values of 68.23 dBV/m and 78.23 dBV/m for a 3 m measuring distance. This procedure can simplify the necessary comparison with field strength based limits for the restricted band according 15.205; 15.209. For frequencies above 26 GHz a measuring distance of 1 m is used with values corrected accordingly. The test procedure used is ANSI STANDARD C63.4-2000 using a spectrum analyzer. The bandwidth of the spectrum analyzer is 100 kHz for the frequency range of 30 MHz to 1 GHz and 1 MHz for frequencies above 1 GHz with an appropriate sweep speed. The analyzer is calibrated in dB above a microvolt at the output of the antenna. The Field Strength is established by adding the meter reading of the spectrum analyzer (which is set to read in units of dBV) to the antenna correction factors supplied by the antenna manufacturer. The antenna correction factors are stated in terms of dB. Example:

Freq (MHz) 33 METER READING + ACF + CABLE LOSS (to the receiver) = FS 20 dBV + 10.36 dB + 6 dB = 36.36 dBV/m @3m ANSI STANDARD C63.4-2000 10.1.7 MEASUREMENT PROCEDURES: The test sample is placed on a table 80 cm high and with dimensions of 1m by 1.5m (non metallic table). The test sample is placed in the center of the table. The table used for radiated measurements is capable of continuous rotation. The spectrum is scanned from 30 MHz to 10th harmonic of the fundamental or 40 GHz, whichever is lower. Peak readings is taken in three (3) orthogonal planes and the highest readings. When an emission is found, the table is rotated to produce the maximum signal strength. At this point, the antenna is raised and lowered from 1m to 4m. The antenna is placed in both the horizontal and vertical planes. 2.4.6 The device shall automatically discontinue transmission in case of either absence of information to transmit or operational failure. Applicants shall include in their application for equipment authorization a description of how this requirement is met. Automatic Discontinuation of transmission, FCC 15.407 (c) ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 16 of 27 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Frequency Stability, FCC 15.407 (g) Transmitting Antenna, FCC 15.407 (d) Indoor Operation Restriction, FCC 15.407 (e) Radio Frequency Radiation Exposure, FCC 15.407 (f) 2.4.7 Any U-NII device that operate s in the band 5.15 5.25 GHz shall use a transmitting antenna that is integral part of the device. 2.4.8 U-NII devices operating in the 5.15 5.25 GHz band will be restricted to indoor operations to reduce any potential for harmful interference to co-channel MSS operations. 2.4.9 U-NII devices are subject to the radio frequency exposure requirements specified in FCC Part 1.1307(b), Part 2.1091 and Part 2.1093, as appropriate. All equipment shall be considered to operate in a general population/uncontrolled environment. Applicants shall include in their application of how this requirement is met. 2.4.10 Frequency Stability of a U-NII device means that an intended emission is maintained within the band of operation under all conditions of operation as specified in the user manual. A plot of the emission at the band edge, with the transmitting frequency tuned to band edge channel, may be required for devices which do not utilize a standard carrier that may be measured. 2.4.11 The power line conducted interference measurement follows ANSI STANDARD C63.4- using a 50 H LISN. The bandwidth of the measurement receiver is 10 kHz. Both lines are observed in the frequency range 150 kHz to 30 MHz. Spurious Emissions related to AC power line, FCC 15.107, 15.207 Standard Transmitter Climatic chamber counter EUT Load RF ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 17 of 27 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH 3 Test results (enclosure) TEST CASE Emission Bandwidth Peak Transmit Power Peak Power Spectral Density Ratio of Peak Excursion of the modulation envelope Peak Emissions outside the frequency band of operation Automatic Discontinuation of transmission Transmitting Antenna Indoor Operation Restriction Radio Frequency Exposure Frequency Stability Spurious Emissions related to AC power line Required Customer Declaration Test passed Test failed

ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 18 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH 3.1 Emission Bandwidth, FCC 15.407 (a) Emission Bandwidth

(MHz) 36 24.37 24.45 24.29 24.37 48 24.21 24.61 24.45 24.69 Channel 52 24.29 24.61 24.45 24.69 Data rate Mbit/s 6 18 36 54 Turbo Mode Emission Bandwidth

(MHz) Channel 42 42.92 Test equipment used: ETS 0125, ETS 0271 Comments: See attached diagrams for examples. 161 22.85 22.44 22.52 22.69 64 24.53 24.61 24.45 24.61 149 24.85 24.37 24.69 24.37 58 41.96 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 19 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Peak Transmit Power, FCC 15.407 (a)(1,2,3,4) 3.2 This measurement is performed according Method 3 of Public Notice DA 02-2138 for Peak Transmit Power measurement. Peak Transmit Power

(dBm) Channel 36 15.15 15.40 15.65 15.57 48 14.92 15.80 14,80 15,32 52 17.43 18.06 18.25 18.57 64 16.97 17.65 17.87 18.25 149 17.24 17.91 18.21 18.66 161 17.31 18.03 18.31 18.78 Data rate Mbit/s 6 18 36 54 Turbo Mode 42 15.20 Peak Transmit Power

(dBm) Channel 58 15.39 Frequency f (GHz) Limits for Peak Transmit Power dBm dBm Fix value B related value For B = 20 MHz 17 24 30 Remarks 4 dBm + 10log B 11 dBm + 10log B 17 dBm + 10log B for AG > 6 dBi for AG > 6 dBi for AG > 23 dBi AG antenna gain 5.15 5.25 5.25 5.35 5.725 5.825 5.15 5.35 5.25 5.35 5.725 5.825 17 24 30 Test equipment used: ETS 0125, ETS 0271 Comments: See attached diagrams for examples. 17 + (AG 6 dB) 24 + (AG 6 dB) 30 + (AG 23 dB) 17 + (AG 6 dB) 24 + (AG 6 dB) 30 + (AG 23 dB) ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 20 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Peak Power Spectral Density, FCC 15.407 (a)(1,2,4,5) 3.3 This measurement is performed according Method 2 of Public Notice DA 02-2138 for Peak Power Spectral Density measurement. Data rate Mbit/s 6 18 36 54 Turbo Mode 36

-3.52

-3.15

-3.22

-2.93 42

-4.90 Peak Power Spectral Density

(dBm) Channel 48

-1.51

-1.33

-1.57

-1.38 52 1.34 1.58 1.04 1.09 64

-0.58

-0.56

-0.62

-1.07 149 0.25 0.68 0.73 0.22 161 1.25 1.32 1.27 1.52 Peak Power Spectral Density

(dBm) Channel 58

-5.12 Limits for Peak Power Spectral Density Frequency f (GHz) dBm/MHz Remarks 5.15 5.25 5.25 5.35 5.725 5.825 5.15 5.35 5.25 5.35 5.725 5.825 4 11 17 4 + (AG 6 dB) 11 + (AG 6 dB) 17 + (AG 23 dB) Conducted Conducted Conducted for AG > 6 dBi for AG > 6 dBi for AG > 23 dBi AG antenna gain Test equipment used: ETS 0125, ETS 0271 Comments: See attached diagrams for examples. ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 21 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Ratio of the Peak Excursion of the modulation envelope, FCC 15.407 (a)(6) 3.4 Data rate Mbit/s 6 18 36 54 Turbo Mode Ratio of the Peak Excursion of the modulation envelope 36 10.42 10.45 10.79 10.70 48 9.88 10.01 9.58 10.84

(dBm) Channel 52 9.78 9.24 9.73 10.05 64 9.59 9.94 9.62 9.69 149 9.61 10.66 9.10 9.59 161 9.25 9.59 9.40 9.30 Ratio of the Peak Excursion of the modulation envelope

(dBm) Channel 42 9.46 58 10.40 Remarks across any 1 MHz BW or the emission bandwidth Ratio of Peak Excursion Limit dB 13 Test equipment used: ETS 0125, ETS 0271 Comments: See attached diagrams for examples. ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 22 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Peak Emissions outside the frequency bands of operation, FCC 15.205, 15.209, 15.407 (b) 3.5 Summary table with radiated data of the test plots Freq. Used Ch. Polari-

zation Frequency Marker

[GHz]

32.316 38.421 103.842 120.038 249.962 250.321 660.122 3717.336 3826.667 7553.258 10357.326 17796.067 25563.420 33.145 38.386 249.858 660.128 250.014 3856.443 3850.226 7798.830 8367.748 17651.842 25580.364 32.607 38.015 98.938 250.011 250.311 599.649 3880.428 7163.984 11575.348 17784.958 25768.910 31.983 31.262 249.632 249.889 600.038 660.198 1203.764 1 1 1 1 2 2 2 3 3 4 5 6 7 1 1 2 2 2 3 3 4 5 6 7 1 1 1 2 2 2 3 4 5 6 7 1 1 2 2 2 2 3 36 36 36 36 36 36 36 36 36 36 36 36 36 42 42 42 42 42 42 42 42 42 42 42 48 48 48 48 48 48 48 48 48 48 48 52 52 52 52 52 52 52 H V V H H V H H V V H V V V H V H H H V H H V V V H V H V H V V V V V V H H V H H V corrections dB Max. Field Strength

[dBV/m]

32.49 38.89 35.42 30.02 41.33 41.32 45.5 44.56 46.67 46.12 53.33 51.34 53.76 37.14 31.33 42.33 44.53 43.54 44.59 45.66 47.69 46.12 51.59 54.09 38.62 31.24 37.44 45.61 43.5 43.97 45.66 46.98 52.98 51.36 54.72 37.45 30.27 44.12 41.67 44.28 45.62 38.11 Compliance Limit

[dBV/m]

40 40 43.5 43.5 46 46 46 54 54 54 67.09 54 67.09 40 40 46 46 46 54 54 54 54 67.09 67.09 40 40 43.5 46 46 46 54 67.09 54 54 67.09 40 40 46 46 46 46 54 Detec-

tor BW

[MHz]

P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P 0.1 0.1 0.1 0.1 0.1 0.1 0.1 1 1 1 1 1 1 0.1 0.1 0.1 0.1 0.1 1 1 1 1 1 1 0.1 0.1 0.1 0.1 0.1 0.1 1 1 1 1 1 0.1 0.1 0.1 0.1 0.1 0.1 1 Margin

[dB]

-7.51

-1.11

-8.08

-13.48

-4.67

-4.68

-0.50

-9.44

-7.33

-7.88

-13.76

-2.66

-13.33

-2.86

-8.67

-3.67

-1.47

-2.46

-9.41

-8.34

-6.31

-7.88

-15.50

-13.00

-1.38

-8.76

-6.06

-0.39

-2.50

-2.03

-8.34

-20.11

-1.02

-2.64

-12.37

-2.55

-9.73

-1.88

-4.33

-1.72

-0.38

-15.89 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 23 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Freq. Used Ch. 3 4 5 6 7 1 2 2 2 3 4 5 5 6 7 1 2 2 3 3 4 5 5 6 7 1 2 2 2 3 4 5 5 6 7 1 1 2 2 2 3 3 4 5 6 7 52 52 52 52 52 58 58 58 58 58 58 58 58 58 58 64 64 64 64 64 64 64 64 64 64 149 149 149 149 149 149 149 149 149 149 161 161 161 161 161 161 161 161 161 161 161 Frequency Marker

[GHz]

3898.334 7698.254 10525.951 17832.065 25563.480 34.018 250.119 660.196 250.142 3946.443 7583.260 10585.348 10585.954 17796.541 26227.183 31.536 250.018 660.149 1212.015 3755.433 7763.819 10640.497 10644.435 17772.940 25325.185 32.373 249.795 599.675 249.803 3756.142 7618.942 10530.143 10910.614 17651.314 25529.841 32.500 31.059 250.028 660.125 249.705 3754.824 1001.489 7836.941 11576.000 17651.484 25648.348 Polari-

zation V V H V V V V H H V H V H H V V V H V H H V H V V V V H H V V V H V V V H V H H H V H V H H corrections dB Max. Field Strength

[dBV/m]

45.38 46.99 54.99 51.22 54.22 38.78 43.04 42.18 45.25 43.77 45.85 53.25 54.31 51.34 54.08 38.18 42.80 45.68 36.15 42.43 47.50 53.89 53.62 50.67 53.85 38.64 42.24 42.85 44.45 44.04 46.99 53.13 53.25 51.04 53.89 39.09 30.98 42.40 45.22 43.34 43.45 36.13 45.34 53.11 51.04 54.38 Compliance Limit

[dBV/m]

54 54 67.09 54 67.09 40 46 46 46 54 54 67.09 67.09 54 67.09 40 46 46 54 54 54 54 54 54 67.09 40 46 46 46 54 54 67.09 54 67.09 67.09 40 40 46 46 46 54 54 67.09 54 67.09 67.09 Detec-

tor BW

[MHz]

P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P 1 1 1 1 1 0.1 0.1 0.1 0.1 1 1 1 1 1 1 0.1 0.1 0.1 1 1 1 1 1 1 1 0.1 0.1 0.1 0.1 1 1 1 1 1 1 0.1 0.1 0.1 0.1 0.1 1 1 1 1 1 1 Margin

[dB]

