D[15:0]

EIF_OE# 5 EIF_WE# 5 EIF_WAIT# 5

5 EIF_MISC_CS#

EIF_MISC_CS# EIF_FLASH_CS#
1 +3.3V_DIG D = = V C C =>big enian mode D = = G N D => flash 8 bit mode R 8 / R 7 P O P High:16bits word mode R 2 P O P L o w:Little enian mode

D14 D15

2 ?(HEATSINK)

+3.3V_DIG

+3.3V_DIG C133 100NF C134 100NF
U5 SD_A0 SD_A1 SD_A2 SD_A3 SD_A4 SD_A5 SD_A6 SD_A7 SD_A8 SD_A9 SD_A10 SD_A37 38

U37 38

C19 C18 100NF 100NF

C122 100NF

C125 100NF

C126 C127 100NF 100NF

C128 100NF

C20 100NF 2 2

C21 100NF 2

C130 100NF 2

C131 100NF 2

C132 100NF

VCC1 VCC2 VCC5 VCCQ1 VCCQ2 VCCQ4 VCCQ3
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10/AP A11 NC2 BS1 BS0 UDQM LDQM CS# RAS# CAS# WE# CKE CLK
SD_BS1 SD_BS0 SD_DQM1 SD_DQM0 SD_CS SD_RAS# SD_CAS# SD_WE# SD_CKE SD_CLK
DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 NC1
SD_DQ0 SD_DQ1 SD_DQ2 SD_DQ3 SD_DQ4 SD_DQ5 SD_DQ6 SD_DQ7 SD_DQ8 SD_DQ9 SD_DQ10 SD_DQ11 SD_DQ12 SD_DQ13 SD_DQ14 SD_DQ15
SD_A0 SD_A1 SD_A2 SD_A3 SD_A4 SD_A5 SD_A6 SD_A7 SD_A8 SD_A9 SD_A10 SD_A11
USD_DQ16 SD_DQ17 SD_DQ18 SD_DQ19 SD_DQ20 SD_DQ21 SD_DQ22 SD_DQ23 SD_DQ24 SD_DQ25 SD_DQ26 SD_DQ27 SD_DQ28 SD_DQ29 SD_DQ30 SD_DQ31 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 EIF_WE# EIF_OE# EIF_FLASH_CS# 4,6,8 POR_RESET# +3.3V_DIG 1 C117 100NF 14 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 WE# OE# CE# RESET# WP#/ACC Vcc BYTE# NC DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15/A-1 RY/BY# Vss1 Vss2 AM29LV320DT-90EI D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D1 R155 1K R154 ?(1K) 1 CRR152 ?(R) D15
SD_BS1 SD_BS0 SD_DQM3 SD_DQM2 SD_CS SD_RAS# SD_CAS# SD_WE# SD_CKE SD_CLK
VSS3 VSS2 VSS VSSQ1 VSSQ2 VSSQ4 VSSQ3

W986416DH-6

Title :
2-CPU&MEMORY Size Project Name C Date:

A B C D

Engineer:

Rev R1.0 Sheet

Tuesday, April 29, 2003
+3.3V_DIG +1.8V_5325 EPHY_VDDPLL + C36 10UF/16V + C37 10UF/16V 1 C44 C43 100NF 1NF L120 OHM/100MHZ C110 4.7UF/10V +1.8V_LED9 + R330 R330 R330 LED4A_LINK/ACT LED3A_LINK/ACT

R179 LED1A_LINK/ACT

C38 100NF 2 2

C39 ?(100NF) 2

l VPN support

n n VPN pass through for PPTP, L2TP and IPSec protocol.

l Printer sharing

Support bi-directional printers Support standard printer port and USB port printers

Specification

WAN Ethernet Port Connector LAN Ethernet Port Connector Support Support Both Ethernet and 802.3 with Max. Bit Rate 10/100 Mbps with auto cross-over function (MDI-X) RJ45 for 10/100 BaseT Both Ethernet and 802.3 with Max. Bit Rate 10/100Mbps with Auto cross-over function (MDI-X), 4 port switch 4 x RJ45 for 10/100BaseT

Antenna

Support Connector
(one internal Inverted-F antenna and one external dipole antenna)
Reverse-SMA antenna connector USB 1.1 host USB type A SPP, ECP

25 PIN D-SUB FEMALE

USB Support port Connector
Printer Port Support Connector Reset button Management
Push for 5 seconds to restore factory setting Web-based manager UPnP Internet Gateway Device

Firewall

NAT and SPI Can built extra one firewall to protect Internet traffic and another one for wireless
DC Power Adapter Emissions Size Weight Operating Frequency Spreading Modulation Data Rate
AC Input: 100V~240V(50~60HZ); DC Output: 5V with max. 2 A current ETS; CE Mark; FCC Part mm (L)* 205 mm (W)* 36 mm (H) excluding one external antennas 600 g excluding power supply 2.4 - 2.5 GHz Direct Sequence Spread Spectrum OFDM, CCK , DQPSK, DBPSK
802.11b:1, 2, 5.5, 11Mbps
11 for N. America, 14 Japan, 13 Europe(ETSI)
Operation Channels 3 (non-overlapping)
Outdoor (LOS, Light-Of-Sight) 300 ft (90 m) at 11Mbps
The range may vary by different environment
Output Power Encryption 12 ~ 15 dBm (at nominal temp. range)

40/128-bit WEP WPA

Authentication MAC address, 802.1x
ASUS SpaceLink Wireless LAN Mini-PCI Card WL-120 IEEE 802.11b 11 Mbps

[features]

Embedded to any notebook with mPCI type IIIA slot Seamless roaming between home, office and caf shop with profiles auto-switch Online trouble shooting tool eliminate any confusions during enjoy your wireless networking Site survey tool to ease the wireless networking topology optimization Secure 40/128-bit WEP with periodically change keys Comply to Windows XP WLAN support functions

Chapter 3 - Home Gateway Utilities Agent to Another Network
Wireless Client Wireless Client Wired Client
To connect to an existing network, the IP address of the home gateway can be assigned manually or automatically obtained from a DHCP server. In the first case, fill in the IP address and the DNS address(es).

Automatic IP

This parameter determines if the SpaceLink Home Gateway will send out a DHCP request during bootup. If you have a DHCP server on the network, set this option so that the SpaceLink Home Gateway can receive an automatic IP address assignment. If you have a DHCP (Dynamic Host Configuration Protocol) server on the network, then the DHCP server will automatically assign the SpaceLink Home Gateway an IP address when the SpaceLink Home Gateway is powered up. To determine what IP address has been assigned to the SpaceLink Home Gateway, review the IP address on the Status page available on the Main Menu.
Chapter 3 - Home Gateway Utilities Static IP
The SpaceLink Home Gateway also accepts a static IP address. You may manually configure the IP address and subnet mask on the IP Config page. Enter an IP address and a subnet mask in the field provided to assign the SpaceLink Home Gateway a static IP address. If you dont now your Gateway setting, leave it empty (not 0.0.0.0).
The SpaceLink Home Gateway does not only use basic NAT to protect your local network. The SPI (Stateful Packet Inspection) firewall filters out advanced forms of attacks from the Internet. A SPI firewall remembers the context of connections and continuously updates this information in dynamic connection tables.
Select the security level for the firewall that you require. Low should be good enough for most home users. Medium and High levels can provide more protection for your local network but they may also stop you from executing some Internet applications. These problems can be overcome through advanced configuration options by clicking on the Advanced button.

