BILLION BiPAC 7404V(G)OX/V(G)PX ADSL router User Manual

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Below you will find brief information for ADSL router BiPAC 7404V(G)OX/V(G)PX. The BiPAC 7404V(G)OX/V(G)PX is a versatile router that combines multiple features for the home and small office. It offers ADSL2+ broadband connectivity, 3G support, 802.11g wireless access point, a VPN server and client, a firewall, and VoIP capabilities. The user manual provides details on connecting to the Internet, configuring the router's settings, and using its various features, such as the quick start wizard, LAN and WAN settings, firewall configuration, VPN setup, and VoIP options.

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ADSL router BiPAC 7404V(G)OX/V(G)PX User Manual | Manualzz

BiPAC 7404V(G)OX/V(G)PX

3G/VoIP/(802.11g)

ADSL2+ (VPN) Firewall Router

User Manual

Version release: 1.22 (FW: 6.24b.dm2)

Last Revised Date: July 04。2012-7-4

Table of Contents

Chapter 1: Introduction ..................................................................................................................1

Chapter 2: Installing the Router .....................................................................................................4

Package Contents ...................................................................................................................4

The Front LEDs.................................................................................................................5

The Rear Ports..................................................................................................................6

Cabling ....................................................................................................................................7

Chapter 3: Basic Installation ..........................................................................................................8

Connecting Your Router...........................................................................................................9

Network Configuration ........................................................................................................... 10

Configuring PC in windows 7 ..........................................................................................10

Configuring PC in Windows Vista....................................................................................12

Configuring PC in Windows XP .......................................................................................14

Configuring PC in Windows 2000....................................................................................15

Configuring PC in Windows 95/98/Me.............................................................................16

Configuring PC in Windows NT4.0 ..................................................................................17

Factory Default Settings ........................................................................................................ 18

Information from your ISP......................................................................................................19

Configuring with your Web Browser ......................................................................................20

Chapter 4: Configuration..............................................................................................................22

Status ....................................................................................................................................23

ADSL Status....................................................................................................................23

3G Status ........................................................................................................................ 24

EWAN Status ..................................................................................................................25

iBurst Status.................................................................................................................... 26

ARP Table ....................................................................................................................... 26

DHCP Table.....................................................................................................................27

Routing Table ..................................................................................................................28

NAT Sessions..................................................................................................................29

UPnP Portmap ................................................................................................................29

PPTP Status....................................................................................................................30

IPSec Status ...................................................................................................................31

L2TP Status..................................................................................................................... 31

VoIP Status...................................................................................................................... 32

VoIP Call Log................................................................................................................... 32

Event Log ........................................................................................................................ 33

Error Log ......................................................................................................................... 34

IDS Log ...........................................................................................................................34

Diagnostic ....................................................................................................................... 34

Quick Start.............................................................................................................................35

Configuration .........................................................................................................................40

LAN - Local Area Network ...............................................................................................41

Bridge Interface.........................................................................................................41

Ethernet ....................................................................................................................42

IP Alias ......................................................................................................................42

IPv6 Autoconfig.........................................................................................................43

Ethernet Client Filter .................................................................................................44

Wireless ....................................................................................................................46

Wireless Security ......................................................................................................48

Wireless Client / MAC Address Filter ........................................................................51

WPS..........................................................................................................................52

Port Setting ...............................................................................................................61

DHCP Server ............................................................................................................62

WAN - Wide Area Network ..............................................................................................63

WAN Interface...........................................................................................................63

WAN Profile...............................................................................................................66

ADSL Mode...............................................................................................................85

System ............................................................................................................................ 86

Time Zone.................................................................................................................86

Remote Access .........................................................................................................87

Firmware Upgrade ....................................................................................................87

Backup / Restore ......................................................................................................88

Restart Router...........................................................................................................89

User Management ....................................................................................................90

Mail Alert ...................................................................................................................92

Firewall and Access Control ............................................................................................90

General Settings .......................................................................................................91

Packet Filter ..............................................................................................................92

Intrusion Detection ....................................................................................................99

URL Filter................................................................................................................102

IM / P2P Blocking....................................................................................................105

Firewall Log.............................................................................................................106

VPN - Virtual Private Networks......................................................................................107

PPTP (Point-to-Point Tunneling Protocol) ...............................................................107

IPSec (IP Security Protocol).................................................................................... 116

L2TP (Layer Two Tunneling Protocol) .....................................................................126

VoIP - Voice over Internet Protocol ................................................................................138

SIP Device Parameters...........................................................................................139

SIP Accounts...........................................................................................................142

Phone Port ..............................................................................................................143

PSTN Dial Plan (Router with LINE port only) ..........................................................145

VoIP Dial Plan .........................................................................................................150

Call Feature ............................................................................................................153

Speed Dial ..............................................................................................................153

Ring & Tone ............................................................................................................154

QoS - Quality of Service................................................................................................156

Prioritization ............................................................................................................156

Outbound IP Throttling (LAN to WAN).....................................................................157

Inbound IP Throttling (WAN to LAN) .......................................................................159

Virtual Server (known as Port Forwarding)....................................................................165

Porting Forwarding..................................................................................................166

Edit DMZ Host.........................................................................................................168

Edit One-to-One NAT (Network Address Translation) ............................................. 169

Wake on LAN ................................................................................................................172

Time Schedule ..............................................................................................................173

Advanced ......................................................................................................................176

Static Route ............................................................................................................176

Static ARP...............................................................................................................177

Dynamic DNS .........................................................................................................178

Device Management ...............................................................................................179

IGMP.......................................................................................................................183

MLD ........................................................................................................................183

VLAN Bridge ...........................................................................................................184

Logout ................................................................................................................................. 185

Chapter 5: Troubleshooting........................................................................................................ 186

Appendix: Product Support & Contact .......................................................................................188

Chapter 1: Introduction

Introduction to your Router

Welcome to the 3G/VoIP/ (802.11g) ADSL2+ (VPN) Firewall Router. The router is an “all-in-one”

ADSL router, combining an ADSL modem, ADSL router and Ethernet network switch functionalities, providing everything you need to get the machines on your network connected to the Internet over your ADSL broadband connection. With features such as an ADSL Quick-Start wizard and DHCP

Server, you can be online in no time at all and with a minimum of fuss and configuration, catering for first-time users to the guru requiring advanced features and control over their Internet connection and network.

Features

Express Internet Access

The router complies with ADSL worldwide standards. It supports downstream rate up to 12/24

Mbps with ADSL2/2+, 8Mbps with ADSL. Users enjoy not only high-speed ADSL services but also broadband multimedia applications such as interactive gaming, video streaming and real-time audio much easier and faster than ever. It is compliant with Multi-Mode standard (ANSI T1.413,

Issue 2; G.dmt (ITU G.992.1); G.lite (ITU G.992.2); G.hs (ITU G994.1); G.dmt.bis (ITU G.992.3);

G.dmt.bis.plus (ITU G.992.5)).

3G

With 3G-based Internet connection (requires an additional 3G USB modem), user can access internet through 3G - whether you're seated at your desk or taking a cross-country train trip.

EWAN

Besides using 3G/ADSL to get connected to the Internet, the router offers its Ethernet port 1 as a

WAN port to be used to connect to Cable Modems and fiber optic lines. This alternative, yet faster method to connect to the internet will provide users more flexibility to get online.

Dual WAN

Dual WAN is a new way of getting connected to the internet which is to use each two of the

3G/ADSL/EWAN to deal with the unexpected case and balance traffic load. That is a way of improving greatly the robustness.

802.11g Wireless AP with WPA Support (Wireless Router only)

With integrated 802.11g Wireless Access Point in the router, the device offers a quick and easy access among wired network, wireless network and broadband connection (ADSL) with single device simplicity, and as a result, mobility to the users. In addition to 54 Mbps 802.11g data rate, it also interoperates backward with existing 802.11b equipment. The Wi-Fi Protected Access

(WPA-PSK and WPA2-PSK) and Wired Equivalent Privacy (WEP) supported features enhance the security level of data protection and access control via Wireless LAN.

Fast Ethernet Switch

A 4-port 10/100Mbps fast Ethernet switch is built in with automatic switching between MDI and

MDI-X for 10Base-T and 100Base-TX ports. An Ethernet straight or crossover cable can be used directly for auto detection.

1

Multi-Protocol to Establish a Connection

It supports PPPoA (RFC 2364 - PPP over ATM Adaptation Layer 5), RFC 1483 encapsulation overATM (bridged or routed), PPP over Ethernet (RFC 2516), and IPoA (RFC1577) to establish a connection with the ISP. The product also supports VC-based and LLC-based multiplexing.

Quick Installation Wizard

It supports a WEB GUI page to install this device quickly. With this wizard, end users can enter the information easily which they get from their ISP, then surf the Internet immediately.

Universal Plug and Play (UPnP) and UPnP NAT Traversal

This protocol is used to enable simple and robust connectivity among stand-alone devices and

PCs from many different vendors. It makes network simple and affordable for users. UPnP architecture leverages TCP/IP and the Web to enable seamless proximity networking in addition to control and data transfer among networked devices. With this feature enabled, users can now connect to Net meeting or MSN Messenger seamlessly.

Network Address Translation (NAT)

Allows multi-users to access outside resources such as the Internet simultaneously with one IP address/one Internet access account. Many application layer gateway (ALG) are supported such as web browser, ICQ, FTP, Telnet, E-mail, News, Net2phone, Ping, NetMeeting, IP phone and others.

SOHO Firewall Security with DoS and SPI

Along with the built-in NAT natural firewall feature, the router also provides advanced hacker pattern-filtering protection. It can automatically detect and block Denial of Service (DoS) attacks.

The router is built with Stateful Packet Inspection (SPI) to determine if a data packet is allowed through the firewall to the private LAN.

Domain Name System (DNS) Relay

It provides an easy way to map the domain name (a friendly name for users such as www.yahoo. com) and IP address. When a local machine sets its DNS server with this router’s IP address, every DNS conversion request packet from the PC to this router will be forwarded to the real DNS in the outside network.

Dynamic Domain Name System (DDNS)

The Dynamic DNS service allows you to alias a dynamic IP address to a static hostname. This dynamic IP address is the WAN IP address. For example, to use the service, you must first apply for an account from a DDNS service like http://www.dyndns.org/. More than 5 DDNS servers are supported

Quality of Service (QoS)

QoS gives you full control over which types of outgoing data traffic should be given priority by the router, ensuring important data like gaming packets, customer information, or management information move through the router ay lightning speed, even under heavy load. The QoS features are configurable by source IP address, destination IP address, protocol, and port. You can throttle the speed at which different types of outgoing data pass through the router, to ensure P2P users don’t saturate upload bandwidth, or office browsing doesn’t bring client web serving to a halt. In addition, or alternatively, you can simply change the priority of different types of upload data and let the router sort out the actual speeds.

2

Virtual Server (“port forwarding”)

Users can specify some services to be visible from outside users. The router can detect incoming service requests and forward either a single port or a range of ports to the specific local computer to handle it. For example, a user can assign a PC in the LAN acting as a WEB server inside and expose it to the outside network. Outside users can browse inside web servers directly while it is protected by NAT. A DMZ host setting is also provided to a local computer exposed to the outside network, Internet.

Rich Packet Filtering

Not only filters the packet based on IP address, but also based on Port numbers. It will filter packets from and to the Internet, and also provides a higher level of security control.

Dynamic Host Configuration Protocol (DHCP) Client and Server

In the WAN site, the DHCP client can get an IP address from the Internet Service Provider (ISP) automatically. In the LAN site, the DHCP server can allocate a range of client IP addresses and distribute them including IP address, subnet mask as well as DNS IP address to local computers. It provides an easy way to manage the local IP network.

Static and RIP1/2 Routing

It has routing capability and supports easy static routing table or RIP1/2 routing protocol.

Simple Network Management Protocol (SNMP)

It is an easy way to remotely manage the router via SNMP.

Web based GUI

It supports web based GUI for configuration and management. It is user-friendly and comes with on-line help. It also supports remote management capability for remote users to configure and manage this product.

Firmware Upgradeable

Device can be upgraded to the latest firmware through the WEB based GUI.

Rich Management Interfaces

It supports flexible management interfaces with local console port, LAN port, and WAN port. Users can use terminal applications through the console port to configure and manage the device, or

Telnet, WEB GUI, and SNMP through LAN or WAN ports to configure and manage the device.

Virtual Private Network (VPN) (BiPAC 7404V(G)OX only)

It allows user to make a tunnel with a remote site directly to secure the data transmission among the connection. User can use embedded PPTP and L2TP client/server, IKE and IPSec which are supported by this router to make a VPN connection or users can run the PPTP client in PC and the router already provides IPSec and PPTP pass through function to establish a VPN connection if the user likes to run the PPTP client in his local computer.

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Chapter 2: Installing the Router

Important note for using this router

Package Contents

3G/VoIP/(802.11g) ADSL2+ (VPN) Firewall Router

CD-ROM containing the online manual

RJ-11 ADSL/telephone Cable

Ethernet (CAT-5) Cable

Console kit

Power adapter

A detachable antenna

Quick Start Guide

4

The Front LEDs

2

5

6

7

1

3

4

8

9

LED

Power

Ethernet Port

1X - 4X

(RJ-45 connector)

Meaning

Both red and green LEDs lit together when power is ON.

