FCC ID: P27IP806GA 802.11 b/g Wireless ADSL Router

 

IP806GA/GB Wireless ADSL Router 802.11g/802.11b Wireless Access Point ADSL Modem NAT Router 4-Port Switching Hub User's Guide Table of Contents CHAPTER 1 INTRODUCTION ............................................................................................. 1 Wireless ADSL Router Features...................................................................................... 1 Package Contents .............................................................................................................. 3 Physical Details.................................................................................................................. 4 CHAPTER 2 INSTALLATION............................................................................................... 6 Requirements..................................................................................................................... 6 Procedure ........................................................................................................................... 6 CHAPTER 3 SETUP ................................................................................................................ 8 Overview ............................................................................................................................ 8 Configuration Program ....................................................................................................9 Setup Wizard ................................................................................................................... 11 LAN Screen...................................................................................................................... 13 WEP Screen......................................................................................................................15 Password Screen..............................................................................................................16 CHAPTER 4 PC CONFIGURATION ..................................................................................17 Overview ..........................................................................................................................17 Windows Clients..............................................................................................................17 Macintosh Clients............................................................................................................29 Linux Clients....................................................................................................................2 9 Other Unix Systems.........................................................................................................2 9 Wireless Station Configuration......................................................................................30 CHAPTER 5 OPERATION AND STATUS.........................................................................31 Operation .........................................................................................................................31 Status Screen....................................................................................................................31 Connection Status - PPPoE & PPPoA...........................................................................33 Connection Details - Dynamic IP Address....................................................................34 Connection Details - Fixed IP Address..........................................................................36 CHAPTER 6 ADVANCED FEATURES ..............................................................................37 Overview ..........................................................................................................................37 Dynamic DNS (Domain Name Server) ..........................................................................37 Firewall Rules ..................................................................................................................39 Services.............................................................................................................................39 Schedule............................................................................................................................39 URL Filter........................................................................................................................47 Virtual Servers.................................................................................................................48 CHAPTER 7 ADVANCED ADMINISTRATION...............................................................51 Overview ..........................................................................................................................51 Config File........................................................................................................................52 Logs...................................................................................................................................53 Network Diagnostics .......................................................................................................55 E-mail ...............................................................................................................................56 Remote Admin.................................................................................................................58 Routing.............................................................................................................................60 Router Upgrade...............................................................................................................64 i APPENDIX A TROUBLESHOOTING................................................................................65 Overview ..........................................................................................................................65 General Problems............................................................................................................65 Internet Access.................................................................................................................65 Wireless Access................................................................................................................ 66 APPENDIX B ABOUT WIRELESS LANS..........................................................................68 Modes ...............................................................................................................................68 BSS/ESS............................................................................................................................68 Channels...........................................................................................................................69 WEP..................................................................................................................................69 Wireless LAN Configuration..........................................................................................69 APPENDIX C SPECIFICATIONS .......................................................................................70 Multi-Function Wireless ADSL Router.........................................................................70 Wireless Interface............................................................................................................70 Regulatory Approvals.....................................................................................................71 P/N: 9560LB0001 Copyright 2003. All Rights Reserved. Document Version: 1.2 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 ADSL Router's features and capabilities. Congratulations on the purchase of your new Wireless ADSL Router. The Wireless ADSL Router is a multi-function device providing the following services:

ADSL Modem. Shared Broadband Internet Access for all LAN users. Wireless Access Point for 802.11b and 802.11g Wireless Stations. 4-Port Switching Hub for 10BaseT or 100BaseT connections. Wireless ADSL Router Features Figure 1: Wireless ADSL Router The Wireless ADSL Router incorporates many advanced features, carefully designed to provide sophisticated functions while being easy to use. Internet Access Features Shared Internet Access. All users on the LAN or WLAN can access the Internet through the Wireless ADSL Router, using only a single external IP Address. The local

(invalid) IP Addresses are hidden from external sources. This process is called NAT

(Network Address Translation). Built-in ADSL Modem. The Wireless ADSL Router has a built-in ADSL modem, supporting all common ADSL connections. IPoA, PPPoE, PPPoA, Direct Connection Support. The Wireless ADSL Router supports all common connection methods. 1 Wireless ADSL Router User Guide Auto-detection of Internet Connection Method. The Wireless ADSL Router can test your ADSL and Internet connection to determine the connection method used by your ISP. Fixed or Dynamic IP Address. On the Internet (WAN port) connection, the Wireless ADSL Router supports both Dynamic IP Address (IP Address is allocated on connection) and Fixed IP Address. Advanced Internet Functions Application Level Gateways (ALGs). Applications which use non-standard connections or port numbers are normally blocked by the Firewall. The ability to define and allow such applications is provided, to enable such applications to be used normally. Virtual Servers. This feature allows Internet users to access Internet servers on your LAN. The required setup is quick and easy. URL Filter. Use the URL Filter to block access to undesirable Web sites by LAN users. Logs. Define what data is recorded in the Logs, and optionally send log data to a Syslog Server. Log data can also be E-mailed to you. Firewall. As well as the built-in firewall to protect your LAN, you can define Firewall Rules to determine which incoming and outgoing traffic should be permitted. Dynamic DNS Support. DDNS, when used with the Virtual Servers feature, allows users to connect to Servers on your LAN using a Domain Name, even if you have a dynamic IP address which changes every time you connect. VPN Pass through Support. PCs with VPN (Virtual Private Networking) software using PPTP, L2TP and IPSec are transparently supported - no configuration is required. Wireless Features Standards Compliant. The Wireless ADSL Router complies with the IEEE802.11g

(DSSS) specifications for Wireless LANs. Supports both 802.11b and 802.11g Wireless Stations. The 802.11g standard provides for backward compatibility with the 802.11b standard, so both 802.11b and 802.11g Wireless stations can be used simultaneously. 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. 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. Simple Configuration. If the default settings are unsuitable, they can be changed quickly and easily. LAN Features 4-Port Switching Hub. The Wireless ADSL Router incorporates a 4-port 10/100BaseT switching hub, making it easy to create or extend your LAN. DHCP Server Support. Dynamic Host Configuration Protocol provides a dynamic IP address to PCs and other devices upon request. The Wireless ADSL Router can act as a DHCP Server for devices on your local LAN and WLAN. Multi Segment LAN Support. LANs containing one or more segments are supported, via the Wireless ADSL Router's RIP (Routing Information Protocol) support and built-in static routing table. 2 Introduction Configuration & Management Easy Setup. Use your WEB browser from anywhere on the LAN or WLAN for configuration. Configuration File Upload/Download. Save (download) the configuration data from the Wireless ADSL Router to your PC, and restore (upload) a previously-saved configuration file to the Wireless ADSL Router. Remote Management. The Wireless ADSL Router can be managed from any PC on your LAN. And, if the Internet connection exists, it can also (optionally) be configured via the Internet. Network Diagnostics. You can use the Wireless ADSL Router to perform a Ping or DNS lookup. Security Features Password - protected Configuration. Optional password protection is provided to prevent unauthorized users from modifying the configuration data and settings. Wireless LAN Security. WEP (Wired Equivalent Privacy) is supported, as well as Wireless access control to prevent unknown wireless stations from accessing your LAN. NAT Protection. An intrinsic side effect of NAT (Network Address Translation) technology is that by allowing all LAN users to share a single IP address, the location and even the existence of each PC is hidden. From the external viewpoint, there is no network, only a single device - the Wireless ADSL Router. Firewall. All incoming data packets are monitored and all incoming 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 bandwidth and so many resources that Internet access becomes unavailable. The Wireless ADSL Router incorporates protection against DoS attacks. Package Contents The following items should be included:

The Wireless ADSL Router Unit Power Adapter Quick Installation Guide CD-ROM containing the on-line manual. If any of the above items are damaged or missing, please contact your dealer immediately. 3 Wireless ADSL Router User Guide Physical Details Front-mounted LEDs Power LED Status (Red) LED Figure 2: Front Panel On - Power on. Off - No power. On - Error condition. Off - Normal operation. Blinking - This LED blinks during start up, and during a Firmware Upgrade. LAN For each port, there are 2 LEDs, to indicate the connection speed

(10BaseT or 100BaseT) of each port. If neither LED is on, there is no active connection on the corresponding LAN port. WLAN LED On - Idle. Off - Error - No Wireless connection available. Flashing - Data is being transmitted or received via the Wireless access point. This includes "network traffic" as well as user data. On - ADSL connection to your ISP is established. Off - No ADSL connection to your ISP. Flashing - Data is being transmitted or received via the ADSL connection. WAN 4 Rear Panel Introduction Figure 3: Rear Panel Power port Connect the supplied power adapter here. Use standard LAN cables (RJ45 connectors) to connect your PCs to these ports. Note:

Any LAN port on the Wireless ADSL Router will automatically function as an "Uplink" port when required. Just connect any port to a normal port on the other hub, using a standard LAN cable. This button has two (2) functions:

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

1. Power Off. 2. Hold the Reset Button down while you Power On. 3. Keep holding the Reset Button for a few seconds, until the RED LED has flashed TWICE. 4. Release the Reset Button. The Wireless ADSL Router is now using the factory default values. Connect this port to your ADSL line. 10/100BaseT LAN connections Reset Button WAN port

(ADSL port) 5 Chapter 2 Installation This Chapter covers the physical installation of the Wireless ADSL Router. Requirements Network cables. Use standard 10/100BaseT network (UTP) cables with RJ45 connectors. TCP/IP protocol must be installed on all PCs. For Internet Access, an Internet Access account with an ISP, and a DSL connection. To use the Wireless Access Point, all Wireless devices must be compliant with the IEEE 802.11g or IEEE 802.11b specifications. Procedure Figure 4: Installation Diagram 1. Choose an Installation Site Select a suitable place on the network to install the Wireless ADSL Router. For best Wireless reception and performance, the Wireless ADSL Router should be positioned in a central location with minimum obstructions between the Wireless ADSL Router and the PCs. Also, if using multiple Access Points, adjacent Access Points should use different Channels. 6 Installation 2. Connect LAN Cables Use standard LAN cables to connect PCs to the Switching Hub ports on the Wireless ADSL Router. Both 10BaseT and 100BaseT connections can be used simultaneously. If required, connect any port to a normal port on another Hub, using a standard LAN cable. Any LAN port on the Wireless ADSL Router will automatically function as an "Uplink"

port when required. 3. Connect ADSL Cable Connect your ADSL line to the WAN port on the Wireless ADSL Router. 4. Power Up Power on the Cable or DSL modem. Connect the supplied power adapter to the Wireless ADSL Router and power up. Use only the power adapter provided. Using a different one may cause hardware damage 5. Check the LEDs The Power LED should be ON. The Status LED should flash, then turn Off. If it stays on, there is a hardware error. For each LAN (PC) connection, one of the LAN LEDs should be ON (provided the PC is also ON.) The WLAN LED should be ON The WAN LED should be ON. For more information, refer to Front-mounted LEDs in Chapter 1. 7 Chapter 3 Setup 3 This Chapter provides Setup details of the Wireless ADSL Router. Overview Internet Access This chapter describes the setup procedure for:

LAN configuration Wireless setup Assigning a Password to protect the configuration data. PCs on your local LAN may also require configuration. For details, see Chapter 4 - PC Configuration. Other configuration may also be required, depending on which features and functions of the Wireless ADSL Router you wish to use. Use the table below to locate detailed instructions for the required functions. Refer to:

Chapter 4:

PC Configuration Chapter 5:

Operation and Status Chapter 6:

Advanced Features Chapter 7 Advanced Administration To Do this:

Configure PCs on your LAN. Check Wireless ADSL Router operation and Status. Use any of the following Advanced features:

Dynamic DNS Firewall Rules and Services Scheduling URL Filter Virtual Servers (Port Forwarding) Use any of the following Administration Configuration settings or features:

Config File download/upload Logs and E-mailing of logs and alerts Network Diagnostics (Ping, DNS Lookup) PC Database Remote Management Routing (RIP and static Routing) Firmware Upgrade 8 Setup Configuration Program The Wireless ADSL Router contains an HTTP server. This enables you to connect to it, and configure it, using your Web Browser. Your Browser must support JavaScript. The configuration program has been tested on the following browsers:

Netscape V4.08 or later Netscape 7 Internet Explorer V5.01 or later Preparation Before attempting to configure the Wireless ADSL Router, please ensure that:

Your PC can establish a physical connection to the Wireless ADSL Router. The PC and the Wireless ADSL Router must be directly connected (using the Hub ports on the Wireless ADSL Router) or on the same LAN segment. The Wireless ADSL Router must be installed and powered ON. If the Wireless ADSL Router's default IP Address (192.168.0.1) is already used by another device, the other device must be turned OFF until the Wireless ADSL Router is allocated a new IP Address during configuration. Using your Web Browser To establish a connection from your PC to the Wireless ADSL Router:

1. After installing the Wireless ADSL Router in your LAN, start your PC. If your PC is already running, restart it. 2. Start your WEB browser. 3. HTTP://192.168.0.1 In the Address box, enter "HTTP://" and the IP Address of the Wireless ADSL Router, as in this example, which uses the Wireless ADSL Router's default IP Address:

4. When prompted for the User name and Password, enter values as follows:

User name admin Password password 9 Wireless ADSL Router User Guide If you can't connect If the Wireless ADSL Router does not respond, check the following:

The Wireless ADSL Router is properly installed, LAN connection is OK, and it is powered ON. You can test the connection by using the "Ping" command:

Open the MS-DOS window or command prompt window. Enter the command:

ping 192.168.0.1 If no response is received, either the connection is not working, or your PC's IP address is not compatible with the Wireless ADSL Router's IP Address. (See next item.) If your PC is using a fixed IP Address, its IP Address must be within the range 192.168.0.2 to 192.168.0.254 to be compatible with the Wireless ADSL Router's default IP Address of 192.168.0.1. Also, the Network Mask must be set to 255.255.255.0. See Chapter 4 - PC Configuration for details on checking your PC's TCP/IP settings. Ensure that your PC and the Wireless ADSL Router are on the same network segment. (If you don't have a router, this must be the case.) Ensure you are using the wired LAN interface. The Wireless interface can only be used if its configuration matches your PC's wireless settings. 10 Setup Setup Wizard The first time you connect to the Wireless ADSL Router, the Setup Wizard will run automatically. (The Setup Wizard will also run if the Wireless ADSL Router's default settings are restored.) 1. Step through the Wizard until finished. You need the data supplied by your ISP. Most connection methods require some data input. The common connection types are explained in the tables below. 2. On the final screen of the Wizard, run the test and check that an Internet connection can be 3. established. If the connection test fails:

Check all connections, and the front panel LEDs. Check that you have entered all data correctly. Common Connection Types Type Dynamic IP Address Static (Fixed) IP Address PPPoE, PPPoA Details Your IP Address is allocated automatically, when you connect to you ISP. Your ISP allocates a permanent IP Address to you. Usually, the connection is

"Always on". You connect to the ISP only when required. The IP address is usually allocated automatically. IPoA

(IP over ATM) Normally, the connection is

"Always on". ISP Data required None. IP Address allocated to you, and related information, such as Network Mask, Gateway IP address, and DNS address. User name and password. If using a Static (Fixed) IP address, you need the IP address and related information (Network Mask, Gateway IP address, and DNS address) As for Static (Fixed) IP address. 11 Wireless ADSL Router User Guide Home Screen After finishing the Setup Wizard, you will see the Home screen. When you connect in future, you will see this screen when you connect. An example screen is shown below. Figure 5: Home Screen Main Menu The main menu, on the left, contains links to the most-commonly used screen. To see the links to the other available screens, click "Advanced" or "Administration". The main menu also contains two (2) buttons:

Log Out - When finished, you should click this button to logout. Restart - Use this if you wish to restart the Wireless ADSL Router. Note that restarting the Router will break any existing connections to or through the Router. Navigation & Data Input Use the menu bar on the left of the screen, and the "Back" button on your Browser, for navigation. Changing to another screen without clicking "Save" does NOT save any changes you may have made. You must "Save" before changing screens or your data will be ignored. On each screen, clicking the "Help" button will display help for that screen. From any help screen, you can access the list of all help files (help index). 12 LAN Screen Use the LAN link on the main menu to reach the LAN screen An example screen is shown below. Setup Figure 6: LAN Screen Data - LAN Screen TCP/IP IP Address Subnet Mask DHCP Server DHCP IP address for the Wireless ADSL Router, as seen from the local LAN. Use the default value unless the address is already in use or your LAN is using a different IP address range. In the latter case, enter an unused IP Address from within the range used by your LAN. The default value 255.255.255.0 is standard for small (class "C") networks. For other networks, use the Subnet Mask for the LAN segment to which the Wireless ADSL Router is attached (the same value as the PCs on that LAN segment). If Enabled, the Wireless ADSL Router will allocate IP Addresses to PCs (DHCP clients) on your LAN when they start up. The default (and recommended) value is Enabled. If you are already using a DHCP Server, this setting must be Disabled, and the existing DHCP server must be re-configured to treat the Wireless ADSL Router as the default Gateway. See the following section for further details. The Start IP Address and Finish IP Address fields set the values used by the DHCP server when allocating IP Addresses to DHCP clients. This range also determines the number of DHCP clients supported. See the following section for further details on using DHCP. What DHCP Does A DHCP (Dynamic Host Configuration Protocol) Server allocates a valid IP address to a DHCP Client (PC or device) upon request. The client request is made when the client device starts up (boots). 13 Wireless ADSL Router User Guide The DHCP Server provides the Gateway and DNS addresses to the client, as well as allocating an IP Address. The Wireless ADSL Router can act as a DHCP server. Windows 95/98/ME and other non-Server versions of Windows will act as a DHCP client. This is the default Windows setting for the TCP/IP network protocol. However, Windows uses the term Obtain an IP Address automatically instead of "DHCP Client". You must NOT have two (2) or more DHCP Servers on the same LAN segment. (If your LAN does not have other Routers, this means there must only be one (1) DHCP Server on your LAN.) Using the Wireless ADSL Router's DHCP Server This is the default setting. The DHCP Server settings are on the LAN screen. On this screen, you can:

Enable or Disable the Wireless ADSL Router's DHCP Server function. Set the range of IP Addresses allocated to PCs by the DHCP Server function. You can assign Fixed IP Addresses to some devices while using DHCP, provided that the Fixed IP Addresses are NOT within the range used by the DHCP Server. Using another DHCP Server You can only use one (1) DHCP Server per LAN segment. If you wish to use another DHCP Server, rather than the Wireless ADSL Router's, the following procedure is required. 1. Disable the DHCP Server feature in the Wireless ADSL Router. This setting is on the LAN screen. 2. Configure the DHCP Server to provide the Wireless ADSL Router's IP Address as the Default Gateway. To Configure your PCs to use DHCP This is the default setting for TCP/IP for all non-Server versions of Windows. See Chapter 4 - Client Configuration for the procedure to check these settings. 14 Wireless ADSL Router User Guide WEP Screen This screen is accessed by clicking the "Configure WEP" button on the Wireless screen. Figure 8: WEP Screen Data - WEP Screen WEP Data Encryption WEP Data Encryption Select the option to match other Wireless Stations:

Disabled - data is NOT encrypted before being transmitted. 64 Bit - data is encrypted, using the default key, before being transmitted. You must enter at least the default key. For 64 Bit Encryption, the key size is 10 chars in HEX (0~9 and A~F). 128 Bit - data is encrypted, using the default key, before being transmitted. You must enter at least the default key. For 128 Bit Encryption, the key size is 26 chars in HEX (0~9 and A~F). Authentication Type Default Key Key Value Passphrase 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. You must enter a Key Value for the Default Key. Enter the key value or values you wish to use. The Default Key is required, the other keys are optional. Other stations must have the same key. If desired, you can generate a key from a phrase, instead of entering the key value directly. Enter the desired phrase, and click the

"Generate Keys" button. 15 Password Screen The password screen allows you to assign a password to the Wireless ADSL Router. Setup Figure 9: Password Screen Once you have assigned a password to the Wireless ADSL Router (on the Password screen above) you will be prompted for the password when you connect, as shown below. (If no password has been set, this dialog will not appear.) Figure 10: Password Dialog Leave the "User Name" blank. Enter the password for the Wireless ADSL Router, as set on the Password screen above. 16 Chapter 4 PC Configuration 4 This Chapter details the PC Configuration required on the local ("Internal") LAN. Overview For each PC, the following may need to be configured:

TCP/IP network settings Wireless configuration Internet Access configuration Windows Clients This section describes how to configure Windows clients for Internet access via the Wireless ADSL Router. The first step is to check the PC's TCP/IP settings. The Wireless ADSL Router uses the TCP/IP network protocol for all functions, so it is essential that the TCP/IP protocol be installed and configured on each PC. TCP/IP Settings - Overview If using the default Wireless ADSL Router settings, and the default Windows TCP/IP settings, no changes need to be made. By default, the Wireless ADSL Router will act as a DHCP Server, automatically providing a suitable IP Address (and related information) to each PC when the PC boots. For all non-Server versions of Windows, the default TCP/IP setting is to act as a DHCP client. If using a Fixed (specified) IP address, the following changes are required:

The Gateway must be set to the IP address of the Wireless ADSL Router The DNS should be set to the address provided by your ISP. If your LAN has a Router, the LAN Administrator must re-

configure the Router itself. Refer to Chapter 8 -

Advanced Setup for details. 17 Checking TCP/IP Settings - Windows 9x/ME:

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

PC Configuration Figure 11: Network Configuration 2. Select the TCP/IP protocol for your network card. 3. Click on the Properties button. You should then see a screen like the following. Figure 12: IP Address (Win 95) Ensure your TCP/IP settings are correct, as follows:

Using DHCP To use DHCP, select the radio button Obtain an IP Address automatically. This is the default Windows setting. Using this is recommended. By default, the Wireless ADSL Router will act as a DHCP Server. Restart your PC to ensure it obtains an IP Address from the Wireless ADSL Router. Using "Specify an IP Address"

If your PC is already configured, check with your network administrator before making the following changes:

18 Wireless ADSL Router User Guide On the Gateway tab, enter the Wireless ADSL Router's IP address in the New Gateway field and click Add, as shown below. Your LAN administrator can advise you of the IP Address they assigned to the Wireless ADSL Router. Figure 13: Gateway Tab (Win 95/98) On the DNS Configuration tab, ensure Enable DNS is selected. If the DNS Server Search Order list is empty, enter the DNS address provided by your ISP in the fields beside the Add button, then click Add. Figure 14: DNS Tab (Win 95/98) 19 Checking TCP/IP Settings - Windows NT4.0 1. Select Control Panel - Network, and, on the Protocols tab, select the TCP/IP protocol, as shown below. PC Configuration Figure 15: Windows NT4.0 - TCP/IP 2. Click the Properties button to see a screen like the one below. 20 Wireless ADSL Router User Guide Figure 16: Windows NT4.0 - IP Address 3. Select the network card for your LAN. 4. Select the appropriate radio button - Obtain an IP address from a DHCP Server or Specify an IP Address, as explained below. Obtain an IP address from a DHCP Server This is the default Windows setting. Using this is recommended. By default, the Wireless ADSL Router will act as a DHCP Server. Restart your PC to ensure it obtains an IP Address from the Wireless ADSL Router. Specify an IP Address If your PC is already configured, check with your network administrator before making the following changes. 1. The Default Gateway must be set to the IP address of the Wireless ADSL Router. To set this:

Click the Advanced button on the screen above. On the following screen, click the Add button in the Gateways panel, and enter the Wireless ADSL Router's IP address, as shown in Figure 17 below. If necessary, use the Up button to make the Wireless ADSL Router the first entry in the Gateways list. 21 PC Configuration Figure 17 - Windows NT4.0 - Add Gateway 2. The DNS should be set to the address provided by your ISP, as follows:

Click the DNS tab. On the DNS screen, shown below, click the Add button (under DNS Service Search Order), and enter the DNS provided by your ISP. 22 Wireless ADSL Router User Guide Figure 18: Windows NT4.0 - DNS 23 Checking TCP/IP Settings - Windows 2000:

1. Select Control Panel - Network and Dial-up Connection. 2. Right - click the Local Area Connection icon and select Properties. You should see a screen like the following:

PC Configuration Figure 19: Network Configuration (Win 2000) 3. Select the TCP/IP protocol for your network card. 4. Click on the Properties button. You should then see a screen like the following. 24 Wireless ADSL Router User Guide Figure 20: TCP/IP Properties (Win 2000) 5. Ensure your TCP/IP settings are correct, as described below. Using DHCP To use DHCP, select the radio button Obtain an IP Address automatically. This is the default Windows setting. Using this is recommended. By default, the Wireless ADSL Router will act as a DHCP Server. Restart your PC to ensure it obtains an IP Address from the Wireless ADSL Router. Using a fixed IP Address ("Use the following IP Address") If your PC is already configured, check with your network administrator before making the following changes. Enter the Wireless ADSL Router's IP address in the Default gateway field and click OK.

(Your LAN administrator can advise you of the IP Address they assigned to the Wireless ADSL Router.) If the DNS Server fields are empty, select Use the following DNS server addresses, and enter the DNS address or addresses provided by your ISP, then click OK. 25 Checking TCP/IP Settings - Windows XP 1. Select Control Panel - Network Connection. 2. Right click the Local Area Connection and choose Properties. You should see a screen like the following:

PC Configuration Figure 21: Network Configuration (Windows XP) 3. Select the TCP/IP protocol for your network card. 4. Click on the Properties button. You should then see a screen like the following. 26 Wireless ADSL Router User Guide Figure 22: TCP/IP Properties (Windows XP) 5. Ensure your TCP/IP settings are correct. Using DHCP To use DHCP, select the radio button Obtain an IP Address automatically. This is the default Windows setting. Using this is recommended. By default, the Wireless ADSL Router will act as a DHCP Server. Restart your PC to ensure it obtains an IP Address from the Wireless ADSL Router. Using a fixed IP Address ("Use the following IP Address") If your PC is already configured, check with your network administrator before making the following changes. In the Default gateway field, enter the Wireless ADSL Router's IP address and click OK. Your LAN administrator can advise you of the IP Address they assigned to the Wireless ADSL Router. If the DNS Server fields are empty, select Use the following DNS server addresses, and enter the DNS address or addresses provided by your ISP, then click OK. 27 PC Configuration Internet Access To configure your PCs to use the Wireless ADSL Router for Internet access:

Ensure that the DSL modem, Cable modem, or other permanent connection is functional. Use the following procedure to configure your Browser to access the Internet via the LAN, rather than by a Dial-up connection. For Windows 9x/ME/2000 1. Select Start Menu - Settings - Control Panel - Internet Options. 2. Select the Connection tab, and click the Setup button. 3. Select "I want to set up my Internet connection manually, or I want to connect through a local area network (LAN)" and click Next. 4. Select "I connect through a local area network (LAN)" and click Next. 5. Ensure all of the boxes on the following Local area network Internet Configuration screen are unchecked. 6. Check the "No" option when prompted "Do you want to set up an Internet mail account now?". 7. Click Finish to close the Internet Connection Wizard. Setup is now completed. For Windows XP 1. Select Start Menu - Control Panel - Network and Internet Connections. 2. Select Set up or change your Internet Connection. 3. Select the Connection tab, and click the Setup button. 4. Cancel the pop-up "Location Information" screen. 5. Click Next on the "New Connection Wizard" screen. 6. Select "Connect to the Internet" and click Next. 7. Select "Set up my connection manually" and click Next. 8. Check "Connect using a broadband connection that is always on" and click Next. 9. Click Finish to close the New Connection Wizard. Setup is now completed. Accessing AOL To access AOL (America On Line) through the Wireless ADSL Router, the AOL for Windows software must be configured to use TCP/IP network access, rather than a dial-up connection. The configuration process is as follows:

Start the AOL for Windows communication software. Ensure that it is Version 2.5, 3.0 or later. This procedure will not work with earlier versions. Click the Setup button. Select Create Location, and change the location name from "New Locality" to "Wireless ADSL Router". Click Edit Location. Select TCP/IP for the Network field. (Leave the Phone Number blank.) Click Save, then OK. Configuration is now complete. Before clicking "Sign On", always ensure that you are using the "Wireless ADSL Router"

location. 28 Wireless ADSL Router User Guide Macintosh Clients From your Macintosh, you can access the Internet via the Wireless ADSL Router. The procedure is as follows. 1. Open the TCP/IP Control Panel. 2. Select Ethernet from the Connect via pop-up menu. 3. Select Using DHCP Server from the Configure pop-up menu. The DHCP Client ID field can be left blank. 4. Close the TCP/IP panel, saving your settings. Note:

If using manually assigned IP addresses instead of DHCP, the required changes are:

Set the Router Address field to the Wireless ADSL Router's IP Address. Ensure your DNS settings are correct. Linux Clients To access the Internet via the Wireless ADSL Router, it is only necessary to set the Wireless ADSL Router as the "Gateway". Ensure you are logged in as "root" before attempting any changes. Fixed IP Address By default, most Unix installations use a fixed IP Address. If you wish to continue using a fixed IP Address, make the following changes to your configuration. Set your "Default Gateway" to the IP Address of the Wireless ADSL Router. Ensure your DNS (Name server) settings are correct. To act as a DHCP Client (recommended) The procedure below may vary according to your version of Linux and X -windows shell. 1. Start your X Windows client. 2. Select Control Panel - Network 3. Select the "Interface" entry for your Network card. Normally, this will be called "eth0". 4. Click the Edit button, set the "protocol" to "DHCP", and save this data. 5. To apply your changes Use the "Deactivate" and "Activate" buttons, if available. OR, restart your system. Other Unix Systems To access the Internet via the Wireless ADSL Router:

Ensure the "Gateway" field for your network card is set to the IP Address of the Wireless ADSL Router. Ensure your DNS (Name Server) settings are correct. 29 PC Configuration Wireless Station Configuration This section applies to all Wireless stations wishing to use the Wireless ADSL Router's Access Point, regardless of the operating system which is used on the client. To use the Wireless Access Point in the Wireless ADSL Router, each Wireless Station must have compatible settings, as follows:

The mode must be set to Infrastructure (rather than Ad-hoc) Access points only operate in to Infrastructure mode. This must match the value used on the Wireless ADSL Router. The default value is default Note! The SSID is case sensitive. By default, WEP on the Wireless ADSL Router is disabled. If WEP remains disabled on the Wireless ADSL Router, all stations must have WEP disabled. If WEP is enabled on the Wireless ADSL Router, each station must use the same settings as the Wireless ADSL Router. Mode SSID (ESSID) WEP 30 Chapter 5 Operation and Status This Chapter details the operation of the Wireless ADSL Router and the status screens. 5 Operation Once both the Wireless ADSL Router and the PCs are configured, operation is automatic. However, there are some situations where additional Internet configuration may be required. Refer to Chapter 6 - Advanced Features for further details. Status Screen Use the Status link on the main menu to view this screen. Figure 23: Status Screen 31 Data - Status Screen Internet Modem Status DownStream Connection Speed UpStream Connection Method Connection Method Internet Connection Internet IP Address LAN IP Address Network Mask DHCP Server MAC Address Wireless Name (SSID) Region Channel Wireless AP Broadcast Name System Device Name Operation and Status This indicates the status of the ADSL modem component. If connected, displays the speed for the DownStream (download) ADSL Connection. If connected, displays the speed for the UpStream (upload) ADSL Connection. This indicates the current connection method, as set in the Setup Wizard. This indicates the current status of the Internet Connection Active - Connection exists Not connected - No current connection, but no error has been detected. This condition normally arises when an idle connection is automatically terminated. Failed - The connection was terminated abnormally. This could be caused by ADSL failure, Router failure, or termination of the connection by your ISP. If there is an error, you can click the "Connection Details" button to find out more information. This IP Address is allocated by the ISP (Internet Service Provider). If using a dynamic IP address, and no connection currently exists, this information is unavailable. The IP Address of the Wireless ADSL Router. The Network Mask (Subnet Mask) for the IP Address above. This shows the status of the DHCP Server function. The value will be "Enabled" or "Disabled". This shows the MAC Address for the Wireless ADSL Router, as seen on the LAN interface. If using an ESS (Extended Service Set, with multiple access points) this ID is called an ESSID (Extended Service Set Identifier). The current region, as set on the Wireless screen. This shows the Channel currently used, as set on the Wireless screen. This indicates whether or not the Wireless Access Point feature is enabled. This indicates whether or not the SSID is Broadcast. This setting is on the Wireless screen. The current name of the Wireless ADSL Router. This is also the 32 Wireless ADSL Router User Guide Firmware Version Buttons Connection Details Attached Devices Refresh Screen

