FCC ID: P27IP802SMV2 3 in 1 Access Point

 

3-in-1 IP802SM V2 802.11g Wireless Access Point Broadband Router 802.11g Wireless Client Quick Start Guide Regulatory Approvals 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. The antennas used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. Channel 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. In the USA and Canada, 11 channel are available. If using multiple Access Points, it is better if adjacent Access Points use different Channels to reduce interference. 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. CAUTION:

1) To comply with FCC RF exposure compliance requirements, a separation distance of at least 20 cm must be maintained between the antenna of this device and all persons. 2) This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. Table of Contents CHAPTER 1 INTRODUCTION ............................................................................................. 1 Features.............................................................................................................................. 1 Package Contents .............................................................................................................. 2 Physical Features............................................................................................................... 3 Modes ................................................................................................................................. 4 CHAPTER 2 INITIAL CONFIGURATION.......................................................................... 8 Requirements..................................................................................................................... 8 Procedure ........................................................................................................................... 8 System Screen .................................................................................................................. 10 CHAPTER 3 SETUP - AP MODE ........................................................................................ 14 Overview .......................................................................................................................... 14 Connecting ....................................................................................................................... 14 AP Setup Screen .............................................................................................................. 15 Wireless Security Screen................................................................................................. 17 Trusted Wireless Stations Screen................................................................................... 19 CHAPTER 4 SETUP - AP/ROUTER MODE ...................................................................... 21 Overview .......................................................................................................................... 21 Connecting while in AP/Router Mode........................................................................... 21 AP/Router Setup Screen ................................................................................................. 22 Wireless Security Screen................................................................................................. 25 Trusted Wireless Stations Screen................................................................................... 27 Ethernet (WAN) Port Configuration............................................................................. 28 Ethernet (WAN) Port Status .......................................................................................... 34 CHAPTER 5 AP/ROUTER MODE - ADVANCED FEATURES...................................... 40 Overview .......................................................................................................................... 40 Advanced Internet Screen .............................................................................................. 41 Port Forwarding.............................................................................................................. 43 Dynamic DNS (Domain Name Server) .......................................................................... 47 Network Diagnostics ....................................................................................................... 49 Options ............................................................................................................................. 50 PC Database..................................................................................................................... 51 Security............................................................................................................................. 55 CHAPTER 6 SETUP - CLIENT MODE .............................................................................. 57 Overview .......................................................................................................................... 57 Connecting ....................................................................................................................... 57 Client Mode Setup........................................................................................................... 58 CHAPTER 7 OPERATION AND USAGE........................................................................... 62 Overview .......................................................................................................................... 62 Changing Modes.............................................................................................................. 62 Using AP Mode................................................................................................................ 62 Using AP/Router Mode................................................................................................... 63 Using Client Mode........................................................................................................... 65 i APPENDIX A TROUBLESHOOTING................................................................................ 66 Overview .......................................................................................................................... 66 General Problems............................................................................................................ 66 Wireless Access - AP or AP/Router Mode .................................................................... 66 Router Mode .................................................................................................................... 68 APPENDIX B ABOUT WIRELESS LANS.......................................................................... 69 Modes ............................................................................................................................... 69 BSS/ESS............................................................................................................................ 69 Channels........................................................................................................................... 70 WEP.................................................................................................................................. 70 Wireless LAN Configuration.......................................................................................... 70 APPENDIX C SPECIFICATIONS ....................................................................................... 71 Multi-Function Wireless 3-in-1 Companion ................................................................. 71 Wireless Interface............................................................................................................ 71 Regulatory Approvals..................................................................................................... 72 P/N: 9560P60001 Copyright 2004. All Rights Reserved. Document Version: 1.4 (July, 2004) 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 3-in-1 Companion's fea-

tures and capabilities. Congratulations on the purchase of your new Wireless 3-in-1 Companion. The Wireless 3-in-1 Companion can function in any of 3 modes:

Wireless Access Point for 802.11b and 802.11g Wireless Stations. AP/Router providing Broadband LAN/WAN Access for all wireless stations. Client Mode converting your PC Ethernet port to a wireless interface. There is also a Config Mode to make it easy to connect to the Wireless 3-in-1 Companion and change its configuration. Features The Wireless 3-in-1 Companion incorporates many advanced features, carefully designed to provide sophisticated functions while being easy to use. General Compact Size. Both the Wireless 3-in-1 Companion and its power supply are small and light, making it easy to move from one location to another as required. Easy Setup. Use your WEB browser for configuration. In Config Mode, you don't even have to know the IP address of the Wireless 3-in-1 Companion. Configuration File Upload/Download. You can Save (download) the configuration data from the Wireless 3-in-1 Companion to your PC, and restore (upload) a previously-

saved configuration file to the Wireless 3-in-1 Companion. If used in many different environments , this make it easy to change the configuration to match the current environment. Wireless Standards Compliant. The Wireless 3-in-1 Companion 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. Speeds to 54Mbps. All speeds up to the 802.11g maximum of 54Mbps are supported. WEP support. Support for WEP (Wired Equivalent Privacy) is included. Key sizes of 64 Bit and 128 Bit are supported. WPA-PSK support. The WPA-PSK standard for data encryption is supported. This standard provides better encryption ;than WEP. Wireless MAC Access Control. The Wireless Access Control feature can check the MAC address (hardware address) of Wireless stations to ensure that only trusted Wireless Stations can access your LAN. 1 Wireless 3-in-1 Companion User Guide Simple Configuration. If the default settings are unsuitable, they can be changed quickly and easily. Router Mode Features DHCP Server Support. Dynamic Host Configuration Protocol provides a dynamic IP address to PCs and other devices upon request. The Wireless 3-in-1 Companion can act as a DHCP Server for PCs using the Access Point. Shared LAN/WAN Access. All users on the Wireless LAN can share the IP Address on the Wireless 3-in-1 Companion's Ethernet port, providing shared access to the LAN or WAN. This process is called NAT (Network Address Translation). Fixed or Dynamic IP Address. On the Ethernet (WAN) port connection, the Wireless 3-in-1 Companion supports both Dynamic IP Address (IP Address is allocated on connec-

tion) and Fixed IP Address. PPPoE, PPTP Support. On the Ethernet (WAN) port connection supports PPPoE (PPP over Ethernet) and PPTP (Peer-to-Peer Tunneling Protocol) login methods if required. Communication Applications. Support for Internet communication applications, such as interactive Games, Telephony, and Conferencing applications, which are often difficult to use when behind a Firewall, is included. Port Forwarding. This feature allows Internet users to access Internet servers on your LAN. The required setup is quick and easy. DDNS Support. DDNS (Dynamic DNS) allows Internet users to connect to Port For-

warding on your LAN using a domain name, even if your IP address is not fixed. DMZ. One (1) PC on your local LAN can be configured to allow unrestricted 2-way communication with Servers or individual users on the Internet. This provides the ability to run programs which are incompatible with Firewalls. VPN Pass through Support. PCs with VPN (Virtual Private Networking) software using PPTP, L2TP and IPSec are transparently supported - no configuration is required. Network Diagnostics. You can use the Wireless 3-in-1 Companion to perform a Ping or DNS lookup. Stateful Inspection Firewall. All incoming data packets are monitored and all incom-

ing server requests are filtered, thus protecting your network from malicious attacks from external sources. Protection against DoS attacks. DoS (Denial of Service) attacks can flood your Internet connection with invalid packets and connection requests, using so much band-

width and so many resources that Internet access becomes unavailable. The Wireless 3-in-

1 Companion incorporates protection against DoS attacks. Package Contents The following items should be included:

The Wireless 3-in-1 Companion Unit Power Adapter Quick Start Guide CD-ROM containing the on-line manual. If any of the above items are damaged or missing, please contact your dealer immediately. 2 Physical Features Introduction Ethernet LED Wireless LED Power LED Mode Selector Reset Button Ethernet Port Power On - Ethernet connection established. Off - No Ethernet connection. Flashing - Data being transferred. On - Wireless interface available. Off - Wireless interface unavailable. Flashing - Data being transferred. On - Power is available. Off - No power. This switch has 4 positions:

1 - AP Mode 2 - AP/Router Mode 3 - Config Mode 4 - Client Mode This button has 2 functions:

Restart (reboot) - press & release. Set all settings to factory defaults - press & hold (for 8 seconds), then release. Note: This should not be done while connected or using the Wire-

less 3-in-1 Companion. Connect the 10/100BaseT ethernet cable here. In AP mode or AP/Router mode, this is connected to the LAN or WAN. In Config mode, this should be connected to your PC. In Client mode, this is connected to your PC. Connect the supplied power adapter here. 3 Wireless 3-in-1 Companion User Guide Modes Your Wireless 3-in-1 Companion has 4 modes:

Config Mode used for configuration only. AP (Access Point) Mode. AP/Router Mode both AP and Router. Client Mode - the Wireless 3-in-1 Companion is connected to your PC's Ethernet port, and converts that port to a Wireless interface. You PC can then use the Wireless 3-in-1 Com-

panion to join a Wireless network. The mode is set ONLY by the mode selector switch on the side of the Wireless 3-in-1 Com-

panion. (You will need to wait a few seconds after changing modes.) It is important to understand these different modes, and the benefits and limitations of each. Config Mode Use this mode to any perform any required configuration. In Config mode, the following settings are always used. Password IP address DHCP Server SSID Wireless Security The current password is used. The Default password is blank. If the password is set, you must use admin as the login name. 192.168.0.1 (Mask: 255.255.255.0) Enabled (for both Ethernet & Wireless) default Disabled You can connect to the Wireless 3-in-1 Companion using either the Wireless interface or the wired Ethernet connection. Using the Wired connection is recommended. See the later section Initial Configuration for details. 4 Access Point Mode Introduction The Wireless 3-in-1 Companion connects Wireless stations to each other, and to the LAN on the Ethernet port. Because the Wireless 3-in-1 Companion is transparent (does not have an IP address) you cannot configure it while in AP mode. Q. When Should I use Access Point (AP) Mode?

Ans. Use this mode in any of these situations:

You are the ONLY user (wireless client). There are multiple wireless clients, and you have explicit permission for all users to con-

nect to the LAN or WAN to which the Ethernet port is connected. You want to create a private Wireless LAN (not using the Ethernet port), using Infrastruc-

ture mode instead of Ad-hoc mode. In this case, each PC must "self-assign" an IP address, since there is no DHCP Server available. If using Windows XP, this self-assignment will work correctly; all wireless stations will have compatible IP addresses. Q. When Shouldn't I use Access Point (AP) Mode?

Ans. Do NOT use this mode in this situation:

There are multiple users (wireless clients). You do NOT have permission for all of these users to connect to the LAN or WAN on the Ethernet port. In this situation, you should use AP/Router mode. 5 Wireless 3-in-1 Companion User Guide AP/Router Mode In AP/Router Mode, the Wireless 3-in-1 Companion acts as an AP and a DHCP Server, allocating IP addresses for Wireless stations (clients). It also acts as a NAT Router, sharing the IP address on the Ethernet (LAN/WAN) port with all Wireless clients. (It has 2 IP addresses, one on the LAN/WAN port and another on the Wireless LAN.) When Should I use AP/Router Mode?

Use this mode in any of these situations:

The Ethernet port is connected to a Broadband modem rather than an Ethernet port. You have permission for ONLY ONE (1) user to connect to the LAN or WAN, but you need to connect multiple users. (In AP/Router mode, the IP address on the Ethernet port is shared by all Wireless clients.) Q. When Shouldn't I use AP/Router Mode?

Ans. You can always use AP/Router mode to establish a wireless connection to the LAN or WAN. However, this mode uses a technology called "NAPT" (Network Address Port Translation), and NAPT may cause problems with some complex multi-user communication applications.

(There is no problem with common services such as HTTP, FTP, E-mail, etc.) If you have problems, you should try getting permission for all users to connect to the LAN/WAN, so you can use AP mode instead. Note:

You can connect to the Wireless 3-in-1 Companion, and change its configuration, while it is AP/Router Mode. The IP address used is the "Wireless LAN" IP address, which can be set on the AP/Router setup screen. The default value is 192.168.0.1 (the same as the Config Mode IP address), but you can change this if you wish. You MUST change the Wireless LAN IP address if the LAN/WAN is using the address range 192.168.0.1 ~ 192.168.0.254. 6 Client Mode Introduction In Client mode, the Wireless 3-in-1 Companion is connected to the Ethernet port of your PC

(or other device), and will connect to a Wireless LAN. This has the effect of converting the Ethernet port to a Wireless interface. Note that in client mode, the Wireless 3-in-1 Companion is transparent; it has no IP address. Q. When Should I use Client Mode?

Ans. Use this mode in any of these situations:

Your PC does not have a wireless interface. The wireless interface on your PC does not support the features you need. You wish to connect to two (2) Wireless networks simultaneously - one via your wireless interface, the other via the Ethernet port and the Wireless 3-in-1 Companion. 7 Chapter 2 Initial Configuration 2 This Chapter covers the initial configuration of the Wireless 3-in-1 Compan-

ion. Requirements Network cable. Use a standard 10/100BaseT network (UTP) cable with RJ45 connectors. TCP/IP protocol must be installed on your PC. To use the Wireless interface, your PC must be compliant with the IEEE802.11b or IEEE802.11g specifications. Procedure 1. Use the mode selector switch on the side on the Wireless 3-in-1 Companion to select

"Config" mode. 2. Power up and wait for the Wireless LED to turn on. This indicates the Wireless 3-in-1 Companion is ready. 3. Establish a Wired or Wireless connection to the Wireless 3-in-1 Companion (a Wired connection is recommended). Wired - connect a standard LAN cable from your PC's 10/100BaseT Ethernet port to the Ethernet port on the Wireless 3-in-1 Companion. Wireless - select the wireless network with the SSID default 4. Start your Web browser. 5. In the "Location" or "Address" bar, enter the following:

config.ap This will work only while in Config mode. In AP mode, you cannot connect. In Router mode, you must connect using the Wireless LAN IP address. This may not work if using a wireless connection and your PC also has an active 10/100BaseT Ethernet connection. 6. By default, the admin password is blank, and you will NOT be prompted for a username and password. If the admin password has been set (on the System screen), you will be prompted for the username and password. Enter admin for the user name. Enter the current password. 7. You will then see the Mode Configuration screen. 8 Installation Figure 1 : Mode Configuration Screen This screen provides access to the 3 main setup screens:

System - settings which are independent of each mode. AP Mode - settings for AP (Access Point) mode. AP/Router Mode - settings for AP/Router mode. Client Mode - settings for Client Mode. 8. Configure the System screen and the modes (AP or AP/Router) you will use. The System screen is described in the following section. AP Mode settings are detailed in Chapter 3. AP/Router Mode settings are described in Chapters 4 and 5. Client Mode settings are detailed in Chapter 6. 9 Wireless 3-in-1 Companion User Guide System Screen Figure 2: System Screen Data - System Configuration Admin Administrator PC MAC Address This is used to identify your PC. If you normally use the same PC, you should provide this information. If your PC has both a 10/100BaseT Ethernet port, and a Wireless interface, then it will have a different MAC address for each. The MAC address is also called the "Physical Address". This address can be determined by checking the Properties for the desired interface, but the provided Set to my PC buttons make this unnec-

essary. Ethernet Port - the MAC address, on your PC, for the 10/100BaseT Ethernet Port. Wireless Interface - the MAC address, on your PC, for the wireless interface. Set to my PC - only 1 of these buttons will work. If you have connected via Wireless, the button for the Wireless Interface will insert your PCs wireless MAC address into the field pro-

vided. If you connected via the wired Ethernet interface, the button for the Ethernet port will insert your PCs Ethernet MAC address into the field provided. 10 Installation If you check this, and provide the MAC address of your PC (see above), then you will not be prompted for the password when you connect using your PC. You should set a password for the admin login, using the pass-

word fields below. This option is provided to allow you to set a password, but avoid the inconvenience of being prompted for the password whenever you wish to change the settings. This login is required to change any settings on the Wireless 3-in-

1 Companion. (By default, the password is blank, so the first time you connect, you are not prompted for the password.) Check this box if you wish to change the current password, and then enter the required password in the fields below. If this check-

box is enabled, and the password fields left blank, then the password is cleared (set to no password. Enter the new password here. Note that if the password is set, you will be prompted for the user name and password when you connect. You must use admin as the user name. Re-enter the new password in this field, to ensure it is correct. The name of the Wireless 3-in-1 Companion. You can change this if you wish. This displays the current version of the firmware. Click the Upgrade Firmware button if you wish to install a new version of the firmware. You need to have downloaded the new firmware file first. Clicking the button will display the Upgrade Firmware screen. See the following section for further details. This feature allows you to download (save) the current settings to a file on your PC, upload (restore) a previously-saved config file. Click the desired button:

Download will prompt you for the location, on your PC, for the configuration file. Upload will display the Config File screen. See below for details. No login Change Admin login New Password Verify Password System Device Name Firmware version Config File 11 Wireless 3-in-1 Companion User Guide Config File Screen This feature allows you to download the current settings from the Wireless 3-in-1 Companion, and save them to a file on your PC. You can restore a previously-downloaded configuration file to the Wireless 3-in-1 Companion, by uploading it to the Wireless 3-in-1 Companion. This screen also allows you to set the Wireless 3-in-1 Companion back to its factory default configuration. Any existing settings will be deleted. An example Config File screen is shown below. Figure 3: Config File Screen Data - Config File Screen Backup Config Use this to download a copy of the current configuration, and store the file on your PC. Click Download to start the download. Restore Config This allows you to restore a previously-saved configuration file back to the Wireless 3-in-1 Companion. Click Browse to select the configuration file, then click Restore to upload the configuration file. WARNING !

Uploading a configuration file will destroy (overwrite) ALL of the existing settings. Default Config Clicking the Restore Defaults button will reset the Wireless 3-in-1 Companion to its factory default settings. WARNING !

This will delete ALL of the existing settings. 12 Installation Upgrade Firmware The firmware (software) in the Wireless 3-in-1 Companion can be upgraded using your Web Browser. You must first download the upgrade file, then select Upgrade on the Administration menu. You will see a screen like the following. Figure 4: Upgrade Firmware 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 "Start Upgrade" button to commence the firmware upgrade. The Wireless 3-in-1 Companion is unavailable during the upgrade process, and must restart when the upgrade is completed. Any connections to or through the Wireless 3-in-1 Companion will be lost. 13 Chapter 3 Setup - AP Mode 3 This Chapter provides Setup details for the AP mode of the Wireless 3-in-1 Companion. Overview You can NOT connect to the Wireless 3-in-1 Companion while it is in AP (Access Point) mode. Configuration for AP mode must be performed while in Config Mode. Note:

By default, the Wireless 3-in-1 Companion will allow both 802.11b and 802.11g connections. Connecting 1. Use the mode selector switch on the side on the Wireless 3-in-1 Companion to select

"Config" mode. 2. Power up and wait for the Wireless LED to turn on. This indicates the Wireless 3-in-1 Companion is ready. 3. Establish a Wired or Wireless connection to the 3-in-1. Wired - connect a standard LAN cable from your PC's 10/100BaseT Ethernet port to the Ethernet port on the Wireless 3-in-1 Companion. Wireless - select the wireless network with the SSID default 4. Start your Web browser. 5. In the "Location" or "Address" bar, enter the following:

config.ap Note: This will work only while in Config mode. 6. If the admin password has been set (on the System screen), you will be prompted for the username and password. Enter admin for the user name. Enter the current password. 7. You will then see the Mode Configuration screen. Click the "Config" button for AP Mode, to view the AP Setup screen. 14 AP Setup Screen This screen is reached by clicking the "Config" button for AP Mode on the Mode Configuration screen. Setup Figure 5: AP Setup Screen Data - AP Setup Screen Wireless Region The regions other than North America can not be set up by the users. SSID Broadcast SSID 802.11 Mode If using an ESS (Extended Service Set, with multiple access points) this ID is called an ESSID (Extended Service Set Identi-

fier). You can change the SSID to your preferred value. AP Mode and AP/Router mode must use different SSIDs. Using the same SSID for both modes would confuse Wireless clients. If Enabled, the SSID will broadcast its name to all Wireless Stations. On your PC, the Wireless 3-in-1 Companion will then be listed as an

"Available Wireless Network", using the SSID above. You can then select this wireless network, and your PC will then adopt this SSID Select the desired mode:

g & b - Both 802.11.g and 802.11b Wireless stations will be able to use the Wireless 3-in-1 Companion. g only - Only 802.11g Wireless stations can use the Wireless 3-

in-1 Companion. Channel No. The channel only can use 1-11 in USA, 1-13 in Eroupe. 15 Wireless 3-in-1 Companion User Guide Security Wireless Security Button Allow trusted stations only Copy AP/Router Mode Settings The current security setting for wireless connections is displayed. The default value is Off, meaning no security. Click this button to access the Wireless security sub-screen, and modify the security settings as required. This feature can be used to prevent unknown Wireless stations from using this Access Point. To use this feature:

Enable this checkbox. Click the Trusted Stations button to open a sub-window contain-

ing the Trusted Wireless Stations screen, where you can enter details of the Trusted Wireless Stations. See the following section for further details. Warning! Ensure your own PC is in the Trusted Stations list before you enable this feature. Clicking this button will copy the Wireless settings, including the Trusted Station list, from the AP/Router screen to this screen. This is only useful if you have already configured the AP/Router Setup screen. The SSID will not be copied. Each mode must use a different SSID. Using the same SSID for different modes would confuse wireless clients. 16 Setup Wireless Security Screen This screen is accessed by clicking the Wireless Security button on the AP Setup screen. The default security setting is Disabled. No configuration is required. Data is not encrypted before transmission. WEP Wireless Security The following image shows the Wireless Security screen when WEP is selected. Figure 6 Wireless Security (AP Mode - WEP) Data - WEP Wireless Security Security System Select the desired option:

Disabled WEP WPA-PSK The screen will change according to the current selection. The settings below are only visible if WEP is selected. Select the desired option. Wireless Stations must use the same setting. 64 Bit (10 Hex chars) - 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 Hex 10 chars. 128 Bit (26 Hex chars) - 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 26 Hex chars. Key Size Authentication Type Default Key Note: Hex chars are 0~9 and A~F. Normally, this should be left at the default value of "Automatic". If changed to "Open System" or "Shared Key", ensure that your Wireless Stations use the same setting. Select the key you wish to be the default. Transmitted data is ALWAYS encrypted using the Default Key; the other Keys are for decryption only. 17 Wireless 3-in-1 Companion User Guide You must enter a Key Value for the Default Key. Other stations must have the same key. Enter the key value or values you wish to use. The Default Key is required, the others are optional. If desired, you can generate a key from a phrase, instead of entering the key value directly. Enter the desired phrase, and click the "Gener-

ate Keys" button. Key Value Passphrase WPA-PSK Wireless Security The following image shows the Wireless Security screen when WPA-PSK is selected. Figure 7: Wireless Security - WPA-PSK Data - WPA-PSK Wireless Security Security System Select the desired option:

Disabled WEP WPA-PSK The screen will change according to the current selection. The set-

tings below are only visible if WPA-PSK is selected. Enter the PSK (Pre-shared Key), sometimes called the network key. Wireless clients must use the same key. Select the desired encryption algorithm. Wireless stations must use the same setting.. PSK WPA Encryption 18 Trusted Wireless Stations Screen This screen is accessed by clicking the Trusted Stations button on the AP Setup screen. Setup Figure 8: Trusted Wireless Stations (AP Mode) 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

<<

>>

Select All Select None 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. 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. 19 Wireless 3-in-1 Companion User Guide 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. Edit Add Clear 20 Chapter 4 Setup - AP/Router Mode This Chapter provides Setup details for the AP/Router mode of the Wireless 3-in-1 Companion. 4 Overview In AP/Router mode, the Wireless 3-in-1 Companion provides the following services:

Wireless Access Point DHCP Server Shared IP address Firewall Protection for Wireless Stations. To configure AP/Router mode, you can connect while in Config mode or in AP/Router mode. To connect in Config mode, use the method described in Initial Configuration. To connect while in AP/Router mode, use the method below Connecting while in AP/Router Mode Ensure that your PC has established a Wireless connection to the Wireless 3-in-1 Companion before commencing this procedure. 1. Start your Web browser. 2. In the "Location" or "Address", enter "HTTP://" and the current IP address for the Wire-

less LAN, as set on the AP/Router screen. The default value is 192.168.0.1:

HTTP://192.168.0.1 3. If the admin password has been set (on the System screen), you will be prompted for the username and password. Enter admin for the user name. Enter the current password. 4. You will then see the Mode Configuration screen. Click the "Configure" button for AP/Router Mode. You will the see the AP/Router Setup Screen. Note:

By default, the Wireless 3-in-1 Companion will allow both 802.11b and 802.11g connections. 21 Wireless 3-in-1 Companion User Guide AP/Router Setup Screen This screen is reached by clicking the "Config" button for AP/Router Mode on the Mode Configuration screen. Figure 9: AP/Router Setup Screen Data - AP/Router Setup Wireless Region The regions other than North America can not be set up by the users. SSID Broadcast SSID If using an ESS (Extended Service Set, with multiple access points) this ID is called an ESSID (Extended Service Set Identi-

fier). You can change the SSID to your preferred value. AP Mode and AP/Router mode must use different SSIDs. Using the same SSID for both modes would confuse Wireless clients. If Enabled, the SSID will broadcast its name to all Wireless Stations. On your PC, the Wireless 3-in-1 Companion will then be listed as an

"Available Wireless Network", using the SSID above. You can then select this wireless network, and your PC will then adopt this SSID 22 Operation and Status 802.11 Mode Select the desired mode:

g & b - Both 802.11.g and 802.11b Wireless stations will be able to use the Wireless 3-in-1 Companion. g only - Only 802.11g Wireless stations can use the Wireless 3-

in-1 Companion. Channel No. The channel only can be use 1-11 in USA, 1-13 in Eroupe. Security Wireless Security Button Allow trusted stations only Copy AP Mode Settings The current security setting for wireless connections is displayed. The default value is Off, meaning no security. Click this button to access the Wireless security sub-screen, and modify the security settings as required. This feature can be used to prevent unknown Wireless stations from using this Access Point. To use this feature:

Enable this checkbox. Click the Trusted Stations button to open a sub-window contain-

ing the Trusted Wireless Stations screen, where you can enter details of the Trusted Wireless Stations. See the following section for further details. Warning! Ensure your own PC is in the Trusted Stations list before you enable this feature. Clicking this button will copy the Wireless settings, including the Trusted Station list, from the AP screen to this screen. This is only useful if you have already configured the AP Setup screen. The SSID will not be copied. Each mode must use a different SSID. Using the same SSID for different modes would confuse wireless clients. Ethernet (WAN) Port IP address The current IP address for the Ethernet port. This will be blank if:

The Wireless 3-in-1 Companion is not in AP/Router mode. The Wireless 3-in-1 Companion is in AP/Router mode, but there is no active connection on the Ethernet (WAN) port. MAC Address Note: In AP/Router mode, the Wireless 3-in-1 Companion has 2 IP addresses, one for the Wireless interface, and another for the Ethernet

(WAN) port. The MAC address, also called the Physical address, is a low-level identifier for ethernet connections. This field displays the MAC address for the Ethernet (WAN) port. 23 Wireless 3-in-1 Companion User Guide Login Method The login method is the type of connection used on the Ethernet

(WAN) port. The default value is "Travel Mode (Hotel)". This mode requires no additional information to be input. To change the Login method, click the Configure button. Connection Status This indicates the current status of the connection on the Ethernet DMZ PC Wireless LAN AP/Router IP Address Subnet Mask Enable DHCP Server for Wireless clients

(WAN) port. This can only show "Connected" if the Wireless 3-in-1 Companion is in AP/Router mode. The DMZ PC will receive all incoming traffic for which the correct destination PC is unknown. This field shows the current DMZ PC. The default value is "None", meaning the DMZ feature is dis-

abled. The IP address of the Wireless 3-in-1 Companion on the Wireless LAN. The default value is 192.168.0.1 If you wish to change any settings while in AP/Router mode, you must connect to the Wireless 3-in-1 Companion using this IP ad-

dress. Normally, it is not necessary to change this IP address. You MUST change this address if the LAN/WAN on the Ethernet (WAN) port is using the same IP address range

(192.168.0.1 ~ 192.168.0.254). The recommended value to change to is 192.168.1.1 Note: In AP/Router mode, the Wireless 3-in-1 Companion has 2 IP addresses, one for the Wireless interface, and another for the Ethernet

(WAN) port. The subnet mask for the IP address above. The default value is 255.255.255.0, which is the standard value for small networks. The DHCP Server will provide an IP address and related information to Wireless clients when they connect to the Wireless 3-in-1 Compan-

ion. The default value is Enabled. It is strongly recommended that this feature be enabled. Do not disable this feature unless you have a good reason to do so. 24 Operation and Status Wireless Security Screen This screen is accessed by clicking the Wireless Security button on the AP/Router Setup screen. The default security setting is Disabled. No configuration is required. Data is not encrypted before transmission. WEP Wireless Security The following image shows the Wireless Security screen when WEP is selected. Figure 10 Wireless Security (AP Mode - WEP) Data - WEP Wireless Security Security System Select the desired option:

Disabled WEP WPA-PSK The screen will change according to the current selection. The settings below are only visible if WEP is selected. Select the desired option. Wireless Stations must use the same setting. 64 Bit (10 Hex chars) - 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 Hex 10 chars. 128 Bit (26 Hex chars) - 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 26 Hex chars. Key Size Authentication Type Default Key Note: Hex chars are 0~9 and A~F. Normally, this should be left at the default value of "Automatic". If changed to "Open System" or "Shared Key", ensure that your Wireless Stations use the same setting. Select the key you wish to be the default. Transmitted data is ALWAYS encrypted using the Default Key; the other Keys are for 25 Wireless 3-in-1 Companion User Guide decryption only. You must enter a Key Value for the Default Key. Other stations must have the same key. Enter the key value or values you wish to use. The Default Key is required, the others are optional. If desired, you can generate a key from a phrase, instead of entering the key value directly. Enter the desired phrase, and click the "Gener-

ate Keys" button. Key Value Passphrase WPA-PSK Wireless Security The following image shows the Wireless Security screen when WPA-PSK is selected. Figure 11: Wireless Security - WPA-PSK Data - WPA-PSK Wireless Security Security System Select the desired option:

Disabled WEP WPA-PSK The screen will change according to the current selection. The set-

tings below are only visible if WPA-PSK is selected. Enter the PSK (Pre-shared Key), sometimes called the network key. Wireless clients must use the same key. Select the desired encryption algorithm. Wireless stations must use the same setting.. PSK WPA Encryption 26 Trusted Wireless Stations Screen This screen is accessed by clicking the Trusted Stations button on the AP/Router Setup screen. Operation and Status Figure 12: Trusted Wireless Stations (AP Mode) 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

<<

>>

Select All Select None 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. 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. 27 Wireless 3-in-1 Companion User Guide Edit Add Clear 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, ready for new input. Ethernet (WAN) Port Configuration By default, the Wireless 3-in-1 Companion will try to obtain an IP address automatically on the Ethernet (WAN) port. If this does not work in the current environment, click the "Configure" button to change the settings for the Ethernet (WAN) Port. Travel Mode Connection The default connection method is "Travel Mode (Hotel)" as shown below. Figure 13: Wan Port Configuration - Travel Mode 28 Operation and Status Data - Ethernet Port (Travel Mode) Connection Type Connection Type The default is "Travel Mode (Hotel)"

See the following section for details of the other options, and the settings associated with each option. IP Address IP Address is assigned automatically Specified IP Address DNS Automatically obtain from Serve Use this DNS MAC Address MAC Address Identification Hostname Also called Dynamic IP Address. This is the default, and the most common. Only change this if advised to do so by the person or organization providing the LAN/WAN port connection. Also called a Static IP Address. If this option is selected, the follow-

ing data must be entered. Network Mask - The subnet mask associated with the IP ad-

IP Address - The IP address on the LAN or WAN. dress above. Gateway IP Address - The address of the router or gateway on the LAN or WAN you are connecting to. The DNS (Domain Name Server) address is normally obtained automatically from the DHCP Server which provides the IP address. Note that if using a fixed IP address, then no Server is used, so this option cannot be used. If this option is selected, you must enter the IP address of the DNS

(Domain Name Server) you wish to use. If using a Specified (Static) IP address, you must select this option. Also called Network Adapter Address or Physical Address. This is a low-level network identifier, as seen from the WAN port. Normally there is no need to change this, but if necessary, you can use the Copy from PC button to copy your PC's address into this field. This is only necessary if the MAC address of your PC has been recorded. You can also use the Default button to insert the default value, or enter a value directly. Note:

To avoid problems regarding the MAC address, you should NOT swap the LAN/WAN connection from your PC to the Wireless 3-in-

1 Companion, or from the Wireless 3-in-1 Companion to your PC. Normally, this field has no effect. If the LAN/WAN administrator asks you to use a particular Host-

name, enter it here. 29 Wireless 3-in-1 Companion User Guide Domain Name Normally, this field has no effect. If the LAN/WAN administrator asks you to use a particular Domain name, enter it here 30 Operation and Status Other Connection Methods Apart from "Travel Mode (Hotel)", the other connection possibilities are:

PPPoE - this is the most common login method for DSL modems. Normally, your ISP will have provided some software to connect and login. If using the Wireless 3-in-1 Com-

panion, this software is not required, and should not be used. PPTP - this is mainly used in Europe. You need to know the PPTP Server address as well as your name and password. L2TP - this is not widely used. You need to know the L2TP Server address as well as your name and password. No Login (Static IP address) - Use this if you have a static (fixed) IP address, and do not need to login to a server to gain access to the LAN or WAN. To determine which method to use, you should ask the administrator of the LAN or WAN to which you are connecting. The following image and table shows all available settings. Figure 14: Ethernet Port Configuration - All Settings 31 Wireless 3-in-1 Companion User Guide Data - Ethernet Port Connection Type Connection Type The available options are:

Travel Mode (Hotel) - This is the default. No data needs to be input. This setting will work in many situations, not just hotels. PPPoE - this is the most common login method for DSL mo-

dems. Normally, your ISP will have provided some software to connect and login. If using the Wireless 3-in-1 Companion, this software is not required, and should not be used. PPTP - this is mainly used in Europe. You need to know the PPTP Server address as well as your name and password. L2TP - this is not widely used. You need to know the PPTP Server address as well as your name and password. No Login (Static IP address) - Use this if you have a static

(fixed) IP address, and do not need to login to a server to gain access to the LAN or WAN. The User Name (or account name) provided by your ISP. Enter the password for the login name above. For PPTP or L2TP, enter the Server address. For other connection methods, this address should be ignored. Select the desired option:

Automatic Connect/Disconnect A connection is automatically made when required, and discon-

nected when idle for the time period specified by the "Auto-

disconnect Idle Time-out". Manual Connect/Disconnect You must manually establish and terminate the connection. Keep alive (maintain connection) The connection will never be disconnected by this device. If disconnected by the Server, the connection will be re-

established immediately. (However, this does not ensure that the Ethernet (WAN) Port IP address will remain unchanged.) This field has no effect unless using the Automatic Con-

nect/Disconnect setting. If using this setting, enter the desired idle time-out period (in minutes). After the connection has been idle for this time period, the connection will be terminated. Also called Dynamic IP Address. This is the default, and the most common. Only change this if advised to do so by the person or organization providing the LAN/WAN port connection. Login User Name Login Password Server Address Connection Behavior Auto-disconnect Idle Time-out IP Address IP Address is assigned automatically 32 Specified IP Address DNS Automatically obtain from Serve Use this DNS MAC Address MAC Address Identification Hostname Domain Name Operation and Status Also called a Static IP Address. If this option is selected, the follow-

ing data must be entered. Network Mask - The subnet mask associated with the IP IP Address - The IP address on the LAN or WAN. address above. Gateway - The IP address of the router or gateway on the LAN or WAN you are connecting to. Note: If using PPPoE, the Network Mask and Gateway are not required; just enter the IP address. The DNS (Domain Name Server) address is normally obtained automatically from the DHCP Server which provides the IP address. Note that if using a fixed IP address, then no Server is used, so this option cannot be used. If this option is selected, you must enter the IP address of the DNS

(Domain Name Server) you wish to use. If using a Static IP address, you must select this option. Also called Network Adapter Address or Physical Address. This is a low-level network identifier, as seen from the WAN port. Normally there is no need to change this, but if necessary, you can use the Copy from PC button to copy your PC's address into this field. This is only necessary if the MAC address of your PC has been recorded. You can also use the Default button to insert the default value, or enter a value directly. Note:

To avoid problems regarding the MAC address, you should NOT swap the LAN/WAN connection from your PC to the Wireless 3-in-

1 Companion, or from the Wireless 3-in-1 Companion to your PC. If using a dynamic IP address, this name is provided to the DHCP Server. Normally, it does not matter what name you use. If the LAN/WAN administrator asks you to use a particular Host-

name, enter it here. Normally, this field has no effect. If the LAN/WAN administrator asks you to use a particular Domain name, enter it here 33 Wireless 3-in-1 Companion User Guide Ethernet (WAN) Port Status To check the status of the Ethernet (WAN) port connection, click the Status button. This will open a sub-window; the screen you will see depends on the connection method currently in use. Fixed/Dynamic IP Address If your access method is Travel Mode or No Login, a screen like the following example will be displayed when the Status button is clicked. Figure 15: Connection Details - Fixed/Dynamic IP Address Data - Fixed/Dynamic IP address Screen Internet Physical Address IP Address Network Mask Default Gateway DNS IP Address DHCP Client The hardware address of this device, as seen by remote devices on the Internet. (This is different to the hardware address seen by devices on the local LAN.) The IP Address of this device, as seen from the Ethernet (WAN) Port interface. If using DHCP, and there is no current connection, this will be blank or 0.0.0.0. The Network Mask associated with the IP Address above. The IP Address of the remote Gateway or Router associated with the IP Address above. The IP Address of the Domain Name Server which is currently used. This indicates whether or not this device is functioning as a DHCP client. If acting as a DHCP client, the IP address above has been allo-

cated by the DHCP Server on the LAN or WAN. If not a DHCP client, the IP address (if shown) is fixed or static. If using DHCP, the Lease Obtained and Remaining lease time fields indicates when the IP Address allocated by the DHCP Server was obtained and when it will expire. The lease is auto-

matically renewed on expiry. 34 Operation and Status Buttons Release/Renew Button will display EITHER

"Release"

OR

"Renew"

This button is only useful if the IP address shown above is allocated automatically on connection. (Dynamic IP address). If you have a Fixed (Static) IP address, this button has no effect. If the ISP's DHCP Server has NOT allocated an IP Address for the Wireless 3-in-1 Companion, this button will say "Renew". Clicking the "Renew" button will attempt to re-establish the connection and obtain an IP Address from the ISP's DHCP Server. If an IP Address has been allocated to the Wireless 3-in-1 Companion (by the ISP's DHCP Server), this button will say

"Release". Clicking the "Release" button will break the connec-

tion and release the IP Address. Refresh Update the data shown on screen. PPPoE If using PPPoE (PPP over Ethernet), a screen like the following example will be displayed when the Status button is clicked. Figure 16: PPPoE Status Screen Data - PPPoE Screen Connection Physical Address IP Address The hardware address of this device, as seen by remote devices on the Internet. (This is different to the hardware address seen by devices on the local LAN.) The IP Address of this device, as seen from the Ethernet (WAN) Port interface. If using DHCP, and there is no current connection, 35 Wireless 3-in-1 Companion User Guide Network Mask PPPoE Link Status Connection Log Connection Log Buttons Connect Disconnect Clear Log Refresh this will be blank or 0.0.0.0. The Network Mask associated with the IP Address above. This indicates whether or not the connection is currently estab-

lished. If the connection does not exist, the Connect button can be used to establish a connection. If the connection currently exists, the Disconnect button can be used to break the connection. The Connection Log shows status messages relating to the existing connection. The most common messages are listed in the table below. The Clear Log button will restart the Log, while the Refresh button will update the messages shown on screen. If not connected, establish a connection to your ISP. If connected to your ISP, hang up the connection. Delete all data currently in the Log. This will make it easier to read new messages. Update the data on screen. Connection Log Messages Message Connect on Demand Manual connection Reset physical connection Connecting to remote server Remote Server located Start PPP PPP up successfully Idle time-out reached Disconnecting Error: Remote Server not found Description Connection attempt has been triggered by the "Connect automatically, as required" setting. Connection attempt started by the "Connect" button. Preparing line for connection attempt. Attempting to connect to the ISP's server. ISP's Server has responded to connection attempt. Attempting to login to ISP's Server and establish a PPP connection. Able to login to ISP's Server and establish a PPP connection. The connection has been idle for the time period specified in the "Idle Time-out" field. The connection will now be termi-

nated. The current connection is being terminated, due to either the

"Idle Time-out" above, or "Disconnect" button being clicked. ISP's Server did not respond. This could be a Server problem, or a problem with the link to the Server. 36 Operation and Status Error: PPP Connection failed Error: Connection to Server lost Error: Invalid or unknown packet type Unable to establish a PPP connection with the ISP's Server. This could be a login problem (name or password) or a Server problem. The existing connection has been lost. This could be caused by a power failure, a link failure, or Server failure. The data received from the ISP's Server could not be proc-

essed. This could be caused by data corruption (from a bad link), or the Server using a protocol which is not supported by this device. PPTP If using PPTP (Peer-to-Peer Tunneling Protocol), a screen like the following example will be displayed when the Status button is clicked. Figure 17: PPTP Status Screen Data - PPTP Screen Connection Physical Address IP Address PPTP Status The hardware address of this device, as seen by remote devices on the Internet. (This is different to the hardware address seen by devices on the local LAN.) The IP Address of this device, as seen from the Ethernet (WAN) Port interface. If using DHCP, and there is no current connection, this will be blank or 0.0.0.0. This indicates whether or not the connection is currently established. If the connection does not exist, the Connect button can be used to establish a connection. 37 Wireless 3-in-1 Companion User Guide Connection Log Connection Log If the connection currently exists, the Disconnect button can be used to break the connection. The Connection Log shows status messages relating to the existing connection. The Clear Log button will restart the Log, while the Refresh button will update the messages shown on screen. Buttons Connect Disconnect Clear Log Refresh If not connected, establish a connection to your ISP. If connected to your ISP, hang up the connection. Delete all data currently in the Log. This will make it easier to read new messages. Update the data on screen. Connection Status - L2TP If using L2TP, a screen like the following example will be displayed when the Status button is clicked. Figure 18: L2TP Status Screen Data - L2TP Screen Connection Physical Address The hardware address of this device, as seen by remote devices on the Internet. (This is different to the hardware address seen by devices on the local LAN.) 38 IP Address The IP Address of this device, as seen from the Ethernet (WAN) Port interface. If using DHCP, and there is no current connection, this will be blank or 0.0.0.0. Operation and Status Connection Status This indicates whether or not the connection is currently established. If the connection does not exist, the Connect button can be used to establish a connection. If the connection currently exists, the Disconnect button can be used to break the connection. Connection Log Connection Log Buttons Connect Disconnect Clear Log Refresh The Connection Log shows status messages relating to the existing connection. The Clear Log button will restart the Log, while the Refresh button will update the messages shown on screen. If not connected, establish a connection to your ISP. If connected to your ISP, hang up the connection. Delete all data currently in the Log. This will make it easier to read new messages. Update the data on screen. 39 Chapter 5 AP/Router Mode