Lit red means system failure. Restart the device or contact support.

Lit green when the device is ready.

Lit when one of LAN ports is connected to an Ethernet device.

Lit green when the speed of transmission hits 100Mbps; Lit orange when the speed of transmission hits 10Mbps.

Blink when data is being Transmitted / Received.

USB

Wireless

Lit when the router is connected to a USB device.

Flash when data is received / transmitted.

Lit green when a wireless connection is established.

Flash when the device is sending/receiving data.

Flash once per second while Wi-Fi protected setup is in progress.

Lit green when phone is off hook.

Phone 1x-2x

(RJ-11 connector)

Line

(Router with LINE port only)

VoIP 1x-2x

(RJ-11 connector)

Lit when the inbound and outbound calls are transmitted through

PSTN.

Lit green when phone 1 has registered successfully.

Lit orange when phone 2 has registered successfully.

If both phone 1 & 2 have succeeded in registration, both green and orange LEDs will lit together.

DSL

Internet

Lit Green when the device is successfully connected to an ADSL

DSLAM. (“line sync”).

Lit red when WAN port fails to get IP address.

Lit green when WAN port gets IP address successfully.

Lit off when the device is in bridge mode or when WAN connection is absent.

5

The Rear Ports

Port Meaning

1

2

Antenna

(Wireless Router only)

DSL

3

Line

(Router with LINE port only)

Phone

4

1X-2X (RJ-11 connector)

5 USB

Ethernet

6

1X - 4X

(RJ-45 connector)

7 WPS

Connect the detachable antenna to this port.

Connect this port to the ADSL/telephone network with the RJ-

11 cable (telephone) provided.

Connect this port to the telephone jack on the wall with RJ-11 cable.

Connect this port to an analog phone set with RJ-11 cable.

Connect the USB cable to this port.

Connect a UTP Ethernet cable (Cat-5 or Cat-5e) to one of the LAN ports when connecting to a PC or an office/home network of 10Mbps or 100Mbps.

Caution: Port 4 can be either a LAN or Console port at a time but not both.

Push WPS button for less than 5 sec to trigger Wi-Fi Protected

Setup function; push WPS button for more than 5 sec to enable/disable WLAN Service.

8 RESET

9 Power

10 Power Switch

To be sure the device is being turned on press RESET button for:

1-3 seconds: quick reset the device.

6 seconds and above, power off, power on the device: restore to factory default settings. (Cannot login to the router or forgot your Username/Password. Press the button for more than 6 seconds).

Caution: After pressing the RESET button for more than

6 seconds, to be sure you power cycle the device again.

Connect it with the supplied power adapter.

Power ON/OFF switch

6

Cabling

One of the most common causes of problem is bad cabling or ADSL line(s). Make sure that all connected devices are turned on. On the front panel of your router is a bank of LEDs. Verify that the

LAN Link and ADSL line LEDs are lit. If they are not, verify if you are using the proper cables.

Make sure that all devices (e.g. telephones, fax machines, analogue modems) connected to the same telephone line as your router have a line filter connected between them and the wall outlet (unless you are using a Central Splitter or Central Filter installed by a qualified and licensed electrician), and that all line filters are correctly installed in a right way. If line filter is not installed and connected properly, it may cause problem to your ADSL connection or may result in frequent disconnections.

7

Chapter 3: Basic Installation

The router can be configured through your web browser. A web browser is included as a standard application in the following operating systems: Linux, Mac OS, Windows 7/

98/NT/2000/XP/Me/Vista, etc. The product provides an easy and user-friendly interface for configuration.

Please check your PC network components. The TCP/IP protocol stack and Ethernet network adapter must be installed. If not, please refer to your Windows-related or other operating system manuals.

There are ways to connect the router, either through an external repeater hub or connect directly to your PCs. However, make sure that your PCs have an Ethernet interface installed properly prior to connecting the router device. You ought to configure your PCs to obtain an IP address through a DHCP server or a fixed IP address that must be in the same subnet as the router. The default IP address of the router is 192.168.1.254 and the subnet mask is 255.255.255.0 (i.e. any attached PC must be in the same subnet, and have an IP address in the range of 192.168.1.1 to 192.168.1.253).

The best and easiest way is to configure the PC to get an IP address automatically from the router using DHCP. If you encounter any problem accessing the router web interface it is advisable to uninstall your firewall program on your PCs, as they can cause problems accessing the IP address of the router. Users should make their own decisions on what is best to protect their network.

Please follow the following steps to configure your PC network environment.

8

Connecting Your Router

1. Connect this router to a LAN (Local Area Network) and the ADSL/telephone (ADSL) network.

2. Power on the device.

3. Make sure the Power LED lit steadily and that the LAN LED is lit.

4. Connect your router to the telephone jack on the wall with RJ-11 cable.

5. Connect the USB 2.0 cable.

9

Network Configuration

Configuring PC in windows 7

1. Go to Start. Click on Control Panel.

Then click on Network and Internet.

2. When the Network and Sharing Center window pops up, select and click on

Change adapter settings on the left window panel.

3. Select the Local Area Connection, and right click the icon to select Properties.

10

4. Select Internet Protocol Version 4

(TCP/IPv4) then click Properties.

5. In the TCP/IPv4 properties window, select the Obtain an IP address automatically and Obtain DNS Server address automatically radio buttons. Then click OK to exit the setting.

6. Click OK again in the Local Area Connection

Properties window to apply the new configuration.

11

Configuring PC in Windows Vista

1. Go to Start. Click on Network.

2. Then click on Network and Sharing

Center at the top bar.

3. When the Network and Sharing

Center window pops up, select and click on Manage network connections on the left window column.

4. Select the Local Area Connection, and right click the icon to select

Properties.

12

5. Select Internet Protocol Version 4

(TCP/IPv4) then click Properties.

6. In the TCP/IPv4 properties window, select the Obtain an IP address automatically and Obtain DNS

Server address automatically radio buttons. Then click OK to exit the setting.

7. Click OK again in the Local Area

Connection Properties window to apply the new configuration.

13

Configuring PC in Windows XP

1. Go to Start > Control Panel (in Classic

View). In the Control Panel, double-click on Network Connections.

2. Double-click Local Area Connection.

3. In the Local Area Connection Status window, click Properties.

4. Select Internet Protocol (TCP/IP) and click Properties.

5. Select the Obtain an IP address automatically and the Obtain DNS server address automatically radio buttons.

6. Click OK to finish the configuration.

14

Configuring PC in Windows 2000

1. Go to Start > Settings > Control Panel.

In the Control Panel, double-click on

Network and Dial-up Connections.

2. Double-click Local Area Connection.

3. In the Local Area Connection Status window click Properties.

4. Select Internet Protocol (TCP/IP) and click Properties.

5. Select the Obtain an IP address automatically and the Obtain DNS server address automatically radio buttons.

6. Click OK to finish the configuration.

15

Configuring PC in Windows 95/98/Me

1. Go to Start > Settings > Control Panel.

In the Control Panel, double-click on

Network and choose the Configuration tab.

2. Select TCP/IP > NE2000 Compatible, or the name of your Network Interface

Card (NIC) in your PC.

3. Select the Obtain an IP address automatically radio button.

4. Then select the DNS Configuration tab.

5. Select the Disable DNS radio button and click OK to finish the configuration.

16

Configuring PC in Windows NT4.0

1. Go to Start > Settings > Control Panel.

In the Control Panel, double-click on

Network and choose the Protocols tab.

2. Select TCP/IP Protocol and click

Properties.

3. Select the Obtain an IP address from a DHCP server radio button and click

OK.

17

Factory Default Settings

Before configuring your router, you need to know the following default settings.

Web Interface (Username and Password)

Username: admin

Password: admin

The default username and password are “admin” and “admin” respectively.

Device LAN IP settings

IP Address: 192.168.1.254

Subnet Mask: 255.255.255.0

ISP setting in WAN site

PPPoE

DHCP server

DHCP server is enabled.

Start IP Address: 192.168.1.100

IP pool counts: 100

LAN and WAN Port Addresses

The parameters of LAN and WAN ports are pre-set in the factory. The default values are shown in the table.

IP address

Subnet Mask

DHCP server function

IP addresses for distribution to PCs

LAN Port

192.168.1.254

255.255.255.0

Enabled

100 IP addresses continuing from 192.168.1.100 through

192.168.1.199

WAN Port

The PPPoE function is enabled to automatically get the WAN port configuration from the ISP.

18

Information from your ISP

Before configuring this device, you have to check with your ISP (Internet Service Provider) to find out what kind of service is provided such as DHCP (Obtain an IP Address Automatically, Static IP

(Fixed IP Address) or PPPoE.

Gather the information as illustrated in the following table and keep it for reference.

PPPoE(RFC2516)

VPI/VCI, VC / LLC-based multiplexing, Username, Password, Service

Name, and Domain Name System (DNS) IP address (it can be automatically assigned by your ISP when you connect or be set manually).

PPPoA(RFC2364)

VPI/VCI, VC / LLC-based multiplexing, Username, Password and

Domain Name System (DNS) IP address (it can be automatically assigned by your ISP when you connect or be set manually).

MPoA(RFC1483/

RFC2684)

IPoA(RFC1577)

Pure Bridge

VPI/VCI, VC / LLC-based multiplexing, IP address, Subnet mask,

Gateway address, and Domain Name System (DNS) IP address (it is a fixed IP address).

VPI/VCI, VC / LLC-based multiplexing, IP address, Subnet mask,

Gateway address, and Domain Name System (DNS) IP address (it is a fixed IP address).

VPI/VCI, VC / LLC-based multiplexing to use Bridged Mode.

19

Configuring with your Web Browser

Open your web browser, enter the IP address of your router, which by default is 192.168.1.254, and click “Go”, a user name and password window prompt will appear. The default username and password are “admin” and “admin” respectively. (See Figure 3.14)

Figure 3.14: User name & Password Prompt Window

Congratulations! You are now successfully logon to the 3G/VoIP/(802.11g) ADSL2+ (VPN)

Firewall Router!

20

Chapter 4: Configuration

At the configuration homepage, the left navigation column provides you the link to each configuration page. The category of each configuration page is listed as below.

Status

ADSL Table

3G Status

EWAN Status iBurst Status

ARP Table

DHCP Table

Routing Table

NAT Sessions

UPnP Portmap

PPTP Status

IPSec Status

L2TP Status

VoIP Status

VoIP Call Log

Event Log

Error Log

IDS Log

Diagnostic

Quick Start

LAN

Configuration

WAN

System

Firewall

VPN

VoIP

QoS

Virtual Server

Wake on LAN

Time Schedule

Advanced

Language (provides user interface in English and French languages)

22

Status

ADSL Status

This section displays the ADSL overall status, which shows a number of helpful information such as DSP firmware version.

23

3G Status

This section displays the 3G Card’s overall status, which shows you a number of helpful information such as the current signal strength and statistics on current and total bytes transferred and received.

Status: The current status of the 3G card.

Signal Strength: The signal strength bar indicates current 3G signal strength.

Network Name: The network name that the device is connected to.

Card Name: The name of the 3G card.

Card Firmware: The current firmware for the 3G card.

Card IMEI: the IMEI (International Mobile Equipment Identity) of the 3G card.

Current TX Bytes / Packets: The statistics of transmission, count for this call.

Current RX Bytes / Packets: The statistics of receive, count for this call.

Total TX Bytes / Packets: The statistics of transmission, count from system ready

Total RX Bytes / Packets: The statistics of receive, count from system ready

Current Connection Time: The duration for the current connection.

Total Connection Time: The cumulative connection time.

24

Amount used: Show the traffic or hours has been used.

Billing period: The day from which the fee is charged.

Note: Only after you have checked to enable Usage Allowance , the following information will be shown.

EWAN Status

Besides using 3G/ADSL to get connected to the Internet, the router offers its Ethernet port 1 as a

WAN port to be used to connect to Cable Modems and fiber optic lines. This alternative, yet faster method to connect to the internet will provide users more flexibility to get online.

Total TX Bytes / Packets: The statistics of total data transmission in bytes / packets since system ready.

Total RX Bytes / Packets: The statistics of total data received in bytes / packets since system ready.

25

iBurst Status

Displays additional information of the 3G status when iBurst function is enabled in the 3G configuration such as its signal strength, card name, connection status and port class Ethernet.

ARP Table

This section displays the router’s ARP (Address Resolution Protocol) Table, which shows the mapping of Internet (IP) addresses to Ethernet (MAC) addresses. This is useful as a quick way of determining the MAC address of the network interface of your PCs to use with the router’s Firewall

– MAC Address Filter function. See the Firewall section of this manual for more information on this feature.

IP Address: A list of IP addresses of devices on your LAN (Local Area Network).

MAC Address: The MAC (Media Access Control) addresses for each device on your LAN.

Interface: The interface name (on the router) that this IP Address connects to.

Static: Static status of the ARP table entry:

no” for dynamically-generated ARP table entries.

yes” for static ARP table entries added by the user.

26

DHCP Table

Leased: The DHCP assigned IP addresses information.

Expired: The expired IP addresses information.

Permanent: The fixed host mapping information.

Leased Table

IP Address: The IP address that assigned to client.