"hostname" provided to ISPs who request this information. The version of the current firmware installed. Click this button to open a sub-window and view a detailed description of the current connection. Depending on the type of connection, a "log" may also be available. This will open a sub-window, showing all LAN and Wireless devices currently on the network. Update the data displayed on screen. Connection Status - PPPoE & PPPoA If using PPPoE (PPP over Ethernet) or PPPoA (PPP over ATM), a screen like the following example will be displayed when the "Connection Details" button is clicked. Figure 24: PPPoE Status Screen Data - PPPoE Screen Connection Time PPPoE Link Status This indicates how long the current connection has been established. 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. Negotiation IP Address Network Mask Buttons Connect This indicates the status of the PPPoE Server login. The IP Address of this device, as seen by Internet users. This address is allocated by your ISP (Internet Service Provider). The Network Mask associated with the IP Address above. If not connected, establish a connection to your ISP. 33 Operation and Status Disconnect Refresh Close If connected to your ISP, hang up the connection. Update the data on screen. Close this window. Connection Details - Dynamic IP Address If your access method is "Direct" (no login), with a Dynamic IP address, a screen like the following example will be displayed when the "Connection Details" button is clicked. Figure 25: Connection Details - Fixed/Dynamic IP Address Data - Dynamic IP address Internet IP Address Network Mask Default Gateway DNS Server DHCP Server Lease Obtained Lease Expires Buttons Release The current IP Address of this device, as seen by Internet users. This address is allocated by your ISP (Internet Service Provider). 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. The IP address of your ISP's DHCP Server. This indicates when the current IP address was obtained, and how long before this IP address allocation (the DCHP lease) expires. If an IP Address has been allocated to the Wireless ADSL Router (by the ISP's DHCP Server, clicking the "Release" button will break the connection and release the IP Address. 34 Wireless ADSL Router User Guide Renew Refresh Close If the ISP's DHCP Server has NOT allocated an IP Address for the Wireless ADSL Router, clicking the "Renew" button will attempt to re-establish the connection and obtain an IP Address from the ISP's DHCP Server. Update the data shown on screen. Close this window. 35 Connection Details - Fixed IP Address If your access method is "Direct" (no login), with a fixed IP address, a screen like the following example will be displayed when the "Connection Details" button is clicked. Operation and Status Figure 26: Connection Details - Fixed/Dynamic IP Address Data - Fixed IP address Screen Internet IP Address Network Mask Default Gateway DNS Server The IP Address of this device, as seen by Internet users. This address is allocated by your ISP (Internet Service Provider). 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. 36 Chapter 6 Advanced Features This Chapter explains when and how to use the Wireless ADSL Router's

"Advanced" Features. 6 Overview The following advanced features are provided:

Dynamic DNS Firewall Rules and Services Scheduling URL filter Virtual Servers Dynamic DNS (Domain Name Server) This free service is very useful when combined with the Virtual Server feature. It allows Internet users to connect to your Virtual 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 DynDNS Service works as follows:

1. You must register for the service at http://www.dyndns.org (Registration is free). Your password will be E-mailed to you. 2. After registration, use the "Create New Host" option (at www.dyndns.org) to request your desired Domain name. 3. Enter your data from www.dyndns.org in the Wireless ADSL Router's DDNS screen. 4. The Wireless ADSL Router will then automatically ensure that your current IP Address is recorded at http://www.dyndns.org 5. From the Internet, users will be able to connect to your Virtual Servers (or DMZ PC) using your Domain name, as shown on this screen. 37 Dynamic DNS Screen Select Advanced on the main menu, then Dynamic DNS, to see a screen like the following:

Advanced Features Figure 27: DDNS Screen Data - Dynamic DNS Screen DDNS Service Use a Dynamic DNS Service DDNS Data Service Provider Host Name User Name Password Domain Name DDNS Status Use this to enable or disable the DDNS feature as required. Select the desired DDNS Service provider. 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. 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. This message is returned by the DDNS Server Normally, this message should be "Update successful"

If the message is "No host", this indicates the host name entered was not allocated to you. You need to connect to DDNS Service provider and correct this problem. 38 Wireless ADSL Router User Guide Firewall Rules The Firewall Rules screen allows you to define "Firewall Rules" which can allow or prevent certain traffic. By default:

All Outgoing traffic is permitted. All Incoming traffic is denied.

"Traffic" means incoming connection attempts, not packets. Because of this default behavior, any Outgoing rules will generally Block traffic, and Incoming rules will generally Allow traffic. Firewall Rules Screen An example screen is shown below. Figure 28 Firewall Screen Data Firewall Rules Incoming Rules

#

Enable Service Name Action LAN Server WAN Users Log For the default rule, this will display "Default". For other rules, this will display a radio button which allows you to select the rule. Indicates whether or not the rule is currently enabled. The Service covered by this rule. The action performed on connections which are covered by this rule. The PC or Server on your LAN to which traffic covered by this rule will be sent. The WAN IP address or addresses covered by this rule. Indicates whether or not connections covered by this rule should be l d 39 Advanced Features logged. Use the "Add" button to create a new rule. The other buttons - Edit, Move, or Delete - require that a rule be selected first. Use the radio buttons in the left column to select the desired rule. For the default rule, this will display "Default". For other rules, this will display a radio button which allows you to select the rule. Indicates whether or not the rule is currently enabled. The Service covered by this rule. The action performed on connections which are covered by this rule. The LAN PC or PCs covered by this rule. The WAN IP address or addresses covered by this rule. Indicates whether or not connections covered by this rule should be logged. Use the "Add" button to create a new rule. The other buttons - Edit, Move, or Delete - require that a rule be selected first. Use the radio buttons in the left column to select the desired rule. Buttons Outgoing Rules

#

Enable Service Name Action LAN Users WAN Servers Log Buttons 40 Wireless ADSL Router User Guide Incoming Rules This screen is displayed when the "Add" on "Edit" button for Incoming Rules is clicked. Figure 29: Inbound Services Screen Data Incoming Rules Screen Inbound Services Service Action LAN Users WAN Users Select the desired Service. This determines which packets are covered by this rule. If necessary, you can define a new Service on the "Services" screen, by defining the protocols and port numbers used by the Service. Select the desired action for packets covered by this rule:

ALLOW always ALLOW by schedule, otherwise Block BLOCK always BLOCK by schedule, otherwise Allow Note:

Any inbound traffic which is not allowed by rules you create will be blocked by the Default rule. BLOCK rules are only useful if the traffic is already covered by an ALLOW rule. (That is, you wish to block a sub-set of traffic which is currently allowed by another rule.) To define the Schedule used in these selections, use the

"Schedule" screen. Enter the IP address of the PC or Server on your LAN which will receive the inbound traffic covered by this rule. These settings determine which packets are covered by the rule, based on their source (WAN) IP address. Select the desired option:

Any - All IP addresses are covered by this rule. 41 Log Advanced Features Address range - If this option is selected, you must enter the

"Start" and "Finish" fields. Single address - Enter the required address in the "Start" fields. This determines whether packets covered by this rule are logged. Select the desired action. Always - always log traffic considered by this rule, whether it matches or not. (This is useful when debugging your rules.) Never - never log traffic considered by this rule, whether it matches or not. Match - Log traffic only it matches this rule. (The action is determined by this rule.) Not Match - Log traffic which is considered by this rule, but does not match (The action is NOT determined by this rule.) Outgoing Rules This screen is displayed when the "Add" on "Edit" button for Outgoing Rules is clicked. Figure 30: Outbound Services Screen Data - Outbound Rules Screen Outbound Services Service Action Select the desired Service or application to be covered by this rule. If the desired service or application does not appear in the list, you must define it using the Services menu. Select the desired action for packets covered by this rule:

BLOCK always BLOCK by schedule, otherwise Allow ALLOW always 42 Wireless ADSL Router User Guide LAN Users WAN Users Log ALLOW by schedule, otherwise Block Note:

Any outbound traffic which is not blocked by rules you create will be allowed by the Default rule. ALLOW rules are only useful if the traffic is already covered by a BLOCK rule. (That is, you wish to allow a subset of traffic which is currently blocked by another rule.) To define the Schedule used in these selections, use the

"Schedule" screen. Enter the IP address of the PC or Server on your LAN which will receive the inbound traffic covered by this rule. These settings determine which packets are covered by the rule, based on their source (WAN) IP address. Select the desired option:

Any - All IP addresses are covered by this rule. Address range - If this option is selected, you must enter the

"Start" and "Finish" fields. Single address - Enter the required address in the "Start" fields. This determines whether packets covered by this rule are logged. Select the desired action. Always - always log traffic considered by this rule, whether it matches or not. (This is useful when debugging your rules.) Never - never log traffic considered by this rule, whether it matches or not. Match - Log traffic only it matches this rule. (The action is determined by this rule.) Not Match - Log traffic which is considered by this rule, but does not match (The action is NOT determined by this rule.) 43 Services This screen is used to modify the list of Services which are available when creating Firewall Rules. Advanced Features Figure 31: Firewall Services This lists all defined Services. Use this to open a sub-screen where you can add a new service. To modify a service, select it, and then click this button. Pre-defined Services can not be deleted, but you can use this button to delete any services you have defined. Data Services Services Services List Add Edit Delete Add/Edit Service This screen is displayed when the Add or Edit button on the Services screen is clicked. Figure 32 : Add/Edit Service 44 Wireless ADSL Router User Guide Data Add/Edit Service Services Name Type Start Port Finish Port If editing, this shows the current name of the Service. If adding a new service, this will be blank, and you should enter a suitable name. Select the protocol used by the Service. Enter the beginning of the port range used by the Service. Enter the end of the port range used by the Service. 45 Schedule This Schedule can be used for the Firewall Rules and the URL filter. Advanced Features Figure 33: Schedule Screen Data - Schedule Screen Schedule Sunday, Monday Start Time Finish Time Local Time Time Zone Use these checkboxes to select the desired days. Enter the start using a 24 hr clock. Enter the finish time using a 24 hr clock. Adjust for Daylight Savings Time Use this NTP Server Current Time In order to display your local time correctly, you must select your

"Time Zone" from the list. If your region uses Daylight Savings Time, you must manually check

"Adjust for Daylight Savings Time" at the beginning of the adjustment period, and uncheck it at the end of the Daylight Savings period. If you prefer to use a particular NTP server as the primary server, check the checkbox "Use this NTP Server" and enter the Server's IP address in the fields provided.. If this setting is not enabled, the default NTP Servers are used. This displays the current time on the Wireless ADSL Router. 46 Wireless ADSL Router User Guide URL Filter If you want to limit access to certain sites on the Internet, you can use this feature. The URL filter will check each Web site access. If the address, part of the address, is included in the block site list, access will be denied. Figure 34: URL Filter Screen Data - URL Filter Screen Blocking Blocking Select the desired option:

Never - disable this feature. By Schedule - block according to the settings on the Schedule page. Add Site Keyword or Domain Name Block List Block Sites Always - allow blocking all of the time, independent of the Schedule page. Type the word or domain name you want to block, then click the

"Add" button. The list contains the current list of items to block. To add to the list, use the "Add" option above. To delete an entry, select it and click "Delete Keyword" button. To delete all entries, click the "Clear List" button. 47 Advanced Features Trusted PC Allow Trusted PC Trusted IP Address Enable this to allow one computer to have Unrestricted Access to the Internet. For this PC, any restrictions set by the blocking above will be ignored. Type the IP address of the computer in the fields provided. Virtual Servers This feature, sometimes called Port Forwarding, 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 "Virtual Server" feature solves these problems and allows Internet users to connect to your servers, as illustrated below. Web Server

(192.168.0.10) 192.168.0.1

(LAN IP Address) Wireless Router 203.70.212.52

(Internet IP Address) FTP Server

(192.168.0.20) Internet Remote PC Using Web Server

(http://203.70.212.52) Remote PC Using FTP Server

(ftp://203.70.212.52) Figure 35: Virtual Servers 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. 48 Wireless ADSL Router User Guide 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 Virtual Servers using a URL, instead of an IP Address. Virtual Servers Screen The "Virtual Servers" feature allows Internet Users to access PCs on your LAN. The PCs must be running the appropriate Server Software. For Internet Users, ALL of your Servers have the same IP address. This IP address is allocated by your ISP. To make it easier for Internet users to connect to your Servers, you can use the "DDNS"

feature. This allows Internet users to connect to your Servers with a URL, rather than an IP address. This technology works even if your ISP allocates dynamic IP addresses (IP address is allocated upon connection, so it may change each time you connect). Figure 36: Virtual Servers Screen Data - Virtual Servers Screen Servers Servers This lists a number of pre-defined Servers, plus any Servers you have defined. Details of the selected Server are shown in the

"Properties" area. Properties Enable PC (Server) Use this to Enable or Disable support for this Server, as required. Enter the IP address of the PC for this Server. The PC must be running the appropriate Server software. For each entry, the PC must be running the appropriate Server software. If the desired Server type is not listed, you can define your own Servers, using the Firewall Rules. 49 Advanced Features Connecting to the Virtual Servers Once configured, anyone on the Internet can connect to your Virtual Servers. They must use the Internet IP Address (the IP Address allocated to you by your ISP). e.g. http://203.70.212.52 ftp://203.70.212.52 It is more convenient if you are using a Fixed IP Address from your ISP, rather than Dynamic. However, you can use the Dynamic DNS feature, described in the following section, to allow users to connect to your Virtual Servers using a URL, rather than an IP Address. From the Internet, ALL Virtual Servers have the IP Address allocated by your ISP 50 Chapter 7 Advanced Administration 7 This Chapter explains the settings available via the "Administration" section of the menu. Overview Normally, it is not necessary to use these screens, or change any settings. These screens and settings are provided to deal with non-standard situations, or to provide additional options for advanced users. The available settings and features are:

Config File Backup or restore the configuration file for the Wireless ADSL Router. This file contains all the configuration data. Logs & Email View or clear all logs, set E-Mailing of log files and alerts. Network Diagnostics PC Database Remote Management Routing Firmware Upgrade Ping, DNS Lookup. This is the list of PCs shown when you select the "DMZ PC" or a

"Virtual Server". This database is maintained automatically, but you can add and delete entries for PCs which use a Fixed (Static) IP Address. Allow settings to be changed from the Internet.. Only required if your LAN has other Routers or Gateways. Upgrade the Firmware (software) installed in your Wireless ADSL Router. 51 Advanced Administration Config File This feature allows you to download the current settings from the Wireless ADSL Router, and save them to a file on your PC. You can restore a previously-downloaded configuration file to the Wireless ADSL Router, by uploading it to the Wireless ADSL Router. This screen also allows you to set the Wireless ADSL Router back to its factory default configuration. Any existing settings will be deleted. An example Config File screen is shown below. Figure 37: 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 ADSL Router. 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 Factorye Defaults button will reset the Wireless ADSL Router to its factory default settings. WARNING !