Wireless Access Control

(Redundant portion intentionally removed)
To add security, the SpaceLink Home Gateway has the ability to only associate with or not associate with wireless mobile clients that have their MAC address entered into this page. The default setting of Disable will allow any wireless mobile client to connect. Accept will only allow those entered into this page to connect. Reject will prevent those entered into this page from connecting. Adding a MAC Address To add a MAC address, enter the 12 hexadecimal characters into the white box next to MAC Address: and click the Add button. The MAC address will be placed in the control list below. Only a total of 31 MAC addresses can be entered into this page so determine which will be the lesser; those you wish to accept or those you wish to reject and click the appropriate MAC Access Mode.

The wizard will explore all available SpaceLink Home Gateways and model information of the printers attached to them in your local network.
(1) If you already have your printer installed on your printer port (LPT1), it will make this setup process much easier. See next page for instructions. Run the Printer Setup Wizard from the Windows Start menu.
(2) If the printer is found, the name of the printer will be shown on this screen. Note: If there is an error communicating with the printer, you will get this message. Make sure that the printer is ON, ready, and connected. Click Back and Next.
(3) This setup wizard will change your default printer to use Remote Port which is serviced by the SpaceLink Home Gateway. (4) Click Done when setup is complete.
Chapter 3 - Home Gateway Utilities Verifying Your Printer
After setting up the printer, a printer icon will appear in Windows Printers and Faxes. Right click the printer icon and choose Properties to configure the printer.
If your printer was previously setup, the SpaceLink Home Gateway printer setup wizard will change your printing port from your local LPT1 (parallel) port to Remote Port. If necessary, you can change this back at anytime or use Windows Add Printer to setup another printer on whatever port you require.
When properly setup, the SpaceLink Home Gateway will show the printer name in the Homegateway Discovery utility and show on-line under the Printer Server on the Status page of the web manager.

VPN Client

A virtual private network (VPN) is the extension of a private network that encompasses links across shared or public networks like the Internet. A VPN enables you to send data between two computers across a shared or public intranet in a manner that emulates the properties of a point-to-point private link. The VPN Client utility help you to create and configure the VPN connections.

Starting VPN Client

Click the Windows Start button, point to Programs, point to ASUS Wireless Homegateway Utilities, and then click VPN Client.

Main Window

The main windows shows all the available VPN connections on your system. Click Make New Connection to open the VPN Connection Wizard. Follow the instructions on the next page to create a new VPN connection. When you finish, the VPN connection name will appear in the list box.

Power Cable Data Cable

Test Report ------------------------------------------------------------------------------- 5/32
1.3. Description of Support Equipment
In order to construct the minimum testing, following equipment were used as the support units.
Notebook Model No. Serial No. FCC ID BSMI Power type Model No. Serial No. FCC ID Power cable Power cable WLAN Card Model No. FCC ID
: : : : : : : : : : : : : : :
ASUSTek Computer AB00F 24NP016361 DoC Approved ~ 240VAC, 1A 50/60 Hz, Switching LITE-ON Electronics, Inc. PA-1530-Doc Approved 3882B259 Non-shielded, 1.72m length, Plastic hood, No ferrite core (Between power adaptor and AC power source) Shielded, 1.48m length, Plastic hood, with ferrite core (Between power adaptor and notebook) Gemtek Technology Co., Ltd. C911003 MXF-C911003

Adaptor of PC :

1.4. Test Method 1. Using the LAN port of far-end computer and software provided by the manufacturer to control the EUT. The test is performed under those specific conditions. 2. Set different channel being tested and making EUT to the mode of continuous transmission or received.
Test Report ------------------------------------------------------------------------------- 6/32
1.5. Configuration of System Under Test

Turntable

AC source

Adaptor

Far-end

Notebook

The tests below are carried with the EUT transmitter set at high power in TDD mo de. The EUT is forced to select of output power level and channel number by notebook computer. The setting up procedure was recorded in 1.4 test method.
Test Report ------------------------------------------------------------------------------- 7/32
1.6. Verify the Frequency and Channel

Channel 13

Frequency (GHz) 2.412 2.417 2.422 2.427 2.432 2.437 2.442 2.447 2.452 2.457 2.462 2.467 2.472
(1) This is for sure that all frequencies are in 2.4GHz 2.4835 GHz. (2) After test, the EUT operating frequencies are in 2.412GHz to 2.472GHz. So all the item as followed in testing report are need to test these three frequencies: channel 1, channel 7, and channel 13. (3) E.T.S.I 2.412GHz 2.4835GHz , France 2.4465GHz 2.4835GHz

Test Report ------------------------------------------------------------------------------- 10/32
II. Section 5.2.1: Effective Radiated Power
2.1 Test Result of Effective Radiated Power for 802.11b dBm
Power level at which the measurement has been performed 19.02
TRANSMITTER PEAK POWER TEST CONDITION Tx Peak (dBm) 25 C Channel C 35 C 25 C Channel C 35 C 25 C Channel C 35 C Limit
NOTE: (1) The E.U.T is a stand-alone radio device (see the clause 6.2.2). The powered by the adaptor. So, the AC power is used as the extreme voltage source. (See clause 6.3.2.1) (2) The value of table is worst case during test condition, includes different combinations of transmitter rate antenna polarity and temperature (3) TX PEAK: Max Peak Power, TX Ave.: Average Peak. Actually Peak Power = Tx Peak + Cable Loss, E.R.P. = Actually Peak Power + Antenna Gain (15.5dBm + 3.52dBi = 19.02 dBm) (4) ETSI (2400MHz ~ 2483.5MHz), FRANCE (2446.5 MHz ~ 2483.5MHz)
Tx Ave. (dBm) 7.65 8.79 7.67 7.39 9.11 7.96 6.52 8.00 7.15

Cable Loss (dB)

8.18 9.57 8.23 7.93 9.70 8.54 7.44 8.98 7.68
Tx Peak : 23dBm / -7dBW Tx Ave. : 20dBm / -10dBW
Test Report ------------------------------------------------------------------------------- 11/32
III. Section 5.2.2: Peak Power Density
3.1 Test Result of Peak Power Density for 802.11b
Channel Frequency (MHz) 2472 Rate (Mbps) 11 Ppr (dBm) 1.68 1.76 1.09 CF (dB) 6.60 6.60 6.70 Ppq (dBm) 8.28 8.36 7.79 Limit (dBm) 10.00 10.00 10.00 Margin (dB) -1.72 -1.64 -2.21

CH 1 CH 7 CH 11 NOTE:

(1)For equipment using FHSS modulation, the peak power density shall be limit to 10dBW(100mW) per 100kHz E.I.R.P. (2)For equipment using other types modulation, the peak power density shall be limit 20dBW(10mW) per MHz E.I.R.P. (3)Ppr: spectrum read power density (using peak search mode), CF: correct factor, Ppq: actual peak power density in the spread spectrum band. Ppq = Ppr + CF (4)The value of table is worst case during test condition, includes different combination s of transmitter rate, antenna polarity and temperature (5)The data in the above table are summarizing the following attachment spectrum analyzer hard copy. (6)ETSI (2400MHz ~ 2483.5MHz), FRANCE (2446.5 MHz ~ 2483.5MHz)
Test Report ------------------------------------------------------------------------------- 12/32

Channel 1

Test Report ------------------------------------------------------------------------------- 13/32