MAC Address: The MAC address of client.

Client Host Name: The Host Name (Computer Name) of client.

Expiry: The current lease time of client.

27

Routing Table

Routing Table

Valid: It indicates a successful routing status.

Destination: The IP address of the destination network.

Netmask: The destination Netmask address.

Gateway/Interface: The IP address of the gateway or existing interface that this route will use.

Cost: The number of hops counted as the cost of the route.

RIP Routing Table

Destination: The IP address of the destination network.

Netmask: The destination Netmask address.

Gateway: The IP address of the gateway that this route will use.

Cost: The number of hops counted as the cost of the route.

28

NAT Sessions

This section lists all current NAT sessions between interface of types external (WAN) and internal

(LAN).

UPnP Portmap

The section lists all port-mapping established using UPnP (Universal Plug and Play. See Advanced section of this manual for more details on UPnP and the router’s UPnP configuration options.

29

PPTP Status

This shows details of your configured PPTP VPN Connections.

Name: The name you assigned to the particular PPTP connection in your VPN configuration.

Type: The type of connection (dial-in/dial-out). Enable:

Whether the connection is currently enabled. Active:

Whether the connection is currently active.

Tunnel Connected: Whether the VPN Tunnel is currently connected.

Call Connected: If the Call for this VPN entry is currently connected.

Encryption: The encryption type used for this VPN connection.

30

IPSec Status

This shows details of your configured IPSec VPN Connections.

Name: The name you assigned to the particular VPN entry.

Active: Whether the VPN Connection is currently Active.

Connection State: Whether the VPN is Connected or Disconnected.

Statistics: Statistics for this VPN Connection.

Local Subnet: The local IP Address or Subnet used.

Remote Subnet: The Subnet of the remote site.

Remote Gateway: The Remote Gateway IP address.

SA: The Security Association for this VPN entry.

L2TP Status

This shows details of your configured L2TP VPN Connections.

Name: The name you assigned to the particular L2TP connection in your VPN configuration.

Type: The type of connection (dial-in/dial-out).

Enable: Whether the connection is currently enabled.

Active: Whether the connection is currently active.

Tunnel Connected: Whether the VPN Tunnel is currently connected.

Call Connected: If the Call for this VPN entry is currently connected.

Encryption: The encryption type used for this VPN connection.

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VoIP Status

This table shows the status of the phone ports after they are being used for the VoIP feature. It will display some information such as domain name, display name & phone number of the VoIP device.

VoIP Call Log

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Event Log

This page displays the router’s Event Log entries. Major events are logged to this window, such as when the router’s ADSL connection is disconnected, as well as Firewall events when you have enabled Intrusion or Blocking Logging in the Configuration – Firewall section of the interface.

Please see the Firewall section of this manual for more details on how to enable Firewall logging.

Click Refresh button to get the latest event log information.

Click Clear button to clear the log information.

Click Save button to backup the event log information to your computer. Click Save button, you will enter page as follows to save the backup to your computer.

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Error Log

Any errors encountered by the router (e.g. invalid names given to entries) are logged to this window.

IDS Log

Any records about hacker attacks and intrusion attempts from the Internet are logged to this window.

Diagnostic

It tests the connection to computer(s) which is connected to the LAN ports and also the WAN Internet connection. If PING www.google.com is shown FAIL and the rest is PASS, you ought to check your

PC’s DNS setting is correct.

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Quick Start

1. Click Quick Start. Select the connect mode you want. There are 2 options to choose from: ADSL or 3G. Select ADSL mode from the drop down menu and click Continue.

2. If your ADSL line is not ready, you need to check your ADSL line has been set or not.

3. If your ADSL line is ready, the screen appears ADSL Line is Ready. Choose Auto radio button and click Apply. It will automatically scan the recommended mode for you. Manually mode makes you to set the ADSL line by manual. (If you choose Manually, you will directly go to step

5.)

4. The list below has different mode applied for your choice. Choose 0/33/PPPoE (Recommended) and click Apply.

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5. Please enter “Username” and “Password” as supplied by your ISP (Internet Service Provider) and click Apply to continue.

Profile Port: Select the connection mode. There is ADSL.

Protocol: Select the protocol mode. The default mode is PPPoE.

VPI/VCI: Enter the VPI and VCI information provided by your ISP.

Username: Enter the username provided by your ISP.

Password: Enter the password provided by your ISP.

Service Name: This item is for identification purposes. If it is required, your ISP provides you the information.

Authentication Protocol: Default is Auto. Your ISP advises on using Chap or Pap.

MTU: Maximum Transmission Unit. The size of the largest datagram (excluding media-specific headers) that IP will attempt to send through the interface.

IP Address: Your WAN IP address. Leave this at 0.0.0.0 to obtain automatically an IP address from your ISP.

Obtain DNS automatically: Click to activate DNS and to enable the system to automatically detect DNS.

Primary DNS / Secondary DNS: Enter the IP addresses of the DNS servers. The DNS servers are passed to the DHCP clients along with the IP address and the netmask.

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6. Configure the Wireless LAN setting.

WLAN Service: Default setting is set to Enable. If you want to use wireless, both 802.11g and

802.11b device in your network, you can select Enable.

ESSID: The ESSID is the unique name of a wireless access point (AP) to be distinguished from another. For security propose, change to a unique ID name to the AP which is already built-in to the router’s wireless interface. It is case sensitive and must not excess 32 characters. Make sure your wireless clients have exactly the ESSID as the device, in order to get connected to your network.

ESSID Broadcast: It is function in which transmits its ESSID to the air so that when wireless client searches for a network, router can then be discovered and recognized. Default setting is Enable.

Enable: When Enable is selected, you can allow anybody with a wireless client to be able to locate the Access Point (AP) of your router.

Disable: Select Disable if you do not want broadcast your ESSID. When select Disable, no one will be able to locate the Access Point (AP) of your router.

Regulation Domain: There are seven Regulation Domains for you to choose from, including

North America (N.America), Europe, France, etc. The Channel ID will be different based on this setting.

Channel ID: Select the ID channel that you would like to use.

Security Mode: You can disable or enable with WPA or WEP for protecting wireless network. The default mode of wireless security is Disable.

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7. Set up VoIP.

SIP: To use VoIP SIP as VoIP call signaling protocol. Default is set to Disable.

Region: This selection is a drop-down box, which allows user to select the country for which the

VoIP device must work. When a country is selected, the country parameters are automatically loaded.

SIP Service Provider: This section allows you to select the service provider. When the selection is done, respective parameters below are automatically displayed.

Phone Number: This parameter holds the registration ID of the user within the VoIP SIP registrar.

Username: If the username is same as the Phone Number, leave it blank. Otherwise, fill in the space with your username given by your VoIP provider.

Password: This parameter holds the password used for authentication within VoIP SIP registrar.

Display Name: This parameter will be appeared on the Caller ID.

Registrar Address (or Hostname): Indicate the VoIP SIP registrar IP address.

User Domain/Realm: Set a different domain name for the VoIP SIP proxy server.

Outbound Proxy Address: Indicate the VoIP SIP outbound proxy server IP address. This parameter is very useful when VoIP device is behind a NAT.

8. Wait for the configuration.

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9. When ADSL is synchronic, it will appear “check”.

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Configuration

When you click this item, the column will expand to display the sub-items that will allow you to further configure your ADSL router.

LAN, WAN, System, Firewall, VPN, VoIP, QoS, Virtual Server, Wake on LAN, Time Schedule and Advanced

The function of each configuration sub-item is described in the following sections.

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LAN - Local Area Network

Here are the items within the LAN section: Bridge Interface, Ethernet, IP Alias, Ethernet Client

Filter, Wireless, Wireless Security, Wireless Client Filter, WPS, Port Setting and DHCP

Server.

Bridge Interface

You can setup member ports for each VLAN group under Bridge Interface section. From the example, two VLAN groups need to be created.

Ethernet: P1 (Port 1)

Ethernet1: P2, P3 and P4 (Port 2, 3, 4). Uncheck P2, P3, P4 from Ethernet VLAN port first.

Note: You should setup each VLAN group with caution. Each Bridge Interface is arranged in this order.

Bridge Interface VLAN Port (Always starts with) ethernet ethernet1 ethernet2

P1 / P2 / P3 / P4

P2 / P3 / P4

P3 / P4 ethernet3 P4

Management Interface: To specify which VLAN group has possibility to do device management, like doing web management.

Note: NAT/NAPT can be applied to management interface only.

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Ethernet

Primary IP Address

IP Address: The default IP on this router.

Subnet Mask: The default subnet mask on this router.

RIP: RIP v1, RIP v2, and RIP v2 Multicast. Check to enable RIP function.

IP Alias

This function creates multiple virtual IP interfaces on this router. It helps to connect two or more local networks to the ISP or remote node. In this case, an internal router is not required.

IP Address: Specify an IP address on this virtual interface.

SubNetmask: Specify a subnet mask on this virtual interface .

Security Interface: Specify the firewall setting on this virtual interface.

Internal: The network is behind NAT. All traffic will do network address translation when sending out to Internet if NAT is enabled.

External: There is no NAT on this IP interface and connected to the Internet directly. Mostly it will be used when providing multiple public IP addresses by ISP. In this case, you can use public IP address in local network which gateway IP address point to the IP address on this interface.

DMZ: Specify this network to DMZ area. There is no NAT on this interface.

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IPv6 Autoconfig

The IPv6 address composes of two parts, thus, the prefix and the interface ID.

BiPAC 7404VGO(P)X dynamically configure IPv6 address on host with Stateless autoconfiguration mode.

Stateless auto-configuration requires no manual configuration of hosts, minimal (if any) configuration of routers, and no additional servers. The stateless mechanism allows a host to generate its own addresses using a combination of locally available information (MAC address) and information(prefix) advertised by routers. Routers advertise prefixes that identify the subnet(s) associated with a link, while hosts generate an "interface identifier" that uniquely identifies an interface on a subnet. An address is formed by combining the two. When using stateless configuration, you needn’t configure anything on the client.

Link Local Address: the Link local address for this device.

Dynamic IPv6 Address: this field displays the dynamic obtained IPv6 address if you haven’t set static IPv6 address.

Interface Address/Prefix length: enter the static LAN IPv6 address.

Issue Router Advertisements: check whether to enable issue Router Advertisement feature. It is to send Router Advertisement messages periodically.

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Ethernet Client Filter

The Ethernet Client Filter supports up to 16 Ethernet network machines that helps you to manage your network control to accept traffic from specific authorized machines or can restrict unwanted machine(s) to access your LAN.

There are no pre-define Ethernet MAC address filter rules; you can add the filter rules to meet your requirements.

Ethernet Client Filter: Default setting is set Disable.

Allowed: check to authorize specific device accessing your LAN by insert the MAC

Address in the space provided or click the Candidate button. Make sure your PC’s MAC is listed.

Blocked: check to prevent unwanted device accessing your LAN by insert the MAC

Address in the space provided or click the Candidate button. Make sure your PC’s MAC is not listed.

The maximum client is 16.The MAC addresses are 6 bytes long; they are presented only in hexadecimal characters. The number 0 - 9 and letters a - f are acceptable.

Note: Follow the MAC Address Format xx:xx:xx:xx:xx:xx. Semicolon (:) must be included.

Candidates: automatically detects devices connected to the router through the Ethernet.

Click the Candidate button to access the Active PC in LAN window.

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Active PC in LAN: Active PC in LAN displays a list of individual Ethernet device’s IP Address

&MAC Address which connecting to the router.

You can easily by checking the box next to the IP address to be blocked or allowed. Then, Add to insert to the Ethernet Client Filter table. The maximum Ethernet client is 16.

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Wireless

Parameters

WLAN Service: Choose Disabled/Enable/TimeSlot from the drop-down list.

Mode: The default setting is 802.11b+g (Mixed mode). If you do not know or have both 11g and

11b devices in your network, then keep the default in mixed mode. From the drop-down manual, you can select 802.11g if you have only 11g card. If you have only 11b card, then select 802.11b.

ESSID: The ESSID is the unique name of a wireless access point (AP) to be distinguished from another. For security purpose, change the default wlan-ap to a unique ID name to the AP already built-in to the router’s wireless interface. It is case sensitive and must not excess 32 characters.

Make sure your wireless clients have exactly the ESSID as the device, in order to get connected to your network.

Note: It is case sensitive and must not excess 32 characters.

ESSID Broadcast: It is function in which transmits its ESSID to the air so that when wireless client searches for a network, router can then be discovered and recognized. Default setting is Enabled.

Disable: If you do not want broadcast your ESSID. Any client uses “any” wireless setting cannot discover the Access Point (AP) of your router.

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Enable: Any client that using the “any” setting can discover the Access Point (AP).

Regulation Domain: There are seven Regulation Domains for you to choose from, including North

America (N.America), Europe, France, etc. The Channel ID will be different based on this setting.

Channel ID: Select the wireless connection ID channel that you would like to use.

Note: Wireless performance may degrade if select ID channel is already being occupied by other AP(s).

TX PowerLevel: It is a function that enhances the wireless transmitting signal strength. User may adjust this power level from minimum 1 up to maximum 127.

Note: The Power Level maybe different in each access network user premises environment and choose the most suitable level for your network.