This will delete ALL of the existing settings. 52 Wireless ADSL Router User Guide Logs The Logs record various types of activity on the Wireless ADSL Router. This data is useful for troubleshooting, but enabling all logs will generate a large amount of data and adversely affect performance. Since only a limited amount of log data can be stored in the Wireless ADSL Router, log data can also be E-mailed to your PC. Use the E-mail screen to configure this feature. Data - Logs Screen Logs Current Time Log Data Buttons Figure 38: Logs Screen The current time on the Wireless ADSL Router is displayed. Current log data is displayed in this panel. There are three (3) buttons Refresh - Update the log data. Clear Log - Clear the log, and restart it. This makes new messages easier to read. Send Log - E-mail the log immediately. This is only functional if the E-mail screen has been configured. 53 Advanced Administration Logs Include (Checkboxes) Use these checkboxes to determine which events are included in the log. Checking all options will increase the size of the log, so it is good practice to disable any events which are not really required. Attempted access to blocked sites - If checked, attempted Internet accesses which were blocked are logged. Connections to the Web-based interface of this Router - If checked, this will log connections TO this Router, rather than through this Router to the Internet. Router operation - If checked, other Router operations (not covered by the selections above) will be logged. Known DoS attacks and Port Scans - If checked, Denial of Service attacks, as well as port scans, will be logged. Data is not sent to a Syslog Server. The Syslog data is broadcast, rather than sent to a specific Syslog server. Use this if your Syslog Server does not have a fixed IP address. If your Syslog server has a fixed IP address, select this option, and enter the IP address of your Syslog server. Syslog Disable Broadcast on LAN Syslog 54 Wireless ADSL Router User Guide 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 39: Network Diagnostics Screen Data - Network Diagnostics Screen Ping Ping this IP Address Ping Button DNS Lookup Internet name 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. Lookup Button After entering the Domain name/URL, click this button to start the

"DNS Lookup" procedure. Routing Display Click this button to display the internal routing table. This information can be used by Technical Support and other staff who understand Routing Tables. 55 E-mail This screen allows you to E-mail Logs and Alerts. A sample screen is shown below. Advanced Administration Figure 40: E-mail Screen Data E-mail Screen E-Mail Notification Send Logs &

Alerts via E-mail Check this box to enable this feature. If enabled, the E-mail address information (below) must be provided. Send to this E-

mail address Outgoing Mail Server E-mail Alerts Enter the E-mail address the Log is to be sent to. The E-mail will also show this address as the Sender's address. Enter the address or IP address of the SMTP (Simple Mail Transport Protocol) Server you use for outgoing E-mail. Send E-mail alerts You can choose to have alerts E-mailed to you, by checking the desired checkboxes. The Wireless ADSL Router can send an immediate alert when it detects a significant security incident such as A known hacker attack is directed at your IP address A computer on the Internet scans your IP address for open ports Someone on your LAN (Local Area Network) tries to visit a blocked site. 56 Wireless ADSL Router User Guide E-mail Logs Send Logs Select the desired option for sending the log by E-mail. Never (default) - This feature is disabled; Logs are not sent. When log is full - The time is not fixed. The log will be sent when the log is full, which will depend on the volume of traffic. Hourly, Daily, Weekly... - The log is sent on the interval specified. If "Daily" is selected, the log is sent at the time specified. If the day is specified, the log is sent once per week, on the specified day. Select the time of day you wish the E-mail to be sent. If the log is full before the time specified to send it, it will be sent regardless. 57 Remote Admin If enabled, this feature allows you to manage the Wireless ADSL Router via the Internet. Advanced Administration Figure 41: Remote Administration Screen Data - Remote Administration Screen Remote Administration Enable Remote Management Remote Management Address Port Number Check to allow adminstration/management via the Internet. (To connect, see below). If Disabled, this device will ignore Administration connection attempts from the Internet. This is the current address you will use When accessing your Router from the Internet. To access the Router:

1. From a remote location, start your Browser. 2. In the "Address" or "Location" field, enter the Internet IP address of this device (NOT the LAN IP address), followed by the port number, as follows:

http://ip_address:port_number Where:

ip_address is the Internet IP address of this device. port_number is the port number assigned on this screen. 3. You should then be prompted for the password for this device.

(You must assign a password!) Enter a port number between 1024 and 65535. The default for HTTP

(Web) connections is port 80, but using port 80 will prevent the use of a Web "Virtual Server" on your LAN. So using a different port number is recommended. The default value is 8080. The port number must be specified in your Browser when you connect, as detailed above. 58 Wireless ADSL Router User Guide Access Permission Allow Remote Access Select the desired option. Everyone - allow access by everyone on the Internet. Only This Computer - allow access by only one IP address. Enter the desired IP address. IP Address Range - allow access from a range of IP addresses on the Internet. Enter a beginning and ending IP address to define the allowed range. For security, you should restrict access to as few external IP addresses as practical. To connect from a remote PC via the Internet 1. Ensure your Internet connection is established, and start your Web Browser. 2. In the "Address" bar, enter "HTTP://" followed by the Internet IP Address of the Wireless ADSL Router. If the port number is not 80, the port number is also required. (After the IP Address, enter ":" followed by the port number.) e.g. HTTP://123.123.123.123:8080 This example assumes the WAN IP Address is 123.123.123.123, and the port number is 8080. 59 Advanced Administration Routing Overview If you don't have other Routers or Gateways on your LAN, you can ignore the "Routing"

page completely. If the Wireless ADSL Router is only acting as a Gateway for the local LAN segment, ignore the "Routing" page even if your LAN has other Routers. If your LAN has a standard Router (e.g. Cisco) on your LAN, and the Wireless ADSL Router is to act as a Gateway for all LAN segments, enable RIP (Routing Information Protocol) and ignore the Static Routing table. If your LAN has other Gateways and Routers, and you wish to control which LAN segments use each Gateway, do NOT enable RIP (Routing Information Protocol). Configure the Static Routing table instead. (You also need to configure the other Routers.) If using Windows 2000 Data center Server as a software Router, enable RIP on the Wireless ADSL Router, and ensure the following Windows 2000 settings are correct:

Open Routing and Remote Access In the console tree, select Routing and Remote Access , [server name], IP Routing, RIP In the "Details" pane, right-click the interface you want to configure for RIP version 2, and then click "Properties". On the "General" tab, set Outgoing packet protocol to "RIP version 2 broadcast", and Incoming packet protocol to "RIP version 1 and 2". Routing Screen The routing table is accessed by the Routing link on the Administration menu. Using this Screen Generally, you will use either RIP (Routing Information Protocol) OR the Static Routing Table, as explained above, although is it possible to use both methods simultaneously. Static Routing Table If RIP is not used, an entry in the routing table is required for each LAN segment on your Network, other than the segment to which this device is attached. The other Routers must also be configured. See Configuring Other Routers on your LAN later in this chapter for further details and an example. 60 Wireless ADSL Router User Guide Figure 42: Routing Screen Data - Routing Screen RIP RIP Direction RIP Version Static Routing Static Routing Table Entries Select the desired RIP Direction. Choose the RIP Version for the Server. This list shows all entries in the Routing Table. This area shows details of the selected item in the list. Change any the properties as required, then click the "Edit"

button to save the changes to the selected entry. Buttons Add Edit Delete Save Add a new entry to the Static Routing table, using the data shown in the "Properties" area on screen. The entry selected in the list is ignored, and has no effect. Update the current Static Routing Table entry, using the data shown in the table area on screen. Delete the current Static Routing Table entry. Save the RIP setting. This has no effect on the Static Routing Table. Configuring Other Routers on your LAN It is essential that all IP packets for devices not on the local LAN be passed to the Wireless ADSL Router, so that they can be forwarded to the external LAN, WAN, or Internet. To achieve this, the local LAN must be configured to use the Wireless ADSL Router as the Default Route or Default Gateway. 61 Advanced Administration Local Router The local router is the Router installed on the same LAN segment as the Wireless ADSL Router. This router requires that the Default Route is the Wireless ADSL Router itself. Typically, routers have a special entry for the Default Route. It should be configured as follows. Destination IP Address Network Mask Gateway IP Address Metric Normally 0.0.0.0, but check your router documentation. Normally 0.0.0.0, but check your router documentation. The IP Address of the Wireless ADSL Router. 1 Other Routers on the Local LAN Other routers on the local LAN must use the Wireless ADSL Router's Local Router as the Default Route. The entries will be the same as the Wireless ADSL Router's local router, with the exception of the Gateway IP Address. For a router with a direct connection to the Wireless ADSL Router's local Router, the Gateway IP Address is the address of the Wireless ADSL Router's local router. For routers which must forward packets to another router before reaching the Wireless ADSL Router's local router, the Gateway IP Address is the address of the intermediate router. Static Routing - Example Router A

(192.168.1.80)

(192.168.0.100) Segment 1

(192.168.1.xx) Router B

(192.168.1.90)

(192.168.2.70) Segment 0

(192.168.0.xx) Wireless Router

(192.168.0.1) Segment 2

(192.168.2.xx) Figure 43: Routing Example For the Wireless ADSL Router's Routing Table For the LAN shown above, with 2 routers and 3 LAN segments, the Wireless ADSL Router requires 2 entries as follows. Entry 1 (Segment 1) Destination IP Address Network Mask Gateway IP Address Metric 192.168.1.0 255.255.255.0 (Standard Class C) 192.168.0.100 (Wireless ADSL Router's local Router) 2 62 Wireless ADSL Router User Guide Entry 2 (Segment 2) Destination IP Address Network Mask Gateway IP Address Metric 192.168.2.0 255.255.255.0 (Standard Class C) 192.168.0.100 3 For Router A's Default Route Destination IP Address Network Mask Gateway IP Address 0.0.0.0 0.0.0.0 192.168.0.1 (Wireless ADSL Router's IP Address) For Router B's Default Route Destination IP Address Network Mask Gateway IP Address 0.0.0.0 0.0.0.0 192.168.1.80 (Wireless ADSL Router's local router) 63 Advanced Administration Router Upgrade The firmware (software) in the Wireless ADSL Router 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 44: Router Upgrade Screen To perform the Firmware Upgrade:

1. Click the "Browse" button and navigate to the location of the upgrade file. 2. Select the upgrade file. Its name will appear in the Upgrade File field. 3. Click the "Start Upgrade" button to commence the firmware upgrade. The Wireless ADSL Router is unavailable during the upgrade process, and must restart when the upgrade is completed. Any connections to or through the Wireless ADSL Router will be lost. 64 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 ADSL Router and some possible solutions to them. If you follow the suggested steps and the Wireless ADSL Router still does not function properly, contact your dealer for further advice. General Problems Problem 1:

Solution 1:

Can't connect to the Wireless ADSL Router to configure it. Check the following:

The Wireless ADSL Router is properly installed, LAN connections are OK, and it is powered ON. Ensure that your PC and the Wireless ADSL Router are on the same network segment. (If you don't have a router, this must be the case.) If your PC is set to "Obtain an IP Address automatically" (DHCP client), restart it. If your PC uses a Fixed (Static) IP address, ensure that it is using an IP Address within the range 192.168.0.2 to 192.168.0.254 and thus compatible with the Wireless ADSL Router's default IP Address of 192.168.0.1. Also, the Network Mask should be set to 255.255.255.0 to match the Wireless ADSL Router. In Windows, you can check these settings by using Control Panel-

Network to check the Properties for the TCP/IP protocol. Internet Access 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 ADSL Router. Ensure that it is connected and ON. Connect to it and check its settings. (If you can't connect to it, check the LAN and power connections.) Check the Wireless ADSL Router's status screen to see if it is working correctly. 65 Appendix A - Troubleshooting Problem 2:

Solution 2:

Some applications do not run properly when using the Wireless ADSL Router. The Wireless ADSL Router processes the data passing through it, so it is not transparent. For incoming connections, you must use the Virtual Server or Firewall Rules to specify the PC which will receive the incoming traffic. You can also 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. Wireless Access Problem 1: My PC can't locate the Wireless Access Point. Solution 1:

Check the following. Your PC is set to Infrastructure Mode. (Access Points are always in Infrastructure Mode) The SSID on your PC and the Wireless Access Point are the same. Remember that the SSID is case-sensitive. So, for example

"Workgroup" does NOT match "workgroup". Both your PC and the Wireless ADSL Router must have the same setting for WEP. The default setting for the Wireless ADSL Router is disabled, so your wireless station should also have WEP disabled. If WEP is enabled on the Wireless ADSL Router, your PC must have WEP enabled, and the key must match. If the Wireless ADSL Router's Wireless screen is set to Allow Trusted PCs only, then each of your Wireless stations must have been designated as "Trusted", or the Wireless station will be blocked. To see if radio interference is causing a problem, see if connection is possible when close to the Wireless ADSL Router. Remember that the connection range can be as little as 100 feet in poor environments. Problem 2: Wireless connection speed is very slow. Solution 2:

The wireless system will connect at the highest possible speed, depending on the distance and the environment. To obtain the highest possible connection speed, you can experiment with the following:

Wireless ADSL Router location. Try adjusting the location and orientation of the Wireless ADSL Router. 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 66 Wireless ADSL Router User Guide 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 ADSL Router. 67 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 Stations (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 interference, it is recommended that adjacent Access Points SHOULD use different channels. As Wireless Stations are physically moved through the area covered by an ESS, they will automatically change to the Access Point which has the least interference or best performance. This capability is called Roaming. (Access Points do not have or require Roaming capabilities.) 68 Wireless ADSL Router 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 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. 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 Wireless 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 69 C Appendix C Specifications Multi-Function Wireless ADSL Router Model Dimensions Wireless ADSL Router 189mm(W) * 122mm(D) * 27mm(H) Operating Temperature 0 C to 40 C Storage Temperature

-10 C to 70 C Network Protocol:

Network Interface:

TCP/IP 4 * 10/100BaseT (RJ45) LAN connection 1 * RJ11 for ADSL LEDs 12 Power Adapter 15 V External Wireless Interface Standards Frequency Channels Modulation Data Rate Coverage Area IEEE802.11g WLAN, 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 : 15m @54Mbps, 120m @6Mbps or lower Outdoors : 40m @54Mbps, 300m @6Mbps or lower WEP 64Bit, 128Bit Output Power 13dBm (typical) Receiver Sensitivity

-80dBm Min. 70 Wireless ADSL Router User 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 communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one 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. CE Approval 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. 71

 

 

ETC Report No. : ET92R-10-093-04 FCC ID.:P27IP806GA CONSTRUCTED PHOTOS of EUT Internal View of EUT Component View of Main PCB Rev. No 1.0 ETC Report No. : ET92R-10-093-04 FCC ID.:P27IP806GA CONSTRUCTED PHOTOS of EUT Component View of Main PCB Solder View of Main PCB Rev. No 1.0 ETC Report No. : ET92R-10-093-04 FCC ID.:P27IP806GA CONSTRUCTED PHOTOS of EUT Component View of Main PCB Component View of Main PCB Rev. No 1.0 ETC Report No. : ET92R-10-093-04 FCC ID.:P27IP806GA CONSTRUCTED PHOTOS of EUT Solder View of Main PCB Rev. No 1.0 ETC Report No. : ET92R-10-093-04 FCC ID.:P27IP806GA CONSTRUCTED PHOTOS of EUT Internal View of Adaptor Internal View of Adaptor Rev. No 1.0

 

 

ETC Report No. : ET92R-10-093-04 FCC ID.:P27IP806GA CONSTRUCTED PHOTOS of EUT Front View of EUT Bottom View of EUT Rev. No 1.0 ETC Report No. : ET92R-10-093-04 FCC ID.:P27IP806GA CONSTRUCTED PHOTOS of EUT Side View of EUT Side View of EUT Rev. No 1.0 ETC Report No. : ET92R-10-093-04 FCC ID.:P27IP806GA CONSTRUCTED PHOTOS of EUT Top View of EUT Rear View of EUT Rev. No 1.0 ETC Report No. : ET92R-10-093-04 FCC ID.:P27IP806GA CONSTRUCTED PHOTOS of EUT Front View of Adaptor Rear View of Adaptor Rev. No 1.0

 

 

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Congratulations on the purchase of your new Wireless ADSL Router. The Wireless ADSL Router is a multi-function device providing the following services:

E ADSL Modem. E Shared Broadband Internet Access for all LAN users. E Wireless Access Point for 802.11b and 802.11g Wireless Stations. E 4-Port Switching Hub for 10BaseT or 100BaseT connections.