-8.62

-7.01

-12.10

-2.78

-12.87

-1.22

-2.96

-3.82

-0.75

-10.23

-8.15

-13.84

-12.78

-2.66

-13.01

-1.82

-3.20

-0.32

-17.85

-11.57

-6.50

-0.11

-0.38

-3.33

-13.24

-1.36

-3.76

-3.15

-1.55

-9.96

-7.01

-13.96

-0.75

-16.05

-13.20

-0.91

-9.02

-3.60

-0.78

-2.66

-10.55

-17.87

-21.75

-0.89

-16.05

-12.71 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 24 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Freq. Used Ch. Polari-

zation corrections Max. Field Strength

[dBV/m]

Compliance Limit

[dBV/m]

Detec-

tor BW

[MHz]

Frequency Marker

[GHz]

76.667 252.000 660.127 235.280 3543.637 3934.216 73952.480 11910.000 10421.338 17651.380 25614.941 75.416 235.322 660.124 249.722 3881.342 3791.223 74680.951 10590.000 17772.691 25580.168 42 42 42 42 42 42 42 42 42 42 42 56 56 56 56 56 56 56 56 56 56 V V H H V H H V H V H V H H V H V V H H V 1 2 2 2 3 3 4 5 5 6 7 1 2 2 2 3 3 4 5 6 7 dB 39.78 43.60 42.43 45.12 44.22 43.76 47.34 52.86 54.43 51.97 54.58 39.88 44.79 43.42 42.63 44.13 44.03 47.25 53.86 51.35 54.82 40 46 46 46 54 54 54 54 67.09 67.09 67.09 40 46 46 46 54 54 54 67.09 54 67.09 Margin

[dB]

-0.22

-2.40

-3.57

-0.88

-9.78

-10.24

-6.66

-1.14

-12.66

-15.12

-12.51

-0.12

-1.21

-2.58

-3.37

-9.87

-9.97

-6.75

-13.23

-2.65

-12.27 0.1 0.1 0.1 0.1 1 1 1 1 1 1 1 0.1 0.1 0.1 0.1 1 1 1 1 1 1 P P P P P P P P P P P P P P P P P P P P P 30 200 1 4 8 12 18 Freq. Frequency Range:

200 MHz 1:

2:

1000 MHz 4 GHz 3:

8 GHz 4:

5:

12 GHz 18 GHz 6:

7:

26,5 GHz All not in the table noted test results are more than 20 dB below the relevant limits. All other not noted test plots do not contain significant test results in relation to the limits. TEST RESULT (Transmitter): The unit DOES meet the FCC requirements. ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 25 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Frequency f (GHz) dBm/MHz Limits Restricted bands below 960 MHz Restricted bands above 960 MHz f < 5.15 5.25 < f f < 5.25 5.35 < f f < 5.715 5.8.35 < f 5.715 < f < 5.725 5.825 < f < 5.835

- 27

- 27

- 27

- 17

- 17 dBV/m acc. 15.209 54

(68,23)

(68,23)

(68,23)

(88,23)

(88,23) Remarks for 5.15 5.25 GHz transmitters for 5.25 5.35 GHz transmitters for 5.725 5.825 GHz transmitters for 5.725 5.825 GHz transmitters for 5.725 5.825 GHz transmitters ETS 0481 Automatic Discontinuation of transmission, FCC 15.407 (c) Comment: See attached diagrams for examples. Test equipment used: ETS 0012, ETS 0013, ETS 0014, ETS 0125, ETS 0271; ETS 0311, 3.6 This function will be declared by manufacturer. 3.7 Any U-NII device that operate s in the band 5.15 5.25 GHz shall use a transmitting antenna that is integral part of the device. 3.8 This requirement has to be declared by manufacturer of the final product as content of the technical description. Indoor Operation Restriction, FCC 15.407 (e) Transmitting Antenna, FCC 15.407 (d) ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 26 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Radio Frequency Radiation Exposure, FCC 15.407 (f) 3.9 Because the intended use of the test sample as a fixed device a theoretical MPE related evaluation as an example is done below, for information purposes. FCC OET Bulletin 65 Edition 97.01 determines the equations for predicting RF fields and applicable limits. The prediction for power density in the far-field of the antenna can be made by use of the general equation below. This equation is generally accurate in the far-field but will over-predict power density in the near field, where it could be used for making a worst case or conservative prediction. P G S = ---------

4 R2 S Power Density P Output power ERP R Distance D Cable Loss AG Antenna Gain G= AG-D Item P D AG G R S Unit mW dB dBi cm mW/cm2 Value 75.78

--

2 1.58 20 0.24 Remarks Average value Measured value Peak gain Calculated Value Assumed value Calculated value Limit for General Population / Uncontrolled Exposure Frequency

(MHz) 1500 100.000 Power Density

(mW/cm2) 1,0 Limits:

ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 27 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH 3.10 Frequency Stability, FCC 15.407 (g) Voltage

(%) Voltage

(V) Temperature

(C) measured frequency

(GHz) 100 %

115 % (1) 85 % (1) 115 % (1) 85 % (1) Max. deviation

+ 20 (Tnom)

+40 (Tmax)

+40 (Tmax)

-10 (Tmin)

-10 (Tmin) KHz

%

battery endpoint Voltage

(%) Voltage

(V) Temperature

(C) 100 %

115 % (1) 85 % (1) 115 % (1) 85 % (1) Max. deviation

+ 20 (Tnom)

+40 (Tmax)

+40 (Tmax)

-10 (Tmin)

-10 (Tmin) kHz

%

Ch.:36 5,1802040 5,1802095 5,1802035 5,1802024 5,1801961 CH:48 5,2424513 5,2424444 5,2424405 5,2424456 5,2424524

+7,90

+10,80 0,0001525 0,0002060 Ch.: 52 5,2601210 5,2601140 5,2601112 5,2601291 5,2601239

+9,80 0,0001863 measured frequency

(GHz) Ch.:149 5,7449613 5,7449690 5,7449490 5,7449657 5,7449591 CH:161 5,8035965 5,8035868 5,8035973 5,8035979 5,8035975 Turbo Ch.: 42 5,2107822 5,2107799 5,2107874 5,2107828 5,2107890 Ch.: 64 5,3199514 5,3199590 5,3199513 5,3199681 5,3199638

+16,70 0,0003139 Turbo Ch.: 58 5,2949952 5,2949834 5,2949806 5,2949848 5,2949843

+12,30

+9,70

+6,80

+14,60 0,0002141 0,0001671 0,0001305 0,0002757 battery endpoint The displayed frequency stability will ensure that the emission is maintained within the band of operation. Test equipment used: ETS 0271, ETS 273, ETS 0253, ETS 0481 Comments: Temperature range is determined by manufacturer ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 28 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Spurious Emissions related to AC power line, FCC 15.107, 15.207 3.11 Conducted:

Frequency 150 kHz Level quasi-peak lower limit line average lower limit line Limits:

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 Test equipment used:

Comment:

see attached diagram ETS 0003, ETS 0040, ETS 0109, ETS 0125 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 29 of 30 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Appendix A B C D E F G H Pictures Emission Bandwidth Peak Transmit Power Peak Power Spectral Density Ratio of the Peak Excursion of the modulation envelope Peak Emissions outside the frequency band of operation Frequency stability Spurious emissions related to AC power line ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-C-2 Page 30 of 30

 

 

 

 

 

 

ELECTRONIC TECHNOLOGY SYSTEMS DR. GENZ GMBH TEST - REPORT FCC Part 15 C for IEEE 802.11 b device FCC ID: P27AP51DA Test report no.:

W6M20402-5015-E-53 DR. GENZ GMBH ELECTRONIC TECHNOLOGY SYSTEMS STORKOWER STRASSE 38C, D-15526 REICHENWALDE B. BERLIN PHONE +49-33631-888 00 FAX +49-33631-888 66 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Technical test General information Notes Testing laboratory Details of approval holder Application details Test item Test standards TABLE OF CONTENTS 1 1.1 1.2 1.3 1.4 1.5 1.6 2 2.1 2.2 2.3 2.4 3 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 Summary of test results Test environment Test equipment utilized Test Procedure Test Results Peak Output Power De Facto Equivalent Isotropic Radiated Power RF Exposure Compliance Requirements Transmitter Radiated Emissions in Restricted Bands Spurious Emissions Minimum 6 dB Bandwidth Peak Power Spectral Density Spurious emissions related to AC power line ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 1 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH General Information Notes 1 1.1 The purpose of conformity testing is to increase the probability of adherence to the essential requirements or conformity specifications, as appropriate. The complexity of the technical specifications, however, means that full and thorough testing is impractical for both technical and economic reasons. Furthermore, there is no guarantee that a test sample which has Passed all the relevant tests conforms to a specification. Neither is there any guarantee that such a test sample will interwork with other genuinely open systems. The existence of the tests nevertheless provides the confidence that the test sample possesses the qualities as maintained and that is performance generally conforms to representative cases of communications equipment. The test results of this test report relate exclusively to the item tested as specified in 1.5. The test report may only be reproduced or published in full. Reproduction or publication of extracts from the report requires the prior written approval of the ELECTRONIC TECHNOLOGY SYSTEMS DR. GENZ GMBH. Specific Conditions:

Usage of the hereunder tested device in combination with other integrated or external antennas requires at least additional output power measurements, spurious emission measurements, conducted emission measurements (AC supply lines) and radio frequency exposure evaluations for each individual configuration performed, for certification by FCC. The test sample is able to work according IEEE 802.11 a, b,g. This report is related to FCC Part 15 C (DSSS device, IEEE 802.11b) only and do not cover requirements for other parts like FCC Part 15 C (e.g. for IEEE 802.11a and for IEEE 802.11g). Tester:

ETS-Lab. N. Kaspar 10.08.2004 Date Technical responsibility for area of testing:

Name Signature 10.08.2004 Date Dr. Genz ETS Name Signature ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 2 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Location Testing laboratory Details of accreditation status DAR-REGISTRATION NUMBER: BPT-ZE-026/96 DAR-REGISTRATION NUMBER: TTI-P-G 126/96 1.2 1.2.1 ELECTRONIC TECHNOLOGY SYSTEM DR. GENZ GMBH (ETS) Storkower Strae 38c D-15526 Reichenwalde b. Berlin Germany Telefon : +49 33631 888 00 Telefax : +49 33631 888 660 1.2.2 ACCREDITED TESTING LABORATORY ACCREDITED COMPETENT BODY FCC FILED TEST LABORATORY REG. NO. 96970 BLUETOOTH QUALIFICATION TEST FACILITY (BQTF) ACCREDITED BY BLUETOOTH QUALIFICATION REVIEW BOARD INDUSTRY CANADA FILED TEST LABORATORY REG. NO. IC 3470 A2LA ACCREDITED Certificate Number 1983-01 1.3 Details of approval holder Name Street Town Country Telephone Fax Contact

: SerComm Corporation

: 8F., No,3-1, YuanQu St., NanKang

: Taipei 115

: Taiwan, R.O.C

: +886 2 2655 3988

: +886 2 2655 3966

: Mr. Kevin Tseng ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 3 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH

: 04.02.2004

: 04.02.2004

: 04.02.2004 01.03.2004; 14.07.2004 - 26.07.2004

: AP

: AP51DA

: 1.0

: 1.0

: without

: See Appendix A 1.4 Application details Date of receipt of application Date of receipt of test item Date of test 1.5 Test item Description of test item Type identification Hardware Software Serial number Photos Technical data Frequency band Frequency ( ch A) Frequency (ch B) Frequency (ch C) Number of Channels Operating Modes Type of modulation Fixed point-to-point operation:

Antenna Type Antenna Connector Antenna gain Power supply Emission designator ETS Dr. Genz GmbH, Germany

: 2.4 GHz 2.4835 GHz

: 2.412 GHz

: 2.437 GHz

: 2.462 GHz

: 11

: duplex, TDD

: DSSS Yes /

No

: integral Dual Band RF antenna

: I-Pex connector on main board

: 2.0 dBi

: 120 V AC/DC Adapter

: 10M6W7D Registration number: W6M20402-5015-E-53 Page 4 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Host device Classification

: none

:

Fixed Device Mobile Device (Human Body distance > 20cm Portable Device (Human Body distance < 20cm Unom

: Conducted: 18,07 dBm

: Conducted: 18,45 dBm

: Conducted: 18,82 dBm Transmitter Power (ch A) Power (ch B) Power (ch C) Manufacturer:

(if applicable) Name Street Town Country Additional information:

:

:

:

:

The sample is using WLAN technology according IEEE 802.11a / b/ g. For this report the function according IEEE 802.11b is considered only. The scheme for frequency generation, spectrum spreading, receiver parameters, synchronization procedure, and other parameters are determined by the mentioned standard above. The integral antenna is permanent. The I-PEX connectors are inside of a non-accessible on main board. There is no need for the user to ever open the case. ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 5 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Technical test FCC RULES PART 15 / SUBPART C 15.247 1.6 Test standards Technical standard :

2 2.1 Summary of test results No deviations from the technical specification(s) were ascertained in the course of the tests performed. or The deviations as specified in 2.5 were ascertained in the course of the tests performed. 2.2 Test environment Temperature Relative humidity content Air pressure Details of power supply Extrem conditions parameters:

: test voltage - extreme min.:

max:

: 120 V AC/DC AdapterAC-DC adaptor

... 103 kPa

... 75 %

-- V

-- V

: 23oC

: 20

: 86

ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 6 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Test equipment utilized 2.3 No. ETS 0001 ETS 0002 ETS 0003 ETS 0004 ETS 0005 ETS 0006 ETS 0007 ETS 0008 ETS 0009 ETS 0010 ETS 0011 ETS 0012 ETS 0013 ETS 0014 ETS 0015 ETS 0016 ETS 0017 ETS 0018 ETS 0019 ETS 0020 ETS 0021 ETS 0022 ETS 0023 ETS 0024 ETS 0025 ETS 0026 ETS 0027 ETS 0028 ETS 0029 ETS 0030 ETS 0031 ETS 0032 ETS 0033 ETS 0034 ETS 0035 ETS 0036 ETS 0037 ETS 0038 ETS 0039 ETS 0040 ETS 0041 ETS 0042 ETS 0043 ETS 0044 ETS 0045 Measurement device:

Test receiver Test receiver Test receiver Spectrum- and Network-Analyzer Test receiver Test receiver system Spectrum analyzer Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna mast Antenna mast Tripod Tripod Tripod Tripod Turn table Turn table Controller RF generator RF generator/ Amplifier RF generator/ Amplifier RF amplifier RF amplifier RF amplifier Absorbing clamp Artificial mains Artificial mains Artificial mains Artificial mains Artificial mains Stripe line Type:

ESHS 10 ESVP ESVS 10 FSMS 26 SMV 11 SME 12 PSA-65A Loop antenna Loop antenna Loop antenna van Veen/ Frame HK 116 HL 223 HL 025 HL 025 VHAP VHAP UHAP UHAP DP 21 DP 3 SAS-200/ 521 DP 1 AF 2 AF 2 STA 2 TT 1 DS 412 HD 050 SMG SMLR SMLM 10W 1000AM2 50W 1000 150L MDS 21 ESH3-Z5 ESH3-Z4 ESH3-Z6 NNB 11 NNB 111 IEC 801-3 Manufacturer:

Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz MEB MEB Avcom Siemens MEB MEB ETS Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Schwarzbeck Schwarzbeck Schwarzbeck Schwarzbeck MEB MEB A.H. Systeme / USA MEB MEB MEB Heinrich Deisel Heinrich Deisel C. Lorenz AG Berlebach ETS Heinrich Deisel Heinrich Deisel Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Amplifier Research Amplifier Research Amplifier Research Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz MEB MEB ETS ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 7 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Blank plug-in Measurement device:

Power supply Power supply Power supply Power supply Power supply Oscilloscope Audio analyzer ECAT Control center EFT simulator No. ETS 0046 ETS 0047 ETS 0048 ETS 0049 ETS 0050 ETS 0051 ETS 0052 ETS 0053 ETS 0054 ETS 0055 Module network coupler ETS 0056 ETS 0057 Module SURGE with DC coupler ETS 0058 ETS 0059 ETS 0060 ETS 0061 ETS 0062 ETS 0063 ETS 0064 ETS 0065 ETS 0066 ETS 0067 ETS 0068 ETS 0069 ETS 0070 ETS 0071 ETS 0072 ETS 0073 ETS 0074 ETS 0075 ETS 0076 ETS 0077 ETS 0078 ETS 0079 ETS 0080 ETS 0081 ETS 0082 ETS 0083 ETS 0084 ETS 0085 ETS 0086 ETS 0087 ETS 0088 ETS 0089 ETS 0090 ETS 0091 ETS 0092 ETS 0093 ETS 0094 Capacitive coupling clamp Kikusui amplifier Xitron power analyzer Power/ Arb (Harm., Ramp) Reference impedance Blank plug-in Filter system IEC 1000-4-6 ESD-generator minizap EM Injection Clamp Calibration Fixture Filter system IEC 1000-4-6 EM Radiation Monitor PC Transfer set EMR-20 Video camera system Interphone system Audio noise meter RF milivoltmeter NF generator Feeding bridge A Audio/ Video Filter LCR meter Functional generator EMI Software EMI Software PC Novell network system Apple computer system Process controller Shielded room Anechoic chamber Climatic cell Color TV pattern generator Radio communication tester DECT type approval CTR06 RF signal generator DM-Coder Pulse Modulator Rear-panel connectors Type:

LTS 006 TG 20/ 1 TG 20/ 1 T 102 T 101b TDS 640A UPA 4 PCR 2000L IEC 801-2031 CF CDN EMR-20 EMR-20 KMB012 JS-1400 GSM 2 QRV 2 GF 22 SBA 1000 AV 55020 SR 720 MX-2020 ES-K1 ES-K10 Novell Performa 630 PSA 15 SR 1 AC 1 HC 4033 PM 5518-TX VPS CMS 54 TS 8930 SME 03 SME-B11 SM-B8 SME-B19 Manufacturer:

RFT Statron Statron TPW TPW Tektronic Rohde&Schwarz Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV FCC/ EMV FCC/ EMV FCC/ EMV Wandel&Goltermann Wandel&Goltermann Kocom Jiuh Sheng MKD/ RFT MKD/ RFT Prcitronic ESP ETS SRS Maxcom Rohde&Schwarz Rohde&Schwarz Esotronic Macintosh Rohde&Schwarz Frankonia Frankonia Heraeus Philips Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 8 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Manufacturer:

Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz ETS Rohde&Schwarz Rohde&Schwarz Avcom Avcom INCO Serute Dagatron Rohde&Schwarz Rohde&Schwarz Type:

Measurement device:

PSMD DECT system controller PSMD-B11 DECT Signaling unit TS 89RA Rack, 19", 36 HU CS 893BE System engineering and software TS 8930B Extension unit for basic version SME-06 RF signal generator SME-B11 DM-Coder SM-B8 Pulse modulator SM-B4 Pulse generator SME-B19 Rear-panel connectors SMP 22 High power synthesizer/ sweeper SMP-B11 Frequency extension SMP-B15 RF attenuator for SMP 22 TS 1220 DECT protocol tester TBR 22 PSM 2 Process controller PSMD-B2 Real time signaling unit PCM Realtime audio interface for PSMD-B3 PSMD-B4 Synthesizer Module PSA-Z2 Keyboard RF step attenuator RSG Glide path RF Millivoltmeter Insertion unit No. ETS 0095 ETS 0096 ETS 0097 ETS 0098 ETS 0099 ETS 0100 ETS 0101 ETS 0102 ETS 0103 ETS 0104 ETS 0105 ETS 0106 ETS 0107 ETS 0108 ETS 0109 ETS 0110 ETS 0111 ETS 0112 ETS 0113 ETS 0114 ETS 0115 ETS 0116 ETS 0117 ETS 0118 Mixer ETS 0119 Mixer RF step attenuator ETS 0120 Oscilloscope ETS 0121 Oscilloscope ETS 0122 RF step attenuator ETS 0123 Tripod ETS 0124 Small components ETS 0125 Uninterruptible power supply ETS 0126 Uninterruptible power supply ETS 0127 Uninterruptible power supply ETS 0128 Uninterruptible power supply ETS 0129 Uninterruptible power supply ETS 0130 Telephone connection box ETS 0131 Frequency doubler ETS 0132 ETS 0133 Probe body ETS 0134 Mains filter ETS 0135 Measuring switching point ETS 0136 Attenuator ETS 0137 Multimeter ETS 0138 Multimeter ETS 0139 Multimeter ETS 0140 ETS 0141 ETS 0142 ETS 0143 High voltage generator Sliding bridge Impedance converter Impedance converter URV 55 URV-Z2 MFC 1000 MFC 2000 TRI-50-20 EO 147A 5201 RBU STA 2 UPS - 1500 UPS - 1000 LC UPS - 1000 UPS - 500 Power saver TR-0616 P6015 MSF AK 11 33-6-34 YX-360TRA DT-9410 ST-9202 IP 6Wa J 573 TK 11 TK 12 Sendon Sendon Sendon Sendon Sendon Systel EMG Tektronix Erika Fiedler RFT Weinschel Mastech Diditec Standard TPW RFT RFT RFT ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 9 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Type:

TK 103 ESH2-Z2 21PT4301/00 ZAPD-21 HR07-720 NSG 500C NSG 506C (I) NSG 506C (II) SMG SMG NKS VTG 700 VTG 700 TOE 8815 PI 6001 D 403-A BK 4602 BK 4185 BK 4227 BK 4231 CAS TE I CTR 10 MFE III MFE IV TEH HNG III.1 Canton S Pluss Measurement device:

Probe Active probe Test TV Power divider Switcher Interference pulse generator Simulator for Load-Dump-Impulse Simulator for Load-Dump-Impulse Signal generator Signal generator Adjacent channel power meter TV and Sat-Signal generator TV and Sat Signal generator Programmable power supply Protective wire and isolation tester Filter system / consumer electronic Acoustic chamber Test head Simulator ear Simulator mouth Acoustic calibrator Communication Analysis System Acoustical test for DECT No. ETS 0144 ETS 0145 ETS 0146 ETS 0147 ETS 0148 ETS 0149 ETS 0150 ETS 0151 ETS 0152 ETS 0153 ETS 0154 ETS 0155 ETS 0156 ETS 0157 ETS 0158 ETS 0159 ETS 0160 ETS 0161 ETS 0162 ETS 0163 ETS 0164 ETS 0165 ETS 0166 ETS 0167 ETS 0168 ETS 0169 Measurement - Frontend (analog) ETS 0170 Measurement - Frontend (digital) ETS 0171 ETS 0172 ETS 0173 ETS 0174 Measurement - Frontend line interface MFE V ETS 0175 ETS 0176 ETS 0177 ETS 0178 ETS 0179 ETS 0180 ETS 0181 ETS 0182 ETS 0183 ETS 0184 ETS 0185 ETS 0186 ETS 0187 ETS 0188 ETS 0189 ETS 0190 ETS 0191 ETS 0192 Software Line interface (analog) Acoustic volt meter Feeding bridge B Open area test side Open area test side Artificial mains Test pin for protective wire Power supply Frequency counter Function generator Digital multimeter Power supply Power supply High voltage generator Spectrum Analyzer Function generator Sweep function generator Audio generator Electronic test cradle Noise generator Speaker COPTZV5 COP 4 SBA 1000 30m 30m NNB01/RFZ PE 156-i MX-9300 MX-9300 MX-9300 MX-9300 DF 1730 FSEB MX 2020 7202 7101 Manufacturer:

MEB Rohde&Schwarz Philips MCL Wisi Schaffner Schaffner Schaffner Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Grundig Grundig Toellner SPS electronic Fiedler IAC Brel & Kjr Brel & Kjr Brel & Kjr Brel & Kjr HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics ESP ETS ETS ETS SPS electronic Maxcom Maxcom Maxcom Maxcom WJG TPW/RFT Rohde&Schwarz Maxcom Dagatron Dagatron ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 10 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Measurement device:

Hazardous live probe Hazardous live probe Ball pressure test apparatus Glow Wire tester Force indicator 50N Vibration table Digital multimeter Thermo hygro recorder Digital thermometer Digital thermometer Digital thermometer Digital thermometer Digital thermometer / hygro meter Digital thermometer / hygro meter Digital thermometer Digital thermometer Digital thermometer High voltage test generator High voltage test accessories Socket-Outlet torque balance Unjointed Finger probe Flexible Finger probe Spring operated impact hammer No. ETS 0193 ETS 0194 ETS 0195 ETS 0196 ETS 0197 ETS 0198 ETS 0199 ETS 0200 ETS 0201 ETS 0202 ETS 0203 ETS 0204 ETS 0205 ETS 0206 ETS 0207 ETS 0208 ETS 0209 ETS 0210 ETS 0211 Metallic ball ETS 0212 ETS 0213 ETS 0214 ETS 0215 ETS 0216 ETS 0217 Millivolt meter ETS 0218 ETS 0219 ETS 0220 ETS 0221 ETS 0222 ETS 0223 ETS 0224 ETS 0225 ETS 0226 ETS 0227 ETS 0228 ETS 0229 ETS 0230 ETS 0231 ETS 0232 ETS 0233 ETS 0234 ETS 0235 ETS 0236 ETS 0237 ETS 0238 ETS 0239 ETS 0240 ETS 0241 RF probe Power sensor Insertion unit ISDN-S0-Analyzer ISDN Protocol Analyser GSM/ PCN/ PCS-Simul. GSM System Simulator SIM Simulator SIM Editor Vibration table Climatic chamber Radio Commun. Tester Radio Commun. Tester Testreceiver Radiation test source Direction coupler Power meter RF-network-analyser RF-amplifier RF-amplifier Field strong meter Isotr. field probe 40 GHz Isotr. field probe 1 GHz Pulse Generator Type:

N1-201-M PMM 208 AK-688 ad 170th ad 31th ad 90h 37950-10 ad 15th Type K ad 20th HA 3300 D HVGZ 312 F 37.13 P 10.05 P 10.01 P 22.50 F 53.32 P 10.06 P 10.11 T 10.02 T 03.14 P 10.31 URV 55 URV5-Z7 NRV-Z2 URV5-Z4 K1403 TE965 TS8915B FTA TIRA vib VT 4010 CMT 54 CMD 65 ESVS 30 VSQ 1 RK 100 NRVD 8752 C 100A100 100W1000M1 FM 2000 FP 2080 Kit FP 2000 Kit 4050 Manufacturer:

Sandox Dagatron Amarell KD Prima ama-digit ama-digit ama-digit Cole Parmer ama-digit Amarell ama-digit SPS electronic SPS electronic PTL PTL PTL PTL PTL PTL PTL PTL PTL PTL Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Siemens Tekelec Teleco. Rohde & Schwarz Rohde & Schwarz Orga Orga GenRad Vtsch Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz MEB MEB Rohde & Schwarz Hewlett Packard Amplifier Research Amplifier Research Amplifier Research Amplifier Research Amplifier Research PicoSecond PL ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 11 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH No. ETS 0242 ETS 0243 ETS 0244 ETS 0245 ETS 0246 ETS 0247 ETS 0248 ETS 0249 ETS 0250 ETS 0252 ETS 0253 ETS 0254 ETS 0255 ETS 0256 ETS 0257 ETS 0258 ETS 0259 ETS 0260 ETS 0261 ETS 0262 ETS 0263 ETS 0264 ETS 0265 ETS 0267 ETS 0268 ETS 0270 ETS 0271 ETS 0272 ETS 0273 ETS 0274 ETS 0275 ETS 0276 ETS 0277 ETS 0278 ETS 0279 ETS 0280 ETS 0281 ETS 0282 ETS 0283 ETS 0284 ETS 0285 ETS 0286 ETS 0287 ETS 0288 ETS 0289 ETS 0290 ETS 0291 ETS 0292 ETS 0293 Measurement device:

Harmonics analyser AC-clamp 1000 A Burst generator Load dump generator Voltage drop simulator Microsecond generator Switch unit Coupling network Coupling clamp System controller Spectrum analyser RF generator RF generator RF generator Step attenuator Rubidium standard Power meter Power sensor Power sensor Switching unit Signaling unit Spectrum analyser Loop antenna RF signal generator RF signal generator RF signal generator Test receiver RF signal generator RF signal generator RF signal generator Power sensor Audio analyser Power sensor Power sensor Step attenuator Power meter Spectrum analyser RF bridge RF bridge Field probe Field probe Limiter Test receiver Artifical mains Audio generator Audio generator Loop antenna RF generator Artifical mains Type:

F 41B 80i 1000s EFT 200 LD 200 VDS 200 MPG 200 AN 200 CNA 200 ACC PSM 12 FSIQ SMIQ 03 SMIQ 03 SMP 03 RSP RSTU NRVD NRVD-Z1 NRVD-Z1 SSCU F 1048 HFRA 9150 SMT 03 SMP 02 SMP 04 ESI 40 SME 03 SME 03 SMY 01 NRV-Z51 UPL NRV-Z1 NRV-Z31 RSP NRVD FSM 86207 A 86205 A 11940 A 11941 A 11867 A ESHS 10 ESH2-Z5 TAG 101 TAG 101 HFH2-Z2 SMHU NNBM 8125 Manufacturer:

Fluke Fluke EM-Test EM-Test EM-Test EM-Test EM-Test EM-Test EM-Test Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz DATUM GmbH Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Wird HAMEG Schwarzbeck Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Hewlett Packard Hewlett Packard Hewlett Packard Hewlett Packard Hewlett Packard Rohde & Schwarz Rohde & Schwarz Troneer Troneer Rohde & Schwarz Rohde & Schwarz Schwarzbeck ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 12 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH No. ETS 0294 ETS 0295 ETS 0296 ETS 0297 ETS 0298 ETS 0299 ETS 0300 ETS 0301 ETS 0302 ETS 0303 ETS 0304 ETS 0305 ETS 0306 ETS 0307 ETS 0308 ETS 0309 ETS 0310 ETS 0311 ETS 0312 ETS 0313 ETS 0314 ETS 0315 ETS 0316 ETS 0317 ETS 0318 ETS 0319 ETS 0320 ETS 0321 ETS 0322 ETS 0323 ETS 0324 ETS 0325 ETS 0326 ETS 0327 ETS 0328 ETS 0330 ETS 0333 ETS 0334 ETS 0335 ETS 0336 ETS 0337 ETS 0338 ETS 0339 ETS 0340 ETS 0431 ETS 0432 ETS 0433 ETS 0434 ETS 0435 Measurement device:

Biconical antenna LPD antenna Oscilloscope Power pulse generator ICO tester DECT protocol tester RF amplifier Relay switch unit Data line CDN Telecom line CDN Test receiver Test receiver Function generator Commu. Sign. Analyzer Spectrum analyzer Anechoic chamber Anechoic chamber Anechoic chamber Climatic chamber Power sensor LPD antenna Biconical antenna Switcher Switcher Dial pulse/ DTMF tester Opto link Opto link RF Millivoltmeter Insertion unit DECT portable part DECT fix part DECT portable part DECT fix part Blue Unit BT Protocol tester Spectrum analyser turn table Controller BT Development kit LPD Antenna Professional Power Amplifier Coupling network Isolating Transformer Bluetooth test set AC Mains Adaptor RF Verstrkermatrix RF Verstrkermatrix Reserviert Tre HP-Filter Type:

HK 116 HL 223 TDS 520 A IGUF 2910 TS 1232 TS 1220 75 A 250 RSU CM-I/O CD CM-TEL CD ESHS 10 ESVS 10 HP 33120A CSA 803 A R 3361A AC 2 AC 3 AC 4 VC 0033 NRV-Z51 HL 223 HK 116 Hr 07-720 Hr 07-720 210 GPIB 140 GPIB 140 URV 55 URV5-Z4 Gigaset 1000 Gigaset 1000 V 2.0 PTW 60 FSM DE 350 HD 100 CASIRA HL 223 SE-1200 KN002 KN003 TS8960 BS5733 RSU-ETS-BT RSU-ETS-CTR6 RSU-ETS-GSM H1G04G01 Manufacturer:

Rohde & Schwarz Rohde & Schwarz Tektronix Schwarzbeck Rohde & Schwarz Rohde & Schwarz Amplifier Research Rohde & Schwarz Keytek Keytek Rohde & Schwarz Rohde & Schwarz Hewlett Packard Tektronix Advantest Frankonia Frankonia Frankonia Vtsch Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz WISI WISI HE NI NI Rohde & Schwarz Rohde & Schwarz SIEMENS SIEMENS Philipps Philipps Nokia Rohde & Schwarz Rohde & Schwarz Heinrich Deisel Heinrich Deisel CSR Rohde & Schwarz Wharfedale Pro ETS ETS Rohde & Schwarz Travel Emporium ETS ETS Microwave ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 13 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Measurement device:

HP-Filter HP-Filter HP-Filter Reserviert Tre Reserviert Tre Bluetooth Protcol Tester Nokia Tester for Bluetooth 1.1 IBM BT PC Card Sony BT DUN Modem RF-Attenuattor 6dB RF-Attenuattor 30dB KFZ-Bordnetznachbildung RF Power Amplifier Stubli Robot Stubli Robot Controller DASY 4 Measurement Server Control Pendant Compaq Computer Dabu Acquisition Electronis Dummy Probe Dosimetric E-Field Probe Dosimetric E-Field Probe Dosimetric H-Field Probe System Validation Kit System Validation Kit System Validation Kit System Validation Kit Probe Alignment Unit SAM Twin phantom No. ETS 0436 ETS 0437 ETS 0438 ETS 0439 ETS 0440 ETS 0441 ETS 0442 ETS 0443 ETS 0444 ETS 0445 ETS 0446 ETS 0447 ETS 0448 ETS 0449 ETS 0450 ETS 0451 ETS 0452 ETS 0453 ETS 0454 ETS 0455 ETS 0456 ETS 0457 ETS 0458 ETS 0459 ETS 0460 ETS 0461 ETS 0462 ETS 0463 ETS 0464 ETS 0465 Mounting Device ETS 0466 ETS 0467 ETS 0468 ETS 0469 ETS 0470 ETS 0469 ETS 0470 ETS 0471 ETS 0472 ETS 0473 ETS 0474 ETS 0475 ETS 0476 ETS 0477 ETS 0478 ETS 0479 ETS 0480 ETS 0481 ETS 0482 Antenna GSM / UMTS System Simulator Antenna Verstrker Test receiver GPS-System(aktive GPS-antenne) Crystal filter Directional Coupler Universal Radio Communication T Dielectric Probe Kit Amplifier Dielectric Probe Kit Amplifier Validation Dipole 40GHz Standard Gain Horn mit 40GHz High Gain Antenna Type:

H1G04G01 H0G408G1 H0G408G1 PTW 60 DTL - 1 BTPCN101 BTA- NW 1 50FH-006-300 50FH-030-300 LN-KFZ/200 AR 60S1G3 RX90B L CS/MBs&p Pentium IV 2 GHz DAE3V1 ET3DV6 ET3DV6 H3DV6 D900V2 D1800V2 D1900V2 D2450V2 LBV2 V4.0 V 3.1 HP 87300B CMU 200 85070C AM-1300-1103 85070C AM-1300-1103 Manufacturer:

Microwave Microwave Microwave R & S Nokia IBM / Motorola Sony JFK JFK R. Heine AR Amplifier Resarch Stubli Stubli Schmidt & Partner Stubli Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner R & S Agilent MITEQ Agilent MITEQ Frankonia R&S Frankonia BTA-H TS 8950 BTA-H AFS4-00101800-U MITEQ ESCS 30 4490 MQF 127.50-2400/F Vectron International R&S HOPF DB 3 22240-25 AT4560 EMCO Flann Microwave Amplifier research ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 14 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Measurement device:

No. Verstrker ETS 0483 2.4 Test Procedure POWER LINE CONDUCTED INTERFERENCE: The procedure used was ANSI STANDARD C63.4-2000 using a 50H LISN (if necessary). Both lines were observed. The bandwidth of the spectrum analyzer was 10 kHz with an appropriate sweep speed. AFD3010040-15-LN Miteq Manufacturer:

Type:

RADIATION INTERFERENCE: The test procedure used was ANSI STANDARD C63.4-2000 using a spectrum analyzer. The bandwidth of the spectrum analyzer was 100 kHz with an appropriate sweep speed. The analyzer was calibrated in dB above a microvolt at the output of the antenna. The resolution bandwidth was the 100 kHz and the video bandwidth was 300 kHz. The ambient temperature of the UUT was 23C with a humidity of 40 %. FORMULA OF CONVERSION FACTORS: The Field Strength at 3m was established by adding the meter reading of the spectrum analyzer (which is set to read in units of dBV) to the antenna correction factor supplied by the antenna manufacturer. The antenna correction factors are stated in terms of dB. Example:

Freq (MHz) 33 METER READING + ACF + CABLE LOSS (to the receiver) = FS 20 dBV + 10.36 dB + 6 dB = 36.36 dBV/m @3m ANSI STANDARD C63.4-2000 10.1.7 MEASUREMENT PROCEDURES: The UUT was placed on a table 80 cm high and with dimensions of 1m by 1.5m (non metallic table). The UUT was placed in the center of the table. The table used for radiated measurements is capable of continuous rotation. The spectrum was scanned from 30 MHz to 10th harmonic of the fundamental. Peak readings were taken in three (3) orthogonal planes and the highest readings. Measurements were made by ETS Dr. Genz GmbH at the registered open field test site located at Storkower Str. 38c, 15526 Reichenwalde, Germany. When an emission was found, the table was rotated to produce the maximum signal strength. At this point, the antenna was raised and lowered from 1m to 4m. The antenna was placed in both the horizontal and vertical planes. ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 15 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH 3 Test results (enclosure) TEST CASE Peak Output Power Equivalent radiated power Spurious Emissions radiated - Transmitter operating Spurious Emissions conducted - Transmitter operating Minimum 6 dB Bandwidth Peak Power Spectral Density Conducted Emission at (AC) Power Line Required Test passed Test failed

ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 16 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH 3.1 Peak Output Power (transmitter) This measurement applies to equipment with an integral antenna and to equipment with an antenna connector and equipped with an antenna as declared by the applicant. The power was measured with modulation (declared by the applicant). Test conditions Channel A Tnom= 23C Vnom = 120 V Measurement uncertainty

[dBm]

18,07 Conducted Power Channel B

[dBm]

18,45

< 3 dB Channel C

[dBm]

18,82 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 17 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Test Conditions Signal Field strength TX highest power mode Tnom= 23C, Vnom = 120 V Frequency [MHz]

2437 Measurement uncertainty dBV/m 106.48

< 3 dB The diagrams for the field strength measurements are included in Appendix C. Limits:

Frequency MHz 902 928 2400-2483.5 MHz 5725-5850 MHz Power dBm 30 30 30 In case of employing transmitter antennas having antenna gain > 6 dBi and using fixed point-to point operation consider 15.247 (b)(4). Test equipment used:

ETS 0125, ETS 0340 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 18 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH 3.2 De facto Equivalent isotropic radiated power EIRP = max. conducted output power + antenna gain EIRP = 18.82 dBi + 2.0 dBi EIRP = 20.82 dBm Limit: EIRP = +36 dBm for Antenna gain < 6 dBi 3.2.1 Transmitter Integral Antenna:

At the transmitter the measurement was transacted with the modulation declared by the manufacturer and the maximum available output power of the EUT. In this arrangement the EUT fulfils the requirements of the FCC rules 15.247, subpart C, section b. This unit uses an external antenna without antenna cable. The antenna is connected by an unique RF connector (SMA inverse plug). 3.3 RF Exposure Compliance Requirements The test sample is a WLAN access point intended for fixed installation. FCC OET Bulletin 65 Edition 97.01 determines the equations for predicting RF fields and applicable limits. The prediction for power density in the far-field of the antenna can be made by use of the general equation below. This equation is generally accurate in the far-field but will over-predict power density in the near field, where it could be used for walking a worst case or conservative prediction. P G S = ---------

4 R2 S Power Density P Output power ERP R Distance D cable Loss AG Antenna Gain G= AG-D Item P D AG G R S Unit mW dB dBi cm mW/cm2 Value 76.2 2 1.58 20 0.024 Remarks Peak value Calculated Value Assumed value Calculated value ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 19 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Limits:

Limit for General Population / Uncontrolled Exposure Frequency

(MHz) 1500 100.000 Power Density

(mW/cm2) 1,0 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 20 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Transmitter Radiated Emissions in Restricted Bands 3.4 FCC Rules: 15.247 (c), 15.205, 15.209, 15.35 Radiated emission measurements were performed from 30 MHz to 26000 MHz. For radiated emission tests, the analyzer setting was as followings:

RES BW VID BW Frequency <1 GHz 100 kHz 100 kHz (Peak measurements) Frequency >1 GHz 1 MHz 1 MHz (Peak measurements) 1 MHz 1 MHz (Average measurements) Limits:

For frequencies below 1GHz :

Frequency of Emission

(MHz) 30 88 88 216 216 960 Above 960 Field strength

(microvolts/meter) Field Strength

(dB microvolts/meter) 100 150 200 500 40.0 43.5 46.0 54.0 For frequencies above 1GHz (Average measurements). Guidance on Measurement of DSSS Systems:

If the emission is pulsed, modify the unit for continuos operation , use the settings shown above, then correct the reading by subtracting the peak-average correction factor, derived from the appropriate duty cycle calculation. Here the correction was added to the limit instead subtracted from the reading. Duty cycle correction = 20 log (dwell time/100ms) For frequencies above 1GHz (Average measurements). Limit duty cycle correction No duty cycle correction was added to the reading. 54.0dBV/m For frequencies above 1GHz (Peak measurements). Limit + 20dB 54.0dBV/m + 20 dB= 74 dBV/m Remarks: See attached diagrams. Test equipment used: ETS 0125, ETS 0271 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 21 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Spurious emissions (tx) 3.5 Spurious emission was measured with modulation (declared by manufacturer). In any 100 kHz bandwidth outside the frequency band in which the intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement. Attenuation below the general limits specified in 15.209(a) is not required. In addition, radiated emissions which fall in the restricted bands, as defined in 15.205(a), must also comply with the radiated emission limits specified in 15.209(a) (see 15.205(c)). FCC Rule: 15.247(c) , 15.35 For out of band emissions that are close to or that exceed the 20 dB attenuation requirement described in the specification, radiated measurements were performed at a 3 m separation distance to determine whether these emissions complied with the general radiated emission requirement. Limits:

For frequencies below 1GHz :

Max. reading 20 dB 106.48dBV/m- 20 dB= 86.48 dBV/m Guidance on Measurement of DSSS Systems:

If the emission is pulsed, modify the unit for continuos operation , use the settings shown above, then correct the reading by subtracting the peak-average correction factor, derived from the appropriate duty cycle calculation. Here the correction was added to the limit instead subtracted from the reading. Duty Cycle correction = 20 log (dwell time/100ms) For frequencies above 1GHz (Peak measurements). Limit = max. aver. reading-20dB +20dB(because Peak detector is used) 106.48dBV/m For frequencies above 1GHz (Average measurements). Max. reading 20 dB - duty cycle correction:

No duty cycle correction was added to the reading 106.48dBV/m - 20 dB=86.48 dBV/m Remarks: See attached diagrams. Test equipment used: ETS 0125, ETS 0271 SAMPLE CALCULATION OF LIMIT. All results will be updated by an automatic measuring system in accordance with point 2.3. ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 22 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Calculation of test results:

Such factors like antenna correction, cable loss, external attenuation etc. are already included in the provided measurement results. This is done by using validated test software and calibrated test system according the accreditation requirements. The peak and average spurious emission plots was measured with the average limits. In the Table being listed the critical peak and average value and exhibit the compliance with the above calculated Limits. If in the columns correction factor states a value then the max. Field strength in the same row is corrected by a value gained from the Duty-Cycle Correction Factor. Summary table with radiated data of the test plots Freq. Used Ch. Frequency Marker

[GHz]

Polari-

zation corrections dB Max. Field Strength

[dBV/m]

Compliance Limit

[dBV/m]

Detec-

tor BW Margin 1 1 2 2 2 2 3 4 5 6 7 1 1 2 2 2 2 3 3 4 5 6 7 1 1 1 1 1 1 1 1 1 1 1 1 1 6 6 6 6 6 6 6 6 6 6 6 6 11 11 115.743 122.632 249.989 250.031 962.725 963.642 1112.479 7888.256 10525.060 17784.250 25444.890 122.638 122.634 250.010 250.114 963.718 964.137 1312.477 1314.650 7607.285 10525.493 17844.230 26244.920 118.494 122.497 V H V H V H H V V V H H V V H H V H V V H V H H V 39.87 42.86 42.93 42.62 45.71 41.87 40.9 53.1 50.31 53.26 53.69 42.91 42.73 41.72 43.87 41.84 46.38 39.01 41.11 52.03 50.69 53.46 53.91 42.32 42.13 43.5 43.5 46 46 54 54 54 86.48 86.48 54 54 43.5 43.5 46 46 54 54 54 54 54 86.48 54 86.48 43.5 43.5 P P P P P P P P P P P P P P P P P P P P P P P P P

[MH z]

0.1 0.1 0.1 0.1 0.1 0.1 1 1 1 1 1 0.1 0.1 0.1 0.1 0.1 0.1 1 1 1 1 1 1 0.1 0.1

[dB]

-3.63

-0.64

-3.07

-3.38

-8.29

-12.13

-13.10

-33.38

-36.17

-0.74

-0.31

-0.59

-0.77

-4.28

-2.13

-12.16

-7.62

-14.99

-12.89

-1.97

-35.79

-0.54

-32.57

-1.18

-1.37 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 23 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Freq. Used Ch. Frequency Marker

[GHz]

Polari-

zation 2 2 2 2 3 3 4 5 6 7 11 11 11 11 11 11 11 11 11 11 249.831 250.211 963.644 963.535 1110.337 1111.242 7992.081 10525.000 17796.430 24950.610 H V V H V H V H H H corrections dB Max. Field Strength

[dBV/m]

42.64 41.17 46.38 42.36 35.72 34.11 52.45 50.32 53.64 55.33 Compliance Limit

[dBV/m]

46 46 54 54 54 54 86.48 86.48 54 86.48 Detec-

tor P P P P P P P P P P BW Margin

[MHz

[dB]

]

0.1 0.1 0.1 0.1 1 1 1 1 1 1

-3.36

-4.83

-7.62

-11.64

-18.28

-19.89

-34.03

-36.16

-0.36

-31.15 30 200 1 4 8 12 18 Freq. Frequency Range:

200 MHz 1:

1000 MHz 2:

4 GHz 3:

4:

8 GHz 12 GHz 5:

18 GHz 6:

7:

26,5 GHz All not in the table noted test results are more than 20 dB below the relevant limits. All other not noted test plots do not contain significant test results in relation to the limits. TEST RESULT (Transmitter): The unit DOES meet the FCC requirements. Comment: see attached diagrams Test equipment used: ETS 0125, ETS 0340, ETS 0271 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 24 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Minimum 6 dB Bandwidth 3.6 The analyzer ResBW was set to 100 kHz. For each RF output channel investigated, the spectrum analyzer center frequency was set to the channel carrier. A PEAK reading was taken, two markers were set 6 dB below the maximum level on the right and the left side of the emission. The 6 dB bandwidth is the frequency difference between the two markers. 6 dB Bandwidth Test conditions Tnom= 23C Vnom = 120 V Channel A 10.621 MHz Channel B 10.861 MHz Channel C 10.981 MHz Measurement uncertainty

< 10 Hz Limits:

Frequency Range MHz 902 - 928 2400 2483,5 5725 5850 Limits min 500 kHz min 500 kHz min 500 kHz Test equipment used:

Comment:

ETS 0125, ETS 0271 see attached diagram ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 25 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Peak Power Spectral Density 3.7 Peak Power Spectral density is a measured at low, middle and high channel. The peak output power is measured with a measurement bandwidth of 10 MHz and displayed on diagram together with Peak Power Spectral Density result which was measured with a bandwidth of 3 kHz, appreciate frequency span and sweeptime. Test conditions Tnom= 23C Vnom = 120 V Peak Power Spectral Density (3kHz) Channel A

[dBm]

-8.16 Channel B

[dBm]

-7.69 Channel C

[dBm]

-8.26 Measurement uncertainty

< 3 Hz Limits:

Test equipment used:

Comment:

dBm 8 8 8 Frequency Range MHz 902 - 928 2400 2483,5 5725 5850 ETS 0125, ETS 0340 see attached diagrams ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 26 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Conducted Emission at (AC) Power Line 3.8 For an intentional radiator which is designed to be connected to the public utility (AC) power line, the radio frequency voltage that is conducted back onto the AC line on any frequency or frequencies within the band 150 kHz to 30 MHz shall not exceed the limits in the table bellows with this provision shall be based on the measurement of the radio frequency voltage between each power line and ground at the power terminals. This measurement was transact first with instrumentation using an average and peak detector and a 10 kHz bandwidth. If the peak detector achieves a calculated level, the measurement is repeated by an instrumentation using a quasi-peak detector. Frequency 150 kHz Level quasi-peak lower limit line average lower limit line Limits:

Frequency of Emission (MHz) Conducted Limit (dBuV) 0.15-0.5 0.5-5 5-30 Quasi Peak 66 to 56 56 60 Average 56 to 46 46 50 Test equipment used:

Comment:

ETS 0003, ETS 0040, ETS 0109, ETS 0125 see attached diagram ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 27 of 28 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Appendix A B C D E F G Pictures Peak Output Power Spurious Emissions radiated - Transmitter operating Spurious Emissions conducted - Transmitter operating Maximum 6 dB Bandwidth Peak Power Spectral Density Conducted Emission at (AC) Power Line ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-53 Page 28 of 28

 

 

 

 

 

 

ELECTRONIC TECHNOLOGY SYSTEMS DR. GENZ GMBH TEST - REPORT FCC Part 15 C for IEEE 802.11 g device FCC ID: P27AP51DA Test report no.:

W6M20402-5015-E-54 DR. GENZ GMBH ELECTRONIC TECHNOLOGY SYSTEMS STORKOWER STRASSE 38C, D-15526 REICHENWALDE B. BERLIN PHONE +49-33631-888 00 FAX +49-33631-888 66 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Technical test General information Notes Testing laboratory Details of approval holder Application details Test item Test standards TABLE OF CONTENTS 1 1.1 1.2 1.3 1.4 1.5 1.6 2 2.1 2.2 2.3 2.4 3 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 Summary of test results Test environment Test equipment utilized Test Procedure Test Results Peak Output Power De Facto Equivalent Isotropic Radiated Power RF Exposure Compliance Requirements Transmitter Radiated Emissions in restricted Bands Spurious Emissions Minimum 6 dB Bandwidth Peak Power Spectral Density Spurious emissions related to AC power line ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 1 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH General Information Notes 1 1.1 The purpose of conformity testing is to increase the probability of adherence to the essential requirements or conformity specifications, as appropriate. The complexity of the technical specifications, however, means that full and thorough testing is impractical for both technical and economic reasons. Furthermore, there is no guarantee that a test sample which has Passed all the relevant tests conforms to a specification. Neither is there any guarantee that such a test sample will interwork with other genuinely open systems. The existence of the tests nevertheless provides the confidence that the test sample possesses the qualities as maintained and that is performance generally conforms to representative cases of communications equipment. The test results of this test report relate exclusively to the item tested as specified in 1.5. The test report may only be reproduced or published in full. Reproduction or publication of extracts from the report requires the prior written approval of the ELECTRONIC TECHNOLOGY SYSTEMS DR. GENZ GMBH. Specific Conditions:

Usage of the hereunder tested device in combination with other integrated or external antennas requires at least additional output power measurements, spurious emission measurements, conducted emission measurements (AC supply lines) and radio frequency exposure evaluations for each individual configuration performed, for certification by FCC. The test sample is able to work according IEEE 802.11 a, b,g. This report is related to FCC Part 15 E (OFDM device, IEEE 802.11g) only and do not cover requirements for other parts like FCC Part 15 C (e.g. for IEEE 802.11a and for IEEE 802.11b). Tester:

N. Kaspar 10.08.2004 Date Technical responsibility for area of testing:

ETS-Lab. Name Signature 10.08.2004 Date Dr. Genz ETS Name Signature ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 2 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Location Testing laboratory Details of accreditation status DAR-REGISTRATION NUMBER: BPT-ZE-026/96 DAR-REGISTRATION NUMBER: TTI-P-G 126/96 1.2 1.2.1 ELECTRONIC TECHNOLOGY SYSTEM DR. GENZ GMBH (ETS) Storkower Strae 38c D-15526 Reichenwalde b. Berlin Germany Telefon : +49 33631 888 00 Telefax : +49 33631 888 660 1.2.2 ACCREDITED TESTING LABORATORY ACCREDITED COMPETENT BODY FCC FILED TEST LABORATORY REG. NO. 96970 BLUETOOTH QUALIFICATION TEST FACILITY (BQTF) ACCREDITED BY BLUETOOTH QUALIFICATION REVIEW BOARD INDUSTRY CANADA FILED TEST LABORATORY REG. NO. IC 3470 A2LA ACCREDITED Certificate Number 1983-01 1.3 Details of approval holder Name Street Town Country Telephone Fax Contact

: SerComm Corporation

: 8F., No,3-1, YuanQu St., NanKang

: Taipei 115

: Taiwan, R.O.C

: +886 2 2655 3988

: +886 2 2655 3966

: Mr. Kevin Tseng ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 3 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH

: 04.02.2004

: 04.02.2004

: 04.02.2004 01.03.2004; 14.07.2004 - 23.07.2004

: AP

: AP51DA

: 1.0

: 1.0

: without

: See Appendix A 1.4 Application details Date of receipt of application Date of receipt of test item Date of test 1.5 Test item Description of test item Type identification Hardware Software Serial number Photos Technical data Frequency band Frequency ( ch A) Frequency (ch B) Frequency (ch C) Number of Channels Operating Modes Type of modulation Fixed point-to-point operation:

Antenna type Antenna connector Antenna gain Power supply Emission designator Host device

: 2.4 GHz 2.4835 GHz

: 2.412 GHz

: 2.437 GHz

: 2.462 GHz

: 11

: duplex; TDD

: DSSS-OFDM Yes /

No

: integral Dual Band RF antenna

: I-Pex connector on main board

: 2.0 dBi

: 120 V AC/DC Adapter

: 16M4W7D

: none ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 4 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Classification

:

Fixed Device Mobile Device (Human Body distance > 20cm Portable Device (Human Body distance < 20cm Transmitter Power (ch A) Power (ch B) Power (ch C) Unom

: Conducted: 18.45 dBm

: Conducted: 18.21 dBm

: Conducted: 18.57 dBm Manufacturer:

(if applicable) Name Street Town Country Additional information:

:

:

:

:

The test sample is using WLAN technology according IEEE 802.11 a/ b/ g. For this report the function according IEEE 802.11g is considered only. The scheme for frequency generation, spectrum spreading, receiver parameters, synchronization procedure, and other parameters are determined by the mentioned standard above. The integral antenna is permanent. The I-PEX connectors are inside of a non-accessible on main board. There is no need for the user to ever open the case. ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 5 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Technical test FCC RULES PART 15 / SUBPART C 15.247 1.6 Test standards Technical standard :

2 2.1 Summary of test results No deviations from the technical specification(s) were ascertained in the course of the tests performed. or The deviations as specified in 2.5 were ascertained in the course of the tests performed. 2.2 Test environment Temperature Relative humidity content Air pressure Details of power supply Extrem conditions parameters:

: test voltage - extreme min.:

max:

: 120 V AC/DC AdapterAC-DC adaptor

... 103 kPa

... 75 %

-- V

-- V

: 23oC

: 20

: 86

ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 6 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Test equipment utilized 2.3 No. ETS 0001 ETS 0002 ETS 0003 ETS 0004 ETS 0005 ETS 0006 ETS 0007 ETS 0008 ETS 0009 ETS 0010 ETS 0011 ETS 0012 ETS 0013 ETS 0014 ETS 0015 ETS 0016 ETS 0017 ETS 0018 ETS 0019 ETS 0020 ETS 0021 ETS 0022 ETS 0023 ETS 0024 ETS 0025 ETS 0026 ETS 0027 ETS 0028 ETS 0029 ETS 0030 ETS 0031 ETS 0032 ETS 0033 ETS 0034 ETS 0035 ETS 0036 ETS 0037 ETS 0038 ETS 0039 ETS 0040 ETS 0041 ETS 0042 ETS 0043 ETS 0044 ETS 0045 Measurement device:

Test receiver Test receiver Test receiver Spectrum- and Network-Analyzer Test receiver Test receiver system Spectrum analyzer Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna Antenna mast Antenna mast Tripod Tripod Tripod Tripod Turn table Turn table Controller RF generator RF generator/ Amplifier RF generator/ Amplifier RF amplifier RF amplifier RF amplifier Absorbing clamp Artificial mains Artificial mains Artificial mains Artificial mains Artificial mains Stripe line Type:

ESHS 10 ESVP ESVS 10 FSMS 26 SMV 11 SME 12 PSA-65A Loop antenna Loop antenna Loop antenna van Veen/ Frame HK 116 HL 223 HL 025 HL 025 VHAP VHAP UHAP UHAP DP 21 DP 3 SAS-200/ 521 DP 1 AF 2 AF 2 STA 2 TT 1 DS 412 HD 050 SMG SMLR SMLM 10W 1000AM2 50W 1000 150L MDS 21 ESH3-Z5 ESH3-Z4 ESH3-Z6 NNB 11 NNB 111 IEC 801-3 Manufacturer:

Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz MEB MEB Avcom Siemens MEB MEB ETS Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Schwarzbeck Schwarzbeck Schwarzbeck Schwarzbeck MEB MEB A.H. Systeme / USA MEB MEB MEB Heinrich Deisel Heinrich Deisel C. Lorenz AG Berlebach ETS Heinrich Deisel Heinrich Deisel Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Amplifier Research Amplifier Research Amplifier Research Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz MEB MEB ETS ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 7 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Blank plug-in Measurement device:

Power supply Power supply Power supply Power supply Power supply Oscilloscope Audio analyzer ECAT Control center EFT simulator No. ETS 0046 ETS 0047 ETS 0048 ETS 0049 ETS 0050 ETS 0051 ETS 0052 ETS 0053 ETS 0054 ETS 0055 Module network coupler ETS 0056 ETS 0057 Module SURGE with DC coupler ETS 0058 ETS 0059 ETS 0060 ETS 0061 ETS 0062 ETS 0063 ETS 0064 ETS 0065 ETS 0066 ETS 0067 ETS 0068 ETS 0069 ETS 0070 ETS 0071 ETS 0072 ETS 0073 ETS 0074 ETS 0075 ETS 0076 ETS 0077 ETS 0078 ETS 0079 ETS 0080 ETS 0081 ETS 0082 ETS 0083 ETS 0084 ETS 0085 ETS 0086 ETS 0087 ETS 0088 ETS 0089 ETS 0090 ETS 0091 ETS 0092 ETS 0093 ETS 0094 Capacitive coupling clamp Kikusui amplifier Xitron power analyzer Power/ Arb (Harm., Ramp) Reference impedance Blank plug-in Filter system IEC 1000-4-6 ESD-generator minizap EM Injection Clamp Calibration Fixture Filter system IEC 1000-4-6 EM Radiation Monitor PC Transfer set EMR-20 Video camera system Interphone system Audio noise meter RF milivoltmeter NF generator Feeding bridge A Audio/ Video Filter LCR meter Functional generator EMI Software EMI Software PC Novell network system Apple computer system Process controller Shielded room Anechoic chamber Climatic cell Color TV pattern generator Radio communication tester DECT type approval CTR06 RF signal generator DM-Coder Pulse Modulator Rear-panel connectors Type:

LTS 006 TG 20/ 1 TG 20/ 1 T 102 T 101b TDS 640A UPA 4 PCR 2000L IEC 801-2031 CF CDN EMR-20 EMR-20 KMB012 JS-1400 GSM 2 QRV 2 GF 22 SBA 1000 AV 55020 SR 720 MX-2020 ES-K1 ES-K10 Novell Performa 630 PSA 15 SR 1 AC 1 HC 4033 PM 5518-TX VPS CMS 54 TS 8930 SME 03 SME-B11 SM-B8 SME-B19 Manufacturer:

RFT Statron Statron TPW TPW Tektronic Rohde&Schwarz Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV Keytek/ EMV FCC/ EMV FCC/ EMV FCC/ EMV Wandel&Goltermann Wandel&Goltermann Kocom Jiuh Sheng MKD/ RFT MKD/ RFT Prcitronic ESP ETS SRS Maxcom Rohde&Schwarz Rohde&Schwarz Esotronic Macintosh Rohde&Schwarz Frankonia Frankonia Heraeus Philips Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 8 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Manufacturer:

Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz ETS Rohde&Schwarz Rohde&Schwarz Avcom Avcom INCO Serute Dagatron Rohde&Schwarz Rohde&Schwarz Type:

Measurement device:

PSMD DECT system controller PSMD-B11 DECT Signaling unit TS 89RA Rack, 19", 36 HU CS 893BE System engineering and software TS 8930B Extension unit for basic version SME-06 RF signal generator SME-B11 DM-Coder SM-B8 Pulse modulator SM-B4 Pulse generator SME-B19 Rear-panel connectors SMP 22 High power synthesizer/ sweeper SMP-B11 Frequency extension SMP-B15 RF attenuator for SMP 22 TS 1220 DECT protocol tester TBR 22 PSM 2 Process controller PSMD-B2 Real time signaling unit PCM Realtime audio interface for PSMD-B3 PSMD-B4 Synthesizer Module PSA-Z2 Keyboard RF step attenuator RSG Glide path RF Millivoltmeter Insertion unit No. ETS 0095 ETS 0096 ETS 0097 ETS 0098 ETS 0099 ETS 0100 ETS 0101 ETS 0102 ETS 0103 ETS 0104 ETS 0105 ETS 0106 ETS 0107 ETS 0108 ETS 0109 ETS 0110 ETS 0111 ETS 0112 ETS 0113 ETS 0114 ETS 0115 ETS 0116 ETS 0117 ETS 0118 Mixer ETS 0119 Mixer RF step attenuator ETS 0120 Oscilloscope ETS 0121 Oscilloscope ETS 0122 RF step attenuator ETS 0123 Tripod ETS 0124 Small components ETS 0125 Uninterruptible power supply ETS 0126 Uninterruptible power supply ETS 0127 Uninterruptible power supply ETS 0128 Uninterruptible power supply ETS 0129 Uninterruptible power supply ETS 0130 Telephone connection box ETS 0131 Frequency doubler ETS 0132 ETS 0133 Probe body ETS 0134 Mains filter ETS 0135 Measuring switching point ETS 0136 Attenuator ETS 0137 Multimeter ETS 0138 Multimeter ETS 0139 Multimeter ETS 0140 ETS 0141 ETS 0142 ETS 0143 High voltage generator Sliding bridge Impedance converter Impedance converter URV 55 URV-Z2 MFC 1000 MFC 2000 TRI-50-20 EO 147A 5201 RBU STA 2 UPS - 1500 UPS - 1000 LC UPS - 1000 UPS - 500 Power saver TR-0616 P6015 MSF AK 11 33-6-34 YX-360TRA DT-9410 ST-9202 IP 6Wa J 573 TK 11 TK 12 Sendon Sendon Sendon Sendon Sendon Systel EMG Tektronix Erika Fiedler RFT Weinschel Mastech Diditec Standard TPW RFT RFT RFT ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 9 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Type:

TK 103 ESH2-Z2 21PT4301/00 ZAPD-21 HR07-720 NSG 500C NSG 506C (I) NSG 506C (II) SMG SMG NKS VTG 700 VTG 700 TOE 8815 PI 6001 D 403-A BK 4602 BK 4185 BK 4227 BK 4231 CAS TE I CTR 10 MFE III MFE IV TEH HNG III.1 Canton S Pluss Measurement device:

Probe Active probe Test TV Power divider Switcher Interference pulse generator Simulator for Load-Dump-Impulse Simulator for Load-Dump-Impulse Signal generator Signal generator Adjacent channel power meter TV and Sat-Signal generator TV and Sat Signal generator Programmable power supply Protective wire and isolation tester Filter system / consumer electronic Acoustic chamber Test head Simulator ear Simulator mouth Acoustic calibrator Communication Analysis System Acoustical test for DECT No. ETS 0144 ETS 0145 ETS 0146 ETS 0147 ETS 0148 ETS 0149 ETS 0150 ETS 0151 ETS 0152 ETS 0153 ETS 0154 ETS 0155 ETS 0156 ETS 0157 ETS 0158 ETS 0159 ETS 0160 ETS 0161 ETS 0162 ETS 0163 ETS 0164 ETS 0165 ETS 0166 ETS 0167 ETS 0168 ETS 0169 Measurement - Frontend (analog) ETS 0170 Measurement - Frontend (digital) ETS 0171 ETS 0172 ETS 0173 ETS 0174 Measurement - Frontend line interface MFE V ETS 0175 ETS 0176 ETS 0177 ETS 0178 ETS 0179 ETS 0180 ETS 0181 ETS 0182 ETS 0183 ETS 0184 ETS 0185 ETS 0186 ETS 0187 ETS 0188 ETS 0189 ETS 0190 ETS 0191 ETS 0192 Software Line interface (analog) Acoustic volt meter Feeding bridge B Open area test side Open area test side Artificial mains Test pin for protective wire Power supply Frequency counter Function generator Digital multimeter Power supply Power supply High voltage generator Spectrum Analyzer Function generator Sweep function generator Audio generator Electronic test cradle Noise generator Speaker COPTZV5 COP 4 SBA 1000 30m 30m NNB01/RFZ PE 156-i MX-9300 MX-9300 MX-9300 MX-9300 DF 1730 FSEB MX 2020 7202 7101 Manufacturer:

MEB Rohde&Schwarz Philips MCL Wisi Schaffner Schaffner Schaffner Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Grundig Grundig Toellner SPS electronic Fiedler IAC Brel & Kjr Brel & Kjr Brel & Kjr Brel & Kjr HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics HEAD acoustics ESP ETS ETS ETS SPS electronic Maxcom Maxcom Maxcom Maxcom WJG TPW/RFT Rohde&Schwarz Maxcom Dagatron Dagatron ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 10 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Measurement device:

Hazardous live probe Hazardous live probe Ball pressure test apparatus Glow Wire tester Force indicator 50N Vibration table Digital multimeter Thermo hygro recorder Digital thermometer Digital thermometer Digital thermometer Digital thermometer Digital thermometer / hygro meter Digital thermometer / hygro meter Digital thermometer Digital thermometer Digital thermometer High voltage test generator High voltage test accessories Socket-Outlet torque balance Unjointed Finger probe Flexible Finger probe Spring operated impact hammer No. ETS 0193 ETS 0194 ETS 0195 ETS 0196 ETS 0197 ETS 0198 ETS 0199 ETS 0200 ETS 0201 ETS 0202 ETS 0203 ETS 0204 ETS 0205 ETS 0206 ETS 0207 ETS 0208 ETS 0209 ETS 0210 ETS 0211 Metallic ball ETS 0212 ETS 0213 ETS 0214 ETS 0215 ETS 0216 ETS 0217 Millivolt meter ETS 0218 ETS 0219 ETS 0220 ETS 0221 ETS 0222 ETS 0223 ETS 0224 ETS 0225 ETS 0226 ETS 0227 ETS 0228 ETS 0229 ETS 0230 ETS 0231 ETS 0232 ETS 0233 ETS 0234 ETS 0235 ETS 0236 ETS 0237 ETS 0238 ETS 0239 ETS 0240 ETS 0241 RF probe Power sensor Insertion unit ISDN-S0-Analyzer ISDN Protocol Analyser GSM/ PCN/ PCS-Simul. GSM System Simulator SIM Simulator SIM Editor Vibration table Climatic chamber Radio Commun. Tester Radio Commun. Tester Testreceiver Radiation test source Direction coupler Power meter RF-network-analyser RF-amplifier RF-amplifier Field strong meter Isotr. field probe 40 GHz Isotr. field probe 1 GHz Pulse Generator Type:

N1-201-M PMM 208 AK-688 ad 170th ad 31th ad 90h 37950-10 ad 15th Type K ad 20th HA 3300 D HVGZ 312 F 37.13 P 10.05 P 10.01 P 22.50 F 53.32 P 10.06 P 10.11 T 10.02 T 03.14 P 10.31 URV 55 URV5-Z7 NRV-Z2 URV5-Z4 K1403 TE965 TS8915B FTA TIRA vib VT 4010 CMT 54 CMD 65 ESVS 30 VSQ 1 RK 100 NRVD 8752 C 100A100 100W1000M1 FM 2000 FP 2080 Kit FP 2000 Kit 4050 Manufacturer:

Sandox Dagatron Amarell KD Prima ama-digit ama-digit ama-digit Cole Parmer ama-digit Amarell ama-digit SPS electronic SPS electronic PTL PTL PTL PTL PTL PTL PTL PTL PTL PTL Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Rohde&Schwarz Siemens Tekelec Teleco. Rohde & Schwarz Rohde & Schwarz Orga Orga GenRad Vtsch Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz MEB MEB Rohde & Schwarz Hewlett Packard Amplifier Research Amplifier Research Amplifier Research Amplifier Research Amplifier Research PicoSecond PL ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 11 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH No. ETS 0242 ETS 0243 ETS 0244 ETS 0245 ETS 0246 ETS 0247 ETS 0248 ETS 0249 ETS 0250 ETS 0252 ETS 0253 ETS 0254 ETS 0255 ETS 0256 ETS 0257 ETS 0258 ETS 0259 ETS 0260 ETS 0261 ETS 0262 ETS 0263 ETS 0264 ETS 0265 ETS 0267 ETS 0268 ETS 0270 ETS 0271 ETS 0272 ETS 0273 ETS 0274 ETS 0275 ETS 0276 ETS 0277 ETS 0278 ETS 0279 ETS 0280 ETS 0281 ETS 0282 ETS 0283 ETS 0284 ETS 0285 ETS 0286 ETS 0287 ETS 0288 ETS 0289 ETS 0290 ETS 0291 ETS 0292 ETS 0293 Measurement device:

Harmonics analyser AC-clamp 1000 A Burst generator Load dump generator Voltage drop simulator Microsecond generator Switch unit Coupling network Coupling clamp System controller Spectrum analyser RF generator RF generator RF generator Step attenuator Rubidium standard Power meter Power sensor Power sensor Switching unit Signaling unit Spectrum analyser Loop antenna RF signal generator RF signal generator RF signal generator Test receiver RF signal generator RF signal generator RF signal generator Power sensor Audio analyser Power sensor Power sensor Step attenuator Power meter Spectrum analyser RF bridge RF bridge Field probe Field probe Limiter Test receiver Artifical mains Audio generator Audio generator Loop antenna RF generator Artifical mains Type:

F 41B 80i 1000s EFT 200 LD 200 VDS 200 MPG 200 AN 200 CNA 200 ACC PSM 12 FSIQ SMIQ 03 SMIQ 03 SMP 03 RSP RSTU NRVD NRVD-Z1 NRVD-Z1 SSCU F 1048 HFRA 9150 SMT 03 SMP 02 SMP 04 ESI 40 SME 03 SME 03 SMY 01 NRV-Z51 UPL NRV-Z1 NRV-Z31 RSP NRVD FSM 86207 A 86205 A 11940 A 11941 A 11867 A ESHS 10 ESH2-Z5 TAG 101 TAG 101 HFH2-Z2 SMHU NNBM 8125 Manufacturer:

Fluke Fluke EM-Test EM-Test EM-Test EM-Test EM-Test EM-Test EM-Test Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz DATUM GmbH Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Wird HAMEG Schwarzbeck Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz Hewlett Packard Hewlett Packard Hewlett Packard Hewlett Packard Hewlett Packard Rohde & Schwarz Rohde & Schwarz Troneer Troneer Rohde & Schwarz Rohde & Schwarz Schwarzbeck ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 12 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH No. ETS 0294 ETS 0295 ETS 0296 ETS 0297 ETS 0298 ETS 0299 ETS 0300 ETS 0301 ETS 0302 ETS 0303 ETS 0304 ETS 0305 ETS 0306 ETS 0307 ETS 0308 ETS 0309 ETS 0310 ETS 0311 ETS 0312 ETS 0313 ETS 0314 ETS 0315 ETS 0316 ETS 0317 ETS 0318 ETS 0319 ETS 0320 ETS 0321 ETS 0322 ETS 0323 ETS 0324 ETS 0325 ETS 0326 ETS 0327 ETS 0328 ETS 0330 ETS 0333 ETS 0334 ETS 0335 ETS 0336 ETS 0337 ETS 0338 ETS 0339 ETS 0340 ETS 0431 ETS 0432 ETS 0433 ETS 0434 ETS 0435 Measurement device:

Biconical antenna LPD antenna Oscilloscope Power pulse generator ICO tester DECT protocol tester RF amplifier Relay switch unit Data line CDN Telecom line CDN Test receiver Test receiver Function generator Commu. Sign. Analyzer Spectrum analyzer Anechoic chamber Anechoic chamber Anechoic chamber Climatic chamber Power sensor LPD antenna Biconical antenna Switcher Switcher Dial pulse/ DTMF tester Opto link Opto link RF Millivoltmeter Insertion unit DECT portable part DECT fix part DECT portable part DECT fix part Blue Unit BT Protocol tester Spectrum analyser turn table Controller BT Development kit LPD Antenna Professional Power Amplifier Coupling network Isolating Transformer Bluetooth test set AC Mains Adaptor RF Verstrkermatrix RF Verstrkermatrix Reserviert Tre HP-Filter Type:

HK 116 HL 223 TDS 520 A IGUF 2910 TS 1232 TS 1220 75 A 250 RSU CM-I/O CD CM-TEL CD ESHS 10 ESVS 10 HP 33120A CSA 803 A R 3361A AC 2 AC 3 AC 4 VC 0033 NRV-Z51 HL 223 HK 116 Hr 07-720 Hr 07-720 210 GPIB 140 GPIB 140 URV 55 URV5-Z4 Gigaset 1000 Gigaset 1000 V 2.0 PTW 60 FSM DE 350 HD 100 CASIRA HL 223 SE-1200 KN002 KN003 TS8960 BS5733 RSU-ETS-BT RSU-ETS-CTR6 RSU-ETS-GSM H1G04G01 Manufacturer:

Rohde & Schwarz Rohde & Schwarz Tektronix Schwarzbeck Rohde & Schwarz Rohde & Schwarz Amplifier Research Rohde & Schwarz Keytek Keytek Rohde & Schwarz Rohde & Schwarz Hewlett Packard Tektronix Advantest Frankonia Frankonia Frankonia Vtsch Rohde & Schwarz Rohde & Schwarz Rohde & Schwarz WISI WISI HE NI NI Rohde & Schwarz Rohde & Schwarz SIEMENS SIEMENS Philipps Philipps Nokia Rohde & Schwarz Rohde & Schwarz Heinrich Deisel Heinrich Deisel CSR Rohde & Schwarz Wharfedale Pro ETS ETS Rohde & Schwarz Travel Emporium ETS ETS Microwave ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 13 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Measurement device:

HP-Filter HP-Filter HP-Filter Reserviert Tre Reserviert Tre Bluetooth Protcol Tester Nokia Tester for Bluetooth 1.1 IBM BT PC Card Sony BT DUN Modem RF-Attenuattor 6dB RF-Attenuattor 30dB KFZ-Bordnetznachbildung RF Power Amplifier Stubli Robot Stubli Robot Controller DASY 4 Measurement Server Control Pendant Compaq Computer Dabu Acquisition Electronis Dummy Probe Dosimetric E-Field Probe Dosimetric E-Field Probe Dosimetric H-Field Probe System Validation Kit System Validation Kit System Validation Kit System Validation Kit Probe Alignment Unit SAM Twin phantom No. ETS 0436 ETS 0437 ETS 0438 ETS 0439 ETS 0440 ETS 0441 ETS 0442 ETS 0443 ETS 0444 ETS 0445 ETS 0446 ETS 0447 ETS 0448 ETS 0449 ETS 0450 ETS 0451 ETS 0452 ETS 0453 ETS 0454 ETS 0455 ETS 0456 ETS 0457 ETS 0458 ETS 0459 ETS 0460 ETS 0461 ETS 0462 ETS 0463 ETS 0464 ETS 0465 Mounting Device ETS 0466 ETS 0467 ETS 0468 ETS 0469 ETS 0470 ETS 0469 ETS 0470 ETS 0471 ETS 0472 ETS 0473 ETS 0474 ETS 0475 ETS 0476 ETS 0477 ETS 0478 ETS 0479 ETS 0480 ETS 0481 ETS 0482 Antenna GSM / UMTS System Simulator Antenna Verstrker Test receiver GPS-System(aktive GPS-antenne) Crystal filter Directional Coupler Universal Radio Communication T Dielectric Probe Kit Amplifier Dielectric Probe Kit Amplifier Validation Dipole 40GHz Standard Gain Horn mit 40GHz High Gain Antenna Type:

H1G04G01 H0G408G1 H0G408G1 PTW 60 DTL - 1 BTPCN101 BTA- NW 1 50FH-006-300 50FH-030-300 LN-KFZ/200 AR 60S1G3 RX90B L CS/MBs&p Pentium IV 2 GHz DAE3V1 ET3DV6 ET3DV6 H3DV6 D900V2 D1800V2 D1900V2 D2450V2 LBV2 V4.0 V 3.1 HP 87300B CMU 200 85070C AM-1300-1103 85070C AM-1300-1103 Manufacturer:

Microwave Microwave Microwave R & S Nokia IBM / Motorola Sony JFK JFK R. Heine AR Amplifier Resarch Stubli Stubli Schmidt & Partner Stubli Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner Schmidt & Partner R & S Agilent MITEQ Agilent MITEQ Frankonia R&S Frankonia BTA-H TS 8950 BTA-H AFS4-00101800-U MITEQ ESCS 30 4490 MQF 127.50-2400/F Vectron International R&S HOPF DB 3 22240-25 AT4560 EMCO Flann Microwave Amplifier research ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 14 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Measurement device:

No. Verstrker ETS 0483 2.4 Test Procedure POWER LINE CONDUCTED INTERFERENCE: The procedure used was ANSI STANDARD C63.4-2000 using a 50H LISN (if necessary). Both lines were observed. The bandwidth of the spectrum analyzer was 10 kHz with an appropriate sweep speed. AFD3010040-15-LN Miteq Manufacturer:

Type:

RADIATION INTERFERENCE: The test procedure used was ANSI STANDARD C63.4-2000 using a spectrum analyzer. The bandwidth of the spectrum analyzer was 100 kHz with an appropriate sweep speed. The analyzer was calibrated in dB above a microvolt at the output of the antenna. The resolution bandwidth was the 100 kHz and the video bandwidth was 300 kHz. The ambient temperature of the UUT was 23C with a humidity of 40 %. FORMULA OF CONVERSION FACTORS: The Field Strength at 3m was established by adding the meter reading of the spectrum analyzer (which is set to read in units of dBV) to the antenna correction factor supplied by the antenna manufacturer. The antenna correction factors are stated in terms of dB. Example:

Freq (MHz) 33 METER READING + ACF + CABLE LOSS (to the receiver) = FS 20 dBV + 10.36 dB + 6 dB = 36.36 dBV/m @3m ANSI STANDARD C63.4-2000 10.1.7 MEASUREMENT PROCEDURES: The UUT was placed on a table 80 cm high and with dimensions of 1m by 1.5m (non metallic table). The UUT was placed in the center of the table. The table used for radiated measurements is capable of continuous rotation. The spectrum was scanned from 30 MHz to 10th harmonic of the fundamental. Peak readings were taken in three (3) orthogonal planes and the highest readings. Measurements were made by ETS Dr. Genz GmbH at the registered open field test site located at Storkower Str. 38c, 15526 Reichenwalde, Germany. When an emission was found, the table was rotated to produce the maximum signal strength. At this point, the antenna was raised and lowered from 1m to 4m. The antenna was placed in both the horizontal and vertical planes. ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 15 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH 3 Test results (enclosure) TEST CASE Peak Output Power Equivalent radiated power Spurious Emissions radiated - Transmitter operating Spurious Emissions conducted - Transmitter operating Minimum 6 dB Bandwidth Peak Power Spectral Density Conducted Emission at (AC) Power Line Required Test passed Test failed

ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 16 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH 3.1 Peak Output Power (transmitter) This measurement applies to equipment with an integral antenna and to equipment with an antenna connector and equipped with an antenna as declared by the applicant. The power was measured with modulation (declared by the applicant). Test conditions Channel A Tnom= 23C Vnom = 120 V Measurement uncertainty

[dBm]

18.45 Conducted Power Channel B

[dBm]

18.21

< 3 dB Channel C

[dBm]

18.57 Test Conditions Signal Field strength TX highest power mode Tnom= 23C, Vnom = 120 V Frequency [MHz]

2462 Measurement uncertainty dBV/m 98.06

< 3 dB The diagrams for the field strength measurements are included in Appendix C. Limits:

Frequency MHz 902 928 2400-2483.5 MHz 5725-5850 MHz Power dBm 30 30 30 In case of employing transmitter antennas having antenna gain > 6 dBi and using fixed point-to point operation consider 15.247 (b)(4). Test equipment used:

ETS 0125, ETS 0340 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 17 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH 3.2 De facto Equivalent isotropic radiated power EIRP = max. conducted output power + antenna gain EIRP = 18.57 dBm + 2.0 dBi EIRP = 20.57 dBm Limit: EIRP = +36 dBm for Antenna gain < 6 dBi 3.2.1 Transmitter Integral Antenna:

At the transmitter the measurement was transacted with the modulation declared by the manufacturer and the maximum available output power of the EUT. In this arrangement the EUT fulfils the requirements of the FCC rules 15.247, subpart C, section b. This unit uses an external antenna without antenna cable. The antenna is connected by an unique RF connector (SMA inverse plug). 3.3 RF Exposure Compliance Requirements FCC OET Bulletin 65 Edition 97.01 determines the equations for predicting RF fields and applicable limits. The prediction for power density in the far-field of the antenna can be made by use of the general equation below. This equation is generally accurate in the far-field but will over-predict power density in the near field, where it could be used for walking a worst case or conservative prediction. P G S = ---------

4 R2 S Power Density P Output power ERP R Distance D cable Loss AG Antenna Gain G= AG-D Item P D AG G R S ETS Dr. Genz GmbH, Germany Unit mW dB dBi cm mW/cm2 Value 71.9 2 1.58 20 0.023 Remarks Average value Measured value Peak gain Calculated Value Assumed value Calculated value Registration number: W6M20402-5015-E-54 Page 18 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Limits:

Limit for General Population / Uncontrolled Exposure Frequency

(MHz) 1500 100.000 Power Density

(mW/cm2) 1,0 Transmitter Radiated Emissions in restricted Bands 3.4 FCC Rules: 15.247 (c), 15.205, 15.209, 15.35 Radiated emission measurements were performed from 30 MHz to 26000 MHz. For radiated emission tests, the analyzer setting was as followings:

RES BW VID BW Frequency <1 GHz 100 kHz 100 kHz (Peak measurements) Frequency >1 GHz 1 MHz 1 MHz (Peak measurements) 1 MHz 1 MHz (Average measurements) Limits:

For frequencies below 1GHz :

Frequency of Emission

(MHz) 30 88 88 216 216 960 Above 960 Field strength

(microvolts/meter) Field Strength

(dB microvolts/meter) 100 150 200 500 40.0 43.5 46.0 54.0 For frequencies above 1GHz (Average measurements). 54.0dBV/m For frequencies above 1GHz (Peak measurements). Limit + 20dB 54.0dBV/m + 20 dB= 74 dBV/m Remarks: See attached diagrams. Test equipment used: ETS 0125, ETS 0271 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 19 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Spurious emissions (tx) 3.5 Spurious emission was measured with modulation (declared by manufacturer). In any 100 kHz bandwidth outside the frequency band in which the intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement. Attenuation below the general limits specified in 15.209(a) is not required. In addition, radiated emissions which fall in the restricted bands, as defined in 15.205(a), must also comply with the radiated emission limits specified in 15.209(a) (see 15.205(c)). FCC Rule: 15.247(c) , 15.35 For out of band emissions that are close to or that exceed the 20 dB attenuation requirement described in the specification, radiated measurements were performed at a 3 m separation distance to determine whether these emissions complied with the general radiated emission requirement. Limits:

For frequencies below 1GHz :

Max. reading 20 dB 98.06dBV/m- 20 dB=78.06 dBV/m Duty Cycle correction = 20 log (dwell time/100ms) For frequencies above 1GHz (Peak measurements). Limit = max. aver. reading-20dB +20dB(because Peak detector is used) 98.06dBV/m For frequencies above 1GHz (Average measurements). 98.06dBV/m - 20 dB=78.06dBV/m SAMPLE CALCULATION OF LIMIT. All results will be updated by an automatic measuring system in accordance with point 2.3. Calculation of test results:

Such factors like antenna correction, cable loss, external attenuation etc. are already included in the provided measurement results. This is done by using validated test software and calibrated test system according the accreditation requirements. The peak and average spurious emission plots was measured with the average limits. In the Table being listed the critical peak and average value an exhibit the compliance with the above calculated Limits. ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 20 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Max. Field Strength

[dBV/m]

Compliance Limit

[dBV/m]

BW Margin Summary table with radiated data of the test plots Freq. Used Ch. Polari-

zation Frequency Marker

[MHz]

120.491 120.933 241.377 250.133 1110.749 1113.434 7511.348 10525.480 17820.490 25580.130 118.731 120.242 242.198 249.899 1110.898 1111.242 7864.391 11874.060 17820.970 25342.610 121.032 122.432 241.372 249.499 1111.398 1112.467 7607.915 10525.610 17796.280 25239.370 V H H V H V H V V V V H H V H V V V H H V H H V H V H V H V corrections dB 1 1 2 2 3 3 4 5 6 7 1 1 2 2 3 3 4 5 6 7 1 1 2 2 3 3 4 5 6 7 1 1 1 1 1 1 1 1 1 1 6 6 6 6 6 6 6 6 6 6 11 11 11 11 11 11 11 11 11 11 41.38 42.07 42.99 42.53 37.82 39.98 52.76 50.37 53.67 54.81 42.78 43.03 42.49 42.13 35.33 34.91 52.83 49.69 53.84 54.27 42.95 41.52 45.18 43.66 36.73 37.31 53.24 50.99 53.63 54.87 43.5 43.5 46 46 54 54 54 78.06 54 78.06 43.5 43.5 46 46 54 54 78.06 78.06 54 78.06 43.5 43.5 46 46 54 54 54 78.06 54 78.06 Detec-

tor P P P P P P P P P P P P P P P P P P P P P P P P P P P P P P

[MHz]

0.1 0.1 0.1 0.1 1 1 1 1 1 1 0.1 0.1 0.1 0.1 1 1 1 1 1 1 0.1 0.1 0.1 0.1 1 1 1 1 1 1

[dB]

-2.12

-1.43

-3.01

-3.47

-16.18

-14.02

-1.24

-27.69

-0.33

-23.25

-0.72

-0.47

-3.51

-3.87

-18.67

-19.09

-25.23

-28.37

-0.16

-23.79

-0.55

-1.98

-0.82

-2.34

-17.27

-16.69

-0.76

-27.07

-0.37

-23.19 Freq. Frequency Range:

1:

200 MHz 1000 MHz 2:

4 GHz 3:

4:

8 GHz 12 GHz 5:

18 GHz 6:

7:

26,5 GHz ETS Dr. Genz GmbH, Germany 30 200 1 4 8 12 18 Registration number: W6M20402-5015-E-54 Page 21 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH All not in the table noted test results are more than 20 dB below the relevant limits. All other not noted test plots do not contain significant test results in relation to the limits. TEST RESULT (Transmitter): The unit DOES meet the FCC requirements. Comment: see attached diagrams Test equipment used: ETS 0125, ETS 0340, ETS 0271 ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 22 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Minimum 6 dB Bandwidth 3.6 The analyzer ResBW was set to 100 kHz. For each RF output channel investigated, the spectrum analyzer center frequency was set to the channel carrier. A PEAK reading was taken, two markers were set 6 dB below the maximum level on the right and the left side of the emission. The 6 dB bandwidth is the frequency difference between the two markers. 6 dB Bandwidth Test conditions Tnom= 23C Vnom = 120 V Channel A 16.593 MHZ Channel B 16.593 MHz Channel C 16.392 MHz Measurement uncertainty

< 10 Hz Limits:

Frequency Range MHz 902 - 928 2400 2483,5 5725 5850 Limits min 500 kHz min 500 kHz min 500 kHz Test equipment used:

Comment:

ETS 0125, ETS 0271 see attached diagram ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 23 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Peak Power Spectral Density 3.7 Peak Power Spectral density is measured at low, middle and high channel. The peak output power is measured with a measurement bandwidth of 10 MHz and displayed on diagram together with Peak Power Spectral Density result which was measured with a bandwidth of 3 kHz, appreciate frequency span and sweeptime. Test conditions Tnom= 23C Vnom = 120 V Peak Power Spectral Density (3kHz) Channel A

[dBm]

-8.50 Channel B

[dBm]

-8.46 Channel C

[dBm]

-9.28 Measurement uncertainty

< 3 Hz Limits:

Test equipment used:

Comment:

dBm 8 8 8 Frequency Range MHz 902 - 928 2400 2483,5 5725 5850 ETS 0125, ETS 0340 see attached diagrams ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 24 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Conducted Emission at (AC) Power Line 3.8 For an intentional radiator which is designed to be connected to the public utility (AC) power line, the radio frequency voltage that is conducted back onto the AC line on any frequency or frequencies within the band 150 kHz to 30 MHz shall not exceed the limits in the table bellows with this provision shall be based on the measurement of the radio frequency voltage between each power line and ground at the power terminals. This measurement was transact first with instrumentation using an average and peak detector and a 10 kHz bandwidth. If the peak detector achieves a calculated level, the measurement is repeated by an instrumentation using a quasi-peak detector. Frequency 150 kHz Level quasi-peak lower limit line average lower limit line Limits:

Frequency of Emission (MHz) Conducted Limit (dBuV) 0.15-0.5 0.5-5 5-30 Quasi Peak 66 to 56 56 60 Average 56 to 46 46 50 Test equipment used:

Comment:

ETS 0003, ETS 0040, ETS 0109, ETS 0125 see attached diagram ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 25 of 26 ELECTRONIC TECHNOLOGY SYSTEMS DR.GENZ GMBH Appendix A B C D E F G Pictures Peak Output Power Spurious Emissions radiated - Transmitter operating Spurious Emissions conducted - Transmitter operating Maximum 6 dB Bandwidth Peak Power Spectral Density Conducted Emission at (AC) Power Line ETS Dr. Genz GmbH, Germany Registration number: W6M20402-5015-E-54 Page 26 of 26