- Advanced Features 5 This Chapter explains when and how to use the Wireless 3-in-1 Companion's

"Advanced" Features in AP/Router mode Overview The following advanced features are provided in AP/Router mode. Advanced Internet Communication Applications DMZ Port Forwarding Dynamic DNS Network Diagnostics Option PC Database Security These features are accessed via the Advanced button on the AP/Router Setup screen. 40 PC Configuration Advanced Internet Screen This screen allows configuration of all advanced features relating to Internet access. Communication Applications DMZ MTU (Maximum Transmission Unit) An example screen is shown below. Figure 19: Internet Screen Communication Applications Most applications are supported transparently by the Wireless 3-in-1 Companion. But some-

times it is not clear which PC should receive an incoming connection. This problem could arise with the Communication Applications listed on this screen. If this problem arises, you can use this screen to set which PC should receive an incoming connection, as described below. Communication Applications Application Send incoming calls .. This lists applications which may generate incoming connec-

tions, where the destination PC (on your local LAN) is unknown. For each application, you can select the PC to which incoming connections may be sent. This lists the PCs on your wireless LAN. For each application listed above, you can choose a destina-

tion PC. If necessary, you can add PCs manually, using the "PC Database" menu option. There is no need to "Save" after each change; you can set the destination PC for each application, then "Save". 41 Wireless 3-in-1 Companion User Guide DMZ Enable DMZ DMZ PC MTU MTU size Use this to enable the DMZ feature as required. The "DMZ" PC will receive all "Unknown" connections and data. This feature is normally used with applications which do not usually work when behind a Firewall. The DMZ PC is effectively outside the Firewall, making it more vulnerable to attacks. For this reason, you should only enable the DMZ feature when required. If Enabled, you must select the PC to be used as the "DMZ"

PC. If the DMZ feature is enabled, you must select a PC. If the PC uses a fixed IP address, and is not in the list, you can add it using the "PC Database" menu option. MTU (Maximum Transmission Unit) determines the size of network packets. This value should only be changed if advised to do so by Technical Support. Enter a value between 1 and 1500. This device will still auto-negotiate with the remote server, to set the MTU size. The smaller of the 2 values (auto-

negotiated, or entered here) will be used. For direct connections (not PPPoE or PPTP), the MTU used is always 1500. 42 PC Configuration Port Forwarding This feature, sometimes called Virtual Servers, allows you to make Servers on your LAN accessible to Internet users. Normally, Internet users would not be able to access a server on your LAN because:

Your Server does not have a valid external IP Address. Attempts to connect to devices on your LAN are blocked by the firewall in this device. The "Port Forwarding" feature solves these problems and allows Internet users to connect to your servers, as illustrated below. Figure 20: Port Forwarding IP Address seen by Internet Users Note that, in this illustration, both Internet users are connecting to the same IP Address, but using different protocols. To Internet users, all virtual Servers on your LAN have the same IP Address. This IP Address is allocated by your ISP. This address should be static, rather than dynamic, to make it easier for Internet users to connect to your Servers. However, you can use the DDNS (Dynamic DNS) feature to allow users to connect to your Port Forwarding using a URL, instead of an IP Address. 43 Wireless 3-in-1 Companion User Guide Port Forwarding Screen The Port Forwarding screen is reached by the Port Forwarding link. An example screen is shown below. Figure 21: Port Forwarding Screen This screen lists a number of pre-defined Servers, and allows you to define your own Servers. Details of the selected Server are shown in the "Properties" area. Data - Port Forwarding Screen Service Service This lists a number of pre-defined Services, plus any Services you have defined. Details of the selected Service are shown in the

"Properties" area.. Properties Enable PC (Server) Protocol Internal Ports External Ports Use this to Enable/Disable Port Forwarding for this Service, as required. Select the PC to be used as the Server for this Service. The PC must be running the appropriate Server software. Select the protocol (TCP, UDP or TCP/UDP) used by the Service. Enter the range of port numbers which the Server software is configured to use. Traffic from the Internet using this range of port numbers will be sent to the selected Server. These ports are normally the same as the Internal Port Numbers. If they are different, this device will perform a "mapping" or "translation" function, allowing the server to use a different port range to the clients. Using this feature allows the server to distinguish traffic from the WAN from traffic on the local LAN by using the port number, rather than having to check IP addresses. 44 PC Configuration Buttons Defaults Disable All Update Selected Server Add as new Server Delete Clear Form This will delete any Servers you have defined, and set the pre-

defined Servers to use their default port numbers. This will cause the "Enable" setting of all entries to be set OFF. Update the current entry, using the data shown in the "Properties"

area on screen. Add a new entry to the list, using the data shown in the "Properties"

area on screen. The entry selected in the list is ignored, and has no effect. Delete the current Server entry. Note that the pre-defined Servers can not be deleted. Only Servers you have defined yourself can be deleted. Clear all data from the "Properties" area, ready for input of a new entry. For each entry, the PC must be running the appropriate Server software. Defining your own Servers If the type of Server you wish to use is not listed on the Port Forwarding screen, you can define and manage your own Servers:

Create a new Server:

Modify (Edit) a Server:

1. Click "Clear Form"

2. Enter the required data, as described above. 3. Click "Add". 4. The new Server will now appear in the list. 1. Select the desired Server from the list 2. Make any desired changes (for example, change the Enable/Disable setting). 3. Click "Update" to save changes to the selected Server. Delete a Server:

1. Select the entry from the list. 2. Click "Delete". Note: You can only delete Servers you have defined. Pre-

defined Server cannot be deleted. From the WAN or Internet, ALL Port Forwarding have the same IP Address - the IP address assigned to the WAN port. 45 Wireless 3-in-1 Companion User Guide Connecting to your Servers Once configured, anyone on the WAN or Internet can connect to your Servers. They must use the WAN (Internet) IP Address:

e.g. http://203.70.212.52 ftp://203.70.212.52 It is more convenient if you are using a Fixed IP Address, rather than Dynamic. However, you can use the Dynamic DNS feature, described in the following section, to allow users to connect to your Port Forwarding using a URL, rather than an IP Address. 46 PC Configuration Dynamic DNS (Domain Name Server) This free service is very useful when combined with the Port Forwarding feature. It allows Internet users to connect to your servers using a URL, rather than an IP Address. This also solves the problem of having a dynamic IP address. With a dynamic IP address, your IP address may change whenever you connect, which makes it difficult to connect to you. The Service works as follows:

1. You must register for the service at one of the listed DDNS Service Providers. 2. After registration, follow the service provider's procedure to request a Domain Name and have it allocated to you. 3. Enter your DDNS data on the Wireless 3-in-1 Companion's DDNS screen. 4. The Wireless 3-in-1 Companion will then automatically ensure that your current IP Address is recorded at the DDNS server. If the DDNS Service provides software to perform this "IP address update"; you should disable the "Update" function, or not use the software at all. 5. From the Internet, users will be able to connect to your servers (or DMZ PC) using your Domain Name. Dynamic DNS Screen Select DDNS to see a screen like the following:

Figure 22: DDNS Screen Data - Dynamic DNS Screen DDNS Service DDNS Service Select the desired DDNS Service Provider from the list. You must register for the service at one of the listed Service Provid-

ers. You can reach the Service provider's Web Site by selecting them in the list and clicking the "Web Site" button. Apply for a Domain Name, and ensure it is allocated to you. Details of your DDNS account (Name, password, Domain name) must then be entered and saved on this screen. This device will then automatically ensure that your current IP 47 Wireless 3-in-1 Companion User Guide Address is recorded by the DDNS Service Provider. (You do NOT need to use the "Client" program provided by some DDNS Service providers.) From the Internet, users will now be able to connect to your Servers (as defined by your Port Forwarding setup) or DMZ PC using your Domain name. Click this button to open another browser window and connect to the Web site of the selected DDNS service provider. This message is returned by the DDNS Server Normally, this message should be "Update successful"

If the message is "No host" or some other error message, you need to connect to the DDNS Service provider and correct the problem. Enter your Username for the DDNS Service. Enter your current password for the DDNS Service. Enter the domain name allocated to you by the DDNS Service. If you have more than one name, enter the name you wish to use. Web Site Button DDNS Status DDNS Data User Name Password/Key Domain Name 48 PC Configuration Network Diagnostics This screen allows you to perform a "Ping" or a "DNS lookup". These activities can be useful in solving network problems. An example Network Diagnostics screen is shown below. Figure 23: Network Diagnostics Screen Data - Network Diagnostics Screen Ping Ping this IP Address Ping Button DNS Lookup Domain name/URL DNS Lookup Button Enter the IP address you wish to ping. The IP address can be on your LAN, or on the Internet. Note that if the address is on the Internet, and no connection currently exists, you could get a "Timeout" error. In that case, wait a few seconds and try again. After entering the IP address, click this button to start the "Ping"

procedure. The results will be displayed in the Ping Results pane. Enter the Domain name or URL for which you want a DNS (Domain Name Server) lookup. Note that if the address in on the Internet, and no connection currently exists, you could get a "Timeout" error. In that case, wait a few seconds and try again. After entering the Domain name/URL, click this button to start the

"DNS Lookup" procedure. The results will be displayed in the DNS Lookup Results pane. 49 Wireless 3-in-1 Companion User Guide Options This screen allows advanced users to enter or change a number of settings. For normal opera-

tion, there is no need to use this screen or change any settings. An example Options screen is shown below. Figure 24: Options Screen Data - Options Screen Backup DNS IP Address UPnP Enable UPnP Services Enter the IP Address of the DNS (Domain Name Servers) here. These DNS will be used only if the primary DNS is unavailable. UPnP (Universal Plug and Play) allows automatic discovery and configuration of equipment attached to your LAN. UPnP is by supported by Windows ME, XP, or later. If Enabled, this device will be visible via UPnP. If Disabled, this device will not be visible via UPnP. 50 PC Configuration PC Database The PC Database is used whenever you need to select a PC (e.g. for the "DMZ" PC). It elimi-

nates the need to enter IP addresses. Also, you do not need to use fixed IP addresses on your Wireless LAN. PC Database Screen An example PC Database screen is shown below. Figure 25: PC Database PCs which are "DHCP Clients" are automatically added to the database, and updated as required. By default, non-Server versions of Windows act as "DHCP Clients"; this setting is called

"Obtain an IP Address automatically". The Wireless 3-in-1 Companion uses the "Hardware Address" to identify each PC, not the name or IP address. The "Hardware Address" can only change if you change the PC's network card or adapter. This system means you do NOT need to use Fixed (static) IP addresses on your LAN. However, you can add PCs using Fixed (static) IP Addresses to the PC database if re-

quired. 51 Wireless 3-in-1 Companion User Guide Data - PC Database Screen Known PCs Name IP Address Buttons Add Delete Refresh Advanced This lists all current entries. Data displayed is name (IP Address) type. The "type" indicates whether the PC is connected to the LAN. If adding a new PC to the list, enter its name here. It is best if this matches the PC's "hostname". Enter the IP Address of the PC. The PC will be sent a "ping" to deter-

mine its hardware address. If the PC is not available (not connected, or not powered On) you will not be able to add it. This will add the new PC to the list. The PC will be sent a "ping" to determine its hardware address. If the PC is not available (not con-

nected, or not powered On) you will not be able to add it. Delete the selected PC from the list. This should be done in 2 situa-

tions:

The PC has been removed from your LAN. The entry is incorrect. Update the data on screen. View the Advanced version of the PC database screen, which provides some additional options. See below for details. 52 Advanced PC Database This screen is displayed if the Advanced button on the PC Database is clicked. It provides more control than the standard PC Database screen. PC Configuration Figure 26: Advanced PC Database Data - Advanced PC Database Known PCs This lists all current entries. Data displayed is name (IP Address) type. The "type" indicates whether the PC is connected to the LAN. Edit Delete PC Properties Name Use this to change the data for the selected PC in the list. The data for the selected PC will then be shown in the "Properties" area, where it may be edited. (Click "Update" to save any changes.) Use this to Delete the selected PC from the list. This should be done in 2 situations:

The PC has been removed from your LAN. The entry is incorrect. If adding a new PC to the list, enter its name here. It is best if this matches the PC's "hostname". 53 Wireless 3-in-1 Companion User Guide IP Address MAC Address Buttons Add as New Entry Select the appropriate option:

Automatic - The PC is set to be a DHCP client (Windows: "Ob-

tain an IP address automatically"). The Wireless 3-in-1 Companion will allocate an IP address to this PC when requested to do so. The IP address could change, but normally won't. DCHP Client - Reserved IP Address - Select this if the PC is set to be a DCHP client, and you wish to guarantee that the Wireless 3-in-1 Companion will always allocate the same IP Address to this PC. Enter the required IP address. Only the last field is required; the other fields must match the Wireless 3-in-1 Companion's IP ad-

dress. Fixed IP Address - Select this if the PC is using a Fixed (Static) IP address. Enter the IP address allocated to the PC. (The PC must be configured to use this IP address.) Select the appropriate option Automatic discovery - Select this to have the Wireless 3-in-1 Companion contact the PC and find its MAC address. This is only possible if the PC is connected to the LAN and powered On. MAC address is - Enter the MAC address on the PC. The MAC address is also called the "Hardware Address", "Physical Ad-

dress", or "Network Adapter Address". The Wireless 3-in-1 Companion uses this to provide a unique identifier for each PC. Because of this, the MAC address can NOT be left blank. Add a new PC to the list, using the data in the "Properties" box. If "Automatic discovery" (for MAC address) is selected, the PC will be sent a "ping" to determine its hardware address. This will fail unless the PC is connected to the LAN, and powered on. Update Selected PC Update (modify) the selected PC, using the data in the "Properties"

box. Clear Form Clear the "Properties" box, ready for entering data for a new PC. Refresh Update the data on screen. Standard Screen Click this to view the standard PC Database screen. 54 Security This screen allows you to set Firewall and other security-related options. PC Configuration Figure 27: Security Screen Data - Security Screen Firewall Enable DoS Firewall Threshold Options Respond to ICMP If enabled, DoS (Denial of Service) attacks will be detected and blocked. The default is enabled. It is strongly recommended that this setting be left enabled. Note:

A DoS attack does not attempt to steal data or damage your PCs, but overloads your Internet connection so you can not use it - the service is unavailable. This device uses "Stateful Inspection" technology. This system can detect situations where individual TCP/IP packets are valid, but collectively they become a DoS attack. This setting affects the number of "half-open" connections allowed. A "half-open" connection arises when a remote client contacts the Server with a connection request, but then does not reply to the Server's response. While the optimum number of "half-open" connections allowed

(the "Threshold") depends on many factors, the most important factor is the available bandwidth of your Internet connection. Select the setting to match the bandwidth of your Internet connec-

tion. The ICMP protocol is used by the "ping" and "traceroute" programs, and by network monitoring and diagnostic programs. If checked, the Wireless 3-in-1 Companion will respond to ICMP packets received via the WAN port. If not checked, ICMP packets from the WAN port will be ignored. Disabling this option provides a slight increase in security. 55 Wireless 3-in-1 Companion User Guide Allow IPsec Allow PPTP Allow L2TP The IPSec protocol is used to establish a secure connection, and is widely used by VPN (Virtual Private Networking) programs. If checked, IPSec connections from the Wireless LAN are al-

lowed. If not checked, IPSec connections are blocked. PPTP (Point to Point Tunneling Protocol) is widely used by VPN

(Virtual Private Networking) programs. If checked, PPTP connections from the Wireless LAN are al-

lowed. If not checked, PPTP connections are blocked. L2TP is a protocol developed by Cisco for VPNs (Virtual Private Networks). If checked, L2TP connections from the Wireless LAN are al-

lowed. If not checked, L2TP connections are blocked. 56 Chapter 6 Setup - Client Mode This Chapter details configuration for Client Mode. Overview 6 You can NOT connect to the Wireless 3-in-1 Companion while it is in Client mode. Configu-

ration for Client mode must be performed while in Config Mode. Connecting 1. Use the mode selector switch on the side on the Wireless 3-in-1 Companion to select

"Config" mode. 2. Power up and wait for the Wireless LED to turn on. This indicates the Wireless 3-in-1 Companion is ready. 3. Establish a Wired or Wireless connection to the 3-in-1. Wired - connect a standard LAN cable from your PC's 10/100BaseT Ethernet port to the Ethernet port on the Wireless 3-in-1 Companion. Wireless - select the wireless network with the SSID default 4. Start your Web browser. 5. In the "Location" or "Address" bar, enter the following:

config.ap Note: This will work only while in Config mode. 6. If the admin password has been set (on the System screen), you will be prompted for the username and password. Enter admin for the user name. Enter the current password. 7. You will then see the Mode Configuration screen. Click the "Config" button for Client Mode, to view the Client Setup screen. 57 Wireless 3-in-1 Companion User Guide Client Mode Setup The screen for Client Mode is reached by clicking the "Config" button for Client Mode on the Mode Configuration screen. In client mode, you can create a Profile for each Wireless network you use regularly. A "Profile" contains all settings for the Wireless network, including the security settings. Only one (1) Profile can be enabled at any time. If the Wireless network defined by the currently-enabled profile is not available, then no wireless connection will be made. Client Mode Setup Screen Figure 28: Client Mode Setup Screen Data - Client Mode Setup Screen Wireless Profiles All available profiles are listed. For each profile, the following data is displayed:

*

If a * is displayed before the name of the profile, this indicates the profile is the current profile (it is enabled). Profile Name The current profile name is displayed.

[SSID]

The current SSID associated with this profile. Type The network type - Auto, Ad Hoc, or Infrastructure. Security The current security system (e.g. WEP ) is displayed. 58 PC Configuration Buttons Set as Current - Make the selected profile the current profile. The selected profile will be enabled, and all other profiles wil be disabled. Add - Create a new Profile. This will display the Edit - Change the settings for the selected profile. Delete - Delete the selected profile. Wireless Client Profile Screen This screen is displayed when the Add or Edit button on the Client Mode Setup screen is clicked. Figure 29: Wireless Client Profile Data - Wireless Client Profile General Profile Name Network Type Enter a suitable name for this profile. Each profile must have a unique name. Select the desired option:

Auto - this device will attempt to join a Wireless network with the same SSID, regardless of whether the network is using Infra-

structure mode or Ad hoc mode. Ad Hoc - only an Ad Hoc network will be used; Infrastructure networks will be ignored. Infrastructure - only an Infrastructure network will be used; Ad hoc networks will be ignored. 59 Wireless 3-in-1 Companion User Guide SSID 802.11 mode Channel No. Security Security Enter the SSID of the wireless network you wish to join. If Infrastructure mode, this may be left blank; this device will then join any wireless network it can. This is only possible if the Access Point is broadcasting its SSID, and the security settings for this profile match the security set-

tings on the Access Point. If more than one Access Point is available with this profile, the one with the strongest signal will be used. Select the desired option:

Auto - This station will auto-select the correct mode to allow communication. 802.11b - Only a 802.11b connection will be used. 802.11g - Only a 802.11g connection will be used. This field determines which operating frequency will be used. If the network type is "Auto" or "Infrastructure", only the "Auto"

channel selection is available, because this station must use the Channel used by the Wireless network it is joining. For Ad-hoc mode, you can set the Channel to use. But to join an existing Wireless network, this station must adopt the Channel al-

ready in use, so this setting is only meaningful when creating a new Wireless network. Select the desired option, and then enter the settings for the selected method:

Disabled - No security is used. Data is not encrypted before transmission. WEP The 802.11b standard. Data is encrypted before transmission. You have 2 options:

WEP 64 Bit - this uses 64 bit encryption. You must enter the WEP key (10 Hex characters). WEP 128 Bit - this uses 128 bit encryption. You must enter the WEP key (26 Hex characters). WPA-PSK Like WEP, data is encrypted before transmission. WPA-PSK is a later standard than WEP, and provides better security. If all your Wireless stations support WPA-PSK, you should use this rather than WEP. Note: WPA-PSK is only available in Infrastructure mode. 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. WEP Authentication 60 WEP Key WEP Key Index Passphrase WPA - PSK PSK WPA Encryption PC Configuration Enter the key value you wish to use. Other stations must have the same key value. In "Infrastructure" mode, this key must match the "Default Key"

value on the Access Point. Keys must be entered in Hex. Hex characters are the digits ( 0 ~

9 ) and the letters A ~ F. This is only useful in Infrastructure mode. It is possible for an Access Point to have more than one (1) key, but only one can be the "default key". This index must be set to match the "default key" index on the Access Point. Normally, this is one (1). Use this to generate a Hex key from an ASCII string. Enter a word or group of printable (ASCII) characters in the Passphrase box and click the "Generate" button to generate the WEP Key. Enter the PSK (Pre-shared Key), sometimes the network key, used on the Access Point. This must match the Encryption method used on the Access Point. 61 Chapter 7 Operation and Usage 7 This Chapter details the operation of the Wireless 3-in-1 Companion and the status screens. Overview The mode can be changed ONLY by using the Mode switch on the side of the Wireless 3-in-1 Companion. This switch has 4 positions:

1. AP Mode 2. AP/Router Mode 3. Config Mode 4. Reserved Set Chapter 1 for details about each mode, and some tips on which mode to use in different environments. Changing Modes While you can change modes at any time, please pay attention to the following points:

Whenever the mode is changed, the Wireless 3-in-1 Companion will restart. You need to wait for the restart to be completed, which will take a few seconds. When the restart is completed, the Wireless LED will be ON. After changing modes, any Wireless connections will be lost. On your PC, you need to select the SSID (Wireless LAN) for the new mode in order to re-establish a Wireless con-

nection to the Wireless 3-in-1 Companion. Using AP Mode 1. Use a standard LAN cable to connect the Ethernet port on the Wireless 3-in-1 Companion to the desired LAN. 2. Use the mode selector switch on the side on the Wireless 3-in-1 Companion to select "AP"

mode. 3. Wait for the restart to be completed, and the Wireless LED to come On. 4. On your PC, select the wireless LAN matching the SSID of the Wireless 3-in-1 Compan-

ion in AP mode. The default SSID for AP mode is default_AP If necessary, configure your PC's wireless interface to match the settings of the Wireless 3-in-1 Companion's AP mode. 5. 6. You should then be able to connect to the LAN via the Wireless 3-in-1 Companion. You can check the status of your PC's wireless interface to see that your PC has ob-

tained an IP address. This IP address must come from a server on the LAN; the Wireless 3-in-1 Companion itself is transparent. 62 Advanced Administration If the Ethernet port is not connected to a functional LAN, then your PC will "self-assign" an IP address. Using AP/Router Mode 1. Use a standard LAN cable to connect the Ethernet port to the desired LAN or WAN. Note:

To avoid potential problems, you should NOT change the LAN/WAN connection from the Wireless 3-in-1 Companion to your PC, or vice versa. Doing so may cause the connection to fail. 2. Use the mode selector switch on the side on the Wireless 3-in-1 Companion to select

"AP/Router" mode. 3. Wait for the restart to be completed, and the Wireless LED to turn On. 4. On your PC, select the wireless LAN matching the SSID of the Wireless 3-in-1 Compan-

ion in AP/Router mode. The default SSID for AP/Router mode is default_Router If necessary, configure your PC's wireless interface to match the settings of the Wire-

less 3-in-1 Companion's AP/Router mode. You can check the status of your PC's wireless interface to see that your PC has ob-

tained an IP address. If it has, then the Wireless connection to the Wireless 3-in-1 Companion is working correctly. 5. You should now be able to access the LAN or WAN. If you can't, you can connect to the Wireless 3-in-1 Companion (while still in AP/Router mode) to check its status and configuration. Connecting in AP/Router Mode 1. Start your Web browser 2. HTTP://192.168.0.1 In the "Location" or "Address", enter "HTTP://" and the current IP address for the Wire-

less LAN, as set on the AP/Router screen. The default value is 192.168.0.1:

3. If the password has been set (by default, it is blank), you will be prompted for the user-

name and password. Enter admin for the user name. Enter the current password. 4. You will then see the Mode Configuration screen. Click the "Configure" button for AP/Router Mode. You will see a screen like the following. 63 Wireless 3-in-1 Companion User Guide Figure 30: AP/Router Setup (Annotated) 5. Check the Ethernet (WAN) port status and settings. If the Wireless 3-in-1 Companion has not obtained a valid IP address, click the "Con-

figure" button and change the settings as required. Check with the LAN administrator if necessary, to determine the correct settings. If the LAN/WAN is using the same IP address range as the Wireless LAN, you need to change the Wireless LAN AP/Router IP address to use a different address range. If the connection is working, but some applications do not function correctly, you may need to change some "Advanced" settings. See Chapter 5 for details of the "Ad-

vanced" settings. 64 Advanced Administration Using Client Mode In client mode, the Wireless 3-in-1 Companion's Ethernet port must be connected to your PC's Ethernet port. Before using client mode, ensure that the Client Mode configuration is correct. Configuration must be performed in Config mode. Admin connections are not possible while in Client mode. See Chapter 6 for details of Client mode setup. If the configuration is correct, the procedure for using client mode is as follows:

1. Use a standard LAN cable to connect the Ethernet port on the Wireless 3-in-1 Companion to your PC. 2. Use the mode selector switch on the side on the Wireless 3-in-1 Companion to select

"Client" mode. 3. Wait for the restart to be completed, and the Wireless LED to come On. 4. The Wireless 3-in-1 Companion will then connect, if possible, to the Wireless LAN specified by the current Client Profile. You cannot connect to the Wireless 3-in-1 Companion while in Client Mode. You must specify the desired Wireless LAN using Config mode. In Client Mode, the Wireless 3-in-1 Companion is transparent; it does not have an IP address. 5. You can check the "Properties" of your PC's Ethernet connection to see if it has obtained a valid IP address:

If using Infrastructure mode (connecting to an Access Point), the IP address must be a valid IP address on the LAN to which the Access Point is connected. If using Ad-hoc mode, the IP address should be self-assigned ("Auto-configuration"). If other PCs in the Ad-hoc Wireless LAN behave the same way, everyone will have compatible IP addresses. 65 Appendix A Troubleshooting A This Appendix covers the most likely problems and their solutions. Overview This chapter covers some common problems that may be encountered while using the Wireless 3-in-1 Companion and some possible solutions to them. If you follow the suggested steps and the Wireless 3-in-1 Companion still does not function properly, contact your dealer for further advice. General Problems Problem 1:

Solution 1:

Can't connect to the Wireless 3-in-1 Companion to configure it. Try using the wired Ethernet connection and the Wireless 3-in-1 Compan-

ion's IP address. 1. Connect a LAN cable from the Wireless 3-in-1 Companion to the Ethernet port on your PC. 2. Set the Wireless 3-in-1 Companion to "Config" mode. 3. Restart the Wireless 3-in-1 Companion. 4. Restart your PC. (Or, if you know how to do so, you could perform a

"Release" and "Renew" of the IP address on the Ethernet port.) 5. Start your Web browser. 6. Enter the Address as: HTTP://192.168.0.1 Wireless Access - AP or AP/Router Mode Problem 1: My PC can't locate the Wireless Access Point. Solution 1:

Check the "Broadcast SSID" setting. Has it been disabled? If it has, the AP will not be listed in "Available Wireless Networks", and you will have to configure your PC manually. If using manual configuration, en-

sure the mode is Infrastructure and not Ad-hoc. To see if radio interference is causing a problem, see if connection is possible when close to the Wireless 3-in-1 Companion. Remember that the connection range can be as little as 50 feet in poor environments. Problem 2: On my PC, I can locate the Wireless 3-in-1 Companion, but I can't Solution 2:

establish a connection. The SSID on your PC and the Wireless Access Point must be the same. Remember that the SSID is case-sensitive. So, for example "Work-

group" does NOT match "workgroup". Both your PC and the Wireless 3-in-1 Companion must have the same settings for Wireless security. The default setting for the Wireless 3-in-

66 Appendix A - Troubleshooting 1 Companion is disabled, so your wireless station should also have Wireless security disabled. If Wireless security is enabled on the Wireless 3-in-1 Companion, Wireless stations must use the same settings as the Wireless 3-in-1 Companion. If the Wireless 3-in-1 Companion is set to Allow Trusted Stations only, then each of your Wireless stations must be in the Trusted Wireless Sta-

tions list, or access will be blocked. Problem 3: Wireless connection speed is very slow. Solution 3:

The wireless system will connect at the highest possible speed, depending on the distance and the environment. To obtain the highest possible connec-

tion speed, you can experiment with the following:

Wireless 3-in-1 Companion location. Try adjusting the location and orientation of the Wireless 3-in-1 Com-

panion. Wireless Channel If interference is the problem, changing to another channel may show a marked improvement. Radio Interference Other devices may be causing interference. You can experiment by switching other devices Off, and see if this helps. Any "noisy" devices should be shielded or relocated. RF Shielding Your environment may tend to block transmission between the wireless stations. This will mean high access speed is only possible when close to the Wireless 3-in-1 Companion. 67 Wireless 3-in-1 Companion User Guide Router Mode Problem 1: When I enter a URL or IP address I get a time out error. Solution 1:

A number of things could be causing this. Try the following troubleshooting steps. Check if other PCs work. If they do, ensure that your PCs IP settings are correct. If using a Fixed (Static) IP Address, check the Network Mask, Default gateway and DNS as well as the IP Address. If the PCs are configured correctly, but still not working, check the Wireless 3-in-1 Companion. Ensure that it is connected and ON. Con-

nect to it and check its settings. (If you can't connect to it, check the LAN and power connections.) If the Wireless 3-in-1 Companion is configured correctly, check your Internet connection (DSL/Cable modem etc) to see that it is working correctly. Problem 2:

Solution 2:

Some applications do not run properly when using the Wireless 3-in-1 Companion. The Wireless 3-in-1 Companion processes the data passing through it, so it is not transparent. Use the Special Applications feature to allow the use of Internet applications which do not function correctly. If this does solve the problem you can use the DMZ function. This should work with almost every application, but:

Only one (1) PC can use this feature. It is a security risk, since the firewall is disabled. 68 Appendix B About Wireless LANs B This Appendix provides some background information about using Wireless LANs (WLANs). 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. BSS/ESS BSS 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 communicate with each other. ESS A group of Wireless Stations, and multiple Access Points, all using the same ID (ESSID), form an Extended Service Set (ESS). Different Access Points within an ESS can use different Channels. In fact, to reduce interfer-

ence, 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 performance. This capability is called Roaming. (Access Points do not have or require Roaming capabili-

ties.) 69 Wireless 3-in-1 Companion User Guide 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. In the USA and Canada, 11 channel are available. If using multiple Access Points, it is better if adja-

cent Access Points use different Channels to reduce interference. 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 Access Point must have the same settings for each of the following:

WEP Key WEP Authentication Off, 64 Bit, 128 Bit For 64 Bit encryption, the Key value must match. For 128 Bit encryption, the Key value must match Open System or Shared Key. Wireless LAN Configuration To allow Wireless Stations to use the Access Point, the Wireless Stations and the Access Point must use the same settings, as follows:

Mode On client Wireless Stations, the mode must be set to "Infrastructure".

(The Access Point is always in "Infrastructure" mode.) SSID (ESSID) Wireless Stations should use the same SSID (ESSID) as the Access Point they wish to connect to. Alternatively, the SSID can be set to "any"

or null (blank) to allow connection to any Access Point. The Wireless Stations and the Access Point must use the same settings for WEP (Off, 64 Bit, 128 Bit). WEP Key: If WEP is enabled, the Key must be the same on the Wire-

less Stations and the Access Point. WEP Authentication: If WEP is enabled, all Wireless Stations must use the same setting as the Access Point (either "Open System" or

"Shared Key"). WEP 70 C Appendix C Specifications Multi-Function Wireless 3-in-1 Companion Model Dimensions Wireless 3-in-1 Companion 70 mm (W) * 105 mm(D) * 22 mm (H) Operating Temperature 0 C to 40 C Storage Temperature

-10 C to 70 C Network Protocol:

TCP/IP Network Interface:

1 * 10/100BaseT Ethernet 1 * Wireless Interface LEDs 3 Power Adapter 5 V DC External Wireless Interface Standards Frequency Channels Modulation Data Rate Coverage Area Security Output Power Receiver Sensitivity IEEE802.11g WLAN, JEIDA 4.2, roaming support 2.4 to 2.4835GHz (Industrial Scientific Medical Band ) Maximum 14 Channels, depending on regulatory authorities DSSS BPSK/QPSK/CCK, OFDM/CCK Up to 54 Mbps Indoors : 10m @54Mbps, 80m @6Mbps or lower Outdoors : 30m @54Mbps, 200m @6Mbps or lower WEP 64Bit, WEP 128Bit, WPA-PSK 14 dBm +-2(typical)

-80 dBm Min. 71 Wireless 3-in-1 Companion User Guide Regulatory Approvals CE Standards This product complies with the 99/5/EEC directives, including the following safety and EMC standards:

EN300328-2 EN301489-1/-17 EN60950 CE Marking Warning This is a Class B product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures. 72

 

 

 

 

 

 

 

 

 

 

Model No.:

S erial No.:

IP802SM V2 3 in 1 AP 2A S erver Name:

Input: 5VDC 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. SerComm Polarity:

Tested to Comply With FCC Standards FOR HOME OR OFFICE USE FCC ID: P27IP802SMV2 1317 M a de in Ta iwa n 56.5mm SCA L E 1:1 m m 7 3 1.#50PO37. 2.. 3.. 4.. 5. 0.2mm

/5VDC-2A/

9320P60001

 

 

American Telecommunications Certification Body Inc. 6731 Whittier Ave, McLean, VA 22101 April 6, 2005 RE:

FCC ID:

SerComm Corp P27IP802SMV2 I have a few comments on this Application. Depending on your responses, kindly understand there may be additional comments. 1.) Kindly review the Owners Manual. The AP setup screen appears to indicate that regions other than North America can be set up by the end user. This is not permitted. Kindly review this document with your client and insure that no channels other than 1-11 can be set up for USA market. 2.) Please submit a Confidentiality Request letter for this device. 3.) The Operational Description appears to indicate this device is capable of RF Pout up to 100mW (+20dBm). How will the specified power of 40mW as requested on Form 731 be maintained for all devices manufactured?

4.) The test setup diagrams appear to indicate that the EUT was placed into a test mode under command of a remote workstation (notebook). If so, then I expect that the send/receive functionality would tend to skew the measurement results, especially for RF power and all average measurements if no CW mode was available. How was this accounted for in your measurements, especially when average values for comparison to the limits are expected?

FYI: You may be able to satisfy this requirement with a more substantial description of the test software and its various operating modes. 5.) When performing restricted band emission measurements, please provide information on carrier radiated fundamental emissions using a 1MHz RBW /1MHz VBW. This data is valuable to assure the EUT was properly peaked for radiated measurements. William H. Graff President and Director of Engineering mailto: whgraff@AmericanTCB.com The items indicated above must be submitted before processing can continue on the above referenced application. Failure to provide the requested information may result in application termination. Correspondence should be considered part of the permanent submission and may be viewed from the Internet after a Grant of Equipment Authorization is issued. Please do not respond to this correspondence using the email reply button. In order for your response to be processed expeditiously, you must submit your documents through the AmericanTCB.com website. Also, please note that partial responses increase processing time and should not be submitted. Any questions about the content of this correspondence should be directed to the sender.

 

 

Conduction Test Mode 1 Test Setup Photos Test Mode 2

 

 

.1.1 | SerComm Corp. Embedded Server Provider 8F, No.3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. TEL: 886-2-2655-3988 FAX: 886-2-2655-3966 http://www.sercomm.com E-mail: sales@sercomm.com All trademarks are the property of their respective owners Specifications are subject to change without notice SerComm Corp. 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C March 18, 2005 Federal Communications Commission Authorization and Evaluation Division FCC ID : P27IP802SMV2 Confidentiality Request Pursuant to Sections 0.457 and 0.459 of the Commissions Rules, the Applicant Hereby requests confidential treatment of information accompaniment this Application As outlined below:

1. Block Diagram, 2. Schematic Diagram, The above materials contain trade secrets and proprietary information not customarily released to the public. The public disclosure of these matters might be harmful to the Applicant and provide unjustified benefits to its competitors. The Applicant understands that pursuant to Rule 0.457, disclosure of this Application and all accompanying documentation will not be made before the date of the Grant for this application Sincerely, Kevin Tseng / R & D Division Manager Applicant: SerComm Address: 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C TEL: +886-2-2655-3988 FAX: +886-2-2655-3765

 

 

Exclusive Certification Corp. 4F-2, No. 28, Lane 78, Xing-Ai Rd. Nei-hu, Taipei City 114 Taiwan R.O.C ssq 114_R 4 -2F Tel: 886-2-2792-3366 Fax: 886-2-2792-1100 28 78 To whom it may concern:

The enclosed documents constitute a formal submittal and application for a Grant of Equipment Authorization pursuant to Subpart C of Part 15 of FCC rules (CFR47) regarding 3 in 1 AP Module for the SerComm model IP802SM V2. Data within this report demonstrates that the equipment tested complied with the FCC limits for intentional radiators. Exclusive Certificate Corp. (ECC), as duly authorized agent prepared this submittal. A copy of the letter of our appointment as agent is enclosed. If there are any questions or if further information is needed, please contact ECC for assistance. Ivy Chen TEL: +886-2-2792-3366 # 204 FAX: +886-2-2792-1100 E-mail: ivy@ecc.com.tw

 

 

Part NumberG SubjectG IP802SM V2 Operation Principle DateG pagesG 3 1. CPU, U6, 88W8510 have a 32-bit RISC processor integrated, operation frequency is 160MHz. It needs an external 44MHz crystal for reference frequency; this crystal is also used for RF module. This chip is responsible to control RF-Baseband Transceiver

(88W8000G), Flash IC and LED. This chip also has MII interface integrated to communicate with 10/100 Ethernet Switch. 2. FLASH, U13, MX29LV800TTC-70, 8Mbits Flash, bottom sector, 70ns. It is used to store the normal and test firmware. 3. Integrated 2.4GHz ISM Band RF-Baseband Transceiver, U9, 88W8000G which is integrated all RF-Baseband receive and Transmit function. On-Chip Power Amplifier (PA) with up to +20 dBm output power at the antenna port. It is also integrated programmable frequency synthesizers with integrated VCOs, I/Q generation and CMOS up/down conversion mixers. 4. Components:

Ethernet port

(10/100BaseT) Reset Button Power Jack 4 stop manual switch CONNECT THE 10/100BASET CABLING (RJ45 CONNECTOR) FOR THE EXTERNAL LAN, WAN, Used to reboot, reset to factory default, Connect the power adapter here. Use to set different operation mode, client mode, AP mode, AP/NAT mode, config mode 5. Power part: there are several regulators are used on the board. U3, MVPG31 is used to transfer DC5V to DC3V3; U1, U8 AME8805 are used to transfer DC3V3 to DC2V5; U2, MVPG31 is used to transfer DC5V to DC1V62. The core of CPU is operate at 1.5V. 6. LED part:

LED Power Green FW Ethernet Link/Act Green HW WLAN Link/ Act Green FW Color Controlled by Description On - power on Off - no power On Ethernet is connected Off no Ethernet connection Blinking receiving/ transmitting data On - Wireless connection available; Wireless Access Point is ready for use. Off - No Wireless connection available. Blinking - Data is transmitted or received via the Wireless access point. This includes "network traffic" as well as user data. 7. Switch button, SW1, it is used to reset the 88W8510. 8. GaAs IC SPDT Switch, U7, HWS314, features low insertion loss and positive voltage operation with very low DC power consumption.

 

 

FCC Test Report: FI05020503-A FCC TEST REPORT according to FCC Rules and Regulations Part 15 Subpart C Applicant Address SerComm Corporation 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. 3 in 1 AP IP802SM V2 P27IP802SMV2 Equipment Model No. FCC ID Trade Name Sercomm Laboratory accreditation 1332

The test result refers exclusively to the test presented test model / sample.,

Without written approval of Exclusive Certification Corp. the test report shall not be reproduced except in full.

The EUT is also considered as a kind of computer peripheral, because the connection to computer is necessary for typical use. It has been verified to comply with the requirements of FCC Part 15, Subpart B, Class B (DoC). The test report has been issued separately. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 1 of 76 FCC ID: P27IP802SMV2 Contents FCC Test Report: FI05020503-A 6. 5. 2. 1. Report of Measurements and Examinations ......................................................................................................................4 1.1. List of Measurements and Examinations ............................................................................ 4 Test Configuration of Equipment under Test......................................................................................................................5 2.1. Test Mode and Test Software............................................................................................. 5 2.2. Description of Test System ................................................................................................ 5 2.3. Connection Diagram of Test System .................................................................................. 6 2.4. Feature of Equipment under Test ....................................................................................... 7 2.5. RF Module Specifications .................................................................................................. 7 2.6. History of this test report ................................................................................................... 7 3. General Information of Test...................................................................................................................................................8 4. Antenna Requirements..........................................................................................................................................................9 4.1. Standard Applicable .......................................................................................................... 9 4.2. Antenna Construction and Directional Gain ........................................................................ 9 Test of Conducted Emission.............................................................................................................................................. 10 5.1. Test Procedures.............................................................................................................. 10 Typical Test Setup Layout of Conducted Emission .......................................................................11 5.2. Conducted Emission Requirement ....................................................................................11 5.3. Test Result and Data....................................................................................................... 12 Test of Radiated Emission.................................................................................................................................................. 38 6.1. Test Procedures.............................................................................................................. 38 6.2. Typical Test Setup Layout of Radiated Emission ............................................................... 38 6.3. Test Result of Radiated emission ..................................................................................... 39 6.4. 6dB Bandwidth Measurement Data.................................................................................. 55 6.5. Test Procedure ............................................................................................................... 55 6.6. Test Setup Layout ........................................................................................................... 55 6.7. Test Result and Data....................................................................................................... 55 7. Maximum Peak Output Power........................................................................................................................................... 59 7.1. Test Procedure ............................................................................................................... 59 7.2. Test Setup Layout ........................................................................................................... 59 7.3. Test Result and Data....................................................................................................... 59 Band Edges Measurement................................................................................................................................................. 63 8.1. Test Procedure ............................................................................................................... 63 8.2. Test Result and Data....................................................................................................... 63 8.3. Restrict band emission Measurement Data....................................................................... 68 Power Spectral Density....................................................................................................................................................... 69 9.1. Test Procedure ............................................................................................................... 69 9.2. Test Setup Layout ........................................................................................................... 69 9.3. Test Result and Data....................................................................................................... 69 10. Restricted Bands of Operation.......................................................................................................................................... 73 10.1. Labeling Requirement ..................................................................................................... 73 11. RF Exposure......................................................................................................................................................................... 74 11.1. Limit For Maximum Permissible Exposure (MPE).............................................................. 74 11.2. MPE Calculations ........................................................................................................... 75 11.3. FCC Radiation Exposure Statement ................................................................................. 75 12. List of Measuring Equipment Used................................................................................................................................... 76 Appendix A. Photographs of EUT . .A1 ~ A8 8. 9. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 2 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A CERTIFICATE OF COMPLIANCE according to FCC Rules and Regulations Part 15 Subpart C Applicant Address Equipment Model No. FCC ID SerComm Corporation 8F, No. 3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. 3 in 1 AP IP802SM V2 P27IP802SMV2 I HEREBY CERTIFY THAT :

The measurements shown in this test report were made in accordance with the procedures given in ANSI C63.4 The equipment was passed the test performed according to FCC Rules and Regulations Part 15 Subpart C (2003). The test was carried out on Mar. 10, 2005 at Exclusive Certification Corp. Signature Anson Chou / Manager Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 3 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 1. Report of Measurements and Examinations 1.1. List of Measurements and Examinations FCC Rule