Channel 7

Test Report ------------------------------------------------------------------------------- 14/32
Test Report ------------------------------------------------------------------------------- 15/32
IV. Section 5.2.3 : Frequency Range
4.1 Test Result of Frequency Range for 802.11b Transmitter Frequency Range DSSS Equipment FREQUENCY(MHz) TEST CONDITION Lowest Channel Channel 1 2404.40 2404.40 2408.20 2404.20 2404.Highest Channel Channel 13 2480.50 2480.50 2480.30 2480.30 2480.11 11
Frequency Rate (Mbps) Frequency Rate (Mbps) V 253 V 230 V V 253 V
Measured frequencies (lowest and highest) Limit
FL = 2404.20 MHz FL > 2400MHz
FH = 2480.50 MHz FH < 2483.5MHz
(1) The E.U.T is a stand-alone radio device (see the clause 6.2.2). This is powered by the main. So, the AC power is used as the extreme voltage source. (see clause 6.3.2.1). (2) B: Battery, AC: AC Source, Rate: Transmitter Rate. (3) The value of table is worst case during test condition, includes different combinations of transmitter rate, antenna polarity and temperature. (4) The data in the above table are summarizing the following attachment spectrum analyzer hard copy. (5) ETSI(2400MHz~2483.5MHz), FRANCE(2446.5 MHz~2483.5MHz)
Test Report ------------------------------------------------------------------------------- 16/32
Channel 1 (The lowest one in the frequency range)
Channel 13 (The greatest one in the frequency range)
Test Report ------------------------------------------------------------------------------- 17/32
Section 5.2.4: Transmitter Spurious Emissions (Radiated)
5.1 Test Result of External antenna
Channel 1 (30MHz to 1GHz) Frequency (MHz) 122.15 126.39 375.56 499.84 600.48 750.83 122.76 125.79 501.06 600.48 700.51 750.83
Note: (1) A. P. means antenna polarization, horizontal and vertical. Amplitude means the fundamental emission measured C F. means Correct Factor, Rate means transmitter rate Corrected Factor (C. F.) = Cable Loss + Antenna Factor Amplified Gain LEVEL = Amplitude + Corrected Factor (2) The margin is minus that means under limit. (3) The value of table is the worst case during test condition. This is including different combinations of transmitter rate antenna polarity and temperature. (4) ETSI (2400MHz~2483.5MHz), FRANCE (2446.5 MHz~2483.5MHz)

A. P. (H/V) H H H H H H V V V V V V
LEVEL (dBm) -60.82 -61.99 -63.67 -60.68 -61.82 -62.55 -59.10 -59.30 -63.83 -61.10 -63.62 -62.72
Limit (dBm) -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00
Margin (dB) -24.82 -25.99 -27.67 -24.68 -25.82 -26.55 -23.10 -23.30 -27.83 -25.10 -27.62 -26.72

Rate (Mbps) 11 11

Test Report ------------------------------------------------------------------------------- 18/32
Channel 13 (30MHz to 1GHz) Frequency (MHz) 122.15 125.79 375.56 500.45 600.48 750.83 122.15 125.79 501.66 600.48 700.51 750.83 A. P. (H/V) H H H H H H V V V V V V LEVEL (dBm) -61.15 -61.72 -63.11 -60.68 -61.61 -61.54 -59.76 -59.33 -63.75 -60.77 -63.48 -62.74 Limit (dBm) -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 Margin (dB) -25.15 -25.72 -27.11 -24.68 -25.61 -25.54 -23.76 -23.33 -27.75 -24.77 -27.48 -26.74 Rate (Mbps) 11 11
Test Report ------------------------------------------------------------------------------- 19/32
Channel 1 (1GHz to 12.75GHz) Frequency (MHz) 1608.33 1820.83 4823.91 7236.61 9649.32 1608.33 2414.58 4823.91 7234.69 9649.32 A. P. (H/V) H H H H H V V V V V LEVEL (dBm) -57.61 -62.64 -56.47 -47.14 -58.93 -61.78 -54.38 -56.97 -46.15 -57.60 Limit (dBm) -30.00 -30.00 -30.00 -30.00 -30.00 -30.00 -30.00 -30.00 -30.00 -30.00 Margin (dB) -27.61 -32.64 -26.47 -17.14 -28.93 -31.78 -24.38 -26.97 -26.97 -27.60 Rate (Mbps) 11 11
Channel 13 (1GHz to 12.75GHz) Frequency (MHz) 1647.92 4944.03 7415.83 9887.64 12359.44 3295.83 4945.31 7419.69 9890.21 12360.73 A. P. (H/V) H H H H H V V V V V LEVEL (dBm) -56.09 -54.87 -36.53 -48.53 -51.16 -56.43 -54.37 -36.37 -49.55 -51.00 Limit (dBm) -30.00 -30.00 -30.00 -30.00 -30.00 -30.00 -30.00 -30.00 -30.00 -30.00 Margin (dB) -26.09 -24.87 -6.53 -18.53 -21.16 -26.43 -24.37 -6.37 -19.55 -21.00 Rate (Mbps) 11 11
Test Report ------------------------------------------------------------------------------- 20/32
Standby mode Frequency (MHz) 122.15 125.79 375.56 500.45 600.48 750.83 123.36 125.79 501.06 600.48 700.51 750.83 A. P. (H/V) H H H H H H V V V V V V LEVEL (dBm) -60.61 -61.67 -61.33 -61.18 -62.20 -61.96 -59.12 -59.07 -63.06 -61.43 -62.47 -62.26 Limit (dBm) -57.00 -57.00 -57.00 -57.00 -57.00 -57.00 -57.00 -57.00 -57.00 -57.00 -57.00 -57.00 Margin (dB) -3.61 -4.67 -4.33 -4.18 -5.20 -4.96 -2.12 -2.07 -6.06 -4.43 -5.47 -5.26 Rate (Mbps) 11 11
Test Report ------------------------------------------------------------------------------- 21/32
Test Result of Internal antenna
Channel 1 (30MHz to 1GHz) Frequency (MHz) 111.84 152.46 438.01 500.45 624.73 750.83 30.61 125.79 156.71 201.57 500.45 701.12 A. P. (H/V) H H H H H H V V V V V V LEVEL (dBm) -61.22 -64.27 -63.64 -61.47 -60.51 -62.57 -61.64 -58.96 -63.60 -65.49 -62.37 -63.24 Limit (dBm) -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 -36.00 Margin (dB) -25.22 -28.27 -27.64 -25.47 -24.51 -26.57 -25.64 -22.96 -27.60 -29.49 -26.37 -27.24 Rate (Mbps) 11 11

Camera Model No. Serial No. Product No. FCC ID Power type
Test Report ------------------------------------------------------------------------------- 10/47
Chapter 2 Emission and Immunity Requirements Overview
Emission (ETSI EN 301 489-1)
Phenomenon Application Equipment test requirement Radio and ancillary equipment for fixed use (base station Radiated emission Conducted emission Conducted emission Harmonic current emissions Voltage fluctuations and flicker Enclosure of ancillary equipment DC power input/output port AC mains input/output port AC mains input port AC mains input port equipment) Applicable for stand alone testing Applicable Radio and ancillary equipment for vehicular use (mobile Radio and ancillary equipment for portable use (portable 8.2 Reference Subclause in the present document
equipment) equipment) Applicable for Applicable for stand alone stand alone testing testing Applicable Not applicable

Applicable

Not applicable Not applicable
Test Report ------------------------------------------------------------------------------- 11/47
Immunity (ETSI EN 301 489-1)
Phenomenon Application Equipment test requirement Radio and ancillary Radio and ancillary Radio and ancillary Reference Subclause in the present
equipment for equipment for equipment for document fixed use (base vehicular use portable use station equipment) RF electromagnetic field ( 80MHz to 1GHz) Enclosure Applicable (mobile equipment) Applicable (portable equipment) Applicable 9.2
Electrostatic Enclosure discharge Fast transients Signal, common mode telecommunication and control ports, DC and AC power ports RF common Signal, mode 0.15 MHz telecommunication to 80MHz and control ports, DC and AC power ports

Applicable Applicable

Applicable Not applicable

9.3 9.4

Not applicable
Transients and DC power input Not applicable surges ports Voltage dips and AC mains power Applicable interruptions input ports Surges, line to AC mains power line and line input ports, ground telecommunication ports Applicable
Applicable Not applicable Not applicable
Not applicable Not applicable Not applicable