Connected: Representing in true or false. That it is the connection status between the system and the build-in wireless card.

AP MAC Address: It is a unique hardware address of the Access Point.

AP Firmware Version: The Access Point firmware version.

WMM: This feature works concurrently with QoS that enables the system to prioritize the flow of data packets according to 4 categories: Voice, Video, Best Efforts and Background.

Enable: Click to activate WMM feature.

Disable: Click to deactivate WMM feature

Wireless Distribution System (WDS)

It is a wireless access point mode that enables wireless link and communication with other access point. It is easy to be installed simply to define peer’s MAC address of the connected AP. WDS takes advantages of cost saving and flexibility which no extra wireless client device is required to bridge between two access points and extending an existing wired or wireless infrastructure network to create a larger network. It can connect up to 4 wireless APs for extending cover range at the same time.

In addition, WDS enhances its link connection security in WEP mode, WEP key encryption must be the same for both access points.

WDS Service: The default setting is Disabled. Check Enable radio button to activate this function.

1. Peer WDS MAC Address: It is the associated AP’s MAC Address. It is important that your peer’s AP must include your MAC address in order to acknowledge and communicate with each other.

2. Peer WDS MAC Address: It is the second associated AP’s MAC Address.

3. Peer WDS MAC Address: It is the third associated AP’s MAC Address.

4. Peer WDS MAC Address: It is the fourth associated AP’s MAC Address.

Note: For MAC Address, Semicolon ( : ) must be included.

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Wireless Security

You can disable or enable with WPA or WEP for protecting wireless network.

The default mode of wireless security is disabled.

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WPA-PSK / WPA2-PSK

Security Mode: You can disable or enable with WPA or WEP for protecting wireless network. The default mode of wireless security is Disable.

WPA Algorithms: There are two types of the WPA-PSK, WPA-PSK and WPA2-PSK. The WPA-

PSK adapts the TKIP (Temporal Key Integrity Protocol) encrypted algorithms, which incorporates

Message Integrity Code (MIC) to provide protection against hackers. The WPA2-PSK adapts

CCMP (Cipher Block Chaining Message Authentication Code Protocol) of the AES (Advanced

Encryption Security) algorithms.

WPA Shared Key: The key for network authentication. The input format is in character style and key size should be in the range between 8 and 63 characters.

Group Key Renewal: The period of renewal time for changing the security key automatically between wireless client and Access Point (AP). Default value is 600 seconds.

WEP

WEP Authentication: To prevent unauthorized wireless stations from accessing data transmitted over the network, the router offers secure data encryption, known as WEP. If you require high security for transmissions, there are two options to select from: Open System, Share key.

WEP Encryption: To prevent unauthorized wireless stations from accessing data transmitted over the network, the router offers highly secure data encryption, known as WEP. If you require high security for transmissions, there are two alternatives to select from: WEP 64 and WEP 128. WEP

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128 will offer increased security over WEP 64.

Passphrase: This is used to generate WEP keys automatically based upon the input string and a pre-defined algorithm in WEP64 or WEP128.

Default Used WEP Key: Select the encryption key ID; please refer to Key (1~4) below.

Key (1-4): Enter the key to encrypt wireless data. To allow encrypted data transmission, the WEP

Encryption Key values on all wireless stations must be the same as the router. There are four keys for your selection. The input format is in HEX style, 10 and 26 HEX codes are required for WEP64 and WEP128 respectively.

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Wireless Client / MAC Address Filter

The MAC Address supports up to 16 wireless network machines and helps you manage your network control to accept traffic from specific authorized machines or to restrict unwanted machine(s) to access your LAN.

There are no pre-define MAC Address filter rules; you can add the filter rules to meet your requirements.

Wireless Client Filter: Default setting is set to Disable.

Allowed: To authorize specific device accessing your LAN by insert the MAC Address in the space provided or click the Candidate button. Make sure your PC’s MAC is listed.

Blocked: To prevent unwanted device accessing the LAN by insert the MAC Address in the space provided or click the Candidate button. Make sure your PC’s MAC is not listed.

The maximum client is 16. The MAC addresses are 6 bytes long; they are presented only in hexadecimal characters. The number 0 - 9 and letters a - f are acceptable.

Note: Follow the MAC Address Format xx:xx:xx:xx:xx:xx. Semicolon ( : ) must be included.

Candidates: It automatically detects devices connected to the router through the Wireless feature.

Click the Candidate button to access the Associated Wireless Client window.

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Associate Wireless Client: Displays a list of individual wireless device’s MAC Address that currently connects to the router.

You can easily by checking the box next to the MAC address to be blocked or allowed. Then, Add to insert to the Wireless Client (MAC Address) Filter table. The maximum Wireless client is 16.

WPS

WPS feature is follow Wi-Fi Alliance WPS standard and it easily set up security-enabled Wi- Fi networks in the home and small office environment. It is reduced by half the user steps to configure a network and supports two methods that are familiar to most consumers to configure a network and enable security.

Set up of security-enabled Wi-Fi network

Step 1: Note down the AP’s PIN from Web (Ex: 90932489).

Step 2: Open wireless client’s WPS utility (Ex: Atheros Jumpstart WPS utility), select “Configure a wireless network” and apply “next” button.

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Step 3: Enter AP’s PIN into the utility and click on the “next” button.

Step 4: These are two ways to trigger AP as Enrollee role, you can choose one to do it.

Push AP’s WPS button 1 second and release it. Or

In the AP’s WPS configuration page, change Role to “Enrollee” and apply “Start” button.

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Step 5: Jump start WPS utility search WPS AP.

Step 6: SSID and security will be generated automatically (You can change it) and apply

“next” button.

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Step 7: WPS set up complete. And you have set up security-enabled Wi-Fi networks.

Set up of security-enabled Wi-Fi network using WCN in Vista

Step 1: Note down the AP’s PIN from Web (Ex: 90932489).

Step 2: In Vista’s Control Panel, select Network and Internet and choose View network

computers and devices. Double click the “ADSL Firewall Router” icon and enter the AP’s PIN code then click “Next”.

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Step 3: Enter the AP SSID and apply “Next” button.

Step 4: Enter the Passphrase and apply “Next” button.

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Step 5: WCN set up complete. And you have set up security-enabled Wi-Fi networks.

Adding a new WPS device (wireless client) to a network - Use PBC Method

Step 1: Push AP’s WPS button more than one second and you will see AP’s WLAN led will flashing per second.

Step 2: Open wireless client’s WPS utility, select “Join a wireless network” and apply “next” button.

Note: After you push AP’s WPS button, below steps should be completed between 2 minutes.

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Step 3: Select “Push the button on my access point” and apply “next” button.

Step 4: New WPS device have join into the wireless network.

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Adding a new WPS device (wireless client) to a network - Use PIN Method

Step 1: Open wireless client’s WPS utility, select “Join a wireless network” and apply “next” button

Step 2: Note down the wireless client’s PIN (Ex: 41538142) and apply “Start” button for active wireless client WPS PIN method.

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Step 3: Enter wireless client’s PIN into “Enrollee’s PIN” of Web and apply “Start” button.

Step 4: New WPS device have join into the wireless network.

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Port Setting

This section allows you to configure the settings for the router’s Ethernet ports to solve some of the compatibility problems that may be encountered while connecting to the Internet, as well allowing users to tweak the performance of their network.

Port # Connection Type: There are Six options to choose from: Auto, disable, 10M half-duplex,

10M full-duplex, 100M half-duplex, 100M full-duplex and Disable. Sometimes, there are Ethernet compatibility problems with legacy Ethernet devices, and you can configure different types to solve compatibility issues. The default is Auto, which users should keep unless there are specific problems with PCs not being able to access your LAN.

IPv4 TOS priority Control (Advanced users): TOS, Type of Services, is the 2nd octet of an IP packet. Bits 6-7 of this octet are reserved and bit 0-5 are used to specify the priority of the packet.

This feature uses bits 0-5 to classify the packet’s priority. If the packet is high priority, it will flow first and will not be constrained by the Rate Limit. Therefore, when this feature is enabled, the router’s Ethernet switch will check the 2nd octet of each IP packet. If the value in the TOS field matches the checked values in the table (0 to 63), this packet will be treated as high priority.

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DHCP Server

You can disable or enable the DHCP (Dynamic Host Configuration Protocol) server or enable the router’s DHCP relay functions. The DHCP protocol allows your router to dynamically assign IP addresses to PCs on your network if they are configured to obtain IP addresses automatically.

To disable the router’s DHCP Server, check Disabled and click Next, then click Apply. When the

DHCP Server is disabled you will need to manually assign a fixed IP address to each PCs on your network, and set the default gateway for each PCs to the IP address of the router (by default this is

192.168.1.254).

To configure the router’s DHCP Server, check DHCP Server and click Next. You can then configure parameters of the DHCP Server including the IP pool (starting IP address and ending IP address to be allocated to PCs on your network), lease time for each assigned IP address (the period of time the IP address assigned will be valid), DNS IP address and the gateway IP address. These details are sent to the DHCP client (i.e. your PC) when it requests an IP address from the DHCP server.

Click Apply to enable this function. If you check “Use Router as a DNS Server”, the ADSL Router will perform the domain name lookup, find the IP address from the outside network automatically and forward it back to the requesting PC in the LAN (your Local Area Network).

If you check DHCP Relay Agent and click Next, then you will have to enter the IP address of the

DHCP server which will assign an IP address back to the DHCP client in the LAN. Use this function only if advised to do so by your network administrator or ISP.

Click Apply to enable this function.

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WAN - Wide Area Network

WAN refers to your Wide Area Network connection, i.e. your router’s connection to your ISP and the Internet. Here are the items within the WAN section: WAN Interface, WAN Profile and ADSL

Mode.

WAN Interface

ADSL Mode

The default setting for Connection Mode is ADSL and for Protocol is PPPoE.

3G Mode

Choose 3G as main mode represents that user will use 3G to connect to Internet.

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EWAN

EWAN is another way of getting connected to the Internet, the router offers its Ethernet port 1 as a

WAN port to be used to connect to Cable Modems and fiber optic lines. This alternative, yet faster method to connect to the internet will provide users more flexibility to get online. When the above two mode is not valid, the way can be adopted.

Dual WAN

In dual wan mode, it supports failover function. When WAN1 fails, it will switch to WAN2, and when

WAN1 is OK, it will switch to WAN1 again.

Main Port: Select Dual WAN.

Mode Failover: Set to trigger ADSL / 3G failover function ready.

WAN1: Select “ADSL” “EWAN” or “3G” mode for WAN1.

WAN2: Select the left WAN mode for WAN2 as backup port.

Time Schedule: A self defined time period. You may specify a time schedule for failover/failback functioning. For setup and detail, refer to Time Schedule section.

Keep Backup Interface Connected: Select Enable this function, the backup port WAN2 will be connected all the time.

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Connectivity Decision: Set how many times of probing failed to switch backup port.

Failover Probe Cycle: Set the time duration for the Failover Probe Cycle to determine when the router will switch to the backup connection (backup port) once the main connection (main port) fails.

Note: The time set is for each probe cycle, but the decision to change to the backup port is determined by Probe Cycle duration multiplied by connection Decision amount (e.g. From the image above it will be 60 seconds multiplied by 5 consecutive fails).

Failback Probe Cycle: Set the time duration for the Failback Probe Cycle to determine when the router will switch back to the main connection (main port) from the backup connection (backup port) once the main connection is communicating again.

Note: The time set is for each probe cycle, but the decision to change to the backup port is determined by Probe Cycle duration multiplied by Connection Decision amount (e.g. From the image above it will be 60 seconds multiplied by 5 consecutive fails).

Detect Rule:

Rule 1. ADSL Down

Rule 2. Ping Fail

No Ping: It will not send any ping packet to determine the connection. It means to disable the ping fail detection.

Ping Gateway: It will send ping packet to gateway and wait response from gateway in every

“Probe Cycle”.

Ping Host: It will send ping packet to specific host and wait response in every “Probe Cycle”.

The host must be an IP address.

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WAN Profile

ADSL

PPPoE Connection

PPPoE (PPP over Ethernet) provides access control in a manner which is similar to dial-up services using PPP.

Profile Port: Select the profile port as ADSL.

Protocol: The ATM protocol will be used in the device.

Description: A given name for the connection.

VPI/VCI: Enter the information provided by your ISP.

ATM Class: The Quality of Service for ATM layer.

Username: Enter the username provided by your ISP. You can input up to 128 alphanumeric characters (case sensitive). This is in the format of “username@ispname” instead of simply

“username”.

Password: Enter the password provided by your ISP. You can input up to 128 alphanumeric characters (case sensitive).

Service Name: This item is for identification purposes. If it is required, your ISP provides you the information. Maximum input is 15 alphanumeric characters.

NAT: The NAT (Network Address Translation) feature allows multiple users to access the Internet through a single IP account, sharing the single IP address. If users on your LAN have public IP addresses and can access the Internet directly, the NAT function can be disabled.

IP (0.0.0.0:Auto): Your WAN IP address. Leave this at 0.0.0.0 to obtain automatically an IP address from your ISP.

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Auth. Protocol: Default is Auto. Your ISP should advise you on whether to use Chap or Pap.

Connection:

Always on: If you want the router to establish a PPPoA session when starting up and to automatically re-establish the PPPoA session when disconnected by the ISP.