 

 

8F, No.3-1, YuanQu St., NanKang, Taipei 115, Taiwan, R.O.C. S -1.1 | SerComm Corp. Embedded Server Provider TEL: 886-2-2655-3988 FAX: 886-2-2655-3966 QELS COIN. http://www.sercomm.com E-mail: sales@sercomm.com Ail trademarks are the property of their respective owners Specifications are subject to change without notice Federal Communications Commission Dear Sir, We, the undersigned, hereby authorize ELECTRONICS TESTING CENTER, TAIWAN to act on our behalf in all matters relating to application for Wireless ADSL Router (Model: IP806GA, FCC ID No.:P27IP806GA) authorization, including the signing of all documents relating to these matters. Any and all carried out by ELECTRONICS TESTING CENTER, TAIWAN on our behalf shall have the same effect as acts of our own. The applicant certifies that in the case of an individual applicant (e.g., corporation), no party to the applicant is subject to a denial of federal benefits, that includes FCC benefits, pursuant to section 5301 of the Anti-drug abuse Act of 1988.21 U.S.A. 862. For a definition of a party for these purposes See 47 C.F.R. 1.2002(b). By: Feng Pan ignature) (Printed) Title : / awn AGLY. Applicant : SerComm Corporation Address : 8F, No.3-1, UuanQu St., NanKang, Taipei City115, Taiwan, R.O.C. Tel : +886-2-2655-3988 Fax : +886-2-2655-3966 Date : Nov. 21. 2003 1.1 SerComm Corp. Embedded Server Provider 8F, No.3-1, YuanQu St., Nankang, Taipel 115, Taiwan, R.O.C. i TEL: 886-2-2655-3988 FAX: 886-2-2655-3966 n 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 Corporation Nov. 21 2003 Federal Communications Commission Authorization and Evaluation Division FCC ID : P27IP806GA Confidentiality Request Pursuant to Sections 0..457 and 0.459 of the Commission's Rules, the Applicant Hereby requests confidential treatment of information accomparrting 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, Feng Pan / title eng (D, 2 Ta, Applicant: SerComm Corpor j fon v ADDRESS: F, No.3-1, YuanQu St, Taipei 115, TAIWAN. R.O.C TEL: 886-2-2655-3988 FAX: 886-2-2655-3988

 

 

Mike Kuo From:

Sent:

To:

Subject:

S. S. Liou [ssliou@seed.net.tw]

January01 2004~ Thursday 10:18 PM Mike Kuo Re: SerComm corporation, FCC ID:P27IP806GA, AN03T3533 Exhibit-E-User_Man Pages from ual.pdf Exhibit-C-Test_Repo... Dear Mike, Ans. #1: The user manual is revised. The domain selection of channel usage is removed from the user manual and also the software is revised correspondingly. The device when sold in the U.S. can only capable of trnasmitting authorized 11 channels. Ans. #2: Please refer to attached revised page of test report. The description of section 1.2 has been corrected. Best regards,

================================

S. S. Liou Engineer / EMC Dep. II ETC

----- Original Message -----

From: "Mike Kuo" <MKUO@CCSEMC.com>

To: "ETC/Iris (E-mail)" <etcemi@seed.net.tw>; "Liou, S. S. (E-mail)"

<ssliou@seed.net.tw>

Sent: Wednesday, December 24, 2003 6:16 AM Subject: FW: SerComm corporation, FCC ID:P27IP806GA, AN03T3533

>

>

> -----Original Message-----

> From: CERTADM

> Sent: Tuesday, December 23, 2003 2:15 PM

> To: Mike Kuo

> Subject: SerComm corporation, FCC ID:P27IP806GA, AN03T3533

>

>

> Notice_content

> -------------

> Question #1: Page 15 of user manual list the regulatory domain to be

> selected by the end user during the installation process. Such domain

> selection is not allowed. Manufacturer can not depend on the end user

> selection to ensure that only authorized channel will be used by the end

> user. Please provide the technical description on how to limit the end user

> will only capable of operating from 2412 - 2462MHz in the U.S.

>

> Question #2: Section 1.2 of test report describes this device has data rate

> of 11MBps which is not correct based upon the technical specification in the

> user manual. Please make necessary correction.

>

> Best Regards

>

> Mike Kuo

> The items indicated above must be submitted before processing can continue

> on the above referenced application. Failure to provide the requested 1

> information within 30 days of the original e-mail date may result in

> application dismissal and forfeiture of the filing fee. 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 e-mail address listed below the name of the sender. 2

 

 

FCC Part 15 EMI TEST REPORT of E.U.T. : WIRELESS ADSL ROUTER FCC ID. : P27IP806GA MODEL : IP806GA for APPLICANT : Sercomm Corporation ADDRESS

: 8F, No. 3-1, YuanQu St.,NanKang, Taipei 115, Taiwan, R.O.C. Test Performed by ELECTRONICS TESTING CENTER, TAIWAN NO. 34, LIN 5, DING FU TSUN, LINKOU HSIANG TAIPEI HSIEN, TAIWAN, R.O.C. Tel : (02)26023052 Fax : (02)26010910 http://www.etc.org.tw ; e-mail: etcemi@seed.net.tw Report Number : ET92R-10-093-04 Rev. No 2.0 ETC Report No. : ET92R-10-093-04 FCC ID.: P27IP806GA TEST REPORT CERTIFICATION Applicant

: Sercomm Corporation 8F, No. 3-1, YuanQu St.,NanKang, Taipei 115, Taiwan, R.O.C. Manufacturer

: Sercomm Corporation 8F, No. 3-1, YuanQu St.,NanKang, Taipei 115, Taiwan, R.O.C. Description of EUT

:

a) Type of EUT

: WIRELESS ADSL ROUTER b) Trade Name c) Model No.

: Sercomm

: IP806GA d) Power Supply

: Adapter I/P: 120Vac/60Hz ; O/P: 15Vdc, 1A Regulation Applied

: FCC Rules and Regulations Part 15 Subpart B & C (2002) I HEREBY CERTIFY THAT: The data shown in this report were made in accordance with the procedures given in ANSI C63.4, and the energy emitted by the device was founded to be within the limits applicable. I assume full responsibility for accuracy and completeness of these data. Note: 1. The result of the testing report relate only to the item tested. 2. The testing report shall not be reproduced expect in full, without the written approval of ETC. Issued Date :

Nov. 24, 2003 Test Engineer :

( Kevin Lee ) Approve & Authorized Signer :

Will Yauo, Manager EMC Dept. II of ELECTRONICS TESTING CENTER, TAIWAN Rev. No 1.0 ETC Report No. : ET92R-10-093-04 FCC ID.: P27IP806GA Table of Contents Page 1 GENERAL INFORMATION........................................................................................................1 1.1 Product Description........................................................................................................................1 1.2 Characteristics of Device.................................................................................................................1 1.3 Test Methodology...........................................................................................................................1 1.4 Test Facility....................................................................................................................................1 2 PROVISIONS APPLICABLE........................................................................................................2 2.1 Definition........................................................................................................................................2 2.2 Requirement for Compliance ...........................................................................................................3 2.3 Restricted Bands of Operation.........................................................................................................5 2.4 Labeling Requirement......................................................................................................................5 2.5 User Information.............................................................................................................................6 3. SYSTEM TEST CONFIGURATION............................................................................................7 3.1 Justification.....................................................................................................................................7 3.2 Devices for Tested System..............................................................................................................7 4 RADIATED EMISSION MEASUREMENT...............................................................................8 4.1 Applicable Standard........................................................................................................................8 4.2 Measurement Procedure .................................................................................................................8 4.3 Measuring Instrument ....................................................................................................................10 4.4 Radiated Emission Data.................................................................................................................11 4.4.1 RF Portion .............................................................................................................................. 11 4.4.2 Radiated Eimssion of Restricted bands ...................................................................................... 17 4.4.3 Other Emission........................................................................................................................ 19 4.5 Field Strength Calculation..............................................................................................................20 4.6 Photos of Radiation Measuring Setup ............................................................................................21 5 CONDUCTED EMISSION MEASUREMENT.........................................................................22 5.1 Standard Applicable......................................................................................................................22 5.2 Measurement Procedure ...............................................................................................................22 5.3 Conducted Emission Data .............................................................................................................23 5.4 Result Data Calculation.................................................................................................................26 5.5 Conducted Measurement Equipment .............................................................................................27 5.6 Photos of Conduction Measuring Setup .........................................................................................28 6 ANTENNA REQUIREMENT.....................................................................................................29 6.1 Standard Applicable......................................................................................................................29 6.2 Antenna Construction and Directional Gain....................................................................................29 7 EMISSION BANDWIDTH MEASUREMENT..........................................................................30 Rev. No 1.0 ETC Report No. : ET92R-10-093-04 FCC ID.: P27IP806GA 7.1 Standard Applicable......................................................................................................................30 7.2 Measurement Procedure ...............................................................................................................30 7.3 Measurement Equipment ...............................................................................................................30 7.4 Measurement Data........................................................................................................................31 8 OUTPUT POWER MEASUREMENT........................................................................................32 8.1 Standard Applicable......................................................................................................................32 8.2 Measurement Procedure ...............................................................................................................32 8.3 Measurement Equipment ...............................................................................................................32 8.4 Measurement Data........................................................................................................................33 9 100 KHZ BANDWIDTH OF BAND EDGES MEASUREMENT..............................................34 9.1 Standard Applicable......................................................................................................................34 9.2 Measurement Procedure ...............................................................................................................34 9.3 Measurement Equipment ...............................................................................................................34 9.4 Measurement Data........................................................................................................................35 10 POWER DENSITY MEASUREMENT....................................................................................36 10.1 Standard Applicable....................................................................................................................36 10.2 Measurement Procedure .............................................................................................................36 10.3 Measurement Equipment .............................................................................................................36 10.4 Measurement Data......................................................................................................................37 11. OUT-OF-BAND CONDUCTED EMISSION MEASUREMENT.........................................38 11.1 Standard Applicable....................................................................................................................38 11.2 Measurement Procedure .............................................................................................................38 11.3 Measurement Equipment .............................................................................................................38 11.4 Measurement Data......................................................................................................................39 APPENDIX 1 : PLOTED DATAS OF POWER LINE CONDUCTED EMISSIONS.............................................1 APPENDIX 2 : PLOTED DATAS OF EMISSIONS BANDWIDTH................................................................14 APPENDIX 3 : PLOTED DATAS OF OUTPUT PEAK POWER....................................................................21 APPENDIX 4 : PLOTED DATAS OF BAND EDGE EMISSION...................................................................28 APPENDIX 5 : PLOTED DATAS OF POWER DENSITY............................................................................33 APPENDIX 6 : PLOTTED DATA FOR OUT-OF-BAND CONDUCTED EMISSION........................................40 Rev. No 1.0 ETC Report No. : ET92R-10-093-04 Sheet 1 of 40Sheets FCC ID.: P27IP806GA 1 GENERAL INFORMATION 1.1 Product Description a) Type of EUT b) Trade Name c) Model No. d) Power Supply

: WIRELESS ADSL ROUTER

: Sercomm

: IP806GA

: Adapter I/P: 120Vac/60Hz ; O/P: 15Vdc, 1A 1.2 Characteristics of Device The WIRELESS ADSL ROUTER designed with a transmitting method of IEEE 802.11g spread spectrum is for local area network operation, which operates at 2.4 GHz ISM band and data rate up to 54 Mbps. 1.3 Test Methodology For WIRELESS ADSL ROUTER, both conducted and radiated emissions were performed according to the procedures illustrated in ANSI C63.4 (1992) and for processing gain measurement is according to FCC Public Notice. Other required measurements were illustrated in separate sections of this test report for details. 1.4 Test Facility The open area test site and conducted measurement facility used to collect the radiated data is located on the roof top of Building at No. 34, Lin 5, Ding Fu Tsun, Linkou Hsiang, Taipei Hsien, Taiwan 244, R.O.C. This site has been fully described in a report submitted to your office, and accepted in a letter dated Feb. 10, 2000. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 2 of 40Sheets FCC ID.: P27IP806GA 2 PROVISIONS APPLICABLE 2.1 Definition Unintentional radiator:

A device that intentionally generates and radio frequency energy for use within the device, or that sends radio frequency signals by conduction to associated equipment via connecting wiring, but which is not intended to emit RF energy by radiation or induction. Class A Digital Device:

A digital device which is marketed for use in commercial or business environment; exclusive of a device which is market for use by the general public, or which is intended to be used in the home. Class B Digital Device :

A digital device which is marketed for use in a residential environment notwithstanding use in a commercial, business of industrial environment. Example of such devices that are marketed for the general public. Note : A manufacturer may also qualify a device intended to be marketed in a commercial, business, or industrial environment as a Class B digital device, and in fact is encouraged to do so, provided the device complies with the technical specifications for a Class B Digital Device. In the event that a particular type of device has been found to repeatedly cause harmful interference to radio communications, the Commission may classify such a digital device as a Class B Digital Device, Regardless of its intended use. Intentional radiator:

A device that intentionally generates and emits radio frequency energy by radiation or induction. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 3 of 40Sheets FCC ID.: P27IP806GA 2.2 Requirement for Compliance

(1) Conducted Emission Requirement Except for Class A digital devices, for equpment that is designed to be connected to the public utility (AC) power line, the radio frequency voltage that is conducted back onto the AC power line on any 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 impedance 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 dBV 66-56*

56 60 Average dBV 56-46*

46 50

* Decreases with the logarithm of the frequency

(2) Radiated Emission Requirement For unintentional device, according to 15.109(a), except for Class A digital devices, the field strength of radiated emissions from unintentional radiators at a distance of 3 meters shall not exceed the following values:

Frequency MHz 30 - 88 88 - 216 216 - 960 Above 960 Distance Meters Radiated dBV/m 3 3 3 3 40.0 43.5 46.0 54.0 Radiated V/m 100 150 200 500 For intentional device, according to 15.209(a), the general requirement of field strength of radiated emissions from intentional radiators at a distance of 3 meters shall not exceed the above table.

(3) Antenna Requirement For intentional device, according to 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. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 4 of 40Sheets FCC ID.: P27IP806GA

(4) Bandwidth Requirement For direct sequence system, according to 15.247(a)(2), the minimum 6dB bandwidth shall be at least 500 kHz.

(5) Output Power Requirement For direct sequence system, according to 15.247(b), the maximum peak output power of the transmitter shall not exceed 1 Watt. If transmitting antennas of directional gain greater than 6 dBi are used, the power shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6 dBi.

(6) 100 kHz Bandwidth of Frequency Band Edges Requirement According to 15.247(c), if any 100 kHz bandwidth outside these frequency bands, the radio frequency power that is produced by the modulation products of the spreading sequence, the information sequence and the carrier frequency shall be either at least 20 dB below that in any 100 kHz bandwidth within the band that contains the highest level of the desired power or shall not exceed the general levels specified in 15.209(a), whichever results in the lesser attenuation.