9.6 9.7 9.8

Test Report ------------------------------------------------------------------------------- 12/47
Chapter 3 Performance Criteria
ETSI EN 301 489-17, Subclause 6.2 Table 1 Performance criteria Criteria During test After test A Shall operate as intended Shall operate as intended
May show degradation of performance ( NOTE 1) Shall be no loss of function Shall be no unintentional transmissions May show loss of function (one or more) May show degradation of performance (NOTE 1) No unintentional transmissions May be loss of function (one or more) Shall be no degradation of performance (NOTE 2) Shall be no loss of function Shall be no loss of stored data or user programmable functions Function shall be self-recoverable Shall operate as intended after recovering Shall be no degradation of performance (NOTE 2) Shall be no loss of stored data or user programmable functions

Functions shall be recoverable by the operator
Shall operate as intended after recovering Shall be no degradation of performance (NOTE 2)
Test Report ------------------------------------------------------------------------------- 13/47
NOTE 1: Degradation of performance during the test is understood as a degradation to a level not below a minimum performance level specified by the manufacturer for the use of the apparatus as intended. In some cases the specified minimum performance level may be replaced by a permissible degradation of performance. If the minimum performance level or the permissible performance degradation in not specified by the manufacturer then either of these may be derived from the product description and documentation (including leaflets and advertising) and what the user may reasonably expect form the apparatus if used as intended.
NOTE 2: No degradation of performance after the test is understood as no degradation below a minimum performance level specified by the manufacturer for the use of the apparatus as intended. In some cases the specified minimum performance level may be replaced by a permissible degradation of performance. After the test no change of actual operating data or user retrievable data is allowed. If the minimum performance level or the permissible performance degradation in not specified by the manufacturer then either of these may be derived from the product description and documentation (including leaflets and advertising) and what the user may reasonably expect form the apparatus if used as intended.
Test Report ------------------------------------------------------------------------------- 14/47

ETSI EN 301 489-1

Performance criteria for Continuous phenomena applied Transmitters (CT)
If no further details are given in the relevant part of the present document dealing with the particular type of radio equipment, the following general performance criteria for continuous phenomena shall apply. During and after the test: The apparatus shall continue to operate as intended. No degradation of performance or loss of function is allowed below a permissible performance level specified by the manufacturer when the apparatus is used as intends. In some cases this permissible performance level may be replaced by a permissible loss of performance. During the test: The EUT shall not unintentionally transmit or change its actual operating state and stored data. If the minimum performance level or the permissible loss is not specified by the manufacturer, then either of these may be deduced from the product description and documentation and what the user may reasonably expect form the apparatus if used as intended. For ancillary equipment the pass/failure criteria supplied by the manufacturer (see subclause 6.4) shall apply, unless the ancillary equipment is tested in connection with a receiver or transmitter in which case the corresponding performance criteria above shall apply.

SCHAFFNER RF-SYNTHE NSG 2070-1 SIZERIAMP21FIER SCHAFFNER CDN M325 SCHAFFNER CDN M216 SCHAFFNER CDN SCHAFFNER CDN SCHAFFNER FM-Koppelzange HP Transmission Test Set T004 S501 KEMZ 801 4935A
B & K Precision Sound Level Meter Type 2232
( ( ) Antenna port ) DC power input ports ( ( )CT )CT ( ( ( ( )TT )TT )TT )TT ( ( ) CR ) CR ( ( ( ( )TR )TR )TR )TR ( X ) Signal and control ports ( X ) AC mains input ports ( X )CT ( X )CT ( X ) CR ( X ) CR
Test Report ------------------------------------------------------------------------------- 33/47
EN 61000-4-6 PHOTO OF TEST SET-UP
Test Report ------------------------------------------------------------------------------- 34/47
Chapter 9 Voltage DIP / Interruption Test

DIP Test information:

Test setup: According to EN 61000-4-11 Voltage dips: ( X ) 30%, 0.01 Second ( ) 60%, 0.1 Second
Voltage interruptions: ( X ) > 95%, 5 Seconds Test mode: Ref. Test method of Chapter 1 Test instruments: Name Model Number Best Plus BURST ESD Best Plus V6.2 SURGE TRANSIENTS BEST EMC Test Instrument Partner EMS Tester BEST EMC V2.3 (-8, -9) Transienter-1000 Serial Number 199749-019SC 199918-006SC PIO X Selected
Comment: Performance Criteria: (According to ETSI EN 301 489-1) Dips 30%: ( X ) CT ( ) TT ( X ) CR ( Dips 60%: ( ) CT ( ) TT ( ) CR ( Interruptions >95%: ( ) CT ( ) TT ( ) CR ( No unintentional responses shall occur at the end of the test; ( ) Event of loss of function(s) ( ) Event of loss of user stored data

) TR ) TR ) TR

Performance Criteria: (According to ETSI EN 301 489-17) Dips 60%, 100 ms : ( )A ( )B Interruptions >95%, ms: ( )A ( )B

(X)C (X)C

Test Report ------------------------------------------------------------------------------- 35/47
EN 61000-4-11 PHOTO OF TEST SET-UP
Test Report ------------------------------------------------------------------------------- 36/47
Chapter 10 Harmonics Test

Test information:

Test setup: Test item: Test mode: According to EN 61000-3-2 Quasi stationary & Fluctuating Current Harmonics Test. Ref. Test method of Chapter 1
Test instrument: Name Model Number Harmonic/Flicker Test HP 6842A System Serial Number 3531A-00102 Selected X
Test Equipment Settings: Line Voltage Line Frequency Device Class Test Limit Overrides Total Number of Failures: Total Number of Errors:
Quasi-stationary Current Harmonics Test 230VAC 50Hz D None None None
Fluctuating Current Harmonics Test 230VAC 50Hz D None None None

Test Result: Pass

Test Report ------------------------------------------------------------------------------- 37/47
Chapter 11 Voltage Fluctuation and Flicker Test
Test setup: Test mode: According to EN 61000-3-3 Ref. Test method of Chapter 1

-P N N P P N P N N N N N N N N
4.2. 4.2.2 4.2.3 4.2.4 4.2.5
No hazard, ref. Comment in table 2.10. No internal enclosure. No hazard. The test is performed at 250N. Refer below: No hazard as result form the steel sphere fall test. No hazard as result form the steel sphere swing test. Drop test not applicable. The enclosure is metal. CRT is not used in the equipment. No high pressure lamps in the equipment. Not intended to be mounted on a wall or ceiling.

4.3. 431 4.3.2 4.3.3

DESIGN AND CONSTRUCTION Edges and corners Handles and manual controls Adjustable controls All edges and corners are rounded and/or smoothed. No knobs, grips, handles, lever etc. No hazardous adjustable controls. P N N
Securing of parts Connection of plugs and sockets Direct plug-in equipment Torque (Nm)
No loosening of parts impairing creepage distances or clearances is likely to occur. SELV and TNV connectors do not comply with IEC 60320 or IEC 60083. Not intended to plug directly into a wall socket-outlet. Nm No heating elements provided. No lithium batteries. Insulation not in contact with oil or grease. The equipment does not generate ionising radiation or use a leaser, and does not contain flammable liquids or gases. No containers for liquids or gases in the equipment. The equipment dose not contain flammable liquid. L Diffusion LED only.

4.3.5 4.3.6

4.3.7 4.3.8 4.3.9 4.3.10 4.3.11 4.3.12
Heating elements in earthed equipment Batteries Oil and grease Dust, powders, liquids or gases Containers for liquids or gases Flammable liquids. Quantity of liquid Flash point

N N N N N N

4.3.13
Radiation PROTECTION AGAINST HAZARDOUS MOVING PARTS General Protection in operator access areas Protection in restricted access areas location. Protection in service access areas
4.4 4.4.1 4.4.2 4.4.3 4.4.4
Adequate protection against risk of personal injury. No moving parts. Not intended for installation in RAL. Unintentional contact is not likely in service access areas.