Connect on Demand: If you want to establish a PPPoA session only when there is a packet requesting access to the Internet (i.e. when a program on your computer attempts to access the Internet).

Idle Timeout: Auto-disconnect the broadband firewall gateway when there is no activity on the line for a predetermined period of time.

Detail: You can define the destination port and packet type (TCP/UDP) without checking by timer. It allows you to set which outgoing traffic will not trigger and reset the idle timer.

MTU: Maximum Transmission Unit. The size of the largest datagram (excluding media-specific headers) that IP will attempt to send through the interface.

RIP: RIP v1, RIP v2, and RIP v2 Multicast. Check to enable RIP function.

TCP MSS Clamp: This option helps to discover the optimal MTU size automatically. Default is enabled.

MAC Spoofing: Some service providers require the configuring of this option. You must fill in the

MAC address that specified by service provider when it is required. Default is disabled.

Obtain DNS: A Domain Name System (DNS) contains a mapping table for domain name and IP addresses. DNS helps to find the IP address for the specific domain name. Check the checkbox to obtain DNS automatically.

Primary DNS: Enter the primary DNS.

Secondary DNS: Enter the secondary DNS.

Default Route: Check to enable default route.

IPv6: check to enable IPv6 service. If enabled, please set the IPv6 Address, Ipv6 DNS, similar as

IPv4.

IPv6 Address: type the IPv6 address from your ISP, or get it automatically. ” ::” means to obtain

IPv6 address automatically.

Obtain IPv6 DNS: check Automatic to obtain DNS automatically. If not, please type the concrete ones in the Primary and secondary fields.

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PPPoA Connection

Profile Port: Select the profile port as ADSL.

Protocol: The ATM protocol will be used in the device.

Description: A given name for the connection.

VPI/VCI: Enter the information provided by your ISP.

ATM Class: The Quality of Service for ATM layer.

Username: Enter the username provided by your ISP. You can input up to 128 alphanumeric characters (case sensitive). This is in the format of “username@ispname” instead of simply

“username”.

Password: Enter the password provided by your ISP. You can input up to 128 alphanumeric characters (case sensitive).

NAT: The NAT (Network Address Translation) feature allows multiple users to access the Internet through a single IP account, sharing the single IP address. If users on your LAN have public IP addresses and can access the Internet directly, the NAT function can be disabled.

IP (0.0.0.0: Auto): Your WAN IP address. Leave this at 0.0.0.0 to obtain automatically an IP address from your ISP.

Auth. Protocol: Default is Auto. Your ISP should advise you on whether to use Chap or Pap.

Connection:

Always on: If you want the router to establish a PPPoA session when starting up and to automatically re-establish the PPPoA session when disconnected by the ISP.

Connect on Demand: If you want to establish a PPPoA session only when there is a packet requesting access to the Internet (i.e. when a program on your computer attempts to access the Internet).

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Idle Timeout: Auto-disconnect the broadband firewall gateway when there is no activity on the line for a predetermined period of time.

Detail: You can define the destination port and packet type (TCP/UDP) without checking by timer. It allows you to set which outgoing traffic will not trigger and reset the idle timer.

MTU: Maximum Transmission Unit. The size of the largest datagram (excluding media-specific headers) that IP will attempt to send through the interface.

RIP: RIP v1, RIP v2, and RIP v2 Multicast. Check to enable RIP function.

TCP MSS Clamp: This option helps to discover the optimal MTU size automatically. Default is enabled.

Obtain DNS: A Domain Name System (DNS) contains a mapping table for domain name and IP addresses. DNS helps to find the IP address for the specific domain name. Check the checkbox to obtain DNS automatically.

Primary DNS: Enter the primary DNS.

Secondary DNS: Enter the secondary DNS.

Default Route: Check to enable default route.

IPv6: check to enable IPv6 service. If enabled, please set the IPv6 Address, Ipv6 DNS, similar as

IPv4.

IPv6 Address: type the IPv6 address from your ISP, or get it automatically. ” ::” means to obtain

IPv6 address automatically.

Obtain IPv6 DNS: check Automatic to obtain DNS automatically. If not, please type the concrete ones in the Primary and secondary fields.

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MPoA Connection

Profile Port: Select the profile port as ADSL.

Protocol: The ATM protocol will be used in the device.

Description: A given name for the connection.

VPI/VCI: Enter the information provided by your ISP.

ATM Class: The Quality of Service for ATM layer.

NAT: The NAT (Network Address Translation) feature allows multiple users to access the Internet through a single IP account, sharing a single IP address. If users on your LAN have public IP addresses and can access the Internet directly, the NAT function can be disabled.

Encap. mode: Choose whether you want the packets in WAN interface as bridged packet or routed packet.

MTU: Maximum Transmission Unit. The size of the largest datagram (excluding media-specific headers) that IP will attempt to send through the interface.

IP (0.0.0.0: Auto): Your WAN IP address. Leave this at 0.0.0.0 to obtain automatically an IP address from your ISP.

Netmask: The default is 255.255.255.0. User can change it to other such as 255.255.255.128.

Type the subnet mask assigned to you by your ISP (if given).

Gateway: Enter the IP address of the default gateway (if given).

RIP: RIP v1, RIP v2, and RIP v2 Multicast. Check to enable RIP function.

TCP MSS Clamp: This option helps to discover the optimal MTU size automatically. Default is enabled.

MAC Spoofing: Some service providers require the configuring of this option. You must fill in the

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MAC address that specify by service provider when it is required. Default is disabled.

Obtain DNS: A Domain Name System (DNS) contains a mapping table for domain name and IP addresses. DNS helps to find the IP address for the specific domain name. Check the checkbox to obtain DNS automatically.

Primary DNS: Enter the primary DNS.

Secondary DNS: Enter the secondary DNS.

Default Route: Check to enable default route.

IPv6: check to enable IPv6 service. If enabled, please set the IPv6 Address, Ipv6 DNS, similar as

IPv4.

IPv6 Address: Check Automatic to obtain IPv6 address automatically. If not, please type the IP and the prefix length for the IPv6 address from your ISP.

Gateway: Type the gateway to which the WAN packets are forwarded.

Obtain IPv6 DNS: check Automatic to obtain DNS automatically. If not, please type the concrete ones in the Primary and secondary fields.

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IPoA Connection

Profile Port: Select the profile port as ADSL.

Protocol: The ATM protocol will be used in the device.

Description: A given name for the connection.

VPI/VCI: Enter the information provided by your ISP.

ATM Class: The Quality of Service for ATM layer.

NAT: The NAT (Network Address Translation) feature allows multiple users to access the Internet through a single IP account, sharing a single IP address. If users on your LAN have public IP addresses and can access the Internet directly, the NAT function can be disabled.

MTU: Maximum Transmission Unit. The size of the largest datagram (excluding media-specific headers) that IP will attempt to send through the interface.

IP (0.0.0.0: Auto): Your WAN IP address. Leave this at 0.0.0.0 to obtain automatically an IP address from your ISP.

Netmask: The default is 255.255.255.0. User can change it to other such as 255.255.255.128. Type the subnet mask assigned to you by your ISP (if given).

Gateway: Enter the IP address of the default gateway (if given).

RIP: RIP v1, RIP v2, and RIP v2 Multicast. Check to enable RIP function.

TCP MSS Clamp: This option helps to discover the optimal MTU size automatically. Default is enabled.

Obtain DNS: A Domain Name System (DNS) contains a mapping table for domain name and IP

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addresses. DNS helps to find the IP address for the specific domain name. Check the checkbox to obtain DNS automatically.

Primary DNS: Enter the primary DNS.

Secondary DNS: Enter the secondary DNS.

Default Route: Check to enable default route.

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Pure Bridge

Profile Port: Select the profile port as ADSL.

Protocol: The ATM protocol will be used in the device.

Description: A given name for this connection.

VPI/VCI: Enter the information provided by your ISP.

ATM Class: The Quality of Service for ATM layer.

Encap. mode: Choose whether you want the packets in WAN interface as bridged packet or routed packet.

Acceptable Frame Type: Specify which kind of traffic goes through this connection, all traffic or only VLAN tagged.

Filter Type: Specify the type of ethernet filtering performed by the named bridge interface.

All Allows all types of ethernet packets through the port.

Ip

Pppoe

Allows only IP/ARP types of ethernet packets through the port.

Allows only PPPoE types of ethernet packets through the port.

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Multiple Session

Profile Port: Select the profile port as ADSL.

Protocol: The Multiple Session protocol will be used in the device.

Description: A given name for this connection.

VPI/VCI: Enter the information provided by your ISP.

ATM Class: The Quality of Service for ATM layer.

Username: Enter the username provided by your ISP. You can input up to 128 alpha-numeric characters (case sensitive).

Password: Enter the password provided by your ISP. You can input up to 128 alpha-numeric characters (case sensitive).

NAT: The NAT (Network Address Translation) feature allows multiple users to access the Internet through a single IP account, sharing the single IP address. If users on your LAN have public IP addresses and can access the Internet directly, the NAT function can be disabled.

IP (0.0.0.0:Auto): Your WAN IP address. Leave this at 0.0.0.0 to obtain automatically an IP address from your ISP.

Auth. Protocol: Default is Auto. Your ISP should advise you on whether to use Chap or Pap.

Connection:

Always on: If you want the router to establish a PPPoA session when starting up and to

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Automatically re-establish the PPPoA session when disconnected by the ISP.

Connect on Demand: If you want to establish a PPPoA session only when there is a packet requesting access to the Internet (i.e. when a program on your computer attempts to access the Internet).

Idle Timeout: Auto-disconnect the router when there is no activity on the line for a predetermined period of time.

MTU: Maximum Transmission Unit. The size of the largest datagram (excluding media-specific headers) that IP will attempt to send through the interface.

RIP: RIP v1, RIP v2, and RIP v2 Multicast. Check to enable RIP function.

TCP MSS Clamp: This option helps to discover the optimal MTU size automatically. Default is enabled.

Obtain DNS: A Domain Name System (DNS) contains a mapping table for domain name and IP addresses. DNS helps to find the IP address for the specific domain name. Check the checkbox to obtain DNS automatically.

Primary DNS: Enter the primary DNS.

Secondary DNS: Enter the secondary DNS.

Default Route: Check to enable default route.

Multiple Session Second Session / Multiple Session Third Session / Multiple Session Forth

Session: Check Enable to activate the second/third/forth session.

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3G

Profile mode: Select 3G as the profile port.

iBurst: Check the check box to determine whether to enable the iBurst function.

Usage Allowance: Check to enable usage allowance function.

Click Usage Allowance to continue the detailed configuration.

In order to query online time or volume used, you can set the following options.

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Mode: Two methods are provided, that is, Volume-based and Time-based.

Volume-based: The volume amount you can use per month.

Only Download: Only make statistics of Download Traffic.

Only Upload: Only make statistics of Upload Traffic.

Download and Upload: Make statistics of both Download and Upload Traffic.

Time-based: The hours you can use per month.

Over usage allowance action: If the online time or traffic you have used exceeds the usage allowance you set. The system will do the followings operations.

Save the statistics to ROM: Choose the time interval for saving statistics. You can choose to save for Every one hour or Disable the function.

Time Schedule: Specify time duration for your 3G WAN connection.

Mode: select your wanted mode of 3G operation from the drop-down menu.

TEL No.: The dial string to make a GPRS / 3G user internetworking call. It may provide by your mobile service provider.

APN: An APN is similar to a URL on the WWW, it is what the unit makes a GPRS / UMTS call. The service provider is able to attach anything to an APN to create a data connection, requirements for

APN’s to be assigned varies between different service providers. Most service providers have an internet portal which they connect a DHCP Server to, giving you access to the internet i.e. Some 3G operators use the APN ‘internet’ for their portal. The default value of APN is “internet”.

Username: Enter the username provided by your service provider.

Password: Enter the password provided by your service provider.

Authentication Type: Default is None. Manually specify CHAP (Challenge Handshake

Authentication Protocol) or PAP (Password Authentication Protocol) if you know which type the server is using (when acting as a client), or else the authentication type you want clients connecting to you to use (when acting as a server). When using PAP, the password is sent unencrypted, whilst

CHAP encrypts the password before sending, and also allows for challenges at different periods to ensure that an intruder has not replaced the client.

MTU: Maximum Transmission Unit. The size of the largest datagram (excluding media-specific headers) that IP will attempt to send through the interface.

PIN: PIN stands for Personal Identification Number. A PIN code is a numeric value used in certain systems as a password to gain access, and authenticate. In mobile phones a PIN code locks the

SIM card until you enter the correct code. If you enter the PIN code incorrectly into the phone 3 times in a row, then the SIM card will be blocked and you will require a PUK code from your network/service provider.

Connection: select the connection method you want.

Always On: The router will make UMTS/GPRS call when starting up. Enabling Always On,

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will give you an option of Keep Alive.

Keep Alive: Set Enable to allow the router automatically reconnects the connection when ISP disconnects it.

Connect to Demand: If you want to make UMTS/GPRS call only when there is a packet requesting access to the Internet (i.e. when a program on your computer attempts to access the

Internet). In this mode, you must set Idle Timeout value at same time. Enabling Connect on Demand will give you an option of Idle Timeout.