. Description of Test 15.203

. Antenna Requirement 15.207

. Conducted Emission 15.209

. Radiated Emission 15.247(a)(2) . 6dB Bandwidth 15.247(b)

. Maximum Peak Output Power 15.247(c)

. 100kHz Bandwidth of Frequency Band Edges 15.247(d)

. Power Spectral Density

. RF Exposure Compliance 1.1307 1.1310 2.1091 2.1093 Test by:

Result Pass Pass Pass Pass Pass Pass Pass Pass Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 4 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 2. Test Configuration of Equipment under Test 2.1. Test Mode and Test Software The following test mode and test software was performed for conduction and radiation test:

802.11b (CH LO: 2412MHz) 802.11b (CH MID: 2437MHz) 802.11b (CH HI: 2462MHz)

802.11g (CH LO: 2412MHz) 802.11g (CH MID: 2437MHz) 802.11g (CH HI: 2462MHz)

An executive programs, DUTAPIDLL Application under WIN XP. The test mode including two kind of type for radiated and conduction test:

Test mode 1: Transmit/ Receive (DC 5V from adapter)

Test mode 2: Transmit/ Receive (DC 5V from pc system) 2.2. Description of Test System Device PC Monitor Manufacturer Model No. IBM SlimAGE IGV 510A Keyboard Mouse Modem IBM IBM ACEXX KB-0225 MO28VO DM-1414 Printer HP Desk Jet400 Description Power Cable, Unshielding 1.8 m Power Cable, Adapter Unshielding 1.8 m Data Cable, VGA shielding 1.35 m Data Cable, PS2, shielding 1.85 m Data Cable, USB shielding 1.85 m Power Cable, Adapter Unshielding 1.8 m Data Cable, RS232 shielding 1.35 m Power Cable, Adapter Unshielding 1.8 m Data Cable, PRINT shielding 1.6 m Use Cable:

EMI Cable USB RJ-45 EMS Cable USB RJ-45 Description Shielding, 0.6m Unshielding, 1m Description Shielding, 0.6m Unshielding, 3m Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 5 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 2.3. Connection Diagram of Test System The test setup including two kind of mode:

Test mode 1: Transmit/ Receive (DC 5V from adapter) Adapter 6 5 1 Printer Modem EUT PC Monitor 2 3 4 Keyboard Mouse 1. The RJ45 cable is connected form PC to the EUT. 2. The I/O cable is connected from PC to the Monitor. 3. The I/O cable is connected from PC to the Keyboard. 4. The I/O cable is connected from PC to the Mouse. 5. The I/O cable is connected from PC to the MODEM 6. The I/O cable is connected from PC to the Printer. Test mode 2: Transmit/ Receive (DC 5V from pc system) Modem Printer Printer 6 6 7 7 2 EUT 1. The RJ45 cable is connected form PC to the EUT. 2. The USB cable is connected form PC to the EUT. 3. The I/O cable is connected from PC to the Monitor. 4. The I/O cable is connected from PC to the Keyboard. 5. The I/O cable is connected from PC to the Mouse. 6. The I/O cable is connected from PC to the MODEM 7. The I/O cable is connected from PC to the Printer. 3 1 PC Monitor 4 5 Keyboard Mouse Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 6 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 2.4. Feature of Equipment under Test Model Dimensions Operating Temperature Storage Temperature Network Protocol:

Network Interface:

LEDs Power Adapter Wireless 3-in-1 Companion 70 mm (W) * 105 mm(D) * 22 mm (H) 0C to 40C

-10C to 70C TCP/IP 1 * 10/100BaseT Ethernet 1 * Wireless Interface 3 5 V DC External 2.5. RF Module Specifications Standards Frequency Channels Modulation Data Rate Coverage Area Security Output Power Receiver Sensitivity IEEE802.11g WLAN, JEIDA 4.2, roaming support 2.4 to 2.4835GHz (Industrial Scientific Medical Band ) Maximum 14 Channels, depending on regulatory authorities DSSS BPSK/QPSK/CCK, OFDM/CCK Up to 54 Mbps Indoors : 10m @54Mbps, 80m @6Mbps or lower Outdoors : 30m @54Mbps, 200m @6Mbps or lower WEP 64Bit, WEP 128Bit, WPA-PSK 15 dBm (typical)

-80 dBm Min. 2.6. History of this test report ORIGINAL. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 7 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 3. General Information of Test Test Site:

Exclusive Certification Corp. 4F-2, No. 28, Lane 78, Xing-Ai Rd. Nei-hu, Taipei City 114 Taiwan R.O.C. Test Site Location (OATS1-SD): No.68-1, Shihbachongsi, shihding Township, Taipei County 223, Taiwan, R.O.C. Test Voltage:

AC 110V/ 60Hz Test in Compliance with:

ANSI C63.4-2003 FCC Part 15 Subpart C Frequency Range Investigated: Conducted: from 150kHz to 30 MHz Test Distance:

Radiation: from 30 MHz to 24620MHz The test distance of radiated emission from antenna to EUT is 3 M. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 8 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 4. Antenna Requirements 4.1. Standard Applicable For intentional device, according to FCC 47 CFR Section 15.203, an intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device. And according to FCC 47 CFR Section 15.247 (b), if transmitting antennas of directional gain greater than 6dBi are used, the power shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6dBi. 4.2. Antenna Construction and Directional Gain Antenna type: Integral PIFA Antenna Antenna Gain: 1 dBi. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 9 of 76 FCC ID: P27IP802SMV2 5. Test of Conducted Emission FCC Test Report: FI05020503-A Conducted Emissions were measured from 150 kHz to 30 MHz with a bandwidth of 9 KHz on the 115 VAC power and return leads of the EUT according to the methods defined in ANSI C63.4-2003 Section 3.1. The EUT was placed on a nonmetallic stand in a shielded room 0.8 meters above the ground plane as shown in section 1.3.1. The interface cables and equipment positioning were varied within limits of reasonable applications to determine the position produced maximum conducted emissions. 5.1. Test Procedures a. The EUT was placed 0.4 meter from the conducting wall of the shielding room was kept at least 80 centimeters from any other grounded conducting surface. b. Connect EUT to the power mains through a line impedance stabilization network (LISN). c. All the support units are connecting to the other LISN. d. The LISN provides 50 ohm coupling impedance for the measuring instrument. e. The FCC states that a 50 ohm, 50 micro-henry LISN should be used. f. Both sides of AC line were checked for maximum conducted interference. g. The frequency range from 150 kHz to 30 MHz was searched. h. Set the test-receiver system to Peak Detect Function and Specified Bandwidth with Maximum Hold Mode. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 10 of 76 FCC ID: P27IP802SMV2 Typical Test Setup Layout of Conducted Emission FCC Test Report: FI05020503-A 10cm EUT 80cm 80cm LISN 40cm 40cm 80cm LISN 5.2. Conducted Emission Requirement Except for A digital devices, for equpment that is designed to be connected to the public utility (AC) power line on any frequency voltage that is conducted back onto the AC power line on ant frequency or frequencies within the band 150KHz to 30MHz shall not exceed the limits in the following table, as measured using a 50H/50 ohms line impeddance stabilization network (LISN). Compliance with the provisions of this paragraph shall be based on the measurement of the Radio frequency voltage between each power line and ground at the power terminal. The lower limit applies at the band edges. Frequency

(MHz) 0.15 0.5 0.5 5.0 5.0 30.0 Quasi Peak

(dB V) 66-56*

56 60 Average

(dB V) 56-46*

46 50 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 11 of 76 FCC ID: P27IP802SMV2

 

 

FCC Test Report: FI05020503-A 6. Test of Radiated Emission Radiated emissions from 30 MHz to 25 GHz were measured according to the methods defines in ANSI C63.4-2003. The EUT was placed, 0.8 meter above the ground plane, as shown in section 1.4.2. The interface cables and equipment positions were varied within limits of reasonable applications to determine the positions producing maximum radiated emissions 6.1. Test Procedures 1. The EUT was placed on a rotatable table top 0.8 meter above ground. 2. The EUT was set 3 meters from the interference receiving antenna which was mounted on the top of a variable height antenna tower. 3. The table was rotated 360 degrees to determine the position of the highest radiation. 4. The antenna is a broadband antenna and its height is varied between one meter and four meters above ground to find the maximum value of the field strength both horizontal polarization and vertical polarization of the antenna are set to make the measurement. 5. For each suspected emission the EUT was arranged to its worst case and then tune the antenna tower (from 1 M to 4 M) and turn table (from 0 degree to 360 degrees) to find the maximum reading. 6. Set the test-receiver system to Peak or CISPR quasi-peak Detect Function and specified 7. bandwidth with Maximum Hold Mode. If the emission level of the EUT in peak mode was 3 dB lower than the limit specified, then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions which do not have 3 dB margin will be repeated one by one using the quasi-peak method and reported. 8. For testing above 1GHz, the emission level of the EUT in peak mode was 20dB lower than average limit (that means the emission level in peak mode also complies with the limit in average mode), then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions will be measured in average mode again and reported. 6.2. Typical Test Setup Layout of Radiated Emission Antenna Equipment under Test

* Test distance Turn Table 0.8M Ground Plane Receiver Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 38 of 76 FCC ID: P27IP802SMV2 6.3. Test Result of Radiated emission FCC Test Report: FI05020503-A H/V

(MHz) Ant-Pol Remark Corrected Frequency Table Deg. Margin

(dB) Limit@3m

(dBuV/m) Result@3m

(dBuV/m) Test mode 1: Transmit/ Receive (DC 5V from adapter) Emission frequencies below 1 GHz Channel HI Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg Ant High

(m) 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 Meter Reading

(dBuV) 51.21 51.97 51.35 48.40 48.76 49.09 41.33 43.42 38.02 37.82 53.22 49.44 47.86 43.62 48.54 48.42 40.14 37.85 36.00 35.53 Factor

(dB)

-13.31

-11.84

-12.03

-11.26

-10.40

-10.34

-3.73

-1.82 1.06 3.26

-17.93

-13.31

-7.35

-7.26

-6.66

-6.08

-1.80

-0.57 1.09 1.68 158.04 224.97 248.25 298.69 318.09 331.67 600.36 640.13 801.15 955.38 78.50 158.04 432.55 439.34 463.59 479.11 641.10 701.24 802.12 817.64 37.90 40.07 39.32 37.14 38.36 38.75 37.60 41.60 39.08 41.08 35.29 36.13 40.51 36.36 41.88 42.34 38.34 37.28 37.09 37.21 43.5 46.0 46.0 46.0 46.0 46.0 46.0 46.0 46.0 46.0 40.0 43.50 46.0 46.0 46.0 46.0 46.0 46.0 46.0 46.0

-5.60

-5.93

-6.68

-8.86

-7.64

-7.25

-8.40

-4.40

-6.92

-4.92

-4.71

-7.37

-5.49

-9.64

-4.12

-3.66

-7.66

-8.72

-8.91

-8.79 Peak Peak Peak Peak Peak Peak Peak Q.P. Peak Q.P. Q.P. Peak Peak Peak Peak Q.P. Peak Peak Peak Peak 192 192 192 192 192 192 122 122 122 122 192 192 192 192 192 192 122 122 122 122 H H H H H H H H H H V V V V V V V V V V Notes:

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 39 of 76 FCC ID: P27IP802SMV2 Modulation Standard: IEEE 802.11b (11Mbps) FCC Test Report: FI05020503-A H/V

(MHz) Ant-Pol Remark Corrected Frequency Table Deg. Margin

(dB) Limit@3m

(dBuV/m) Result@3m

(dBuV/m) 53.03 49.27 61.77 51.04 63.00 51.25 Factor

(dB)

-2.42

-2.42 8.12 8.12 11.89 11.88 Meter Reading

(dBuV) 55.45 51.69 53.65 42.92 51.11 39.37 Emission frequencies above 1 GHz Channel LO Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg Ant High

(m) 1.0 1.0 1.0 1.0 1.1 1.1

---

---

1.1 1.1 1.0 1.0 1.0 1.0

---

1.1 1.1 1600.10 1600.10 4822.10 4822.10 7232.50 7232.50 9648.00 12060.00 1600.10 1600.10 4822.10 4822.10 7232.70 7232.70 9648.00 12060.75 12060.75 Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Peak Ave Ave Peak Ave 122 122 262 262 261 261

---

---

192 192 220 220 219 219

---

174 174 74 54 74 54 74 54 54 54 74 54 74 54 74 54 54 54 54

-20.97

-4.73

-12.23

-2.96

-11.00

-2.75

-18.18

-10.52

-17.84

-2.50

-11.94

-4.41 58.79 46.44 48.80 44.15 51.01 38.54 55.82 43.48 56.16 51.50 62.06 49.59

-2.97

-2.96 7.36 7.35 11.05 11.05 H H H H H H H H V V V V V V V V V 51.98 37.38 15.93 15.93 67.91 53.31

-6.09

-0.69

---

---

---

---

---

---

---

---

---

---

---

---

Notes:

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 40 of 76 FCC ID: P27IP802SMV2 Modulation Standard: 802.11b (11Mbps) Emission frequencies above 1 GHz Channel MID Test Date: Mar. 10, 2005 Temperature: 25 Humid J Corrected FCC Test Report: FI05020503-A ity: 65% Atmospheric pressure: 1035mmHg Frequency Ant-Pol

(MHz) H/V 1600.10 1600.10 4872.30 4872.30 7307.90 7307.90 9748.00 12185.00 1600.00 1600.00 2550.00 2550.00 4872.10 4872.10 7311.00 9748.00 12185.00 Notes:

H H H H H H H H V V V V V V V V V Meter Reading

(dBuV) 53.77 50.79 54.37 40.02 50.80 36.93

---

---

58.93 46.85 57.73 45.02 51.47 37.64

---

---

---

Factor

(dB)

-2.42

-2.42 8.32 8.31 12.05 12.04

---

---

-2.96

-2.96 1.10 1.10 7.54 7.53

---

---

---

Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 51.35 48.07 62.69 48.33 62.85 48.97

---

---

55.97 43.89 58.83 46.12 59.01 45.71

---

---

---

74 54 74 54 74 54 54 54 74 54 74 54 74 54 54 54 54

-22.65

-5.93

-11.31

-5.64

-11.15

-5.03

---

---

-18.03

-10.11

-15.17

-7.88

-14.99

-8.83

---

---

---

Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Peak Ave Ave Ave Ave 120 120 265 265 262 262

---

---

191 191 192 192 211 211

---

---

---

Ant High

(m) 1.0 1.0 1.1 1.1 1.0 1.0

---

---

1.0 1.0 1.0 1.0 1.1 1.1

---

---

---

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 120KHz for Peak detection at frequency below 1GHz. 4. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 1MHz for Peak detection and Quasi-peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 41 of 76 FCC ID: P27IP802SMV2 Modulation Standard: IEEE 802.11b (11Mbps) FCC Test Report: FI05020503-A H/V

(MHz) Ant-Pol Remark Corrected Frequency Table Deg. Margin

(dB) Limit@3m

(dBuV/m) Result@3m

(dBuV/m) 53.27 48.86 59.01 45.15 Meter Reading

(dBuV) 55.69 51.28 50.50 36.65 Factor

(dB)

-2.42

-2.42 8.51 8.50

---

---

---

Emission frequencies above 1 GHz Channel HI Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg Ant High

(m) 1.0 1.0 1.0 1.0

---

---

---

1.1 1.1 1.0 1.0

---

---

---

1600.10 1600.10 4922.20 4922.20 7386.00 9848.00 12310.00 1600.00 1600.00 4923.10 4923.10 7385.00 9847.00 1209.00 Peak Ave Peak Ave Ave Ave Ave Peak Ave Peak Ave Ave Ave Ave 126 126 261 261

---

---

---

191 191 219 219

---

---

---

74 54 74 54 54 54 54 74 54 74 54 54 54 54

-2.96

-2.96 7.72 7.72

---

---

---

-20.73

-5.14

-14.99

-8.85

-18.84

-9.71

-16.16

-10.80 H H H H H H H V V V V V V V 58.12 47.25 50.12 35.48 55.16 44.29 57.84 43.20

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

Notes:

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 42 of 76 FCC ID: P27IP802SMV2 Modulation Standard: 802.11g (54Mbps) Emission frequencies above 1 GHz Channel LO Test Date: Mar. 10, 2005 Temperature: 25 Humidity: 6 J Corrected FCC Test Report: FI05020503-A 5% Atmospheric pressure: 1035mmHg Frequency Ant-Pol

(MHz) H/V 1600.10 1600.10 4823.00 4823.00 7231.60 7231.60 9648.00 12060.00 1600.10 1600.10 4824.20 4824.20 7232.70 7232.70 9648.00 12052.30 12052.30 Notes:

H H H H H H H H V V V V V V V V V Meter Reading

(dBuV) 55.77 51.76 55.96 42.79 50.46 38.64

---

---

57.83 46.60 54.46 39.11 46.40 34.30

---

45.59 35.55 Factor

(dB)

-2.42

-2.42 8.09 8.12 11.88 11.88

---

---

-2.96

-2.96 7.34 7.36 11.05 11.05

---

15.93 15.95 Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 53.35 49.34 64.05 50.91 62.34 50.52

---

---

54.87 43.64 61.80 46.47 57.45 45.35

---

61.52 51.50 74 54 74 54 74 54 54 54 74 54 74 54 74 54 54 74 54

-20.65

-4.66

-9.95

-3.09

-11.66

-3.48

---

---

-19.13

-10.36

-12.20

-7.53

-16.55

-8.65

---

-12.48

-2.50 Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Peak Ave Ave Peak Ave 123 123 259 259 262 262

---

---

190 190 222 222 248 248

---

334 334 Ant High

(m) 1.0 1.0 1.1 1.1 1.1 1.1

---

---

1.1 1.1 1.1 1.1 1.0 1.0

---

1.0 1.0 1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 43 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Modulation Standard: 802.11g (54Mbps) Emission frequencies above 1 GHz Channel MID Test Date: Mar. 10, 2005 Temperature: 25 Humidity: 6 J Corrected Frequency Ant-Pol

(MHz) H/V 1600.10 1600.10 4873.60 4873.60 7307.80 7307.80 9748.00 12185.00 1600.10 1600.10 4872.70 4872.70 7311.00 9748.00 12185.00 Notes:

H H H H H H H H V V V V V V V Meter Reading

(dBuV) 55.52 50.82 50.67 38.36 47.99 35.76

---

---

58.43 46.39 49.49 34.57

---

---

---

Factor

(dB)

-2.42

-2.42 8.32 8.31 12.04 12.04

---

---

-2.98

-2.96 7.52 7.54

---

---

---

5% Atmospheric pressure: 1035mmHg Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 53.10 48.40 58.99 46.67 60.03 47.80

---

---

55.45 43.43 57.01 42.11

---

---

---

74 54 74 54 74 54 54 54 74 54 74 54 54 54 54

-20.90

-5.60

-15.01

-7.33

-13.97

-6.20

---

---

-18.55

-10.57

-16.99

-11.89

---

---

---

Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Ave Ave Ave 117 117 262 262 264 264

---

---

194 194 218 218

---

---

---

Ant High

(m) 1.0 1.0 1.0 1.0 1.1 1.1

---

---

1.0 1.0 1.0 1.0

---

---

---

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 44 of 76 FCC ID: P27IP802SMV2 Modulation Standard: 802.11g (54Mbps) Emission frequencies above 1 GHz Channel HI Test Date: Mar.10, 2005 Temperature: 25 Humidity: 6 J Corrected FCC Test Report: FI05020503-A 5% Atmospheric pressure: 1035mmHg Frequency Ant-Pol

(MHz) H/V 1600.10 1600.10 4923.80 4923.80 7386.00 9848.00 12310.00 1600.10 1600.10 4923.50 4923.50 7386.00 9848.00 12310.00 Notes:

H H H H H H H V V V V V V V Meter Reading

(dBuV) 55.74 51.95 46.11 34.67

---

---

---

58.44 45.12 49.78 34.62

---

---

---

Factor

(dB)

-2.42

-2.42 8.51 8.51

---

---

---

-2.96

-2.96 7.70 7.72

---

---

---

Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 53.32 49.53 54.62 43.18

---

---

---

55.48 42.16 57.48 42.34

---

---

---

74 54 74 54 54 54 54 74 54 74 54 54 54 54

---

---

---

-20.68

-4.47

-19.38

-10.82 Peak Ave Peak Ave Ave Ave Ave Peak

-18.52

-11.84 Ave

-169.52 Peak Ave

-11.66 Ave Ave Ave

---

----

---

118 118 264 264

---

---

---

193 193 225 225

---

---

---

Ant High

(m) 1.0 1.0 1.1 1.1

---

---

---

1.0 1.0 1.1 1.1

---

---

---

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 45 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A H/V

(MHz) Ant-Pol Remark Corrected Frequency Table Deg. Margin

(dB) Limit@3m

(dBuV/m) Result@3m

(dBuV/m) Test mode 2: Transmit/ Receive (DC 5V from pc system) Emission frequencies below 1 GHz Channel HI Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg Ant High

(m) 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 Meter Reading

(dBuV) 50.87 50.71 52.49 51.21 51.95 52.20 48.80 51.44 39.83 39.98 37.32 53.42 53.46 54.59 52.53 47.86 47.54 47.15 47.62 44.42 40.14 Factor

(dB)

-17.93

-13.31

-14.29

-13.75

-12.03

-11.26

-10.37

-8.98

-1.80

-0.78 3.26

-17.93

-16.22

-14.77

-8.98

-7.35

-6.86

-6.57

-6.08

-5.79

-1.80 78.50 158.04 197.81 204.60 248.25 298.68 329.73 365.62 641.10 696.39 955.38 78.50 91.11 104.69 365.62 432.55 458.74 465.53 479.11 533.43 641.10 32.94 37.40 38.20 37.46 39.92 40.95 38.42 42.46 38.03 39.20 40.58 35.50 37.24 39.82 43.55 40.51 40.67 40.58 41.55 38.63 38.34