P N N P

Test Report-----------------Low Voltage Directive--------------------------Clause 4.5 4.5.1 4.5.2 4.6 4.6.1 Requirement Test THERMAL REQUIREMENTS Temper rises Resistance to abnormal heat OPENING IN ENCLOSURE Top and side openings Top openings Dimensions (mm). Front, side and rear openings Dimensions (mm). 4. 6.2 4.6.3 4.6.4 4.6.5 Bottom of fire enclosures Doors and covers in fire enclosure Opening in transportable equipment Adhesives for constructional purposes Conditioning temperature/time 4.7. 4.7.1 4.7.2 4.7.2.1 4.7.2.2 4.7.3 4.7.3.1 4.7.3.2 RESISTANCE TO FIRE Reducing the risk of ignition and spread of flame Condition for a fire enclosure Parts requiring a fire enclosure Parts not requiring a fire enclosure Materials General Materials for fire enclosure Method 1 is used. Result - Remark

(see appended table)

Refer below: Openings in top are not located above bare parts at hazardous voltage. Openings in top are not located above bare parts at hazardous voltage. Protection against emission of flame, molten metal, flaming or glowing particles or drops by the fire enclosure with no bottom opening. No door or cover. No barrier secured by adhesive inside enclosure. /week(s).

PHOTO OF EUT

Copy of the R&TTE Declaration of Conformity (DoC)
Declaration of Conformity
We, the under signed, Company Address, City Country Phone number Fax number E-mail
certify and declare under our sole responsibility that the following equipment: Product Description / Supplementary Info Manufacturer Brand Type Wireless Router ASUSTeK COMPUTER INC. ASUS WL-500b
is tested to and conforms with the essential radio test suites included in the following standards: Standard ETSI EN 300 328-1 ETSI EN 300 328-2 ETSI EN 301 489-1 ETSI EN 301 489-17 EN 60950 Issue date V1.3.1 Dec. 2001 V1.2.1 Dec. 2001 V1.4.1 Aug. 2002 V1.2.1 Aug. 2002 2000
and therefore complies with the essential requirements and provisions of the R&TTE directive 1999/5/EC of the European Parliament and of the council of 9March 1999 on radio equipment and Telecommunications Terminal Equipment and the mutual recognition of their conformity and the requirements of Annex IV (conformity Assessment procedure referred to in article 10(4)). The following Notified Bodies have been consulted in the Conformity Assessment procedure: Notified Body number Name and address
The technical documentation as required by the Conformity Assessment procedure is kept at the following address: Company Address, City Country Phone number Fax number E-mail
Draw up in Data Taiwan, R.O.C. 2003/5/22 ASUSTek Computer Inc. 4/F, 150, Li-Te Rd., Peitou, Taipei, Taiwan 112 LawrenceYu / R&D Engineer
Product Quality Assurance Documents
Declaration of Product Quality Assurance
In accordance with the Conformity Assessment procedure referred to in article 10(3) of R&TTE Directive 1999/5/EC of the European Parliament and the council of 9 march 1999 on the Radio equipment and Telecommunication Terminal Equipment and their mutual recognition of their conformity (R&TTE directive) the following manufacture: Company Address, City Country Phone number Fax number E-mail
declares under its sole responsibility that it had taken the following measures in order to achieve that the manufacturing process ensures compliance of the manufactured products with the technical documentation as established by ASUSTeK Computer Inc. under the requirements of the R&TTE directive and with the requirements of R&TTE directive that apply to them: Number 01 Measures taken in order to achieve that the manufacturing process ensures compliance of the manufactured products Manufacturing of the equipment is subcontracted by ASUSTEK COMPUTER INC. located at 150, Li-te Rd., Peitou, Taipei 112, Taiwan, T aiwan, who is ISO 9001 certified for development, production and distribution of radio products. (See copy of ISO 9001 certification attached)

The WL500b Wireless Router comes with:
One ASUS 802.11b Wireless Router One ASUS Wireless Router Quick Start Guide One power adapter (5 Volts DC) One support CD (utilities and users manual) One RJ-45 Ethernet cable (straight-through)

Features

The WL500g/WL500g Deluxe and WL500b Wireless Router features include: Wireless Connectivity And Protect Compatibility. WL500g/WL500g Deluxe Wireless Router enables fastest 54Mbps IEEE 802.11g wireless transmission but keeps compatibility with existing IEEE 802.11b devices. WL500g Deluxe increases performance compared with standard 802.11g when Afterburner mode is enabled. The WL-500b Wireless Router utilizes the IEEE 802.11b standard. Secure wireless connectivity. The integrated Wireless Access Point with WPA authentication and encryption functionality allows the wireless router to link a broadband Internet connection to your local network of 802.11g or/and 802.11b wireless mobile clients securely. The ASUS Wireless Router is firmware upgradable to support WPA. Multiple local network ports. Four 10/100Base-T Ethernet ports, offering either a connection to a hub or switch on the local wired network or a direct connection to multiple Ethernet-enabled computers. Build-in DHCP server allows the Wireless Router to provide IP addresses to clients on your local network automatically.
Broadband port. The Broadband port connects the Wireless Router to your cable/DSL modem. Static IP, dynamically IP and PPPoE (PPP over Ethernet) connection to Internet are supported. Shared Internet access. All computers on the local network can access the Internet through the Wireless Router, using only a single external IP address. Firewall protection. The wireless router use of NAT (Network Address Translation) provides firewall protection for your local network. Children Protection. The wireless router allows you to block the Internet access within a predefined time interval and to block the WWW access with specific keywords in URL within a predefined time interval. USB devices support. Connecting a USB storage device to the wireless router enables you to set up an FTP server and share the USB storage device with Internet or WLAN users. With a USB web camera, the wireless router allows you to monitor locations such as your home or office from any location through a wireless LAN or over the Internet. Printer sharing. With an additional Printer, the ASUS Wireless Router allows you to share the printer to your local area network. Standard parallel printers are supported. Easy setup and management. Use your web browser from any computer on the local network to configure the ASUS Wireless Router.

No software setting is necessary in the ASUS Wireless Router.

Wireless

Wireless Client
Wireless Client Wired Client
In this topology, the wireless router connects your wired and wireless devices together to form a local area network (LAN), as shown. To connect a computer (or other device) to the ASUS Wireless Router, you need a network cable (UTP-Cat5) with one end connected to one of the LAN ports on the back of the ASUS Wireless Router and the other in the 10/100 LAN port on that device. For wireless connections, wireless mobile clients must comply with the IEEE 802.11b standard.
Wireless WAN LAN Wired Client

Agent to an ISP

Internet Service Provider

Internet

ADSL or Cable Modem
In this topology, the wireless router is not only a backbone of your LAN but also an agent to your Internet Service Provider (ISP). You may use an ADSL or Cable modem to communicate with your ISP. Connect the LAN port on the modem with the WAN port at the back of the ASUS Wireless Router using a network cable as shown above.
Note: You also need to make sure that other connections on the ADSL or Cable modem are correct.
Chapter 1 - Introduction Agent to Another Network
Wireless Network Backbone

WAN ASUS Wireless Router

Wireless Client Wireless Client Wired Client
In this topology, the wireless router is an agent between your LAN and another network. Use a network cable with one end connected to the WAN port on the wireless router and the other to the other network as shown above.