Idle Timeout: Auto-disconnect the connection when there is no activity on this call for a predetermined period of time. The default value is 10 seconds.

NAT: The NAT (Network Address Translation) feature allows multiple users to access the Internet through a single IP account, sharing the single IP address. If users on your LAN have public IP addresses and can access the Internet directly, the NAT function can be disabled.

Obtain DNS: Select Automatic to use DNS.

Primary DNS/ Secondary DNS: Enter the IP addresses of the DNS servers. The DNS servers are passed to the DHCP clients along with the IP address and the subnet mask.

Note: If you don’t know how to set these values and please keep them untouched.

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EWAN

Obtain an IP Address Automatically

Profile Port: Select the profile port as EWAN.

WAN Port: the router offers its Ethernet port 1 as a WAN port to be used to connect to Cable

Modems and fiber optic lines.

Protocol: Select Obtain an IP Address Automatically.

NAT: The NAT (Network Address Translation) feature allows multiple users to access the

Internet through a single IP account, sharing the single IP address. If PCs in LAN should share the WAN IP for WAN access, please enable NAT. If users on your LAN have public IP addresses and can access the Internet directly, the NAT function can be disabled.

MAC Spoofing: Some service providers require the configuring of this option. You must fill in the MAC address that specify by service provider when it is required. Default is disabled.

Obtain DNS: Select Automatic to use DNS.

Primary DNS/ Secondary DNS: Enter the IP addresses of the DNS servers.

The DNS servers are passed to the DHCP clients along with the IP address and the subnet mask.

IPv6: check to enable IPv6 service. Enter IPv6 Gateway address and set IPv6 DNS as same in

IPv4 mode.

Gateway: type the gateway address to which WAN packets are forwarded.

Obtain IPv6 DNS: check Automatic to obtain DNS automatically. If not, please type the concrete ones in the Primary and Secondary fields.

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Fixed IP Address

Select this option to set static IP information. You will need to enter the Connection type, IP address, netmask, and gateway address, provided to you by your ISP. Each IP address entered in the fields must be in the appropriate IP form, which are four IP octets separated by a dot

(x.x.x.x). The Router will not accept the IP address if it is not in this format.

Profile Port: Select the profile port as EWAN.

WAN Port: the router offers its Ethernet port 1 as a WAN port to be used to connect to Cable

Modems and fiber optic lines.

Protocol: Select Fixed IP Address.

IP: Your WAN IP address. Leave this at 0.0.0.0 to automatically obtain an IP address from your

ISP.

Netmask: The default is 0.0.0.0. User can change it to other such as 255.255.255.0.Type the netmask assigned to you by your ISP (if given).

Gateway: You must specify a gateway IP address (supplied by your ISP).

NAT: The NAT (Network Address Translation) feature allows multiple users to access the

Internet through a single IP account, sharing the single IP address. If PCs in LAN should share the WAN IP for WAN access, please enable NAT. If users on your LAN have public IP addresses and can access the Internet directly, the NAT function can be disabled.

MAC Spoofing: Some service providers require the configuring of this option. You must fill in the MAC address that specify by service provider when it is required. Default is disabled.

Obtain DNS: Select Automatic to use DNS.

Primary DNS/ Secondary DNS: Enter the IP addresses of the DNS servers. The DNS servers are passed to the DHCP clients along with the IP address and the subnet mask.

IPv6: check to enable IPv6 service. Enter IPv6 Gateway address and set IPv6 DNS as same in

IPv4 mode.

IP/Prefix Length: Please specify the IP and the prefix length for the IPv6 address from your

ISP.

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Gateway: Type the gateway to which the WAN packets are forwarded.

Obtain IPv6 DNS: check Automatic to obtain DNS automatically. If not, please type the concrete ones in the Primary and secondary fields.

PPPoE

PPPoE (PPP over Ethernet) provides access control in a manner which is similar to dial-up services using PPP.

Profile Port: Select EWAN as the profile port.

WAN Port: the router offers its Ethernet port 1 as a WAN port to be used to connect to Cable

Modems and fiber optic lines.

Protocol: Select PPPoE.

Username: Enter the username provided by your ISP. You can input up to 128 alphanumeric characters (case sensitive). This is in the format of “username@ispname” instead of simply

“username”.

Password: Enter the password provided by your ISP. You can input up to 128 alphanumeric characters (case sensitive).

Service Name: Enter a name for this connection.

IP: Your WAN IP address. Leave this at 0.0.0.0 to automatically obtain an IP address from your ISP.

Auth. Protocol: Default is Auto. Your ISP advises on using Chap or Pap.

Connection:

Always on: If you want the router to establish a PPPoE session when starting up and to automatically re-establish the PPPoE session when disconnected by the ISP.

Connect on Demand: If you want to establish a PPPoE session only when there is a

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packet requesting access to the Internet (i.e. when a program on your computer attempts to access the Internet).

Idle Timeout: Auto-disconnect the router when there is no activity on the line for a predetermined period of time.

MTU: Maximum Transmission Unit. The size of the largest datagram (excluding media-specific headers) that IP will attempt to send through the interface.

NAT: The NAT (Network Address Translation) feature allows multiple users to access the

Internet through a single IP account, sharing the single IP address. If PCs in LAN should share the WAN IP for WAN access, please enable NAT. If users on your LAN have public IP addresses and can access the Internet directly, the NAT function can be disabled.

MAC Spoofing: Select Enable and enter a MAC address that will temporarily change your router’s MAC address to the one you have specified in this field. Leave it as Disabled if you do not wish to change the MAC address of your router.

Obtain DNS: Select Automatic to use DNS.

Primary DNS/ Secondary DNS: Enter the IP addresses of the DNS servers. The DNS servers are passed to the DHCP clients along with the IP address and the subnet mask

IPv6: check to enable IPv6 service. Enter IPv6 Gateway address and set IPv6 DNS as same in

IPv4 mode.

IPv6 Address: type the IPv6 address from your ISP, or get it automatically. ” ::” means to obtain IPv6 address automatically.

Obtain IPv6 DNS: check Automatic to obtain DNS automatically. If not, please type the concrete ones in the Primary and secondary fields.

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Pure Bridge

Profile Port: Select EWAN as the profile port.

WAN Port: the router offers its Ethernet port 1 as a WAN port to be used to connect to Cable

Modems and fiber optic lines.

Protocol: Select Pure Bridge.

Acceptable Frame Type: Specify which kind of traffic goes through this connection, all traffic or only VLAN tagged.

Filter Type: Specify the type of Ethernet filtering performed by the named bridge interface.

All

Ip

PPPoE

Allows all types of ethernet packets through the port.

Allows only IP/ARP types of ethernet packets through the port.

Allows only PPPoE types of ethernet packets through the port.

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ADSL Mode

Connect Mode: This mode will automatically detect your ADSL line code, ADSL2+, ADSL2,

AnnexM2 and AnnexM2+, ADSL, All. Please keep the factory setting unless ADSL is detected as the symptom of synchronization problem.

Modulation: It will automatically detect capability of your ADSL line mode. Please keep the factory setting unless ADSL is detected as the symptom of synchronization problem.

Profile Type: Please keep the factory settings unless ADSL is detected as the symptom of low link rate or unstable problems. You may need to change the profile setting to reach the best ADSL line rate, it depends on the different DSLAM and location.

Activate Line: Aborting (false) your ADSL line and making it active (true) again for taking effect with setting of Connect Mode.

Coding Gain: It reduces router’s transmit power which will effect to router’s downstream performance. Higher the gain will increase the downstream rate but it sometimes causes unstable

ADSL line. The configurable ADSL coding gain is from 0 dB to 7dB, or automatic.

Tx Attenuation: It is the ADSL transmission power that the modem is using. The lower the power the better performance in router’s upstream. Configurable value is between 0~12.

Elapsed Time: the time since ADSL connection is established.

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System

Here are the items within the System section: Time Zone, Remote Access, Firmware Upgrade,

Backup/Restore, Restart ,User Management and Mail Alert.

Time Zone

The router does not have a real time clock on board; instead, it uses the Simple Network Time

Protocol (SNTP) to get the current time from an SNTP server outside your network. Choose your local time zone, click Enable and click the Apply button. After a successful connection to the Internet, the router will retrieve the correct local time from the SNTP server you have specified. If you prefer to specify an SNTP server other than those in the list, simply enter its IP address as shown above.

Your ISP may provide an SNTP server for you to use.

Daylight Saving is also known as Summer Time Period. Many places in the world adapt it during summer time to move one hour of daylight from morning to the evening in local standard time. Check

Enable box to set your local time.

Resync Period (in minutes) is the periodic interval the router will wait before it re-synchronizes the router’s time with that of the specified SNTP server. In order to avoid unnecessarily increasing the load on your specified SNTP server you should keep the poll interval as high as possible – at the absolute minimum every few hours or even days.

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Remote Access

To temporarily permit remote administration of the router (i.e. from outside your LAN), select a time period the router will permit remote access for and click Enable. You may change other configuration options for the web administration interface using Device Management options in the Advanced section of the GUI.

If you wish to permanently enable remote access, choose a time period of 0 minute.

Firmware Upgrade

Your router’s “firmware” is the software that allows it to operate and provides all its functionality.

Think of your router as a dedicated computer, and the firmware as the software it runs. Over time this software may be improved and revised, and your router allows you to upgrade the software it runs to take advantage of these changes.

Clicking on Browse will allow you to select the new firmware image file you have downloaded to your PC. Once the correct file is selected, click Upgrade to update the firmware in your router.

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Backup / Restore

These functions allow you to save and backup your router’s current settings to a file on your PC, or to restore a previously saved backup. This is useful if you wish to experiment with different settings, knowing that you have a backup handy in the case of any mistakes. It is advisable to backup your router’s settings before making any significant changes to your router’s configuration.

Press Backup to select where on your local PC to save the settings file. You may also change the name of the file when saving if you wish to keep multiple backups.

Press Browse to select a file from your PC to restore. You should only restore settings files that have been generated by the Backup function, and that were created when using the current version of the router’s firmware. Settings files saved to your PC should not be manually edited in any way.

After selecting the settings file you wish to use, pressing Restore will load those settings into the router.

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Restart Router

Click Restart with option Current Settings to reboot your router (and restore your last saved configuration).

If you wish to restart the router using the factory default settings (for example, after a firmware upgrade or if you have saved an incorrect configuration), select Factory Default Settings to reset to factory default settings.

You may also reset your router to factory settings by holding the small Reset pinhole button more than 6 seconds on the back of your router.

Caution: After pressing the RESET button for more than 6 seconds, to be sure you power cycle the device again.

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User Management

In order to prevent unauthorized access to your router’s configuration interface, it requires all users to login with a password. You can set up multiple user accounts, each with their own password.

You are able to Edit existing users and Add new users who are able to access the device’s configuration interface. Once you have clicked on Edit, you are shown the following options:

You can change the user’s password, whether their account is active and valid, as well as add a comment to each user account. Click Edit/Delete button to save your revise. You cannot delete the default admin account, if you do you will be log out. However, you can delete any other created accounts by clicking Delete when editing the user. You are strongly advised to change the password on the default “admin” account when you receive your router, and any time you reset your configuration to Factory Defaults.

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When you create a user account, check Valid box and fill in the respective information for User,

Comment, Password and Confirm Password in the blanks provided. Then click the Add button to add your new user account.

To delete a user account, click on the Delete radio button on the right column of the account you wish to delete and then click the Edit/Delete button on the top to confirm your deletion.

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Mail Alert

Mail alert is designed to keep system administrator or other relevant personnel alerted of any unexpected events that might have occured to the network computers or server for monitoring efficiency. With this alert system, appropriate solutions may be tackled to fix problems that may have arisen so that the server can be properly maintained.

SMTP Server: Enter the SMTP server that you would like to use for sending emails.

Username: Enter the username of your email account to be used by the SMTP server.

Password: Enter the password of your email account.

Sender’s Email: Enter your email address.

Recipient’s Email (Failover / Failback): Enter the email address that will receive the alert message once a computer / network server failover occurs.

Recipient’s Email (WAN IP Change Alert): Enter the email address that will receive the alert message once an WAN IP change has been detected.

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Firewall and Access Control

Your router includes a full SPI (Stateful Packet Inspection) firewall for controlling Internet access from your LAN, as well as helping to prevent attacks from hackers. Besides, when using NAT, the router acts as a “natural” Internet firewall, as all PCs on your LAN will use private IP addresses that cannot be directly accessed from the Internet.

Firewall: Prevent outsiders from accessing your local network. The router provides three levels of security support:

NAT natural firewall: This masks LAN users’ IP addresses which are invisible to users on the

Internet, thus making it more difficult for a hacker to target a machine on your network. This natural firewall is turned on when NAT function is enabled.

Firewall Security and Policy (General Settings): Inbound direction of Packet Filter rules to prevent unauthorized computers or applications to access your local network from the Internet.

Intrusion Detection: Enable Intrusion Detection to detect, prevent and log malicious attacks.

Access Control: Prevent access from PCs on your local network:

Firewall Security and Policy (General Settings): Outbound direction of Packet Filter rules to prevent unauthorized computers or applications from accessing the Internet.

URL Filter: To block PCs on your local network from unwanted websites.