(7) Power Density Requirement According to 15.247(d), for direct sequence systems, the transmitted power density averaged over any 1 second interval shall not be greater than 8 dBm in any 3 kHz bandwidth within these bands. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 5 of 40Sheets FCC ID.: P27IP806GA 2.3 Restricted Bands of Operation Only spurious emissions are permitted in any of the frequency bands listed below :

MHz MHz MHz 0.090 - 0.110 0.495 - 0.505 **

2.1735 - 2.1905 16.42-16.423 16.69475 - 16.69525 16.80425 - 16.80475 4.125-4.128 4.17725-4.17775 4.20725-4.20775 6.215-6.218 6.26775-6.26825 6.31175-6.31225 8.291-8.294 8.362-8.366 8.37625-8.38675 8.41425-8.41475 12.29-12.293 12.51975-12.52025 12.57675-12.57725 13.36-13.41 25.5-25.67 37.5-38.25 73-74.6 74.8-75.2 108-121.94 123-138 149.9-150.05 156.52475 - 156.52525 156.7-156.9 162.0125-167.17 167.72-173.2 240-285 322-335.4 399.9-410 608-614 960-1240 1300-1427 1435-1626.5 1645.5-1646.5 1660-1710 1718.8-1722.2 2200-2300 2310-2390 2483.5-2500 2655-2900 3260-3267 3332-3339 3345.8-3358 3360-4400

** : Until February 1, 1999, this restricted band shall be 0.490-0.510 MHz GHz 4.5-5.15 5.35-5.46 7.25-7.75 8.025-8.5 9.0-9.2 9.3-9.5 10.6-12.7 13.25-13.4 14.47-14.5 15.35-16.2 17.7-21.4 22.01-23.12 23.6-24.0 31.2-31.8 36.43-36.5 Above 38.6 2.4 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. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 2.5 User Information Sheet 6 of 40Sheets FCC ID.: P27IP806GA The users manual or instruction manual for an intentional or unintentional radiator shall caution the user that changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. For a Class B digital device or peripheral, the instructions furnished the user shall include the following or similar statement, placed in a prominent location in the text of the manual. The Federal Communications Commission Radio Frequency Interference Statement includes the following paragraph. 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 instruction may cause harmful interference to radio communication. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

-- Reorient or relocate the receiving antenna.

-- Increase the separation between the equipment and receiver.

-- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

-- Consult the dealer or an experienced radio / TV technician for help. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 7 of 40Sheets FCC ID.: P27IP806GA 3. SYSTEM TEST CONFIGURATION 3.1 Justification For both radiated and conducted emissions below 1 GHz, the system was configured for testing in a typical fashion as a customer would normally use it. The peripherals other than EUT were connected in normally standing by situation. Measurement was performed under the condition that a computer program was exercised to simulate data communication of EUT, and the transmission rate was set to maximum allowed by EUT. Three highest emissions were verified with varying placement of the transmitting antenna connected to EUT to maximize the emission from EUT. For conducted emissions, only measured on TX and RX operation, for the digital circuits portion also function normally whenever TX or RX is operated. For radiated emissions, whichever RF channel is operated, the digital circuits function identically. As the reason, measurement of radiated emissions from digital circuits is only performed with channel 7 by transmitting mode. During the preliminary test, the worse case is the antenna with a cable, and data presented in this test report just shows the worse case. 3.2 Devices for Tested System Device WIRELESS ADSL ROUTER *

Manufacture Sercomm Corporation Model / FCC ID. IP806GA/

P27IP806GA Cable Description 1.2m Unshielded Cable Printer EPSON Photo 700 1.3m Unshielded Single Cable 1.8m Unshielded AC Power line Notebook PC Mouse IBM ACER Thinkkpad X21 1.8m Unshielded AC Power Cord M-S42 1.5m Unshielded Cable Remark * means equipment under test. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 8 of 40Sheets FCC ID.: P27IP806GA 4 RADIATED EMISSION MEASUREMENT 4.1 Applicable Standard For unintentional radiator, the radiated emission shall comply with 15.109(a). For intentional radiators, according to 15.247 (a), operation under this provision is limited to frequency hopping and direct sequence spread spectrum, and the out band emission shall be comply with 15.247 (c) 4.2 Measurement Procedure 1. Setup the configuration per figure 1 and 2 for frequencies measured below and above 1 GHz respectively. 2. For emission frequencies measured below 1 GHz, a pre-scan is performed in a shielded chamber to determine the accurate frequencies of higher emissions will be checked on a open test site. As the same purpose, for emission frequencies measured above 1 GHz, a pre-scan also be performed with a 1 meter measuring distance before final test. 3. For emission frequencies measured below and above 1 GHz, set the spectrum analyzer on a 100 kHz and 1 MHz resolution bandwidth respectively for each frequency measured in step 2. 4. The search antenna is to be raised and lowered over a range from 1 to 4 meters in horizontally polarized orientation. Position the highness when the highest value is indicated on spectrum analyzer, then change the orientation of EUT on test table over a range from 0 to 360with a speed as slow as possible, and keep the azimuth that highest emission is indicated on the spectrum analyzer. Vary the antenna position again and record the highest value as a final reading. A RF test receiver is also used to confirm emissions measured. 5. Repeat step 4 until all frequencies need to be measured were complete. 6. Repeat step 5 with search antenna in vertical polarized orientations. 7. Check the three frequencies of highest emission with varying the placement of cables associated with EUT to obtain the worse case and record the result. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 9 of 40Sheets FCC ID.: P27IP806GA Figure 1 : Frequencies measured below 1 GHz configuration Antenna Tower Search Antenna RF Test Receiver EUT 3m 4m Turn Table 0.8m 1m Ground Plane Figure 2 : Frequencies measured above 1 GHz configuration EUT 3m 4m Turn Table 0.8m 1m Antenna Tower Horn Antenna Spectrum Analyzer Amplifier Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 10 of 40Sheets FCC ID.: P27IP806GA 4.3 Measuring Instrument The following instrument are used for radiated emissions measurement:

Equipment Spectrum Analyzer Pre-selector Quasi Peak Detector RF Test Receiver Horn Antenna Horn Antenna Log periodic Antenna Biconical Antenna Preamplifier Preamplifier Spectrum Analyzer Manufacturer Model No. Hewlett-Packard Hewlett-Packard Hewlett-Packard Rohde & Schwarz EMCO EMCO EMCO EMCO Hewlett-Packard Hewlett-Packard Hewlett-Packard 8568B 85685A 85650A ESVS 30 3115 3116 3146 3110B 8449B 8447D 8564E Next Cal. Due 01/09/2004 01/09/2004 01/09/2004 08/06/2004 05/29/2004 01/10/2004 12/05/2004 11/05/2004 05/29/2004 02/19/2004 04/16/2004 Measuring instrument setup in measured frequency band when specified detector function is used :

Frequency Band

(MHz) 30 to 1000 Above 1000 Instrument Function RF Test Receiver Spectrum Analyzer Spectrum Analyzer Spectrum Analyzer Quasi-Peak Peak Peak Average Resolution bandwidth 120 kHz 100 kHz 1 MHz 1 MHz Video Bandwidth N/A 100 kHz 1 MHz 10 Hz Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 11 of 40Sheets FCC ID.: P27IP806GA 4.4 Radiated Emission Data 4.4.1 RF Portion A. 802.11b a) Channel Low Operation Mode

: Receiving /Transmitting Fundamental Frequency : 2412 MHz ( Local Frequency : 2038 MHz ) Test Date : Oct. 25, 2003 Temperature : 25 Humidity : 60 %

Frequency Reading (dBuV) Factor Result @3m H V

(MHz) Peak Ave Peak Ave

(dBuV/m) Peak Ave

(dB) Corr. Limit @3m

(dBuV/m) Peak Ave. Margin

(dB) Table Deg.

(Deg.) Ant. High

(m)

*

*

*

*

*

-4.5 47.5 42.1 74.0 54.0 -11.9 2038.400 47.6 43.2 52.0 46.6 2.0

---

4076.400

---

---

4.5

---

6114.800

---

6.5

---

8153.200 7.6

---

10191.600

---

---

2.6

---

4824.000

---

5.8

---

7236.000 7.3

---

9648.000

---

---

---

12060.000 9.2

--- 11.6 14472.000

---

---

--- 12.1 16884.000

---

8.8

---

19296.000 21708.000

---

9.8

---

---

--- 10.4 24120.000

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

69 1.2

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

Note :

1. Item of margin shown in above table refer to average limit. 2. It is considered that the results of average comply with average limit when measuring data with a peak function detector meet the average limit. Mark ***

means that Peak result is meet average limit. 3. Remark --- means that the emissions level is too low to be measured. 4. Item Margin referred to Average limit while there is only peak result. 5. The expanded uncertainty of the radiated emission tests is 3.53 dB. 6. Remark * means the receiving local frequency and the harmonics. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 b) Channel Mid Sheet 12 of 40Sheets FCC ID.: P27IP806GA Operation Mode

: Receiving / Transmitting Fundamental Frequency : 2437 MHz ( Local Frequency : 2063 MHz ) Test Date : Oct. 25, 2003 Temperature : 25 Humidity : 60 %

Frequency Reading (dBuV) Factor Result @3m H V

(MHz) Peak Ave Peak Ave

(dBuV/m) Peak Ave

(dB) Corr. Limit @3m

(dBuV/m) Peak Ave. Margin

(dB) Table Deg.

(Deg.) Ant. High

(m)

*

*

*

*

*

-4.4 49.4 41.6 74.0 54.0 -12.4 2062.950 46.5 40.2 53.8 46.0

---

2.0

---

4126.100

---

4.5

---

6189.250 6.6

---

8252.400

---

---

7.7

---

10315.550

---

2.7

---

4874.000 6.0

---

7386.000

---

---

7.4

---

9898.000

---

---

12410.000 9.4

--- 11.5 14922.000

---

---

--- 15.7 17434.000

---

---

19946.000 8.6 22458.000

--- 10.3

---

---

--- 11.2 24970.000

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

128 1.0

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

Note :

1. Item of margin shown in above table refer to average limit. 2. It is considered that the results of average comply with average limit when measuring data with a peak function detector meet the average limit. Mark ***

means that Peak result is meet average limit. 3. Remark --- means that the emissions level is too low to be measured. 4. Item Margin referred to Average limit while there is only peak result. 5. The expanded uncertainty of the radiated emission tests is 3.53 dB. 6. Remark * means the receiving local frequency and the harmonics. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 c) Channel High Sheet 13 of 40Sheets FCC ID.: P27IP806GA Operation Mode

: Receiving / Transmitting Fundamental Frequency : 2462 MHz ( Local Frequency : 2088 MHz ) Test Date : Oct. 25, 2003 Temperature : 25 Humidity : 60 %

Frequency Reading (dBuV) Factor Result @3m H V

(MHz) Peak Ave Peak Ave

(dBuV/m) Peak Ave

(dB) Corr. Limit @3m

(dBuV/m) Peak Ave. Margin

(dB) Table Deg.

(Deg.) Ant. High

(m)

*

*

*

*

*

-4.3 45.7 36.9 74.0 54.0 -17.1 2088.058 47.0 40.2 50.0 41.2

---

2.0

---

4176.058

---

4.5

---

6264.058 6.7

---

8352.058

---

---

7.8

---

10440.058

---

2.8

---

4924.000 6.0

---

7386.000

---

---

7.3

---

9848.000

---

---

12310.000 9.3

--- 11.5 14772.000

---

---

--- 14.3 17234.000

---

---

19696.000 8.5 22158.000

--- 10.0

---

---

--- 10.9 24620.000

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

98 1.2

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

Note :

1. Item of margin shown in above table refer to average limit. 2. It is considered that the results of average comply with average limit when measuring data with a peak function detector meet the average limit. Mark ***

means that Peak result is meet average limit. 3. Remark --- means that the emissions level is too low to be measured. 4. Item Margin referred to Average limit while there is only peak result. 5. The expanded uncertainty of the radiated emission tests is 3.53 dB. 6. Remark * means the receiving local frequency and the harmonics. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 14 of 40Sheets FCC ID.: P27IP806GA B. 802.11g a) Channel Low Operation Mode

: Receiving /Transmitting Fundamental Frequency : 2412 MHz ( Local Frequency : 2038 MHz ) Test Date : Oct. 24, 2003 Temperature : 25 Humidity : 60 %

Frequency Reading (dBuV) Factor Result @3m H V

(MHz) Peak Ave Peak Ave

(dBuV/m) Peak Ave

(dB) Corr. Limit @3m

(dBuV/m) Peak Ave. Margin

(dB) Table Deg.

(Deg.) Ant. High

(m)

*

*

*

*

*

-4.5 46.7 35.8 74.0 54.0 -18.2 2038.200 47.2 40.2 51.2 40.3 2.0

---

4076.400

---

---

4.5

---

6114.600

---

6.5

---

8152.800 7.6

---

10191.000

---

---

2.6

---

4824.000

---

5.8

---

7236.000 7.3

---

9648.000

---

---

---

12060.000 9.2

---

--- 11.6 14472.000 16884.000

--- 12.1

---

---

8.8

---

19296.000 21708.000

---

9.8

---

---

--- 10.4 24120.000

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

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---

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---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

70 1.2

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

Note :

1. Item of margin shown in above table refer to average limit. 2. It is considered that the results of average comply with average limit when measuring data with a peak function detector meet the average limit. Mark ***

means that Peak result is meet average limit. 3. Remark --- means that the emissions level is too low to be measured. 4. Item Margin referred to Average limit while there is only peak result. 5. The expanded uncertainty of the radiated emission tests is 3.53 dB. 6. Remark * means the receiving local frequency and the harmonics. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 b) Channel Mid Sheet 15 of 40Sheets FCC ID.: P27IP806GA Operation Mode

: Receiving / Transmitting Fundamental Frequency : 2437 MHz ( Local Frequency : 2063 MHz ) Test Date : Oct. 24, 2003 Temperature : 25 Humidity : 60 %

Frequency Reading (dBuV) Factor Result @3m H V

(MHz) Peak Ave Peak Ave

(dBuV/m) Peak Ave

(dB) Corr. Limit @3m

(dBuV/m) Peak Ave. Margin

(dB) Table Deg.

(Deg.) Ant. High

(m)

*

*

*

*

*

-4.4 45.9 37.1 74.0 54.0 -16.9 2062.620 44.2 40.0 50.3 41.5

---

2.0

---

4125.240

---

4.5

---

6187.860 6.6

---

8250.480

---

---

7.7

---

10313.100

---

2.7

---

4874.000 5.9

---

7311.000

---

---

7.3

---

9748.000

---

---

12185.000 9.3

--- 11.6 14622.000

---

---

--- 13.1 17059.000

---

---

19496.000 8.5 21933.000

---

9.9

---

---

--- 10.7 24370.000

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

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---

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---

---

---

---

---

---

---

---

128 1.0

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

Note :

1. Item of margin shown in above table refer to average limit. 2. It is considered that the results of average comply with average limit when measuring data with a peak function detector meet the average limit. Mark ***

means that Peak result is meet average limit. 3. Remark --- means that the emissions level is too low to be measured. 4. Item Margin referred to Average limit while there is only peak result. 5. The expanded uncertainty of the radiated emission tests is 3.53 dB. 6. Remark * means the receiving local frequency and the harmonics. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 c) Channel High Sheet 16 of 40Sheets FCC ID.: P27IP806GA Operation Mode

: Receiving / Transmitting Fundamental Frequency : 2462 MHz ( Local Frequency : 2088 MHz ) Test Date : Oct. 24, 2003 Temperature : 25 Humidity : 60 %

Frequency Reading (dBuV) Factor Result @3m H V

(MHz) Peak Ave Peak Ave

(dBuV/m) Peak Ave

(dB) Corr. Limit @3m

(dBuV/m) Peak Ave. Margin

(dB) Table Deg.