LED Indicators

The LEDs on the front of the ASUS Wireless Router display the status of the ASUS Wireless Router.
PWR (Power) Off No power On System ready Flashing Firmware upgrade failed AIR (Wireless Network) Off No power On Wireless system ready Flashing Transmitting or receiving data (wireless) WAN (Wide Area Network) Off No power On Has physical connection to an Ethernet network Flashing Transmitting or receiving data (through Ethernet wire) LAN 1-4 (Local Area Network) Off No power On Has physical connection to an Ethernet network Flashing Transmitting or receiving data (through Ethernet wire)

Note: Before using an embedded USB application or device, refer to the USB storage and USB camera support list on the ASUSTeK Web site at the following Internet address: http://www.asus.com.

Wall Mounting Option

Out of the box, the ASUS Wireless Router is designed to sit on a raised flat surface like a file cabinet or book shelf. The unit may also be converted for mounting to a wall or ceiling. Follow these steps to mount the ASUS Wireless Router to a wall: 1. 2. 3. 4. Look on the underside for the four mounting hooks. Mark two upper holes in a flat surface using the provided hole template. Tighten two screws until only 1/4 is showing. Latch the upper two hooks of the ASUS Wireless Router onto the screws.
Note: Readjust the screws if you cannot latch the ASUS Wireless Router onto the screws or if it is too loose.

Vertical Standing Option

The ASUS Wireless Router can also stand on its side to save space. Two hinges can be opened on the right side to support vertical standing. Orientate the antenna so that it points upwards.

Support Hinge

Connecting to the ASUS Wireless Router
Wired Connection One RJ-45 cable is supplied with the ASUS Wireless Router. Auto crossover function is designed into the ASUS Wireless Router so you can use either a straight-through or a crossover Ethernet cable. Plug one end of the cable into the WAN port on the rear of the ASUS Wireless Router and the other end into the Ethernet port of your ADSL or Cable modem. Wireless-Connection Refer to your wireless adapter users manual on associating with the ASUS Wireless Router. The default SSID of the ASUS Wireless Router is default (lower case), encryption is disabled and open system authentication is used. Printer Connection (WL500g/WL500b only) A DB25 parallel cable should be supplied with your printer. Plug the male connector of this parallel cable into the printer port on the rear of the ASUS Wireless Router and the centronics end into your printer.

Printer Port

Chapter 3 - Software Configuration
3. Software Configuration
Configuring the ASUS Wireless Router
The ASUS Wireless Router can be configured to meet various usage scenarios. Some of the factory default settings may suit your usage; however, others may need changing. Prior to using the ASUS Wireless Router, you must check the basic settings to guarantee it will work in your environment. Configuring the ASUS Wireless Router is done through a web browser. You need a Notebook PC or desktop PC connected to the ASUS Wireless Router (either directly or through a hub) and running a web browser as a configuration terminal. The connection can be wired or wireless. For the wireless connection, you need an IEEE 802.11g/b compatible device, e.g. ASUS WLAN Card, installed in your Notebook PC. You should also disable WEP and set the SSID to default for your wireless LAN device. If you want to configure the ASUS Wireless Router or want to access the Internet through the ASUS Wireless Router, TCP/IP settings must be correct. Normally, the TCP/IP setting should be on the IP subnet of the ASUS Wireless Router.

Note: Before rebooting your computer, the ASUS Wireless Router should be switched ON and in ready state.
Setting IP address for Wired or Wireless Connection
Get IP Automatically The ASUS Wireless Router incorporates a DHCP server so the easiest method is to set your PC to get its IP address automatically and reboot your computer. So the correct IP address, gateway, DNS (Domain Name System Server) can be obtained from the ASUS Wireless Router.
Note: Before rebooting your PC, the ASUS Wireless Router should be switched ON and in ready state.

3. Utilities

Setting IP Manually If you want to set your IP address manually, the following default settings of the ASUS Wireless Router should be known: IP address 192.168.1.1 Subnet Mask 255.255.255.0. If you set your computer s IP manually, it needs to be on the same segment. For example: IP address 192.168.1.xxx (xxx can be any number between 2 and 254 that is not used by another device) Subnet Mask 255.255.255.0 (same as the ASUS Wireless Router) Gateway 192.168.1.1 (this is the ASUS Wireless Router) DNS 192.168.1.1 (ASUS Wireless Router IP address or your own).
Installing the ASUS Wireless Router Utilities
Follow these steps to install the ASUS Wireless Router Utilities in Microsoft Windows. Insert the support CD provided with the ASUS Wireless Router and the menu will appear. (Double-click setup.exe if your autorun has been disabled.)
(3) Click Yes after reading the license agreement.
(4) Click Next to accept the default destination folder or enter another.
(5) Click Next to accept the default program folder or enter another.
(6) Click Finish when setup is complete.
(1) Select a language and click Install ASUS Wireless Router Utilities.
(2) Click Next after reading the welcome screen.
Using the Wireless Router for the First Time
1. ASUS Wireless Router Utilities
Run Device Discovery from ASUS Utility in Windows Start Programs.
2. Connect to the ASUS WLAN Web Manager
Run the ASUS WLAN Device Discovery from the Start menu and click Config when the device is found.
Microsoft Internet Explorer
Add 192.168.1.1 in the Exceptions box if you are using a proxy server (Microsoft Internet Explorer).
If your computers IP is not on the same subnet as the ASUS Wireless Router (192.168.1.X), you will be asked to change it. The IP address can be any number from 2 to 254 that is not used by another device. Gateway is not required.
Note: Using a proxy server (Microsoft Internet Explorer) for your LAN requires that you set an exception for the ASUS Wireless Router or else connection will fail.
Enter Address or Name Manually You can also open your PCs web browser and enter the name or the default IP address of the ASUS Wireless Router: WL500g http://my.router or http://my.WL500g or http://192.168.1.1 WL500g Deluxe http://my.router or http://my.WL500gx or http://192.168.1.1

Shared key WPA-PSK ^ WPA ^ Radius with 802.1x ^
WL500g/WL500g Deluxe supports AES and TKIP encryption for WPA.
^ WL500b does not support WPA and Radius with 802.1x and WL500b only supports TKIP encryption for WPA-PSK.
WEP Encryption Traditional WEP encryption is applied when Open or Shared Key, Shared Key or Radius with 802.1x authentication methods are selected.
WL500g/WL500g Deluxe: When WPA or WPA-PSK authentication methods are selected, you still can set WEP encryption for those clients that do not support WPA/WPA-PSK. Please note that Key Index for WEP key is limited to 2 or 3 when both WPA and WEP encryption are supported at the same time.
64/128-bit versus 40/104-bit The following section explains low-level (64-bit) and high-level (128-bit) WEP Encryption schemes:
64-bit WEP Encryption 64-bit WEP and 40-bit WEP are the same encryption method and can interoperate in a wireless network. This level of WEP encryption uses a 40-bit (10 Hex character) encryption scheme as a secret key, which is set by the user, and a 24-bit Initialization Vector scheme, which is not under user control. Together these two schemes make a 64-bit (40 + 24) encryption scheme. Some vendors refer to this level of WEP as 40-bit and others refer to this as 64-bit. ASUS WLAN products use the term 64-bit when referring to this lower level of encryption.