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Listed are the items under the Firewall section: General Settings, Packet Filter, Intrusion Detection,

URL Filter, IM/P2P Blocking and Firewall Log.

General Settings

You can choose not to enable Firewall and still able to access to URL Filter, Intrusion Detection and

IM/P2P Blocking or enable the Firewall using preset filter rules and modify the port filter rules as required. The Packet Filter is used to filter packets based-on Applications (Port) or IP addresses.

There are four options when you enable the Firewall, they are:

All blocked/User-defined: no pre-defined port or address filter rules by default, meaning that all inbound (Internet to LAN) and outbound (LAN to Internet) packets will be blocked. Users have to add their own filter rules for further access to the Internet.

High/Medium/Low security level: the predefined port filter rules for High, Medium and Low security are displayed in Port Filters of Packet Filter.

Select either High, Medium or Low security level to enable the Firewall. The only difference between these three security levels is the preset port filter rules in the Packet Filter. Firewall functionality is the same for all levels; it is only the list of preset port filters that changes between each setting. For more detailed on level of preset port filter information, refer to Table 1: Predefined Port Filter.

If you choose of the preset security levels and add custom filters, this level of filter rules will be saved even and do not need to re-configure the rules again if you disable or switch to other firewall level.

The “Block WAN Request” is a stand-alone function and not relate to whether security enable or disable. Mostly it is for preventing any scan tools from WAN site by hacker.

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Packet Filter

This function is only available when the Firewall is enabled and one of these four security levels is chosen (All blocked, High, Medium and Low). The preset port filter rules in the Packet Filter must modify accordingly to the level of Firewall, which is selected. See Table1: Predefined Port Filter for more detail information.

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Example: Predefined Port Filters Rules

The predefined port filter rules for High, Medium and Low security levels are listed. See Table 1.

Note: Firewall – All Blocked/User-defined, you must define and create the port filter rules yourself. No predefined rule is being preconfigured.

Table 1:

Predefined

Port Filter

Application

HTTP(80)

Protocol

Port

Number

Start End

TCP(6) 80 80

Firewall - Low

Inbound

NO

Outbound

YES

Firewall - Medium

Inbound

NO

Outbound

YES

Firewall – High

Inbound

NO YES

Outbound

DNS (53) UDP(17) 53 53 NO YES NO YES NO YES

DNS (53)

FTP(21)

TCP(6) 53 53

TCP(6) 21 21

NO

NO

YES

YES

NO

NO

YES

YES

NO

NO

YES

NO

Telnet(23)

SMTP(25)

TCP(6) 23 23

TCP(6) 25 25

NO

NO

YES

YES

NO

NO

YES

YES

NO

NO

NO

YES

YES NO YES NO YES POP3(110) TCP(6) 110 110

NEWS(NNTP)

(Network

News Transfer

Protocol)

TCP(6)

RealAudio/

RealVideo

(7070)

119 119

UDP(17) 7070 7070

PING ICMP(1) N/A N/A

NO

NO

YES

NO

YES

YES

YES

NO

YES

NO

YES

YES

YES

NO

NO

NO

NO

NO

YES

H.323(1720) TCP(6) 1720 1720

T.120(1503) TCP(6) 1503 1503

SSH(22) TCP(6) 22 22

NTP /SNTP UDP(17) 123 123

HTTP/HTTP

Proxy (8080)

TCP(6)

HTTPS(443) TCP(6)

8080 8080

443 443

ICQ (5190) TCP(6) 5190 5190

YES

YES

NO

NO

NO

NO

YES

MSN (1863) TCP(6) 1863 1863

MSN (7001) UDP(17) 7001 7001

MSN VEDIO

(9000)

TCP(6) 9000 9000

YES

YES

NO

YES

YES

YES

YES

YES

YES

YES

YES

YES

YES

NO

NO

NO

NO

NO

NO

N/A

N/A

N/A

N/A

YES

YES

YES

YES

NO

YES

N/A

N/A

N/A

N/A

NO

NO

NO

NO

NO

N/A

N/A

N/A

N/A

N/A

NO

NO

NO

YES

NO

N/A

N/A

N/A

N/A

N/A

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Inbound: Internet to LAN

Outbound: LAN to Internet

YES: Allowed

NO: Blocked

N/A: Not Applicable

Packet Filter – Add TCP/UDP Filter

Rule Name Helper: Users-define description to identify this entry or click “Select” drop-down menu to select existing predefined rules. The maximum name length is 32 characters.

Time Schedule: It is self-defined time period. You may specify a time schedule you’re your prioritization policy. For setup and detail, refer to Time Schedule section

Source IP Address(es) / Destination IP Address(es): This is the Address-Filter used to allow or block traffic to/from particular IP address(es). Selecting the Subnet Mask of the IP address range you wish to allow/block the traffic to or form; set IP address and Subnet Mask to 0.0.0.0 to inactive the Address-Filter rule.

Tip: To block access, to/from a single IP address, enter that IP address as the Host IP Address and use a Host Subnet Mask of “255.255.255.255”.

Type: It is the packet protocol type used by the application, select TCP, UDP or both TCP/UDP.

Protocol Number: Insert the port number.

Source Port: This Port or Port Ranges defines the port allowed to be used by the Remote/WAN to connect to the application. Default is set from range 0 ~ 65535. It is recommended that this option be configured by an advanced user.

Destination Port: This is the Port or Port Ranges that defines the application.

Inbound / Outbound: Select Allow or Block the access to the Internet (“Outbound”) or from the

Internet (“Inbound”).

Click Add button to apply your changes.

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Packet Filter – Add Raw IP Filter

Go to “Type” drop-down menu, select “Use Protocol Number”.

Rule Name Helper: Users-define description to identify this entry or choosing “Select” drop-down menu to select existing predefined rules.

Time Schedule: It is self-defined time period. You may specify a time schedule for your prioritization policy. For setup and detail, refer to Time Schedule section

Source IP Address(es) / Destination IP Address(es): This is the Address-Filter used to allow or block traffic to/from particular IP address(es). Selecting the Subnet Mask of the IP address range you wish to allow/block the traffic to or form; set IP address and Subnet Mask to 0.0.0.0 to inactive the Address-Filter rule.

Tip: To block access, to/from a single IP address, enter that IP address as the Host IP

Address and use a Host Subnet Mask of “255.255.255.255”.

Type: It is the packet protocol type used by the application, select TCP, UDP or both TCP/UDP.

Protocol Number: Insert the port number, i.e. GRE 47.

Source Port: This Port or Port Ranges defines the port allowed to be used by the Remote/WAN to connect to the application. Default is set from range 0 ~ 65535. It is recommended that this option be configured by an advanced user.

Destination Port: This is the Port or Port Ranges that defines the application.

Inbound / Outbound: Select Allow or Block the access to the Internet (“Outbound”) or from the

Internet (“Inbound”).

Click the Add button to apply your changes.

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Example: Configuring your firewall to allow a publicly accessible web server on your LAN

The predefined port filter rule for HTTP (TCP port 80) is the same no matter whether the firewall is set to a high, medium or low security level. To setup a web server located on the local network when the firewall is enabled, you have to configure the Port Filters setting for HTTP.

As you can see from the diagram below, when the firewall is enabled with one of the three presets

(Low/Medium/High), inbound HTTP access is not allowed which means remote access through

HTTP to your router is not allowed.

Note: Inbound indicates accessing from Internet to LAN and Outbound is from LAN to the

Internet.

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Configuring Packet Filter:

1. Click Packet Filters. You will then be presented with the predefined port filter rules screen (in this case for the low security level), shown below:

Note: You may click Edit the predefined rule instead of Delete it. This is an example to show to how you add a filter on your own.

2. Choose the radio button you want to delete the existing HTTP rule. Click Edit/Delete button to delete the existing HTTP rule.

3. Input the Rule Name, Time Schedule, Source/Destination IP, Type, Source/Destination Port,

Inbound and Outbound.

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Example:

Application: Cindy_HTTP

Time Schedule: Always On

Source / Destination IP Address(es): 0.0.0.0 (I do not wish to active the address-filter, instead

I use the port-filter)

Type: TCP (Please refer to Table1: Predefined Port Filter)

Source Port: 0-65535 (I allow all ports to connect with the application)

Redirect Port: 80-80 (This is Port defined for HTTP)

Inbound / Outbound: Allow

1. The new port filter rule for HTTP is shown below:

2. Configure your Virtual Server (“port forwarding”) settings so that incoming HTTP requests on port 80 will be forwarded to the PC running your web server:

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Intrusion Detection

The router’s Intrusion Detection System (IDS) is used to detect hacker attacks and intrusion attempts from the Internet. If the IDS function of the firewall is enabled, inbound packets are filtered and blocked depending on whether they are detected as possible hacker attacks, intrusion attempts or other connections that the router determines to be suspicious.

Blacklist: If the router detects a possible attack, the source IP or destination IP address will be added to the Blacklist. Any further attempts using this IP address will be blocked for the time period specified as the Block Duration. The default setting for this function is false (disabled).

Some attack types are denied immediately without using the Blacklist function, such as Land attack and Echo/CharGen scan.

Intrusion Detection: If enabled, IDS will block Smurf attack attempts. Default is false.

Block Duration:

Victim Protection Block Duration: This is the duration for blocking Smurf attacks.

Default value is 600 seconds.

Scan Attack Block Duration: This is the duration for blocking hosts that attempt a possible Scan attack. Scan attack types include X’mas scan, IMAP SYN/FIN scan and similar attempts. Default value is 86400 seconds.

DoS Attack Block Duration: This is the duration for blocking hosts that attempt a possible Denial of Service (DoS) attack. Possible DoS attacks this attempts to block include Ascend Kill and WinNuke. Default value is 1800 seconds.

Max TCP Open Handshaking Count: This is a threshold value to decide whether a SYN Flood attempt is occurring or not. Default value is 100 TCP SYN per seconds.

Max PING Count: This is a threshold value to decide whether an ICMP Echo Storm is occurring or not. Default value is 15 ICMP Echo Requests (PING) per second.

Max ICMP Count: This is a threshold to decide whether an ICMP flood is occurring or not.

Default value is 100 ICMP packets per seconds except ICMP Echo Requests (PING).

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Clear Blacklist: Clear the current blacklist.

Blacklist: Show the blacklist information.

For SYN Flood, ICMP Echo Storm and ICMP flood, IDS will just warn the user in the Event Log.

It cannot protect against such attacks.

Table 2: Hacker attack types recognized by the IDS

Intrusion Name Detect Parameter Blacklist

Type of Block

Duration

Drop

Packet

Show Log

Ascend Kill Ascend Kill data Src IP DoS Yes Yes

WinNuke

Smurf

Land attack

TCP Port

135,

137~139, Flag:

URG

ICMP type 8

Des IP is broadcast

SrcIP = DstIP

Src IP

Dst IP

DoS

Victim

Protection

Yes

Yes

Yes

Yes

Yes

Yes

Echo/CharGen

Scan

Echo Scan

CharGen Scan

X’mas Tree Scan

UDP Echo Port and

CharGen Port

UDP Dst Port =

Echo(7)

UDP Dst Port =

CharGen(19)

TCP Flag: X’mas

Src IP

Src IP

Src IP

Scan

Scan

Scan

Yes

Yes

Yes

Yes

Yes

Yes

Yes

Yes

IMAP

SYN/FIN Scan

SYN/FIN/RST/ACK

Scan

TCP Flag: SYN/

FIN DstPort:

IMAP(143)

SrcPort: 0 or

65535

TCP,

No Existing session

And Scan Hosts more than five.

Src IP

Src IP

Scan

Scan

Yes

Yes

Yes

Yes

Net Bus Scan

Back Orifice Scan

TCP

No Existing session

DstPort = Net Bus

12345,12346,

3456

UDP, DstPort

= Orifice Port

(31337)

SrcIP

SrcIP

Scan

Scan

Yes

Yes

Yes

Yes

100

SYN Flood

ICMP Flood

ICMP Echo

Max TCP Open

Handshaking

Count (Default

100 c/sec)

Max ICMP

Count (Default

100 c/ sec)

Max PING Count

(Default 15 c/sec)

ICMP Flood

Max ICMP Count

(Default 100 c/ sec)

ICMP Echo

Max PING Count

(Default 15 c/sec)

Src IP: Source IP

Src Port: Source Port

Dst Port: Destination Port

Dst IP: Destination IP

Yes

Yes

Yes

Yes

Yes

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URL Filter

URL (Uniform Resource Locator – e.g. an address in the form of http://www.abcde.com or http:// www.example.com) filter rules allow you to prevent users on your network from accessing particular websites by their URL. There are no pre-defined URL filter rules; you can add filter rules to meet your requirements.

Enable/Disable: To enable or disable URL Filter feature.

Block Mode: It can support up to 4 timeslots.

Disabled: No action will be performed by the Block Mode.

Always On: Action is enabled. URL filter rules will be monitoring and checking all hours of the day.

TimeSlot1 ~ TimeSlot16: It is self-defined time period. You may specify the time period to check the URL filter rules, i.e. during working hours. For setup and detail, refer to Time

Schedule section.