(Deg.) Ant. High

(m)

*

*

*

*

*

-4.3 46.0 37.8 74.0 54.0 -16.2 2088.120 44.2 39.3 50.3 42.1

---

2.0

---

4176.240

---

4.5

---

6264.360 6.7

---

8352.480

---

---

7.8

---

10440.600

---

2.8

---

4924.000 6.0

---

7386.000

---

---

7.3

---

9848.000

---

---

12310.000 9.3

--- 11.5 14772.000

---

---

--- 14.3 17234.000

---

---

19696.000 8.5 22158.000

--- 10.0

---

---

--- 10.9 24620.000

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

--- 74.0 54.0

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

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100 1.2

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

---

Note :

1. Item of margin shown in above table refer to average limit. 2. It is considered that the results of average comply with average limit when measuring data with a peak function detector meet the average limit. Mark ***

means that Peak result is meet average limit. 3. Remark --- means that the emissions level is too low to be measured. 4. Item Margin referred to Average limit while there is only peak result. 5. The expanded uncertainty of the radiated emission tests is 3.53 dB. 6. Remark * means the receiving local frequency and the harmonics. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 17 of 40Sheets FCC ID.: P27IP806GA 4.4.2 Radiated Eimssion of Restricted bands Test Date : Oct. 25, 2003 Temperature : 25 Humidity : 60 %

Operation Mode Frequency

: 802.11b; CH01 Reading (dBuV) H V Restricted Frequency band: 2310MHz 2390MHz Table Deg.

(Deg.) Limit @3m

(dBuV/m) Peak Ave Result @3m Peak Ave.

(dBuV/m) Factor

(dB)

(MHz) Peak Ave Peak Ave Corr. 2321.510 50.2 2389.330 48.1 43.8 42.1 48.3 47.3 43.4 42.8

-3.4

-3.1 46.8 45.0 40.4 74.0 39.7 74.0 54.0 256 54.0 134 Ant. High

(m) 1.0 1.2 Operation Mode Frequency

: 802.11b; CH11 Reading (dBuV) H V

(MHz) Peak Ave Peak Ave Restricted Frequency band: 2483.5MHz 2500MHz Factor

(dB) Corr. Result @3m

(dBuV/m) Peak Ave Limit @3m

(dBuV/m) Peak Ave. Table Deg.

(Deg.) 2485.590 48.9 2492.320 47.3 43.2 41.2 49.3 47.5 41.2 40.2

-2.8

-2.7 46.5 44.8 40.4 74.0 38.5 74.0 54.0 36 54.0 178 Ant. High

(m) 1.0 1.5 Note :

1. Item of margin shown in above table refer to average limit. 2. It is considered that the results of average comply with average limit when measuring data with a peak function detector meet the average limit. Mark ***

means that Peak result is meet average limit. 3. Remark --- means that the emissions level is too low to be measured. 4. Item Margin referred to Average limit while there is only peak result. 5. The expanded uncertainty of the radiated emission tests is 3.53 dB. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 18 of 40Sheets FCC ID.: P27IP806GA Test Date : Oct. 25, 2003 Temperature : 25 Humidity : 60 %

Operation Mode Frequency

: 802.11g; CH01 Reading (dBuV) H V Restricted Frequency band: 2310MHz 2390MHz Table Deg.

(Deg.) Limit @3m

(dBuV/m) Peak Ave Result @3m Peak Ave.

(dBuV/m) Factor

(dB)

(MHz) Peak Ave Peak Ave Corr. 2342.321 2385.182 45.1 40.2 40.1 41.3 46.1 46.8 41.2 42.3

-3.3

-3.1 42.8 43.7 37.9 39.2 74.0 74.0 54.0 312 54.0 69 Operation Mode Frequency

: 802.11g; CH11 Reading (dBuV) H V Restricted Frequency band: 2483.5MHz 2500MHz Table Deg.

(Deg.) Limit @3m

(dBuV/m) Peak Ave Result @3m Peak Ave.

(dBuV/m) Factor

(dB)

(MHz) Peak Ave Peak Ave Corr. 2483.950 45.2 2489.630 44.1 40.1 41.2 46.1 45.8 40.1 40.3

-2.8

-2.7 43.3 43.1 37.3 38.5 74.0 54.0 74.0 54.0 36 215 Ant. High

(m) 1.1 1.2 Ant. High

(m) 1.1 1.2 Note :

1. Item of margin shown in above table refer to average limit. 2. It is considered that the results of average comply with average limit when measuring data with a peak function detector meet the average limit. Mark ***

means that Peak result is meet average limit. 3. Remark --- means that the emissions level is too low to be measured. 4. Item Margin referred to Average limit while there is only peak result. 5. The expanded uncertainty of the radiated emission tests is 3.53 dB. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 19 of 40Sheets FCC ID.: P27IP806GA 4.4.3 Other Emission A. 802.11b a) Emission frequencies below 1 GHz Test Date : Oct. 24, 2003 Temperature : 25 Humidity : 60 %

Frequency Ant-Pol

(MHz) 187.950 219.270 250.590 375.600 624.800 878.900 H/V V H V H H H Meter Reading

(dBuV) Corrected Factor

(dB) Result

@3m Limit

@3m Margin

(dB)

(dBuV/m)

(dBuV/m) 47.5 42.3 49.4 51.2 45.7 42.4

-8.5

-5.9

-3.9

-5.9

-3.3 2.4 39.0 36.4 45.5 45.3 42.4 44.8 43.5 46.0 46.0 46.0 46.0 46.0

-4.5

-9.6

-0.5

-0.7

-3.6

-1.2 Table Degree

(Deg.) 315 36 196 75 63 82 Ant. High

(m) 1.5 1.0 1.1 1.1 1.2 1.0 Note :

1. Remark --- means that the emissions level is too low to be measured. 2. The expanded uncertainty of the radiated emission tests is 3.53 dB. b) Emission frequencies above 1 GHz Radiated emission frequencies above 1 GHz to 25 GHz were too low to be measured with a pre-amplifier of 35 dB. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 20 of 40Sheets FCC ID.: P27IP806GA B. 802.11g a) Emission frequencies below 1 GHz Test Date : Oct. 24, 2003 Temperature : 25 Humidity : 60 %

Frequency Ant-Pol

(MHz) 185.950 218.230 248.320 377.620 628.330 875.210 H/V V H H H H V Meter Reading

(dBuV) Corrected Factor

(dB) Result

@3m Limit

@3m Margin

(dB)

(dBuV/m)

(dBuV/m) Ant. High

(m) Table Degree

(Deg.) 46.7 41.3 48.3 50.1 45.0 39.7

-8.7

-5.9

-4.0

-6.0

-3.2 2.4 38.0 35.4 44.3 44.1 41.8 42.1 43.5

-5.5 46.0 -10.6 46.0

-1.7 46.0

-1.9 46.0

-4.2 46.0

-3.9 128 36 14 28 152 162 1.2 1.0 1.2 1.0 1.0 1.0 Note :

1. Remark --- means that the emissions level is too low to be measured. 2. The expanded uncertainty of the radiated emission tests is 3.53 dB. b) Emission frequencies above 1 GHz Radiated emission frequencies above 1 GHz to 25 GHz were too low to be measured with a pre-amplifier of 35 dB. 4.5 Field Strength Calculation The field strength is calculated by adding the Antenna Factor, High Pass Filter Loss(if used) and Cable Loss, and subtracting the Amplifier Gain (if any) from the measured reading. The basic equation calculation is as follows:

Result = Reading + Corrected Factor where Corrected Factor = Antenna FACTOR + Cable Loss + High Pass Filter Loss - Amplifier Gain Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 21 of 40Sheets FCC ID.: P27IP806GA 4.6 Photos of Radiation Measuring Setup Please see Exhibit-F-Setup_Photos Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 22 of 40Sheets FCC ID.: P27IP806GA 5 CONDUCTED EMISSION MEASUREMENT 5.1 Standard Applicable For unintentional and intentional device, Line Conducted Emission Limits are in accordance to 15.107(a) and 15.207(a) respectively. Both Limits are identical specification. 5.2 Measurement Procedure 1. Setup the configuration per figure 3. 2. A preliminary scan with a spectrum monitor is performed to identify the frequency of emission that has the highest amplitude relative to the limit by operating the EUT in selected modes of operation, typical cable positions, and with a typical system configuration. 3. Record the 6 or 8 highest emissions relative to the limit. 4. Measure each frequency obtained from step 3 by a test receiver set on quasi peak detector function, and then record the accuracy frequency and emission level. If all emissions measured in the specified band are attenuated more than 20 dB from the limit, this step would be ignored, and the peak detector function would be used. 5. Confirm the highest three emissions with variation of the EUT cable configuration and record the final data. 6. Repeat all above procedures on measuring each operation mode of EUT. Figure 3 : Conducted emissions measurement configuration V e rt ic a l R e f e r e n c e G r o u n d P la n e T e s t R e c e iv e r E U T L I S N R e f e r e n c e G r o u n d P la n e Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 23 of 40Sheets FCC ID.: P27IP806GA 5.3 Conducted Emission Data A. 802.11b a) Channel Low Operation Mode : Transmitting / Receiving Test Date

: Oct. 24, 2003 Temperature : 25 Humidity

: 50 %

Freq. Meter Reading Factor

(dBV) Limit

(dBV) Result

(dBV) Q.P Value L1 N 39.4 39.5 48.5 49.1 35.4 38.1 45.8 50.2 40.1 34.4 42.1 41.7 AVG. Value L1 N

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----

32.8 35.9

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37.1

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Q.P AVG.

(dB) Value Value 46.0 0.6 0.6 46.0 46.0 0.6 46.0 0.6 0.6 46.0 46.0 0.6 56.0 56.0 56.0 56.0 56.0 56.0 Q.P Value L1 N 40.0 40.1 49.1 49.7 36.0 38.7 46.4 50.8 40.7 35.0 42.7 42.3 AVG. Value L1 N

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33.4 36.5

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37.7

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(MHz) 3.0742 4.0468 4.2148 4.2265 4.9921 5.0000 b) Channel Mid Operation Mode : Transmitting / Receiving Test Date

: Oct. 24, 2003 Temperature : 25 Humidity

: 50 %

Freq. Meter Reading Factor

(dBV) Limit

(dBV) Result

(dBV)

(MHz) 0.1500 3.8515 4.0273 4.2382 4.4609 4.8085 Q.P Value L1 N 41.6 41.1 47.1 45.4 41.7 38.7 50.1 51.1 33.6 35.1 36.3 40.2 66.0 56.0 56.0 56.0 56.0 56.0 Note : 1. Please see appendix 1 for Plotted Data AVG. Value L1 N

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----

36.6

----

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----

39.6

----

40.7

----

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----

Q.P AVG.

(dB) Value Value 0.2 56.0 46.0 0.6 46.0 0.6 0.6 46.0 46.0 0.6 0.6 46.0 Q.P Value L1 N 41.8 41.3 47.7 46.0 42.3 39.3 50.7 51.7 34.2 35.7 36.9 40.8 AVG. Value L1 N

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----

37.2

----

----

----

40.2

----

41.3

----

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----

2. The expanded uncertainty of the conducted emission tests is 2.45 dB. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 24 of 40Sheets FCC ID.: P27IP806GA c) Channel High Operation Mode : Transmitting / Receiving Test Date

: Oct. 24, 2003 Temperature : 25 Humidity

: 50 %

Freq. Meter Reading Factor

(dBV) Limit

(dBV) Result

(dBV)

(MHz) 3.0859 3.8789 4.0546 4.0625 4.2343 4.8281 Q.P Value L1 N 39.7 39.4 36.1 34.5 52.8 51.8 43.4 45.8 39.5 42.1 39.9 42.6 56.0 56.0 56.0 56.0 56.0 56.0 Note : 1. Please see appendix 1 for Plotted Data AVG. Value L1 N

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----

42.8 41.5

----

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----

----

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----

Q.P AVG.

(dB) Value Value 0.6 46.0 46.0 0.6 46.0 0.6 0.6 46.0 46.0 0.6 0.6 46.0 Q.P Value L1 N 40.3 40.0 36.7 35.1 53.4 52.4 44.0 46.4 40.1 42.7 40.5 43.2 AVG. Value L1 N

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----

----

43.4 42.1

----

----

----

----

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----

2. The expanded uncertainty of the conducted emission tests is 2.45 dB. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 25 of 40Sheets FCC ID.: P27IP806GA B. 802.11g a) Channel Low Operation Mode : Transmitting / Receiving Test Date

: Oct. 24, 2003 Temperature : 25 Humidity

: 60 %

Freq. Meter Reading Factor

(dBV) Limit

(dBV) Result

(dBV) Q.P Value L1 N 37.5 39.2 43.2 44.2 33.2 38.1 44.2 43.1 37.2 38.1 40.7 39.1 AVG. Value L1 N

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----

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----

Q.P AVG.

(dB) Value Value 0.6 46.0 46.0 0.6 46.0 0.6 0.6 46.0 46.0 0.6 0.6 46.0 56.0 56.0 56.0 56.0 56.0 56.0 Q.P Value L1 N 38.1 39.8 43.8 44.8 33.8 38.7 44.8 43.7 37.8 38.7 41.3 39.7 AVG. Value L1 N

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----

----

----

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----

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(MHz) 3.074 4.046 4.214 4.226 4.992 5.000 b) Channel Mid Operation Mode : Transmitting / Receiving Test Date

: Oct. 24, 2003 Temperature : 25 Humidity

: 60 %

Freq. Meter Reading Factor

(dBV) Limit

(dBV) Result

(dBV)

(MHz) 0.150 3.851 4.027 4.238 4.460 4.808 Q.P Value N L1 40.2 40.6 44.1 43.2 37.2 38.2 44.8 45.0 37.1 34.6 38.1 34.2 66.0 56.0 56.0 56.0 56.0 56.0 Note : 1. Please see appendix 1 for Plotted Data AVG. Value N L1

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----

----

----

----

----

----

----

----

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----

Q.P AVG.

(dB) Value Value 56.0 0.2 46.0 0.6 0.6 46.0 46.0 0.6 0.6 46.0 46.0 0.6 Q.P Value N L1 40.4 40.8 44.7 43.8 37.8 38.8 45.4 45.6 37.7 35.2 38.7 34.8 AVG. Value N L1

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2. The expanded uncertainty of the conducted emission tests is 2.45 dB. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 26 of 40Sheets FCC ID.: P27IP806GA c) Channel High Operation Mode : Transmitting / Receiving Test Date

: Oct. 24, 2003 Temperature : 25 Humidity

: 50 %

Freq. Meter Reading Factor

(dBV) Limit

(dBV) Result

(dBV)

(MHz) 3.085 3.878 4.054 4.062 4.234 4.828 Q.P Value L1 N 37.2 36.1 35.2 33.5 39.8 44.1 41.2 40.4 40.1 41.8 38.9 37.2 56.0 56.0 56.0 56.0 56.0 56.0 Note : 1. Please see appendix 1 for Plotted Data AVG. Value L1 N

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----

----

----

----

----

----

----

----

----

----

Q.P AVG.