128-bit WEP Encryption

104-bit WEP and 128-bit WEP are the same encryption method and can interoperate on a wireless network. This level of WEP encryption uses a 104-bit (26 Hex character) encryption scheme as a secret key which is set by the user, and a 24-bit Initialization Vector, which is not under user control. Together these two schemes make a 128-bit (104 + 24) encryption scheme. Some vendors refer to this level of WEP as 104-bit and others refer to this as 128-bit. ASUS WLAN products use the term 128-bit when referring to this higher level of encryption. Passphrase Selecting WEP-64bits or WEP-128bits in the Encryption field generates four WEP keys automatically. A combination of up to 64 letters, numbers, or symbols is required. Alternatively, leave this field blank and type in four WEP keys manually.
WEP-64bit key: 10 hexadecimal digits (0~9, a~f, and A~F) WEP-128bit key: 26 hexadecimal digits (0~9, a~f, and A~F)
Note: The ASUS WLAN family of products uses the same algorithm to generate WEP keys, eliminating the need for users to remember passwords and to maintain compatibility between products. However, using this method to generate WEP keys is not as secure as manual assignment.
WEP Key You can set a maximum of four WEP keys. A WEP key is either 10 or 26 hexadecimal digits (0~9, a~f, and A~F) based on whether you select 64bits or 128bits in the WEP pull-down menu. The ASUS Wireless Router and ALL of its wireless clients MUST have at least the same default key. Key Index The Default Key field lets you specify which of the four encryption keys you use to transmit data on your wireless LAN. As long as the ASUS Wireless Router or wireless mobile client with which you are communicating has the same key in the same position, you can use any of the keys as the default key. If the ASUS Wireless Router and ALL of its wireless clients use the same four WEP keys, select key rotation to maximize security. Otherwise, choose one key in common as the default key. Network Rotation Key Interval This field specifies the time interval (in seconds) after which a WPA group key is changed. Enter 0 (zero) to indicate that a periodic key-change is not required.

Special Requirement from ISP The following two items may be specified by some ISPs. Check with your ISP and fill them in if required. Host Name Fill this in if required by your ISP. MAC Address Fill this in if required by your ISP. Heart-Beat Server (WL500g Deluxe) - Fill in the server name or server IP address when you are connecting with BigPond. LAN IP Setting IP Address - This is IP address of the Wireless Router as seen in your local network. The default value is 192.168.1.1. Subnet Mask - This is Subnet Mask of the Wireless Router as seen in your local network. The default value is 255.255.255.0. Host Name - This is Host Name of the Wireless Router as seen in your local network.

DHCP Server

DHCP (Dynamic Host Configuration Protocol) is a protocol defined for dynamically assigning IP addresses to computers in a network. Enabling the DHCP server allows the Wireless Router to assign IP address to PC or NB that is set to obtain an IP address automatically. The ASUS Wireless Router supports up to 254 IP addresses for your local network. Enable the DHCP Server? This field allows you to enable or disable DHCP server in the Wireless Router. The default value is Yes Domain Name - This field indicates the Domain Name to provide to clients that request IP Address from DHCP Server. IP Pool Starting Address - This field specifies the first address in the pool to be assigned by the DHCP server in your local network. IP Pool Ending Address - This field specifies the last address in the pool to be assigned by the DHCP server in your local network. Lease Time - This field specifies the amount of connection time a network user be allowed with their current dynamic IP address.

DHCP Server (Cont.)

DNS and WINS Server Setting DNS Server 1/DNS Server 2 - This field indicates the IP address of DNS to provide to clients that request IP Address from DHCP Server. You can leave it blank, then the Wireless Router will process the DNS request. WINS Server - The Windows Internet Naming Service manages interaction of each PC with the Internet. If you use a WINS server, enter IP Address of server here. Assign IP Address Manually (WL500g Deluxe) Enable Manual Assignment - Selecting Yes allows you to assign a static IP address to the PC that has the IP address and MAC address mapping set in the Manually Assigned IP List.

Static Route

A route is a possible path from a given host to another host or destination. If you append one or more routers behind the ASUS Wireless Router to share the same connection to Internet, you need to insert predefined rules of route, called static route, into the ASUS Wireless Router. Then the ASUS Wireless Router could know which router the packets from Internet with different destination IP address can deliver to. Apply to routing table? Selecting Yes applies all those rules in Static Route List into routing table. Static Route List Network/Host IP It stands for the destination IP address of network or host. So it could be an IP address, such as 192.168.1.1 or a range of IP address, such as 192.168.0.0 or 192.0.0.0. If a packet with destination IP address that match to this field or within the range of this field, it will route to the device set in Gateway field. Netmask It stands for the netmask of an added network route. Gateway - This field stands for the IP address of gateway where packets are routed. The specified gateway must be reachable first. It means you have to set up a static route to the gateway beforehand. Metric - Metric is a value of distance for the network and used to decide the priority of route rules. Interface - This field decide which network interface this routing rule is applied to.

The accounts root directory and its access rights on the FTP server are defined as follows:
Account Anonymous Super User [user] [user] [user] [user] [user] Condition Root Directory Allow Anonymous User to Login is enabled \ Allow Super User to Login is enabled Rights is set as Read/Write/Erase Rights is set as Read/Write Rights is set as Read Only Rights is set as View Only Rights is set as Private \ \ftp_pub \ftp_pub \ftp_pub \ftp_pub \ftp_pvt\[user] Rights Read/Write/Erase Read/Write/Erase Read/Write/Erase Read/Write Read Only View Only Read/Write/Erase
* WL500g/b can manage up to 6 partitions, but if NTFS is used on partition 1, the system will not be able to create related system directories, such as ftp_pub or ftp_pvt for the FTP server. In this case, only anonymous or super user is allowed to read data in partition 1, however they will not be able to see any other partitions.

Banned IP List

This screen enables you to enter IP addresses that you do not want users connected to the router to access. IP Address This field indicates the IP address you want to ban. Enter a specific IP address, such as 192.168.1.5, or IP addresses within one subnet, such as 192.168.*.*, or 192.168.1.*.

Client Setting

Users can connect to the FTP server using a Web based browser such as IE or Netscape. To connect to the server, type the FTP URL in the browser address bar: ftp://username@[IP address or host name of the router]/ Using other FTP-protocol programs, you can connect to the FTP Server using either PASV or PORT.
Note: The FTP Server only supports No encrypted password protection. Clients connecting with MD4 or MD5 will not be allowed access.
Note: Before using the Web Camera, refer to USB Web Camera support listed on the ASUSTeK Web site at the following address: http://www.asus.com.

Web Camera

The ASUS Wireless Router implements several applications for a USB Web Camera, enabling you to capture images and send them over the Internet. Enable Web Camera Selecting LAN Only enables Web Camera for LAN users. Selecting LAN and WAN enables Web Camera for both LAN users and WAN users through firewall. Web Camera Mode Select the appropriate camera mode from the drop down list. ActiveX Only enables users to execute ActiveX clients on an Windows IE platform to get the best image quality. ActiveX and Refresh enable users to get a basic image on both IE and other browsers. Refresh Only will force users both IE and other browser to have still images refreshed in a specified interval. Web Camera Driver When you plug a supported Web Camera into the wireless router, the appropriate driver is selected automatically. Refer to the USB Web Camera support list on the following ASUSTeK Web site for supported Web Cameras and chipset vendors: http://www.asus.com. Image Size Select the image size from the drop down list. 320 x 240 provides a larger image. 160 x 120 provides faster transmission. Click Preview to see how your web camera appears. Sense Level This field indicates the sensitivity at which image movement is detected.