-7.06

-6.10

-5.30

-6.04

-6.08

-5.05

-7.58

-3.54

-7.97

-6.80

-5.42

-4.50

-6.26

-3.68

-2.45

-5.49

-5.33

-5.42

-4.45

-7.37

-7.66 Peak Peak Peak Peak Peak Peak Peak QP Peak Peak Peak QP Peak QP QP Peak Peak Peak QP Peak Peak 40.0 43.5 43.5 43.5 46.0 46.0 46.0 46.0 46.0 46.0 46.0 40.0 43.5 43.5 46.0 46.0 46.0 46.0 46.0 46.0 46.0 192 192 192 192 192 192 192 192 122 122 122 192 192 192 192 192 192 192 192 192 122 H H H H H H H H H H H V V V V V V V V V V Notes:

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 46 of 76 FCC ID: P27IP802SMV2 Modulation Standard: IEEE 802.11b (11Mbps) FCC Test Report: FI05020503-A H/V

(MHz) Ant-Pol Remark Corrected Frequency Table Deg. Margin

(dB) Limit@3m

(dBuV/m) Result@3m

(dBuV/m) 53.32 49.40 60.85 49.51 62.43 50.75 Factor

(dB)

-2.42

-2.42 8.12 8.12 11.89 11.88 Meter Reading

(dBuV) 55.74 51.82 52.73 41.39 50.54 38.87 Emission frequencies above 1 GHz Channel LO Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg Ant High

(m) 1.0 1.0 1.1 1.1 1.1 1.1

---

---

1.1 1.1 1.0 1.0 1.0 1.0

---

1.0 1.0 1600.31 1600.31 4822.41 4822.41 7232.73 7232.73 9648.00 12060.00 1600.43 1600.43 4824.35 4824.35 7236.12 7236.12 9648.00 12058.47 12058.64 Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Peak Ave Ave Peak Ave 123 123 263 263 262 262

---

---

193 193 221 221 220 220

---

175 175 74 54 74 54 74 54 54 54 74 54 74 54 74 54 54 74 54

-20.68

-4.60

-13.15

-4.49

-11.57

-3.25

-18.04

-10.34

-17.56

-4.01

-11.70

-4.24 58.93 46.62 49.08 42.64 51.25 38.71 55.96 43.66 56.44 49.99 62.30 49.76

-2.97

-2.96 7.36 7.35 11.05 11.05 H H H H H H H H V V V V V V V V V

-13.01

-4.25 45.06 33.82 15.93 15.93 60.99 49.75

---

---

---

---

---

---

---

---

---

---

---

---

Notes:

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 47 of 76 FCC ID: P27IP802SMV2 Modulation Standard: 802.11b (11Mbps) Emission frequencies above 1 GHz Channel MID Test Date: Mar. 10, 2005 Temperature: 25 Humidity:

J Corrected FCC Test Report: FI05020503-A 65% Atmospheric pressure: 1035mmHg Frequency Ant-Pol

(MHz) H/V 1600.34 1600.34 4872.43 4872.43 7308.22 7308.22 9748.00 12185.00 1600.37 1600.37 2550.39 2550.39 4872.48 4872.48 7311.00 9748.00 12185.00 Notes:

H H H H H H H H V V V V V V V V V Meter Reading

(dBuV) 53.88 50.63 54.48 40.24 51.13 37.18

---

---

59.04 46.92 57.84 45.36 51.62 37.82

---

---

---

Factor

(dB)

-2.42

-2.42 8.32 8.31 12.05 12.04

---

---

-2.96

-2.96 1.10 1.10 7.54 7.53

---

---

---

Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 51.46 48.21 62.80 48.55 63.18 49.22

---

---

56.08 43.96 58.94 46.46 59.16 45.35

---

---

---

74 54 74 54 74 54 54 54 74 54 74 54 74 54 54 54 54

-22.54

-5.79

-11.20

-5.45

-10.82

-4.78

---

---

-17.92

-10.04

-15.06

-7.54 14.84

-8.65

---

---

---

Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Peak Ave Ave Ave Ave 121 121 266 266 263 263

---

---

192 192 193 193 222 222

---

---

---

Ant High

(m) 1.1 1.1 1.0 1.0 1.0 1.0

---

---

1.1 1.1 1.0 1.0 1.0 1.0

---

---

---

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 120KHz for Peak detection at frequency below 1GHz. 4. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 1MHz for Peak detection and Quasi-peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 48 of 76 FCC ID: P27IP802SMV2 Modulation Standard: IEEE 802.11b (11Mbps) FCC Test Report: FI05020503-A H/V

(MHz) Ant-Pol Remark Corrected Frequency Table Deg. Margin

(dB) Limit@3m

(dBuV/m) Result@3m

(dBuV/m) 53.35 49.94 59.24 45.32 Meter Reading

(dBuV) 55.77 51.36 50.73 36.82 Factor

(dB)

-2.42

-2.42 8.51 8.50

---

---

---

Emission frequencies above 1 GHz Channel HI Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg Ant High

(m) 1.0 1.0 1.1 1.1

---

---

---

1.0 1.0 1.1 1.1

---

---

---

1600.21 1600.21 4922.39 4922.39 7386.00 9848.00 12310.00 1600.19 1600.19 4923.28 4923.28 7385.00 9847.00 12309.00 Peak Ave Peak Ave Ave Ave Ave Peak Ave Peak Ave Ave Ave Ave 127 127 262 262

---

---

---

192 192 220 220

---

---

---

74 54 74 54 54 54 54 74 54 74 54 54 54 54

-2.96

-2.96 7.72 7.72

---

---

---

-20.65

-5.06 14.76

-8.68

-18.54

-9.53

-16.00

-10.69 H H H H H H H V V V V V V V 58.42 47.43 50.28 35.59 55.46 44.47 58.00 43.31

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

Notes:

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 49 of 76 FCC ID: P27IP802SMV2 Modulation Standard: 802.11g (54Mbps) Emission frequencies above 1 GHz Channel LO Test Date: Mar. 10, 2005 Temperature: 25 Humidity: 6 J Corrected FCC Test Report: FI05020503-A 5% Atmospheric pressure: 1035mmHg Frequency Ant-Pol

(MHz) H/V 1600.41 1600.41 4823.19 4823.19 7231.74 7231.74 9748.00 12185.00 1600.28 1600.28 4824.33 4824.33 7232.91 7232.91 9648.00 12052.58 12052.58 Notes:

H H H H H H H H V V V V V V V V V Meter Reading

(dBuV) 55.84 51.83 57.14 42.93 52.66 38.88

---

---

57.88 46.92 54.64 39.23 46.68 34.51

---

46.73 34.98 Factor

(dB)

-2.42

-2.42 8.09 8.12 11.88 11.88

---

---

-2.96

-2.96 7.34 7.36 11.05 11.05

---

15.93 15.95 Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 53.42 49.41 65.23 51.05 64.54 50.76

---

---

54.92 43.96 61.98 46.59 57.73 45.56

---

62.66 50.93 74 54 74 54 74 54 54 54 74 54 74 54 74 54 54 74 54

-20.58

-4.59

-8.77

-2.95

-9.46

-3.24

---

---

-19.08

-10.04

-12.02

-7.41

-16.27

-8.44

---

-11.34

-3.07 Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Peak Ave Ave Peak Ave 124 124 260 260 236 263

---

---

191 191 223 223 249 249

---

335 335 Ant High

(m) 1.1 1.1 1.0 1.0 1.0 1.0

---

---

1.0 1.0 1.0 1.0 1.1 1.1

---

1.1 1.1 1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 50 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Modulation Standard: 802.11g (54Mbps) Emission frequencies above 1 GHz Channel MID Test Date: Mar. 10, 2005 Temperature: 25 Humidity: 6 J Corrected Frequency Ant-Pol

(MHz) H/V 1600.26 1600.26 4873.71 4873.71 7307.93 7307.93 9748.00 12185.00 1600.17 1600.17 4872.91 4872.91 7311.00 9748.00 12185.00 Notes:

H H H H H H H H V V V V V V V Meter Reading

(dBuV) 55.71 51.02 53.79 39.61 47.18 35.84

---

---

58.54 46.51 49.54 39.62

---

---

---

Factor

(dB)

-2.42

-2.42 8.32 8.31 12.04 12.04

---

---

-2.98

-2.96 7.52 7.54

---

---

---

5% Atmospheric pressure: 1035mmHg Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 53.29 48.60 62.11 47.92 59.22 47.88

---

---

55.56 43.55 57.06 47.16

---

---

---

74 54 74 54 74 54 54 54 74 54 74 54 54 54 54

-20.71

-5.40

-11.89

-6.08

-14.78

-6.12

---

---

-18.44

-10.45

-16.94

-6.84

---

---

---

Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Ave Ave Ave 118 118 263 263 265 265

---

---

195 195 219 219

---

---

---

Ant High

(m) 1.1 1.1 1.1 1.1 1.1 1.1

---

---

1.1 1.1 1.1 1.1

---

---

---

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 51 of 76 FCC ID: P27IP802SMV2 Modulation Standard: 802.11g (54Mbps) Emission frequencies above 1 GHz Channel HI Test Date: Mar.10, 2005 Temperature: 25 Humidity: 6 J Corrected FCC Test Report: FI05020503-A 5% Atmospheric pressure: 1035mmHg Frequency Ant-Pol

(MHz) H/V 1600.21 1600.21 4922.47 4922.47 7386.00 9848.00 12310.00 1600.02 1600.02 4923.47 4923.47 7385.00 9847.00 12309.00 Notes:

H H H H H H H V V V V V V V Meter Reading

(dBuV) 55.77 51.49 50.63 36.74

---

---

---

58.28 47.44 50.32 35.54

---

---

---

Factor

(dB)

-2.42

-2.42 8.51 8.50

---

---

---

-2.96

-2.96 7.72 7.72

---

---

---

Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 53.35 49.07 59.14 45.24

---

---

---

55.32 44.48 58.04 43.26

---

---

---

74 54 74 54 54 54 54 74 54 74 54 54 54 54

-20.65

-4.93

-14.86

-8.76

---

---

---

-18.68

-9.52

-15.96

-10.74

---

----

---

Peak Ave Peak Ave Ave Ave Ave Peak Ave Peak Ave Ave Ave Ave 127 127 262 262

---

---

---

192 192 220 220

---

---

---

Ant High

(m) 1.0 1.0 1.1 1.1

---

---

---

1.0 1.0 1.1 1.1

---

---

---

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 52 of 76 FCC ID: P27IP802SMV2 6.3.1. Photographs of Radiated Emission Test Test mode 1: Transmit/ Receive (DC 5V from adapter) FCC Test Report: FI05020503-A Front View Rear View Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 53 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Test mode 2: Transmit/ Receive (DC 5V from pc system) Front View Rear View Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 54 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 6.4. 6dB Bandwidth Measurement Data 6.5. Test Procedure 1. The transmitter output was connected to the spectrum analyzer. 2. Set RBW of spectrum analyzer to 100 KHz and VBW to 100 KHz. 3. The 6 dB bandwidth is defined as the total spectrum the power of which is higher than peak power minus 6 dB. 6.6. Test Setup Layout EUT Spectrum Analyzer 6.7. Test Result and Data

(1) Modulation Standard: IEEE 802.11b Test Date: Feb. 26, 2005 Temperature: 24J Humidity: 69% Atmospheric pressure: 1031mmHg Channel 01 06 11 Frequency 6dB Bandwidth

(MHz) 2412 2437 2462

(MHz) 7.6 7.6 7.6

(2) Modulation Standard: IEEE 802.11g Test Date: Feb. 26, 2005 Temperature: 24J Humidity: 69% Atmospheric pressure: 1031mmHg Channel 01 06 11 Frequency 6dB Bandwidth

(MHz) 2412 2437 2462

(MHz) 15.5 15.5 15.5 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 55 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 56 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 57 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 58 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 7. Maximum Peak Output Power 7.1. Test Procedure The antenna port] RF output^ of the EUT was connected to the input] RF input^ of a spectrum analyzer. Power was read directly from the spectrum analyzer and cable loss connection was added to the reading to obtain power at the EUT antenna terminal. The EUT Output Power was set to maximum to produce the worse case test result. 7.2. Test Setup Layout EUT Spectrum Analyzer 7.3. Test Result and Data

(1) Modulation Standard: IEEE 802.11b Test Date: Feb. 15, 2005 Temperature: 24J Humidity: 64% Atmospheric pressure: 1020mmHg Channel 01 06 11 Frequency Peak Power Output Peak Power Output

(MHz) 2412 2437 2462

(dBm) 15.72 15.85 16.09

(mW) 37.325 38.459 40.644

(2) Modulation Standard: IEEE 802.11g Test Date: Feb. 15, 2005 Temperature: 24J Humidity: 64% Atmospheric pressure: 1020mmHg Channel 01 06 11 Frequency Peak Power Output Peak Power Output

(MHz) 2412 2437 2462

(dBm) 15.47 15.67 15.86

(mW) 35.237 36.898 38.548 Note: Conducted Power = Reading Value + Cable Loss Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 59 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 60 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 61 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 62 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 8. Band Edges Measurement 8.1. Test Procedure 1. The transmitter output was connected to the spectrum analyzer via a low lose cable. 2. Set both RBW and VBW of spectrum analyzer to 100 KHz with convenient frequency span including 100 MHz bandwidth from band edge. 3. The band edges was measured and recorded. 8.2. Test Result and Data

(1) Modulation Standard: IEEE 802.11b Test Date: Feb. 26, 2005 Temperature: 24J Humidity: 69% Atmospheric pressure: 1031mmHg Channel Frequency 01 11 2412 2462 maximum value in frequency maximum value is

(MHz) 2545.0 2488.1

(dBm)

-45.89

-47.84

(2) Modulation Standard: IEEE 802.11g Test Date: Feb. 26, 2005 Temperature: 24J Humidity: 69% Atmospheric pressure: 1031mmHg Channel Frequency 01 11 2412 2462 maximum value in frequency maximum value is

(MHz) 2400.0 2488.1

(dBm)

-41.34

-44.18 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 63 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 64 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 65 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 66 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 67 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 8.3. Restrict band emission Measurement Data Modulation Standard: IEEE 802.11b Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg a) Channel 1 Frequency

(MHz) Ant-Pol H/V Meter Reading Corrected Factor Result

(dBuV/m) Remark 2386.296 2388.132 2386.500 2387.928 b) Channel 11 H H V V 64.58 51.15 63.17 49.18 1.24 1.24 1.24 1.24 65.82 52.39 64.41 50.42 Peak Ave. Peak Ave. Frequency

(MHz) Ant-Pol H/V Meter Reading Corrected Factor Result

(dBuV/m) Remark 2488.296 2488.068 2483.888 2484.040 H H V V 52.17 42.14 52.54 38.55 1.24 1.24 1.23 1.23 53.41 43.38 53.77 39.78 Peak Ave. Peak Ave. Limit@3m

(dBuV/m) Peak Ave. 54 74 54 74 54 74 74 54 Limit@3m

(dBuV/m) Peak Ave. 54 74 54 74 74 54 54 74 Margin

(dB) Table

(Deg.)

-8.18

-1.61

-8.59

-3.58 260 260 221 221 Margin

(dB) Table

(Deg.)

-20.59

-10.62

-20.23

-14.22 265 265 223 223 Modulation Standard: IEEE 802.11g Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg a) Channel 1 Frequency

(MHz) Ant-Pol H/V Meter Reading Corrected Factor Result

(dBuV/m) Remark 2389.764 2389.968 2388.132 2388.132 b) Channel 11 H H V V 60.01 50.73 62.71 50.88 1.25 1.25 1.24 1.24 61.26 51.98 63.95 52.12 Peak Ave. Peak Ave. Frequency

(MHz) Ant-Pol H/V Meter Reading Corrected Factor Result

(dBuV/m) Remark 2483.888 2483.964 2488.068 2488.068 H H V V 54.21 43.83 52.78 44.80 1.23 1.23 1.24 1.24 55.44 45.06 54.02 46.02 Peak Ave. Peak Ave. Limit@3m

(dBuV/m) Peak Ave. 54 74 54 74 74 54 54 74 Limit@3m

(dBuV/m) Peak Ave. 54 74 74 54 54 74 74 54 Margin

(dB) Table

(Deg.)

-12.74

-2.02

-10.05

-1.88 260 260 221 221 Margin

(dB) Table

(Deg.)

-18.56

-8.94

-19.98

-7.98 265 265 223 223 Notes:

1. Result = Meter Reading + Factor 2. Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 1 MHz for Peak detection at frequency above 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz Ant High

(m) 1.0 1.0 1.0 1.0 Ant High

(m) 1.0 1.0 1.0 1.0 Ant High

(m) 1.0 1.0 1.0 1.0 Ant High

(m) 1.0 1.0 1.0 1.0 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 68 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 9. Power Spectral Density 9.1. Test Procedure 1. The transmitter output was connected to spectrum analyzer. 2. The spectrum analyzers resolution bandwidth were set at 3KHz RBW and 30KHz VBW as that of the fundamental frequency. Set the sweep time=span/3KHz. 3. The power spectral density was measured and recorded. 4. The Sweep time is allowed to be longer than span/3KHz for a full response of the mixer in the spectrum analyzer. 9.2. Test Setup Layout EUT Spectrum Analyzer 9.3. Test Result and Data

(1) Modulation Standard: IEEE 802.11b Test Date: Feb. 26, 2005 Temperature: 24J Humidity: 69% Atmospheric pressure: 1031mmHg Channel Frequency 01 06 11 2412 2437 2462 Maximum Power Density of 3 kHz Bandwidth

(dBm)

-13.27

-12.77

-12.66

(2) Modulation Standard: IEEE 802.11g Test Date: Feb. 26, 2005 Temperature: 24J Humidity: 69% Atmospheric pressure: 1031mmHg Channel Frequency 01 06 11 2412 2437 2462 Maximum Power Density of 3 kHz Bandwidth

(dBm)

-18.80

-18.44

-18.32 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 69 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 70 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 71 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 72 of 76 FCC ID: P27IP802SMV2 10. Restricted Bands of Operation Only spurious emissions are permitted in any of the frequency bands listed below:

FCC Test Report: FI05020503-A MHz MHz MHz 0.09000 0.11000 0.49500 0.505**

2.17350 2.19050 4.12500 4.12800 4.17725 4.17775 4.20725 4.20775 6.21500 6.21800 6.26775 6.26825 6.31175 6.31225 8.29100 8.29400 8.36200 8.36600 8.37625 8.38675 8.41425 8.41475 12.29000 12.29300 12.51975 12.52025 12.57675 12.57725 13.36000 13.41000

**: Until February 1, 1999, this restricted band shall be 0.490-0.510 MHz 16.42000 16.42300 16.69475 16.69525 16.80425 16.80475 25.50000 25.67000 37.50000 38.25000 73.00000 74.60000 74.80000 75.20000 108.00000 121.94000 123.00000 138.00000 149.90000 150.05000 156.52475 156.52525 156.70000 156.90000 162.01250 167.17000 167.72000 173.20000 240.00000 285.00000 322.00000 335.40000 399.9 410.0 608.0 614.0 960.0 1240.0 1300.0 1427.0 1435.0 1626.5 1645.5 1646.5 1660.0 1710.0 1718.8 1722.2 2200.0 2300.0 2310.0 2390.0 2483.5 2500.0 2655.0 2900.0 3260.0 3267.0 3332.0 3339.0 3345.8 3358.0 3600.0 4400.0 GHz 4.500 5.250 5.350 5.460 7.250 7.750 8.025 8.500 9.000 9.200 9.300 9.500 10.600 12.700 13.250 13.400 14.470 14.500 15.350 16.200 17.700 21.400 22.010 23.120 23.600 24.000 31.200 31.800 36.430 36.500 Above 38.6 10.1. Labeling Requirement The device shall bear the following statement in a conspicuous location on the device:

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. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 73 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 11. RF Exposure FCC Rules and Regulations Part 1.1307, 1.1310, 2.1091, 2.1093:

RF Exposure Compliance 11.1. Limit For Maximum Permissible Exposure (MPE)

(A) Limits for Occupational / Controlled Exposure Frequency Range

(MHz) Electric Field Strength (E) (V/m) Magnetic Field Strength (H) (A/m) Power Density (S)

(mW/ cm) 0.3-3.0 3.0-30 30-300 300-1500 1500-100,000 614 1842/f 61.4 1.63 4.89/f 0.163

(100)*

(900/f)*

1.0 F/300 5

(B) Limits for General Population / Uncontrolled Exposure Frequency Range

(MHz) Electric Field Strength (E) (V/m) Magnetic Field Strength (H) (A/m) 0.3-1.34 1.34-30 30-300 300-1500 614 824/f 27.5 1.63 2.19/f 0.073 1500-100,000 F=frequency in MHz *Plane-wave equivalent power density 1.0 Power Density (S)

(mW/cm)

(100)*

(180/f)*

0.2 F/1500 Averaging Time

|E|,|H| or S

(minutes) 6 6 6 6 6 Averaging Time

|E|,|H| or S

( minutes ) 30 30 30 30 30 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 74 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 11.2. MPE Calculations GP 30 d E (V/m) Power Density: Pd (mW/cm) 2E 3770 E Electric field (V/m) P Peak output power (W) G Antenna numeric gain (numeric) d Separation distance (m) Because the EUT is belong to General Population/ Uncontrolled Exposure. So the Limit of Power Density is 10 W/m. We can change the formula to:

30 GP 3770 d 11.3. FCC Radiation Exposure Statement This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. In order to avoid the possibility of exceeding the FCC radio frequency exposure limits, human proximity to the antenna shall not be less than 20cm (8 inches) during normal operation. Proposed RF exposure safety information to include in Users Manual. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 75 of 76 FCC ID: P27IP802SMV2 12. List of Measuring Equipment Used FCC Test Report: FI05020503-A Instrument/Ancillary No 1 BILOG ANTENNA 2 PREAMPLIFIER 3 RECEIVER 4 SIGNAL GENERATOR 5 AMPLIFIER 6 AMPLIFIER 7 SERIES POWER METER 8 POWER SENSOR 9 DIPOLE ANTENNA 10 DIPOLE ANTENNA 11 SPECTRUM ANALYZER 12 PREAMPLIFIER 13 HORN ANTENNA 14 HORN ANTENNA 15 HORN ANTENNA 16 HORN ANTENNA 17 EMI RECEIVER 18 RF FILTER SECTION 19 SIGNAL GENERATOR 20 ATTENUATOR 21 ATTENUATOR 22 TEMPERATURE CHAMBER Type CBL6112B RFP4002 SCR3501 8648B 8447D 8447D E4416A E9327A AD-100 AD-100 FSP40 8449B 3115 3115 3116 3116 8546A 85460A 83640A 8491B 8491B Valid Date. Manufacturer Serial No. 2005/04/08 SCHAFFNER 2840 2005/11/03 SCHAFFNER 010 2005/11/03 SCHAFFNER 437 3629U00612 2006/02/08 HP 2443A04650 2006/02/14 AGILENT 2944A10531 2005/06/30 AGILENT GB41292146 2005/10/11 AGILENT US40441392 2005/10/11 AGILENT 2005/12/02 COM-POWER 721011 2005/12/02 COM-POWER 721010 100047 R&S 2005/12/28 3008A01954 2005/12/27 AGILENT 2006/02/21 31601 EMCO 2006/01/31 31589 EMCO EMCO 31970 2006/01/30 31974 EMCO 2006/02/21 HP 3807A00454 2006/02/25 3704A00386 2006/02/25 HP 2927A00107 2006/03/16 HP AGILENT 50703 2005/12/27 2005/12/27 50705 AGILENT TMJ-9712 T MACHINE T-12-040111 2006/02/21 23 HIGH PASS FILTER 24 HIGH PASS FILTER 25 DC Power Supply 26 AC POWER CONVERTER 84300-80038 HP 84300-80038 HP GPD-3030 GM APC AFC-11005 002 N/A 006 N/A 7020936 N/A F103120008 N/A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 76 of 76 FCC ID: P27IP802SMV2

 

 

Test mode 2: Transmit/ Receive (DC 5V from pc system) FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 24 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 25 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 26 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 27 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 28 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 29 of 76 FCC ID: P27IP802SMV2

 

 

FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 30 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 31 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 32 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 33 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 34 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Test By:

Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 35 of 76 FCC ID: P27IP802SMV2 5.3.1. Photographs of Conducted Emission Test Test mode 1: Transmit/ Receive (DC 5V from adapter) FCC Test Report: FI05020503-A Front View Rear View Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 36 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Test mode 2: Transmit/ Receive (DC 5V from pc system) Front View Rear View Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 37 of 76 FCC ID: P27IP802SMV2

 

 

FCC Test Report: FI05020503-A 6. Test of Radiated Emission Radiated emissions from 30 MHz to 25 GHz were measured according to the methods defines in ANSI C63.4-2003. The EUT was placed, 0.8 meter above the ground plane, as shown in section 1.4.2. The interface cables and equipment positions were varied within limits of reasonable applications to determine the positions producing maximum radiated emissions 6.1. Test Procedures 1. The EUT was placed on a rotatable table top 0.8 meter above ground. 2. The EUT was set 3 meters from the interference receiving antenna which was mounted on the top of a variable height antenna tower. 3. The table was rotated 360 degrees to determine the position of the highest radiation. 4. The antenna is a broadband antenna and its height is varied between one meter and four meters above ground to find the maximum value of the field strength both horizontal polarization and vertical polarization of the antenna are set to make the measurement. 5. For each suspected emission the EUT was arranged to its worst case and then tune the antenna tower (from 1 M to 4 M) and turn table (from 0 degree to 360 degrees) to find the maximum reading. 6. Set the test-receiver system to Peak or CISPR quasi-peak Detect Function and specified 7. bandwidth with Maximum Hold Mode. If the emission level of the EUT in peak mode was 3 dB lower than the limit specified, then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions which do not have 3 dB margin will be repeated one by one using the quasi-peak method and reported. 8. For testing above 1GHz, the emission level of the EUT in peak mode was 20dB lower than average limit (that means the emission level in peak mode also complies with the limit in average mode), then testing will be stopped and peak values of EUT will be reported, otherwise, the emissions will be measured in average mode again and reported. 6.2. Typical Test Setup Layout of Radiated Emission Antenna Equipment under Test

* Test distance Turn Table 0.8M Ground Plane Receiver Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 38 of 76 FCC ID: P27IP802SMV2 6.3. Test Result of Radiated emission FCC Test Report: FI05020503-A H/V

(MHz) Ant-Pol Remark Corrected Frequency Table Deg. Margin

(dB) Limit@3m

(dBuV/m) Result@3m

(dBuV/m) Test mode 1: Transmit/ Receive (DC 5V from adapter) Emission frequencies below 1 GHz Channel HI Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg Ant High

(m) 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 Meter Reading

(dBuV) 51.21 51.97 51.35 48.40 48.76 49.09 41.33 43.42 38.02 37.82 53.22 49.44 47.86 43.62 48.54 48.42 40.14 37.85 36.00 35.53 Factor

(dB)

-13.31

-11.84

-12.03

-11.26

-10.40

-10.34

-3.73

-1.82 1.06 3.26

-17.93

-13.31

-7.35

-7.26

-6.66

-6.08

-1.80

-0.57 1.09 1.68 158.04 224.97 248.25 298.69 318.09 331.67 600.36 640.13 801.15 955.38 78.50 158.04 432.55 439.34 463.59 479.11 641.10 701.24 802.12 817.64 37.90 40.07 39.32 37.14 38.36 38.75 37.60 41.60 39.08 41.08 35.29 36.13 40.51 36.36 41.88 42.34 38.34 37.28 37.09 37.21 43.5 46.0 46.0 46.0 46.0 46.0 46.0 46.0 46.0 46.0 40.0 43.50 46.0 46.0 46.0 46.0 46.0 46.0 46.0 46.0

-5.60

-5.93

-6.68

-8.86

-7.64

-7.25

-8.40

-4.40

-6.92

-4.92

-4.71

-7.37

-5.49

-9.64

-4.12

-3.66

-7.66

-8.72

-8.91

-8.79 Peak Peak Peak Peak Peak Peak Peak Q.P. Peak Q.P. Q.P. Peak Peak Peak Peak Q.P. Peak Peak Peak Peak 192 192 192 192 192 192 122 122 122 122 192 192 192 192 192 192 122 122 122 122 H H H H H H H H H H V V V V V V V V V V Notes:

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 39 of 76 FCC ID: P27IP802SMV2 Modulation Standard: IEEE 802.11b (11Mbps) FCC Test Report: FI05020503-A H/V

(MHz) Ant-Pol Remark Corrected Frequency Table Deg. Margin

(dB) Limit@3m

(dBuV/m) Result@3m

(dBuV/m) 53.03 49.27 61.77 51.04 63.00 51.25 Factor

(dB)

-2.42

-2.42 8.12 8.12 11.89 11.88 Meter Reading

(dBuV) 55.45 51.69 53.65 42.92 51.11 39.37 Emission frequencies above 1 GHz Channel LO Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg Ant High

(m) 1.0 1.0 1.0 1.0 1.1 1.1

---

---

1.1 1.1 1.0 1.0 1.0 1.0

---

1.1 1.1 1600.10 1600.10 4822.10 4822.10 7232.50 7232.50 9648.00 12060.00 1600.10 1600.10 4822.10 4822.10 7232.70 7232.70 9648.00 12060.75 12060.75 Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Peak Ave Ave Peak Ave 122 122 262 262 261 261

---

---

192 192 220 220 219 219

---

174 174 74 54 74 54 74 54 54 54 74 54 74 54 74 54 54 54 54

-20.97

-4.73

-12.23

-2.96

-11.00

-2.75

-18.18

-10.52

-17.84

-2.50

-11.94

-4.41 58.79 46.44 48.80 44.15 51.01 38.54 55.82 43.48 56.16 51.50 62.06 49.59

-2.97

-2.96 7.36 7.35 11.05 11.05 H H H H H H H H V V V V V V V V V 51.98 37.38 15.93 15.93 67.91 53.31

-6.09

-0.69

---

---

---

---

---

---

---

---

---

---

---

---

Notes:

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 40 of 76 FCC ID: P27IP802SMV2 Modulation Standard: 802.11b (11Mbps) Emission frequencies above 1 GHz Channel MID Test Date: Mar. 10, 2005 Temperature: 25 Humid J Corrected FCC Test Report: FI05020503-A ity: 65% Atmospheric pressure: 1035mmHg Frequency Ant-Pol

(MHz) H/V 1600.10 1600.10 4872.30 4872.30 7307.90 7307.90 9748.00 12185.00 1600.00 1600.00 2550.00 2550.00 4872.10 4872.10 7311.00 9748.00 12185.00 Notes:

H H H H H H H H V V V V V V V V V Meter Reading

(dBuV) 53.77 50.79 54.37 40.02 50.80 36.93

---

---

58.93 46.85 57.73 45.02 51.47 37.64

---

---

---

Factor

(dB)

-2.42

-2.42 8.32 8.31 12.05 12.04

---

---

-2.96

-2.96 1.10 1.10 7.54 7.53

---

---

---

Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 51.35 48.07 62.69 48.33 62.85 48.97

---

---

55.97 43.89 58.83 46.12 59.01 45.71

---

---

---

74 54 74 54 74 54 54 54 74 54 74 54 74 54 54 54 54

-22.65

-5.93

-11.31

-5.64

-11.15

-5.03

---

---

-18.03

-10.11

-15.17

-7.88

-14.99

-8.83

---

---

---

Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Peak Ave Ave Ave Ave 120 120 265 265 262 262

---

---

191 191 192 192 211 211

---

---

---

Ant High

(m) 1.0 1.0 1.1 1.1 1.0 1.0

---

---

1.0 1.0 1.0 1.0 1.1 1.1

---

---

---

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 120KHz for Peak detection at frequency below 1GHz. 4. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 1MHz for Peak detection and Quasi-peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 41 of 76 FCC ID: P27IP802SMV2 Modulation Standard: IEEE 802.11b (11Mbps) FCC Test Report: FI05020503-A H/V

(MHz) Ant-Pol Remark Corrected Frequency Table Deg. Margin

(dB) Limit@3m

(dBuV/m) Result@3m

(dBuV/m) 53.27 48.86 59.01 45.15 Meter Reading

(dBuV) 55.69 51.28 50.50 36.65 Factor

(dB)

-2.42

-2.42 8.51 8.50

---

---

---

Emission frequencies above 1 GHz Channel HI Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg Ant High

(m) 1.0 1.0 1.0 1.0

---

---

---

1.1 1.1 1.0 1.0

---

---

---

1600.10 1600.10 4922.20 4922.20 7386.00 9848.00 12310.00 1600.00 1600.00 4923.10 4923.10 7385.00 9847.00 1209.00 Peak Ave Peak Ave Ave Ave Ave Peak Ave Peak Ave Ave Ave Ave 126 126 261 261

---

---

---

191 191 219 219

---

---

---

74 54 74 54 54 54 54 74 54 74 54 54 54 54

-2.96

-2.96 7.72 7.72

---

---

---

-20.73

-5.14

-14.99

-8.85

-18.84

-9.71

-16.16

-10.80 H H H H H H H V V V V V V V 58.12 47.25 50.12 35.48 55.16 44.29 57.84 43.20

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

Notes:

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 42 of 76 FCC ID: P27IP802SMV2 Modulation Standard: 802.11g (54Mbps) Emission frequencies above 1 GHz Channel LO Test Date: Mar. 10, 2005 Temperature: 25 Humidity: 6 J Corrected FCC Test Report: FI05020503-A 5% Atmospheric pressure: 1035mmHg Frequency Ant-Pol

(MHz) H/V 1600.10 1600.10 4823.00 4823.00 7231.60 7231.60 9648.00 12060.00 1600.10 1600.10 4824.20 4824.20 7232.70 7232.70 9648.00 12052.30 12052.30 Notes:

H H H H H H H H V V V V V V V V V Meter Reading

(dBuV) 55.77 51.76 55.96 42.79 50.46 38.64

---

---

57.83 46.60 54.46 39.11 46.40 34.30

---

45.59 35.55 Factor

(dB)

-2.42

-2.42 8.09 8.12 11.88 11.88

---

---

-2.96

-2.96 7.34 7.36 11.05 11.05

---

15.93 15.95 Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 53.35 49.34 64.05 50.91 62.34 50.52

---

---

54.87 43.64 61.80 46.47 57.45 45.35

---

61.52 51.50 74 54 74 54 74 54 54 54 74 54 74 54 74 54 54 74 54

-20.65

-4.66

-9.95

-3.09

-11.66

-3.48

---

---

-19.13

-10.36

-12.20

-7.53

-16.55

-8.65

---

-12.48

-2.50 Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Peak Ave Ave Peak Ave 123 123 259 259 262 262

---

---

190 190 222 222 248 248

---

334 334 Ant High

(m) 1.0 1.0 1.1 1.1 1.1 1.1

---

---

1.1 1.1 1.1 1.1 1.0 1.0

---

1.0 1.0 1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 43 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Modulation Standard: 802.11g (54Mbps) Emission frequencies above 1 GHz Channel MID Test Date: Mar. 10, 2005 Temperature: 25 Humidity: 6 J Corrected Frequency Ant-Pol

(MHz) H/V 1600.10 1600.10 4873.60 4873.60 7307.80 7307.80 9748.00 12185.00 1600.10 1600.10 4872.70 4872.70 7311.00 9748.00 12185.00 Notes:

H H H H H H H H V V V V V V V Meter Reading

(dBuV) 55.52 50.82 50.67 38.36 47.99 35.76

---

---

58.43 46.39 49.49 34.57

---

---

---

Factor

(dB)

-2.42

-2.42 8.32 8.31 12.04 12.04

---

---

-2.98

-2.96 7.52 7.54

---

---

---

5% Atmospheric pressure: 1035mmHg Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 53.10 48.40 58.99 46.67 60.03 47.80

---

---

55.45 43.43 57.01 42.11

---

---

---

74 54 74 54 74 54 54 54 74 54 74 54 54 54 54

-20.90

-5.60

-15.01

-7.33

-13.97

-6.20

---

---

-18.55

-10.57

-16.99

-11.89

---

---

---

Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Ave Ave Ave 117 117 262 262 264 264

---

---

194 194 218 218

---

---

---

Ant High

(m) 1.0 1.0 1.0 1.0 1.1 1.1

---

---

1.0 1.0 1.0 1.0

---

---

---

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 44 of 76 FCC ID: P27IP802SMV2 Modulation Standard: 802.11g (54Mbps) Emission frequencies above 1 GHz Channel HI Test Date: Mar.10, 2005 Temperature: 25 Humidity: 6 J Corrected FCC Test Report: FI05020503-A 5% Atmospheric pressure: 1035mmHg Frequency Ant-Pol

(MHz) H/V 1600.10 1600.10 4923.80 4923.80 7386.00 9848.00 12310.00 1600.10 1600.10 4923.50 4923.50 7386.00 9848.00 12310.00 Notes:

H H H H H H H V V V V V V V Meter Reading

(dBuV) 55.74 51.95 46.11 34.67

---

---

---

58.44 45.12 49.78 34.62

---

---

---

Factor

(dB)

-2.42

-2.42 8.51 8.51

---

---

---

-2.96

-2.96 7.70 7.72

---

---

---

Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 53.32 49.53 54.62 43.18

---

---

---

55.48 42.16 57.48 42.34

---

---

---

74 54 74 54 54 54 54 74 54 74 54 54 54 54

---

---

---

-20.68

-4.47

-19.38

-10.82 Peak Ave Peak Ave Ave Ave Ave Peak

-18.52

-11.84 Ave

-16.52 Peak Ave

-11.66 Ave Ave Ave

---

----

---

118 118 264 264

---

---

---

193 193 225 225

---

---

---

Ant High

(m) 1.0 1.0 1.1 1.1

---

---

---

1.0 1.0 1.1 1.1

---

---

---

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 45 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A H/V

(MHz) Ant-Pol Remark Corrected Frequency Table Deg. Margin

(dB) Limit@3m

(dBuV/m) Result@3m

(dBuV/m) Test mode 2: Transmit/ Receive (DC 5V from pc system) Emission frequencies below 1 GHz Channel HI Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg Ant High

(m) 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 Meter Reading

(dBuV) 50.87 50.71 52.49 51.21 51.95 52.20 48.80 51.44 39.83 39.98 37.32 53.42 53.46 54.59 52.53 47.86 47.54 47.15 47.62 44.42 40.14 Factor

(dB)

-17.93

-13.31

-14.29

-13.75

-12.03

-11.26

-10.37

-8.98

-1.80

-0.78 3.26

-17.93

-16.22

-14.77

-8.98

-7.35

-6.86

-6.57

-6.08

-5.79

-1.80 78.50 158.04 197.81 204.60 248.25 298.68 329.73 365.62 641.10 696.39 955.38 78.50 91.11 104.69 365.62 432.55 458.74 465.53 479.11 533.43 641.10 32.94 37.40 38.20 37.46 39.92 40.95 38.42 42.46 38.03 39.20 40.58 35.50 37.24 39.82 43.55 40.51 40.67 40.58 41.55 38.63 38.34

-7.06

-6.10

-5.30

-6.04

-6.08

-5.05

-7.58

-3.54

-7.97

-6.80

-5.42

-4.50

-6.26

-3.68

-2.45

-5.49

-5.33

-5.42

-4.45

-7.37

-7.66 Peak Peak Peak Peak Peak Peak Peak QP Peak Peak Peak QP Peak QP QP Peak Peak Peak QP Peak Peak 40.0 43.5 43.5 43.5 46.0 46.0 46.0 46.0 46.0 46.0 46.0 40.0 43.5 43.5 46.0 46.0 46.0 46.0 46.0 46.0 46.0 192 192 192 192 192 192 192 192 122 122 122 192 192 192 192 192 192 192 192 192 122 H H H H H H H H H H H V V V V V V V V V V Notes:

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 46 of 76 FCC ID: P27IP802SMV2 Modulation Standard: IEEE 802.11b (11Mbps) FCC Test Report: FI05020503-A H/V

(MHz) Ant-Pol Remark Corrected Frequency Table Deg. Margin

(dB) Limit@3m

(dBuV/m) Result@3m

(dBuV/m) 53.32 49.40 60.85 49.51 62.43 50.75 Factor

(dB)

-2.42

-2.42 8.12 8.12 11.89 11.88 Meter Reading

(dBuV) 55.74 51.82 52.73 41.39 50.54 38.87 Emission frequencies above 1 GHz Channel LO Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg Ant High

(m) 1.0 1.0 1.1 1.1 1.1 1.1

---

---

1.1 1.1 1.0 1.0 1.0 1.0

---

1.0 1.0 1600.31 1600.31 4822.41 4822.41 7232.73 7232.73 9648.00 12060.00 1600.43 1600.43 4824.35 4824.35 7236.12 7236.12 9648.00 12058.47 12058.64 Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Peak Ave Ave Peak Ave 123 123 263 263 262 262

---

---

193 193 221 221 220 220

---

175 175 74 54 74 54 74 54 54 54 74 54 74 54 74 54 54 74 54

-20.68

-4.60

-13.15

-4.49

-11.57

-3.25

-18.04

-10.34

-17.56

-4.01

-11.70

-4.24 58.93 46.62 49.08 42.64 51.25 38.71 55.96 43.66 56.44 49.99 62.30 49.76

-2.97

-2.96 7.36 7.35 11.05 11.05 H H H H H H H H V V V V V V V V V

-13.01

-4.25 45.06 33.82 15.93 15.93 60.99 49.75

---

---

---

---

---

---

---

---

---

---

---

---

Notes:

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 47 of 76 FCC ID: P27IP802SMV2 Modulation Standard: 802.11b (11Mbps) Emission frequencies above 1 GHz Channel MID Test Date: Mar. 10, 2005 Temperature: 25 Humidity:

J Corrected FCC Test Report: FI05020503-A 65% Atmospheric pressure: 1035mmHg Frequency Ant-Pol

(MHz) H/V 1600.34 1600.34 4872.43 4872.43 7308.22 7308.22 9748.00 12185.00 1600.37 1600.37 2550.39 2550.39 4872.48 4872.48 7311.00 9748.00 12185.00 Notes:

H H H H H H H H V V V V V V V V V Meter Reading

(dBuV) 53.88 50.63 54.48 40.24 51.13 37.18

---

---

59.04 46.92 57.84 45.36 51.62 37.82

---

---

---

Factor

(dB)

-2.42

-2.42 8.32 8.31 12.05 12.04

---

---

-2.96

-2.96 1.10 1.10 7.54 7.53

---

---

---

Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 51.46 48.21 62.80 48.55 63.18 49.22

---

---

56.08 43.96 58.94 46.46 59.16 45.35

---

---

---

74 54 74 54 74 54 54 54 74 54 74 54 74 54 54 54 54

-22.54

-5.79

-11.20

-5.45

-10.82

-4.78

---

---

-17.92

-10.04

-15.06

-7.54 14.84

-8.65

---

---

---

Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Peak Ave Ave Ave Ave 121 121 266 266 263 263

---

---

192 192 193 193 222 222

---

---

---

Ant High

(m) 1.1 1.1 1.0 1.0 1.0 1.0

---

---

1.1 1.1 1.0 1.0 1.0 1.0

---

---

---

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 120KHz for Peak detection at frequency below 1GHz. 4. The resolution bandwidth and video bandwidth of test receiver/spectrum analyzer is 1MHz for Peak detection and Quasi-peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 48 of 76 FCC ID: P27IP802SMV2 Modulation Standard: IEEE 802.11b (11Mbps) FCC Test Report: FI05020503-A H/V