(dB) Value Value 0.6 46.0 46.0 0.6 46.0 0.6 0.6 46.0 46.0 0.6 0.6 46.0 Q.P Value L1 N 37.8 36.7 35.8 34.1 40.4 44.7 41.8 41.0 40.7 42.4 39.5 37.8 AVG. Value L1 N

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2. The expanded uncertainty of the conducted emission tests is 2.45 dB. 5.4 Result Data Calculation The result data is calculated by adding the LISN Factor to the measured reading. The basic equation with a sample calculation is as follows:

RESULT = READING + LISN FACTOR Assume a receiver reading of 22.5 dBV is obtained, and LISN Factor is 0.1 dB, then the total of disturbance voltage is 22.6 dBV. RESULT = 22.5 + 0.1 = 22.6 dBV Level in V = Common Antilogarithm[(22.6 dBV)/20]

= 13.48 V Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 27 of 40Sheets FCC ID.: P27IP806GA 5.5 Conducted Measurement Equipment The following test equipment are used during the conducted test . Equipment Manufacturer Model No. Next Cal. Due EMI Test Receiver Line Impedance Stabilization network Monitor Printer Shielded Room Computer Rohde and Schwarz Rohde and Schwarz ESCS 30 ESH2-Z5 11/27/2003 09/03/2004 IBM HP Riken Acer E54 LaserJet 1000 Veriton N.C.R. N.C.R. N.C.R. N.C.R. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 28 of 40Sheets FCC ID.: P27IP806GA 5.6 Photos of Conduction Measuring Setup Please see Exhibit-F-Setup_Photos Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 29 of 40Sheets FCC ID.: P27IP806GA 6 ANTENNA REQUIREMENT 6.1 Standard Applicable For intentional device, according to 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 15.247 (b), if transmitting antennas of directional gain greater than 6 dBi are used, the power shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6 dBi. 6.2 Antenna Construction and Directional Gain A 2.0dBi gain dipole antenna with SMA connector is employed. Please see constraction Photos Of Exhibit B for details. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 30 of 40Sheets FCC ID.: P27IP806GA 7 EMISSION BANDWIDTH MEASUREMENT 7.1 Standard Applicable According to 15.247(a)(2), for direct sequence system, the minimum 6dB bandwidth shall be at least 500 kHz. 7.2 Measurement Procedure 1. Check the calibration of the measuring instrument using either an internal calibrator or a known signal from an external generator. 2. Position the EUT as shown in figure 4 without connection to measurement instrument. Turn on the EUT and connect it to measurement instrument. Then set it to any one convenient frequency within its operating range. Set a reference level on the measuring instrument equal to the highest peak value. 3. Measure the frequency difference of two frequencies that were attenuated 6 dB from the reference level. Record the frequency difference as the emission bandwidth. 4. Repeat above procedures until all frequencies measured were complete. Figure 4: Emission bandwidth measurement configuration. EUT 20 dB Attenuator Spectrum Analyzer 7.3 Measurement Equipment Equipment RF Test Receiver Plotter Attenuator Manufacturer Rohde & Schwarz Hewlett-Packard Weinschel Engineering Model No. ESBI 7440A AS3667 Next Cal. Due 08/14/2004 N/A N/A Rev. No 2.0 ETC Report No. : ET92R-10-093-04 7.4 Measurement Data Sheet 31 of 40Sheets FCC ID.: P27IP806GA Test Date

: Oct. 25, 2003 Temperature : 25 Humidity: 60 %

A. 802.11b a) b) c) Channel 01 : 6 dB Emission Bandwidth is 11.67 MHz Channel 06 : 6 dB Emission Bandwidth is 12.58 MHz Channel 11 : 6 dB Emission Bandwidth is 12.75 MHz B. 802.11g a) b) c) Channel 01 : 6 dB Emission Bandwidth is 16.67 MHz Channel 06 : 6 dB Emission Bandwidth is 16.75 MHz Channel 11 : 6 dB Emission Bandwidth is 16.67 MHz Note : 1. Please see appendix 2 for Plotted Data 2. The expanded uncertainty of the emission bandwidth tests is 1500Hz. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 32 of 40Sheets FCC ID.: P27IP806GA 8 OUTPUT POWER MEASUREMENT 8.1 Standard Applicable For direct sequence system, according to 15.247(b), the maximum peak output power of the transmitter shall not exceed 1 Watt. If transmitting antennas of directional gain greater than 6 dBi are used, the power shall be reduced by the amount in dB that the directional gain of the antenna exceeds 6 dBi. 8.2 Measurement Procedure 1. Check the calibration of the measuring instrument using either an internal calibrator or a known signal from an external generator. 2. Position the EUT as shown in figure 5 without connection to measurement instrument. Turn on the EUT and connect its antenna terminal to measurement instrument via a low loss cable. Then set it to any one measured frequency within its operating range and make sure the instrument is operated in its linear range. 3. Set RBW of spectrum analyzer to 1 MHz and VBW to 1 MHz. 4. Use channel power function and record the level displayed. 5. Repeat above procedures until all frequencies measured were complete. Figure 5: Output power and measurement configuration. EUT Spectrum Analyzer Attenuator 8.3 Measurement Equipment Equipment RF Test Receiver Plotter Attenuator Manufacturer Rohde & Schwarz Hewlett-Packard Weinschel Engineering Model No. ESBI 7440A AS3667 Next Cal. Due 05/31/2004 N/A N/A Rev. No 2.0 ETC Report No. : ET92R-10-093-04 8.4 Measurement Data Sheet 33 of 40Sheets FCC ID.: P27IP806GA Test Date

: Oct. 25, 2003 Temperature : 25 Humidity: 60 %

A. 802.11b a) b) c) Channel 01 : Output Power is 16.9 dBm or 48.97mW Channel 06 : Output Power is 16.3 dBm or 42.65mW Channel 11 : Output Power is 14.9 dBm or 30.90mW B. 802.11g a) b) c) Channel 01 : Output Power is 14.4 dBm or 27.54mW Channel 06 : Output Power is 14.8 dBm or 30.19mW Channel 11 : Output Power is 11.8 dBm or 15.13mW Note : 1. Please see appendix 3 for Plotted Data 2. The expanded uncertainty of the output power tests is 2dB. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 34 of 40Sheets FCC ID.: P27IP806GA 9 100 kHz BANDWIDTH OF BAND EDGES MEASUREMENT 9.1 Standard Applicable According to 15.247(c), if any 100 kHz bandwidth outside these frequency bands, the radio frequency power that is produced by the modulation products of the spreading sequence, the information sequence and the carrier frequency shall be either at least 20 dB below that in any 100 kHz bandwidth within the band that contains the highest level of the desired power or shall not exceed the general levels specified in 15.209(a), whichever results in the lesser attenuation. 9.2 Measurement Procedure 1. Check the calibration of the measuring instrument using either an internal calibrator or a known signal from an external generator. 2. Position the EUT as shown in figure 5 without connection to measurement instrument. Turn on the EUT and connect its antenna terminal to measurement instrument via a low loss cable. Then set it to any one measured frequency within its operating range and make sure the instrument is operated in its linear range. 3. Set both RBW of spectrum analyzer to 100kHz and VBW to 1 MHz with a convenient frequency span including 100kHz bandwidth from band edge. 4. Measure the highest amplitude appearing on spectral display and set it as a reference level. Plot the graph with marking the highest point and edge frequency. 5. Repeat above procedures until all measured frequencies were complete. 9.3 Measurement Equipment Equipment RF Test Receiver Attenuator Plotter Manufacturer Rohde & Schwarz Weinschel Engineering Hewlett-Packard Model No. ESBI AS3667 7440A Next Cal. Due 05/26/2004 N/A N/A Rev. No 2.0 ETC Report No. : ET92R-10-093-04 9.4 Measurement Data Sheet 35 of 40Sheets FCC ID.: P27IP806GA Test Date

: Oct. 25, 2003 Temperature : 25 Humidity: 60 %

A. 802.11b a) b) Lower Band Edge : maximum value is 41.5 dBm that is attenuated more than 20 dB Upper Band Edge : maximum value is59.67dBm that is attenuated more than 20 dB B. 802.11g a) b) Lower Band Edge : maximum value is46.33 dBm that is attenuated more than 20dB Upper Band Edge : maximum value is60.33dBm that is attenuated more than 20 dB Note : 1. Please see appendix 4 for Plotted Data 2. The expanded uncertainty of the 100 khz bandwidth of band edges tests is 2dB. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 36 of 40Sheets FCC ID.: P27IP806GA 10 POWER DENSITY MEASUREMENT 10.1 Standard Applicable According to 15.247(d), for direct sequence systems, the transmitted power density averaged over any 1 second interval shall not be greater than 8 dBm in any 3 kHz bandwidth within these bands. 10.2 Measurement Procedure 1. Check the calibration of the measuring instrument using either an internal calibrator or a known signal from an external generator. 2. Position the EUT as shown in figure 4 without connection to measurement instrument. Turn on the EUT and connect its antenna terminal to measurement instrument via a low loss cable. Then set EUT to any one measured frequency within its operating range and make sure the instrument is operated in its linear range. 3. Adjust the center frequency of spectrum analyzer on highest level appearing on spectral display within a 300 kHz frequency span. 4. Set the spectrum analyzer on a 3 kHz resolution bandwidth and 300 kHz video bandwidth as well as max hold function. 5. Repeat above procedures until all measured frequencies were complete. 10.3 Measurement Equipment Equipment RF Test Receiver Attenuator Plotter Manufacturer Rohde & Schwarz Weinschel Engineering Hewlett-Packard Model No. ESBI AS3667 7440A Next Cal. Due 05/31/2004 N/A N/A Rev. No 2.0 ETC Report No. : ET92R-10-093-04 10.4 Measurement Data Sheet 37 of 40Sheets FCC ID.: P27IP806GA Test Date

: Oct. 25, 2003 Temperature : 25 Humidity: 60 %

A. 802.11b a) b) c) Channel 01 : Maximun Power Density of 3 kHz Bandwidth is 6.67 dBm Channel 06 : Maximun Power Density of 3 kHz Bandwidth is 7.67 dBm Channel 11 : Maximun Power Density of 3 kHz Bandwidth is 9.50 dBm B. 802.11g a) b) c) Channel 01 : Maximun Power Density of 3 kHz Bandwidth is 15.33 dBm Channel 06 : Maximun Power Density of 3 kHz Bandwidth is 16.17 dBm Channel 11 : Maximun Power Density of 3 kHz Bandwidth is 17.50 dBm Note : 1. Please see appendix 5 for Plotted Data 2. The expanded uncertainty of the power density tests is 2dB. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 38 of 40Sheets FCC ID.: P27IP806GA 11. OUT-OF-BAND CONDUCTED EMISSION MEASUREMENT 11.1 Standard Applicable According to 15.247(c), in any 100 kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that contains the highest level of the desired power, based on either an RF conducted or a radiated measurement. Attenuation below the general limits specified in Section 15.209(a) is not required. 11.2 Measurement Procedure 1. Check the calibration of the measuring instrument using either an internal calibrator or a known signal from an external generator. 2. Position the EUT as shown in figure 4 without connection to measurement instrument. Turn on the EUT and connect its antenna terminal to measurement instrument via a low loss cable. Then set it to any one measured frequency within its operating range and make sure the instrument is operated in its linear range. 3. Use the following spectrum analyzer settings:

Span = wide enough to capture the peak level of the in-band emission and all spurious emissions (e.g., harmonics) from the lowest frequency generated in the EUT up through the 10th harmonic. Typically, several plots are required to cover this entire span. RBW = 100 kHz VBW RBW Sweep = auto Detector function = peak Trace = max hold. 4. Allow the trace to stabilize. Set the marker on the peak of any spurious emission recorded. Plot the result on the screen of spectrum analyzer. 5. Repeat above procedures until all measured frequencies were complete. 11.3 Measurement Equipment Equipment Spectrum Analyzer Attenuator Plotter Manufacturer Hewlett-Packard Weinschel Engineering Hewlett-Packard Model No. 8564E AS3667 7440A Next Cal. Due 08/14/2004 N/A N/A Rev. No 2.0 ETC Report No. : ET92R-10-093-04 11.4 Measurement Data A. 802.11b Model : Low power Sheet 39 of 40Sheets FCC ID.: P27IP806GA Test Date

: Oct. 25, 2003 Temperature : 25 Humidity: 60 %

a) 1 GHz to 5 GHz frequency band: All emissions are attenuated more than 20dB from the carrier. b) 5 GHz to 25 GHz frequency band: All emissions are attenuated more than 20dB from the carrier. Model : Mid power Test Date

: Oct. 25, 2003 Temperature : 25 Humidity: 60 %

a) 1 GHz to 5 GHz frequency band: All emissions are attenuated more than 20dB from the carrier. b) 5 GHz to 25 GHz frequency band: All emissions are attenuated more than 20dB from the carrier. Model : Hi power Test Date

: Oct. 25, 2003 Temperature : 25 Humidity: 60 %

c) 1 GHz to 5 GHz frequency band: All emissions are attenuated more than 20dB from the carrier. d) 5 GHz to 25 GHz frequency band: All emissions are attenuated more than 20dB from the carrier Note : 1. Please see appendix 6 for Plotted Data 2. The expanded uncertainty of the out-of-band conducted emission tests is 2dB. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 40 of 40Sheets FCC ID.: P27IP806GA B. 802.11g Model : Low power Test Date

: Oct. 25, 2003 Temperature : 25 Humidity: 60 %

c) 1 GHz to 5 GHz frequency band: All emissions are attenuated more than 20dB from the carrier. d) 5 GHz to 25 GHz frequency band: All emissions are attenuated more than 20dB from the carrier. Model : Mid power Test Date

: Oct. 25, 2003 Temperature : 25 Humidity: 60 %

e) 1 GHz to 5 GHz frequency band: All emissions are attenuated more than 20dB from the carrier. f) 5 GHz to 25 GHz frequency band: All emissions are attenuated more than 20dB from the carrier. Model : Hi power Test Date

: Oct. 25, 2003 Temperature : 25 Humidity: 60 %

g) 1 GHz to 5 GHz frequency band: All emissions are attenuated more than 20dB from the carrier. h) 5 GHz to 25 GHz frequency band: All emissions are attenuated more than 20dB from the carrier Note : 1. Please see appendix 6 for Plotted Data 2. The expanded uncertainty of the out-of-band conducted emission tests is 2dB. Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 1 of 52Sheets FCC ID.: P27IP806GA Appendix 1 : Ploted Datas of Power Line Conducted Emissions Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 2 of 52Sheets FCC ID.: P27IP806GA 802.11b Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 3 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 4 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 5 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 6 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 7 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 8 of 52Sheets FCC ID.: P27IP806GA 802.11g Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 9 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 10 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 11 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 12 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 13 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 14 of 52Sheets FCC ID.: P27IP806GA Appendix 2 : Ploted Datas of Emissions Bandwidth Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 15 of 52Sheets FCC ID.: P27IP806GA 802.11b Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 16 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 17 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 18 of 52Sheets FCC ID.: P27IP806GA 802.11g Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 19 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 20 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 21 of 52Sheets FCC ID.: P27IP806GA Appendix 3 : Ploted Datas of Output Peak Power Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 22 of 52Sheets FCC ID.: P27IP806GA 802.11b Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 23 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 24 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 25 of 52Sheets FCC ID.: P27IP806GA 802.11g Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 26 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 27 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0

 

 

ETC Report No. : ET92R-10-093-04 Sheet 28 of 52Sheets FCC ID.: P27IP806GA Appendix 4 : Ploted Datas of Band Edge Emission Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 29 of 52Sheets FCC ID.: P27IP806GA 802.11b Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 30 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 31 of 52Sheets FCC ID.: P27IP806GA 802.11g Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 32 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 33 of 52Sheets FCC ID.: P27IP806GA Appendix 5 : Ploted Datas of Power Density Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 34 of 52Sheets FCC ID.: P27IP806GA 802.11b Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 35 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 36 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 37 of 52Sheets FCC ID.: P27IP806GA 802.11g Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 38 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 39 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 40 of 52Sheets FCC ID.: P27IP806GA Appendix 6 : Plotted Data for Out-of-Band Conducted Emission Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 41 of 52Sheets FCC ID.: P27IP806GA 802.11b Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 42 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 43 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 44 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 45 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 46 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 47 of 52Sheets FCC ID.: P27IP806GA 802.11g Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 48 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 49 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 50 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 51 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0 ETC Report No. : ET92R-10-093-04 Sheet 52 of 52Sheets FCC ID.: P27IP806GA Rev. No 2.0

 

 

ETC Report No. : ET92R-10-093-04 FCC ID.: P27IP806GA Photos of Radiation Measuring Setup Rev. No 2.0 ETC Report No. : ET92R-10-093-04 FCC ID.: P27IP806GA Photos of Conduction Measuring Setup Rev. No 2.0