70 ASUS Wireless Router

System Setup (Cont.)
Router Mode (WL500g/WL500g Deluxe)
After selecting Router mode and clicking Apply, you will enter the Quick Setup page of the Router mode. Follow the instructions to setup the ASUS Wireless Router.
Note: The Wireless, IP Config, Internet Firewall, Wireless Firewall and Web Camera settings in Router Mode are the same as the settings in Home Gateway Mode. To learn more about these settings, please refer to the Home Gateway Mode in this users manual.
Quick Setup in Router Mode
After selecting Router mode and clicking Apply, you will enter the Quick Setup page of the Router mode. Follow the instructions to setup the ASUS Wireless Router as a Router.
If you would like to perform other settings, click the item on the menu to reveal a sub menu. Follow the instructions to setup the ASUS Wireless Router. Tips are given when you move your cursor over each item.
After selecting Access Point mode and clicking Apply, you will enter the Quick Setup page of the Access Point mode. Follow the instructions to setup the ASUS Wireless Router.
Note: The Wireless settings are the same as the settings in Home Gateway Mode. To learn more about these settings, please refer to the Home Gateway Mode in this users manual.
Quick Setup in Access Point Mode
Click Next to enter the Quick Setup page. Follow the instructions to setup the ASUS Wireless Router.
Configure Wireless Interface
First step for setting your wireless interface is to give it a name, called SSID. In addition, if you would like to protect transmitted data, please select WEP protection and assign WEP keys for data transmission. Your wireless setting will be applied into all interfaces.
(See next few pages for item descriptions.)
If you would like to perform other settings, click an item on the menu to reveal a sub menu. Follow the instructions to setup the ASUS Wireless Router. Tips are given when you move your cursor over each item.
Chapter 3 - Software Configuration IP Config (Access Point Mode)
Click this item on the menu to reveal a sub menu. Follow the instructions to setup the ASUS Wireless Router. Tips are given when you move your cursor over each item.

Selection items:

Yes (no info required) No (need to input information) Click Apply or Finish if you make any changes.

Get IP Automatically

Select Yes (default) or No to get IP address automatically from a DHCP server. Yes This parameter determines if the ASUS Wireless Router will send out a DHCP request during bootup. If you have a DHCP server on the network, set this option so that the ASUS Wireless Router can receive an automatic IP address assignment. If you have a DHCP (Dynamic Host Configuration Protocol) server on the network, then the DHCP server will automatically assign the ASUS Wireless Router an IP address when the ASUS Wireless Router is powered up. To determine what IP address has been assigned to the ASUS Wireless Router, review the IP address on the Status page available on the Main Menu. No The ASUS Wireless Router also accepts a static IP address. You may manually configure the IP address and subnet mask on the IP Config page. Enter an IP address and a subnet mask in the field provided to assign the ASUS Wireless Router a static IP address. If you dont know your Gateway setting, leave it empty (not 0.0.0.0).

Change Password

This page will allow you to change the default password admin (lower case) to any password of you choice. You can enter any usable characters between 1-16 characters long (cannot be left blank). Click Save button to save your new password. If you forget the ASUS Wireless Routers password, you can reset the ASUS Wireless Router to its factory settings (see troubleshooting).
Note: The password is case sensitive.

Firmware Upgrade

This page reports the Flash Code (Firmware) version installed in the ASUS Wireless Router. Periodically, a new Flash Code is available for the ASUS Wireless Routers on ASUSs Web site. You can update the ASUS Wireless Routers Flash Code using the Firmware Upgrade page under the Advanced Setup menu of the Web Manager. If you are experiencing a problem with your ASUS WLAN equipment, a Technical Support representative may ask you to give your devices Flash Code (Firmware) version.

Make sure your printer is connected to the Wireless Router printer port or USB port and its power is turned on. Launch the Printer Setup Wizard through the Start menu. The wizard will explore all available ASUS Wireless Routers and model information of the printers attached to them in your local network.
(1) Having a printer installed on the printer (2) If the printer is found, the name of the printer will be shown on this screen. port (LPT1) or a USB port makes the setup process easier (refer to the following page). Note: If there is an error communicating with the printer, you will get this message. Make sure that the printer is ON, ready, and connected. Click Back and Next.
(3) This setup wizard will change your default printer to use Standard TCP/ IP port which is serviced by the ASUS Wireless Router. Note: For Windows XP or Windows 2000, this setup wizard will guide you to select or add a Standard TCP/IP (4) Click Done when setup is complete. port. Refer to Setup for LPR client under Windows XP for details. For Windows 98 or Windows ME, this setup wizard will change your default printer to use Remote Port which is serviced by the ASUS Wireless Router.
Chapter 3 - Software Configuration Verifying Your Printer
After setting up the printer, a printer icon will appear in Windows Printers and Faxes. Right click the printer icon and choose Properties to configure the printer.
If your printer was previously setup, the ASUS Wireless setup wizard changes the printing port from the computers local LPT1 (parallel) port or USB port to Standard TCP/IP port*. If necessary, you can change this back at anytime or use Windows Add Printer to setup another printer. Note: If you use Windows 98 or ME which do not support Standard TCP/IP port, you need to use Remote Port which is supported by ASUS.
Chapter 3 - Software Configuration Verifying Your Printer (Cont)
Note: If you use LPR client in Windows XP or Windows 2000, Standard TCP/IP port will be used. Please refer to Setup for LPR client under Windows XP in details.

b) Accompany it with a written offer, valid for at least three years, to give any third party, for a charge no more than your cost of physically performing source distribution, a complete machine-readable copy of the corresponding source code, to be distributed under the terms of Sections 1 and 2 above on a medium customarily used for software interchange; or, c) Accompany it with the information you received as to the offer to distribute corresponding source code. (This alternative is allowed only for noncommercial distribution and only if you received the program in object code or executable form with such an offer, in accord with Subsection b above.) The source code for a work means the preferred form of the work for making modifications to it. For an executable work, complete source code means all the source code for all modules it contains, plus any associated interface definition files, plus the scripts used to control compilation and installation of the executable. However, as a special exception, the source code distributed need not include anything that is normally distributed (in either source or binary form) with the major components (compiler, kernel, and so on) of the operating system on which the executable runs, unless that component itself accompanies the executable. If distribution of executable or object code is made by offering access to copy from a designated place, then offering equivalent access to copy the source code from the same place counts as distribution of te source code, even though third parties are not compelled to copy the source along with the object code. 4. You may not copy, modify, sublicense, or distribute the Program except as expressly provided under this License. Any attempt otherwise to cop, modify, sublicense or distribute the Program is void, and will automatically terminate your rights under this License. However, parties who have received copies, or rights, from you under this License will not have their licenses terminated so long as such parties remain in full compliance.
5. You are not required to accept this License, since you have not signed it. However, nothing else grants you permission to modify or distribute the Program or its derivative works. These actions are prohibited by law if you do not accept this License. Therefore, by modifying or distributing the Program (or any work based on the Program), you indicate your acceptance of this License to do so, and all its terms and conditions for copying, distributing or modifying the Program or works based on it. 6. Each time you redistribute the Program (or any work based on the Program), the recipient automatically receives a license from the original licensor to copy, distribute or modify the Program subject to these terms and conditions. You may not impose any further restrictions on the recipients exercise of the rights granted herein. You are not responsible for enforcing compliance by third parties to this License. 7. If, as a consequence of a court judgment or allegation of patent infringement or for any other reason (not limited to patent issues), conditions are imposed on you (whether by court order, agreement or otherwise) that contradict the conditions of this License, they do not excuse you from the conditions of this License. If you cannot distribute so as to satisfy simultaneously your obligations under this License and any other pertinent obligations, then as a consequence you may not distribute the Program at all. For example, if a patent license could not permit royalty-free redistribution of the Program by all those who receive copies directly or indirectly through you, then the only way you could satisfy both it and this License would be to refrain entirely from distribution of the Program. I any portion of this section is held invalid or unenforceable under any particular circumstance, the balance of the section is intended to apply and the section as a whole is intended to apply in other circumstances. It is not the purpose of this section to induce you to infringe any patents or other property right claims or to contest validity of any such claims; this section has the sole purpose of protecting the integrity of the free software distribution system, which is implemented by public license practices. Many people have made generous contributions to the wide range of software distributed through that system in reliance on consistent application of that system; it is up to the author/donor to decide if he or she is willing to distribute software through any other system and a licensee cannot impose that choice.

END OF TERMS AND CONDITIONS

106 ASUS Wireless Router