(MHz) Ant-Pol Remark Corrected Frequency Table Deg. Margin

(dB) Limit@3m

(dBuV/m) Result@3m

(dBuV/m) 53.35 49.94 59.24 45.32 Meter Reading

(dBuV) 55.77 51.36 50.73 36.82 Factor

(dB)

-2.42

-2.42 8.51 8.50

---

---

---

Emission frequencies above 1 GHz Channel HI Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg Ant High

(m) 1.0 1.0 1.1 1.1

---

---

---

1.0 1.0 1.1 1.1

---

---

---

1600.21 1600.21 4922.39 4922.39 7386.00 9848.00 12310.00 1600.19 1600.19 4923.28 4923.28 7385.00 9847.00 12309.00 Peak Ave Peak Ave Ave Ave Ave Peak Ave Peak Ave Ave Ave Ave 127 127 262 262

---

---

---

192 192 220 220

---

---

---

74 54 74 54 54 54 54 74 54 74 54 54 54 54

-2.96

-2.96 7.72 7.72

---

---

---

-20.65

-5.06 14.76

-8.68

-18.54

-9.53

-16.00

-10.69 H H H H H H H V V V V V V V 58.42 47.43 50.28 35.59 55.46 44.47 58.00 43.31

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

Notes:

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 49 of 76 FCC ID: P27IP802SMV2 Modulation Standard: 802.11g (54Mbps) Emission frequencies above 1 GHz Channel LO Test Date: Mar. 10, 2005 Temperature: 25 Humidity: 6 J Corrected FCC Test Report: FI05020503-A 5% Atmospheric pressure: 1035mmHg Frequency Ant-Pol

(MHz) H/V 1600.41 1600.41 4823.19 4823.19 7231.74 7231.74 9748.00 12185.00 1600.28 1600.28 4824.33 4824.33 7232.91 7232.91 9648.00 12052.58 12052.58 Notes:

H H H H H H H H V V V V V V V V V Meter Reading

(dBuV) 55.84 51.83 57.14 42.93 52.66 38.88

---

---

57.88 46.92 54.64 39.23 46.68 34.51

---

46.73 34.98 Factor

(dB)

-2.42

-2.42 8.09 8.12 11.88 11.88

---

---

-2.96

-2.96 7.34 7.36 11.05 11.05

---

15.93 15.95 Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 53.42 49.41 65.23 51.05 64.54 50.76

---

---

54.92 43.96 61.98 46.59 57.73 45.56

---

62.66 50.93 74 54 74 54 74 54 54 54 74 54 74 54 74 54 54 74 54

-20.58

-4.59

-8.77

-2.95

-9.46

-3.24

---

---

-19.08

-10.04

-12.02

-7.41

-16.27

-8.44

---

-11.34

-3.07 Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Peak Ave Ave Peak Ave 124 124 260 260 236 263

---

---

191 191 223 223 249 249

---

335 335 Ant High

(m) 1.1 1.1 1.0 1.0 1.0 1.0

---

---

1.0 1.0 1.0 1.0 1.1 1.1

---

1.1 1.1 1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 50 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Modulation Standard: 802.11g (54Mbps) Emission frequencies above 1 GHz Channel MID Test Date: Mar. 10, 2005 Temperature: 25 Humidity: 6 J Corrected Frequency Ant-Pol

(MHz) H/V 1600.26 1600.26 4873.71 4873.71 7307.93 7307.93 9748.00 12185.00 1600.17 1600.17 4872.91 4872.91 7311.00 9748.00 12185.00 Notes:

H H H H H H H H V V V V V V V Meter Reading

(dBuV) 55.71 51.02 53.79 39.61 47.18 35.84

---

---

58.54 46.51 49.54 39.62

---

---

---

Factor

(dB)

-2.42

-2.42 8.32 8.31 12.04 12.04

---

---

-2.98

-2.96 7.52 7.54

---

---

---

5% Atmospheric pressure: 1035mmHg Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 53.29 48.60 62.11 47.92 59.22 47.88

---

---

55.56 43.55 57.06 47.16

---

---

---

74 54 74 54 74 54 54 54 74 54 74 54 54 54 54

-20.71

-5.40

-11.89

-6.08

-14.78

-6.12

---

---

-18.44

-10.45

-16.94

-6.84

---

---

---

Peak Ave Peak Ave Peak Ave Ave Ave Peak Ave Peak Ave Ave Ave Ave 118 118 263 263 265 265

---

---

195 195 219 219

---

---

---

Ant High

(m) 1.1 1.1 1.1 1.1 1.1 1.1

---

---

1.1 1.1 1.1 1.1

---

---

---

1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 51 of 76 FCC ID: P27IP802SMV2 Modulation Standard: 802.11g (54Mbps) Emission frequencies above 1 GHz Channel HI Test Date: Mar.10, 2005 Temperature: 25 Humidity: 6 J Corrected FCC Test Report: FI05020503-A 5% Atmospheric pressure: 1035mmHg Frequency Ant-Pol

(MHz) H/V 1600.21 1600.21 4922.47 4922.47 7386.00 9848.00 12310.00 1600.02 1600.02 4923.47 4923.47 7385.00 9847.00 12309.00 Notes:

H H H H H H H V V V V V V V Meter Reading

(dBuV) 55.77 51.49 50.63 36.74

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---

58.28 47.44 50.32 35.54

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Factor

(dB)

-2.42

-2.42 8.51 8.50

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---

-2.96

-2.96 7.72 7.72

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Result@3m

(dBuV/m) Limit@3m

(dBuV/m) Margin

(dB) Remark Table Deg. 53.35 49.07 59.14 45.24

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55.32 44.48 58.04 43.26

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74 54 74 54 54 54 54 74 54 74 54 54 54 54

-20.65

-4.93

-14.86

-8.76

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-18.68

-9.52

-15.96

-10.74

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Peak Ave Peak Ave Ave Ave Ave Peak Ave Peak Ave Ave Ave Ave 127 127 262 262

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192 192 220 220

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Ant High

(m) 1.0 1.0 1.1 1.1

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---

1.0 1.0 1.1 1.1

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1. Result = Meter Reading + Corrected Factor 2. Corrected Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 120 kHz and video bandwidth is 300 kHz for Peak detection and Quasi-peak detection at frequency below 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 5. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz. 6. The other emissions is too below to be measured. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 52 of 76 FCC ID: P27IP802SMV2 6.3.1. Photographs of Radiated Emission Test Test mode 1: Transmit/ Receive (DC 5V from adapter) FCC Test Report: FI05020503-A Front View Rear View Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 53 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Test mode 2: Transmit/ Receive (DC 5V from pc system) Front View Rear View Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 54 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 6.4. 6dB Bandwidth Measurement Data 6.5. Test Procedure 1. The transmitter output was connected to the spectrum analyzer. 2. Set RBW of spectrum analyzer to 100 KHz and VBW to 100 KHz. 3. The 6 dB bandwidth is defined as the total spectrum the power of which is higher than peak power minus 6 dB. 6.6. Test Setup Layout EUT Spectrum Analyzer 6.7. Test Result and Data

(1) Modulation Standard: IEEE 802.11b Test Date: Feb. 26, 2005 Temperature: 24J Humidity: 69% Atmospheric pressure: 1031mmHg Channel 01 06 11 Frequency 6dB Bandwidth

(MHz) 2412 2437 2462

(MHz) 7.6 7.6 7.6

(2) Modulation Standard: IEEE 802.11g Test Date: Feb. 26, 2005 Temperature: 24J Humidity: 69% Atmospheric pressure: 1031mmHg Channel 01 06 11 Frequency 6dB Bandwidth

(MHz) 2412 2437 2462

(MHz) 15.5 15.5 15.5 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 55 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 56 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 57 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 58 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 7. Maximum Peak Output Power 7.1. Test Procedure The antenna port] RF output^ of the EUT was connected to the input] RF input^ of a spectrum analyzer. Power was read directly from the spectrum analyzer and cable loss connection was added to the reading to obtain power at the EUT antenna terminal. The EUT Output Power was set to maximum to produce the worse case test result. 7.2. Test Setup Layout EUT Spectrum Analyzer 7.3. Test Result and Data

(1) Modulation Standard: IEEE 802.11b Test Date: Feb. 15, 2005 Temperature: 24J Humidity: 64% Atmospheric pressure: 1020mmHg Channel 01 06 11 Frequency Peak Power Output Peak Power Output

(MHz) 2412 2437 2462

(dBm) 15.72 15.85 16.09

(mW) 37.325 38.459 40.644

(2) Modulation Standard: IEEE 802.11g Test Date: Feb. 15, 2005 Temperature: 24J Humidity: 64% Atmospheric pressure: 1020mmHg Channel 01 06 11 Frequency Peak Power Output Peak Power Output

(MHz) 2412 2437 2462

(dBm) 15.47 15.67 15.86

(mW) 35.237 36.898 38.548 Note: Conducted Power = Reading Value + Cable Loss Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 59 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 60 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 61 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 62 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 8. Band Edges Measurement 8.1. Test Procedure 1. The transmitter output was connected to the spectrum analyzer via a low lose cable. 2. Set both RBW and VBW of spectrum analyzer to 100 KHz with convenient frequency span including 100 MHz bandwidth from band edge. 3. The band edges was measured and recorded. 8.2. Test Result and Data

(1) Modulation Standard: IEEE 802.11b Test Date: Feb. 26, 2005 Temperature: 24J Humidity: 69% Atmospheric pressure: 1031mmHg Channel Frequency 01 11 2412 2462 maximum value in frequency maximum value is

(MHz) 2545.0 2488.1

(dBm)

-45.89

-47.84

(2) Modulation Standard: IEEE 802.11g Test Date: Feb. 26, 2005 Temperature: 24J Humidity: 69% Atmospheric pressure: 1031mmHg Channel Frequency 01 11 2412 2462 maximum value in frequency maximum value is

(MHz) 2400.0 2488.1

(dBm)

-41.34

-44.18 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 63 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 64 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 65 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 66 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 67 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 8.3. Restrict band emission Measurement Data Modulation Standard: IEEE 802.11b Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg a) Channel 1 Frequency

(MHz) Ant-Pol H/V Meter Reading Corrected Factor Result

(dBuV/m) Remark 2386.296 2388.132 2386.500 2387.928 b) Channel 11 H H V V 64.58 51.15 63.17 49.18 1.24 1.24 1.24 1.24 65.82 52.39 64.41 50.42 Peak Ave. Peak Ave. Frequency

(MHz) Ant-Pol H/V Meter Reading Corrected Factor Result

(dBuV/m) Remark 2488.296 2488.068 2483.888 2484.040 H H V V 52.17 42.14 52.54 38.55 1.24 1.24 1.23 1.23 53.41 43.38 53.77 39.78 Peak Ave. Peak Ave. Limit@3m

(dBuV/m) Peak Ave. 54 74 54 74 54 74 74 54 Limit@3m

(dBuV/m) Peak Ave. 54 74 54 74 74 54 54 74 Margin

(dB) Table

(Deg.)

-8.18

-1.61

-8.59

-3.58 260 260 221 221 Margin

(dB) Table

(Deg.)

-20.59

-10.62

-20.23

-14.22 265 265 223 223 Modulation Standard: IEEE 802.11g Test Date: Mar. 10, 2005 Temperature: 25J Humidity: 65% Atmospheric pressure: 1035mmHg a) Channel 1 Frequency

(MHz) Ant-Pol H/V Meter Reading Corrected Factor Result

(dBuV/m) Remark 2389.764 2389.968 2388.132 2388.132 b) Channel 11 H H V V 60.01 50.73 62.71 50.88 1.25 1.25 1.24 1.24 61.26 51.98 63.95 52.12 Peak Ave. Peak Ave. Frequency

(MHz) Ant-Pol H/V Meter Reading Corrected Factor Result

(dBuV/m) Remark 2483.888 2483.964 2488.068 2488.068 H H V V 54.21 43.83 52.78 44.80 1.23 1.23 1.24 1.24 55.44 45.06 54.02 46.02 Peak Ave. Peak Ave. Limit@3m

(dBuV/m) Peak Ave. 54 74 54 74 74 54 54 74 Limit@3m

(dBuV/m) Peak Ave. 54 74 74 54 54 74 74 54 Margin

(dB) Table

(Deg.)

-12.74

-2.02

-10.05

-1.88 260 260 221 221 Margin

(dB) Table

(Deg.)

-18.56

-8.94

-19.98

-7.98 265 265 223 223 Notes:

1. Result = Meter Reading + Factor 2. Factor = Antenna Factor + Cable Loss Amplifier 3. The resolution bandwidth of test receiver/spectrum analyzer is 1 MHz and video bandwidth is 3 MHz for Peak detection at frequency above 1GHz. 4. The resolution bandwidth of test receiver/spectrum analyzer is 1MHz and video bandwidth is 10Hz for Average detection at frequency above 1GHz Ant High

(m) 1.0 1.0 1.0 1.0 Ant High

(m) 1.0 1.0 1.0 1.0 Ant High

(m) 1.0 1.0 1.0 1.0 Ant High

(m) 1.0 1.0 1.0 1.0 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 68 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 9. Power Spectral Density 9.1. Test Procedure 1. The transmitter output was connected to spectrum analyzer. 2. The spectrum analyzers resolution bandwidth were set at 3KHz RBW and 30KHz VBW as that of the fundamental frequency. Set the sweep time=span/3KHz. 3. The power spectral density was measured and recorded. 4. The Sweep time is allowed to be longer than span/3KHz for a full response of the mixer in the spectrum analyzer. 9.2. Test Setup Layout EUT Spectrum Analyzer 9.3. Test Result and Data

(1) Modulation Standard: IEEE 802.11b Test Date: Feb. 26, 2005 Temperature: 24J Humidity: 69% Atmospheric pressure: 1031mmHg Channel Frequency 01 06 11 2412 2437 2462 Maximum Power Density of 3 kHz Bandwidth

(dBm)

-13.27

-12.77

-12.66

(2) Modulation Standard: IEEE 802.11g Test Date: Feb. 26, 2005 Temperature: 24J Humidity: 69% Atmospheric pressure: 1031mmHg Channel Frequency 01 06 11 2412 2437 2462 Maximum Power Density of 3 kHz Bandwidth

(dBm)

-18.80

-18.44

-18.32 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 69 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 70 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 71 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 72 of 76 FCC ID: P27IP802SMV2 10. Restricted Bands of Operation Only spurious emissions are permitted in any of the frequency bands listed below:

FCC Test Report: FI05020503-A MHz MHz MHz 0.09000 0.11000 0.49500 0.505**

2.17350 2.19050 4.12500 4.12800 4.17725 4.17775 4.20725 4.20775 6.21500 6.21800 6.26775 6.26825 6.31175 6.31225 8.29100 8.29400 8.36200 8.36600 8.37625 8.38675 8.41425 8.41475 12.29000 12.29300 12.51975 12.52025 12.57675 12.57725 13.36000 13.41000

**: Until February 1, 1999, this restricted band shall be 0.490-0.510 MHz 16.42000 16.42300 16.69475 16.69525 16.80425 16.80475 25.50000 25.67000 37.50000 38.25000 73.00000 74.60000 74.80000 75.20000 108.00000 121.94000 123.00000 138.00000 149.90000 150.05000 156.52475 156.52525 156.70000 156.90000 162.01250 167.17000 167.72000 173.20000 240.00000 285.00000 322.00000 335.40000 399.9 410.0 608.0 614.0 960.0 1240.0 1300.0 1427.0 1435.0 1626.5 1645.5 1646.5 1660.0 1710.0 1718.8 1722.2 2200.0 2300.0 2310.0 2390.0 2483.5 2500.0 2655.0 2900.0 3260.0 3267.0 3332.0 3339.0 3345.8 3358.0 3600.0 4400.0 GHz 4.500 5.250 5.350 5.460 7.250 7.750 8.025 8.500 9.000 9.200 9.300 9.500 10.600 12.700 13.250 13.400 14.470 14.500 15.350 16.200 17.700 21.400 22.010 23.120 23.600 24.000 31.200 31.800 36.430 36.500 Above 38.6 10.1. Labeling Requirement The device shall bear the following statement in a conspicuous location on the device:

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. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 73 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 11. RF Exposure FCC Rules and Regulations Part 1.1307, 1.1310, 2.1091, 2.1093:

RF Exposure Compliance 11.1. Limit For Maximum Permissible Exposure (MPE)

(A) Limits for Occupational / Controlled Exposure Frequency Range

(MHz) Electric Field Strength (E) (V/m) Magnetic Field Strength (H) (A/m) Power Density (S)

(mW/ cm) 0.3-3.0 3.0-30 30-300 300-1500 1500-100,000 614 1842/f 61.4 1.63 4.89/f 0.163

(100)*

(900/f)*

1.0 F/300 5

(B) Limits for General Population / Uncontrolled Exposure Frequency Range

(MHz) Electric Field Strength (E) (V/m) Magnetic Field Strength (H) (A/m) 0.3-1.34 1.34-30 30-300 300-1500 614 824/f 27.5 1.63 2.19/f 0.073 1500-100,000 F=frequency in MHz *Plane-wave equivalent power density 1.0 Power Density (S)

(mW/cm)

(100)*

(180/f)*

0.2 F/1500 Averaging Time

|E|,|H| or S

(minutes) 6 6 6 6 6 Averaging Time

|E|,|H| or S

( minutes ) 30 30 30 30 30 Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 74 of 76 FCC ID: P27IP802SMV2 FCC Test Report: FI05020503-A 11.2. MPE Calculations GP 30 d E (V/m) Power Density: Pd (mW/cm) 2E 3770 E Electric field (V/m) P Peak output power (W) G Antenna numeric gain (numeric) d Separation distance (m) Because the EUT is belong to General Population/ Uncontrolled Exposure. So the Limit of Power Density is 10 W/m. We can change the formula to:

30 GP 3770 d 11.3. FCC Radiation Exposure Statement This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. In order to avoid the possibility of exceeding the FCC radio frequency exposure limits, human proximity to the antenna shall not be less than 20cm (8 inches) during normal operation. Proposed RF exposure safety information to include in Users Manual. Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 75 of 76 FCC ID: P27IP802SMV2 12. List of Measuring Equipment Used FCC Test Report: FI05020503-A Instrument/Ancillary No 1 BILOG ANTENNA 2 PREAMPLIFIER 3 RECEIVER 4 SIGNAL GENERATOR 5 AMPLIFIER 6 AMPLIFIER 7 SERIES POWER METER 8 POWER SENSOR 9 DIPOLE ANTENNA 10 DIPOLE ANTENNA 11 SPECTRUM ANALYZER 12 PREAMPLIFIER 13 HORN ANTENNA 14 HORN ANTENNA 15 HORN ANTENNA 16 HORN ANTENNA 17 EMI RECEIVER 18 RF FILTER SECTION 19 SIGNAL GENERATOR 20 ATTENUATOR 21 ATTENUATOR 22 TEMPERATURE CHAMBER Type CBL6112B RFP4002 SCR3501 8648B 8447D 8447D E4416A E9327A AD-100 AD-100 FSP40 8449B 3115 3115 3116 3116 8546A 85460A 83640A 8491B 8491B Valid Date. Manufacturer Serial No. 2005/04/08 SCHAFFNER 2840 2005/11/03 SCHAFFNER 010 2005/11/03 SCHAFFNER 437 3629U00612 2006/02/08 HP 2443A04650 2006/02/14 AGILENT 2944A10531 2005/06/30 AGILENT GB41292146 2005/10/11 AGILENT US40441392 2005/10/11 AGILENT 2005/12/02 COM-POWER 721011 2005/12/02 COM-POWER 721010 100047 R&S 2005/12/28 3008A01954 2005/12/27 AGILENT 2006/02/21 31601 EMCO 2006/01/31 31589 EMCO EMCO 31970 2006/01/30 31974 EMCO 2006/02/21 HP 3807A00454 2006/02/25 3704A00386 2006/02/25 HP 2927A00107 2006/03/16 HP AGILENT 50703 2005/12/27 2005/12/27 50705 AGILENT TMJ-9712 T MACHINE T-12-040111 2006/02/21 23 HIGH PASS FILTER 24 HIGH PASS FILTER 25 DC Power Supply 26 AC POWER CONVERTER 84300-80038 HP 84300-80038 HP GPD-3030 GM APC AFC-11005 002 N/A 006 N/A 7020936 N/A F103120008 N/A Exclusive Certification Corp. Tel:886-2-2792-3366 Fax:886-2-2792-1100 Issued date: Mar. 11, 2005 76 of 76 FCC ID: P27IP802SMV2

 

 

1.1. Test Result of RF Exposure Evaluation

. Product: 3 in 1 AP

. Test Item: RF Exposure Evaluation Data

. Test site: OATSI-SD

. Test Mode: Normal Operation 1.1.1. Antenna Gain The maximum Gain is 1.0 dBi. 1.1.2. EUT Operation condition Software provided by client enabled the EUT to transmit and receive data at lowest, middle and highest channel individually. 1.1.3. Output Power into Antenna & RF Exposure Evaluation Distance Modulation Standard: IEEE 802.11b Test Date: March. 10, 2005 Temperature: 25 J Humidity: 65H Channel Channel Frequency Output Power to Antenna Power Density (S) 01 06 11

(MHz) 2412 2437 2462

(dBm) 15.72 15.85 16.09

(mW/cm2) 0.0090 0.0100 0.0100 Modulation Standard: IEEE 802.11g Test Date: March. 10, 2005 Temperature: 25 J Humidity: 65H Channel Channel Frequency Output Power to Antenna Power Density (S) 01 06 11

(MHz) 2412 2437 2462

(dBm) 15.47 15.67 15.86

(mW/cm2) 0.0090 0.0090 0.0100 The MPE is calculated as 0.0100 mW / cm2 < limit 1 mW / cm2. So, RF exposure limit warning or SAR test are not required.