Keywords Filtering: Allows blocking by specific keywords within a particular URL rather than having to specify a complete URL (e.g. to block any image called “advertisement.gif”). When enabled, your specified keywords list will be checked to see if any keywords are present in URLs accessed to determine if the connection attempt should be blocked. Please note that the URL filter blocks web browser (HTTP) connection attempts using port 80 only.

For example, if the URL is http://www.abc.com/abcde.html

, it will be dropped as the keyword

“abcde” occurs in the URL.

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Domains Filtering: This function checks the whole URL not the IP address, in URLs accessed against your list of domains to block or allow. If it is matched, the URL request will be sent (Trusted) or dropped (Forbidden). For this function to be activated, both check-boxes must be checked. Here is the checking procedure:

1. Check the domain in the URL to determine if it is in the trusted list. If yes, the connection attempt is sent to the remote web server.

2. If not, check if it is listed in the forbidden list. If yes, then the connection attempt will be dropped.

3. If the packet does not match either of the above two items, it is sent to the remote web server.

4. Please be note that the completed URL, “www” + domain name shall be specified. For example to block traffic to www.google.com.au

, enter “ www.google

” or “ www.google.com

In the example below, the URL request for www.abc.com will be sent to the remote web server because it is listed in the trusted list, whilst the URL request for www.google or www.google.com will be dropped, because www.google is in the forbidden list.

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Example:

Andy wishes to disable all WEB traffic except for ones listed in the trusted domain, which would prevent Bobby from accessing other web sites. Andy selects both functions in the Domain Filtering and thinks that it will stop Bobby. But Bobby knows this function, Domain Filtering, ONLY disables all WEB traffic except for Trusted Domain, BUT not its IP address. If this is the situation, Block surfing by IP address function can be handy and helpful to Andy. Now, Andy can prevent Bobby from accessing other sites.

Restrict URL Features: This function enhances the restriction to your URL rules.

Block Java Applet: This function can block Web content that includes the Java Applet. It is to prevent someone who wants to damage your system via standard HTTP protocol.

Block surfing by IP address: Preventing someone who uses the IP address as URL for skip- ping Domains Filtering function. Activates only and if Domain Filtering enabled.

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IM / P2P Blocking

IM, short for Instant Message, is required to use client program software that allows users to communicate, in exchanging text message, with other IM users in real time over the Internet. A

P2P application, known as Peer-to-peer, is group of computer users who share file to specific groups of people across the Internet. Both Instant Message and Peer-to-peer applications make communication faster and easier but your network can become increasingly insecure at the same time. Billion’s IM and P2P blocking helps users to restrict LAN PCs to access to the commonly used

IM, Yahoo and MSN, and P2P, BitTorrent and eDonkey, applications over the Internet.

Instant Message Blocking: The default is set to Disabled.

Disabled: Instant Message blocking is not triggered. No action will be performed.

Always On: Action is enabled.

TimeSlot1 ~ TimeSlot16: This is the self-defined time period. You may specify the time period to trigger the blocking, i.e. during working hours. For setup and detail, refer to Time

Schedule section.

Yahoo/MSN Messenger: Check the box to block either or both Yahoo or/and MSN Messenger. To be sure you enabled the Instant Message Blocking first.

Peer to Peer Blocking: The default is set to Disabled.

Disabled: Instant Message blocking is not triggered. No action will be performed.

Always On: Action is enabled.

TimeSlot1 ~ TimeSlot16: This is the self-defined time period. You may specify the time period to trigger the blocking, i.e. during working hours. For setup and detail, refer to Time Schedule section.

BitTorrent / eDonkey: Check the box to block either or both Bit Torrent or/and eDonkey. To be sure you enabled the Peer to Peer Blocking first.

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Firewall Log

Firewall Log display log information of any unexpected action with your firewall settings.

Check the Enable box to activate the logs.

Log information can be seen in the Status – Event Log after enabling.

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VPN - Virtual Private Networks

Virtual Private Networks is ways to establish secured communication tunnels to an organization’s network via the Internet. Your router supports three main types of VPN (Virtual Private Network):

PPTP, IPSec and L2TP .

PPTP (Point-to-Point Tunneling Protocol)

There are two types of PPTP VPN supported; Remote Access and LAN-to-LAN (please refer below for more information). Click Configuration/VPN/PPTP.

Name: A given name for the connection.

Active: This function activates or deactivates the PPTP connection. Check Active checkbox if you want the protocol of tunnel to be activated and vice versa.

Note: When the Active checkbox is checked, the function of Edit and Delete will not be available.

Connection Type: It informs your PPTP tunnel connection condition.

Type: This refers to your router operates as a client or a server, Dialout or Dialin respectively.

PPTP Connection - Remote Access

Name: A given name for the connection (e.g. “connection to office”).

Connection Type: Remote Access or LAN to LAN.

Type: Check Dial Out if you want your router to operate as a client (connecting to a remote

VPNserver, e.g. your office server), check Dial In operates as a VPN server.

When configuring your router as a Client, enter the remote Server IP Address (or Domain Name) you wish to connect to.

When configuring your router as a server, enter the Private IP Address assigned to the Dial in User.

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Sever IP Address (or Domain Name): Enter the Server IP Adress or Domain Name.

Username: If you are a Dial-Out user (client), enter the username provided by your Host. If you are a Dial-In user (server), enter your own username.

Password: If you are a Dial-Out user (client), enter the password provided by your Host. If you are a Dial-In user (server), enter your own password.

Authentication Type: Default is Auto if you want the router to determine the authentication type to use, or else manually specify CHAP (Challenge Handshake Authentication Protocol) or PAP

(Password Authentication Protocol) if you know which type the server is using (when acting as a client), or else the authentication type you want clients connecting to you to use (when acting as a server). When using PAP, the password is sent unencrypted, whilst CHAP encrypts the password before sending, and also allows for challenges at different periods to ensure that an intruder has not replaced the client.

Data Encryption: Data sent over the VPN connection can be encrypted by an MPPE algorithm.

Default is Auto, so that this setting is negotiated when establishing a connection, or else you can manually Enable or Disable encryption.

Key Length: The data can be encrypted by MPPE algorithm with 40 bits or 128 bits. Default is

Auto, it is negotiated when establishing a connection. 128 bit keys provide stronger encryption than 40 bit keys.

Mode: You may select Stateful or Stateless mode. The key will be changed every 256 packets when you select Stateful mode. If you select Stateless mode, the key will be changed in each packet.

Active as default route: Commonly used by the Dial-out connection which all packets will route through the VPN tunnel to the Internet; therefore, active the function may degrade the Internet performance.

Active: This function activates or deactivates the PPTP connection. Check Active checkbox if you want the protocol of tunnel to be activated and vice versa.

Note: When the Active checkbox is checked, the function of Edit and Delete will not be available.

Click Edit/Delete button to save your changes.

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Example: Configuring a Remote Access PPTP VPN Dial-out Connection

A company’s office establishes a PPTP VPN connection with a file server located at a separate location. The router is installed in the office, connected to a couple of PCs and Servers.

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Configuring the PPTP VPN in the Office

Click Configuration/VPN/PPTP. Choose Remote Access from Connect Type drop-down menu. You can either input the IP address (69.1.121.33 in this case) or hostname to reach the server.

Name

Connection

Type

Type

IP Address (or

Domain name)

Username

Function Description

VPN_PPTP Given name of PPTP connection

Remote Access Select Remote Access from the Connection Type drop-down menu

Dial out

69.121.1.33

Select Dial out from the Type drop-down menu

An Dialed server IP

Username A given username & password

Password

Auth.Type

123456

Chap(Auto)

Data Encryption Auto

Key Length

Mode

Auto stateful

Keep as default value in most of the cases, PPTP server & client will determine the value automatically. Refer to manual for details if you want to change the setting.

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PPTP Connection - LAN to LAN

Click Configuration/VPN/PPTP. Choose LAN to LAN from Connect Type drop-down menu.

Name: A given name for the connection (e.g. “connection to office”).

Connection Type: Remote Access or LAN to LAN.

Type: Check Dial Out if you want your router to operate as a client (connecting to a remote

VPN server, e.g. your office server), check Dial In operates as a VPN server.

When configuring your router as a Client, enter the remote Server IP Address (or Domain Name) you wish to connect to.

When configuring your router as a server, enter the Private IP Address assigned to the Dial in

User.

Sever IP Address(or Domain Name):Enter the Server IP Adress or Domain Name.

Peer Network IP: Enter Peer network IP address.

Netmask: Enter the subnet mask of peer network based on the Peer Network IP setting.

Username: If you are a Dial-Out user (client), enter the username provided by your Host. If you are a Dial-In user (server), enter your own username.

Password: If you are a Dial-Out user (client), enter the password provided by your Host. If you are a Dial-In user (server), enter your own password.

Authentication Type: Default is Auto if you want the router to determine the authentication type to use, or else manually specify CHAP (Challenge Handshake Authentication Protocol) or PAP

(Password Authentication Protocol) if you know which type the server is using (when acting as a client), or else the authentication type you want clients connecting to you to use (when acting as a server). When using PAP, the password is sent unencrypted, whilst CHAP encrypts the password before sending, and also allows for challenges at different periods to ensure that an intruder has not replaced the client.

Data Encryption: Data sent over the VPN connection can be encrypted by an MPPE algorithm.

Default is Auto, so that this setting is negotiated when establishing a connection, or else you can manually Enable or Disable encryption.

Key Length: The data can be encrypted by MPPE algorithm with 40 bits or 128 bits. Default is

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Auto, it is negotiated when establishing a connection. 128 bit keys provide stronger encryption than 40 bit keys.

Mode: You may select Stateful or Stateless mode. The key will be changed every 256 packets when you select Stateful mode. If you select Stateless mode, the key will be changed in each packet.

Active as default route: Commonly used by the Dial-out connection which all packets will route through the VPN tunnel to the Internet; therefore, active the function may degrade the Internet performance.

Active: This function activates or deactivates the PPTP connection. Check Active checkbox if you want the protocol of tunnel to be activated and vice versa.

Note: When the Active checkbox is checked, the function of Edit and Delete will not be available.

Click Edit/Delete button to save your changes.

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Example: Configuring a Remote Access PPTP VPN Dial-out Connection

The branch office establishes a PPTP VPN tunnel with head office to connect two private networks over the Internet. The routers are installed in the head office and branch offices accordingly.

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Configuring the PPTP VPN in the Head Office

The IP address 192.168.1.201 will be assigned to the router located in the branch office. Please make sure this IP is not used in the head office LAN.

Name

Connection

Type

Type

IP Address

Function

HeadOffice

LAN to LAN

Peer Network

IP

Netmask 255.255.255.0

Description

Given name of PPTP connection

Select LAN to LAN from the Connection Type drop-down menu

Dial in Select Dial in from the Type drop-down menu

192.168.1.200 IP address assigned to branch office network.

192.168.0.0 Branch office network

Username Username A given username & password to authenticate branch office network.

Password

Auth.Type

123456

Chap(Auto)

Data Encryption Auto

Key Length Auto

Mode stateful

Keep as default value in most of the cases, PPTP server & client will determine the value automatically. Refer to manual for details if you want to change the setting.

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Configuring the PPTP VPN in the Head Office

The IP address 69.1.121.30 is the Public IP address of the router located in head office. If you registered the DDNS (please refer to the DDNS section of this manual), you can also use the domain name instead of the IP address to reach the router.

Name

Connection

Type

Type

Function

HeadOffice

LAN to LAN

Dial out

69.121.1.33 IP Address (or

Domain Name)

Peer Network

IP

192.168.1.0

Netmask

Username

255.255.255.0

Username

Password

Auth.Type

123456

Chap(Auto)

Data Encryption Auto

Key Length Auto

Mode stateful

Description

Given name of PPTP connection

Select LAN to LAN from the Connection Type drop-down menu

Select Dial out from the Type drop-down menu

IP address assigned to branch office network.

Head office network

A given username & password to authenticate branch office network.

Keep as default value in most of the cases, PPTP server & client will determine the value automatically. Refer to manual for details if you want to change the setting.

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IPSec (IP Security Protocol)

Active: This function activates or deactivates the IPSec connection. Check Active checkbox if you want the protocol of tunnel to be activated and vice versa.

Note: When the Active checkbox is checked, the function of Edit and Delete will not be available.

Name: This is a given name of the connection.

Local Subnet: Displays IP address and subnet of the local network.

Remote Subnet: Displays IP address and subnet of the remote network.

Remote Gateway: This is the IP address or Domain Name of the remote VPN device that is connected and established a VPN tunnel.

IPSec Proposal: This is selected IPSec security method.

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IPSec VPN Connection

Name: A given name for the connection (e.g. “connection to office”).

Local Network: Set the IP address, subnet or address range of the local network.

Single Address: The IP address of the local host.

Subnet: The subnet of the local network. For example, IP: 192.168.1.0 with netmask

255.255.255.0 specifies one class C subnet starting from 192.168.1.1 (i.e. 192.168.1.1 through to 192.168.1.254).

IP Range: The IP address range of the local network. For example, IP: 192.168.1.1, end

IP: 192.168.1.10.

Remote Secure Gateway Address (or Domain Name): The IP address or hostname of the remote VPN device that is connected and establishes a VPN tunnel.

Remote Network: Set the IP address, subnet or address range of the remote network.

IKE (Internet key Exchange) Mode: Select IKE mode to Main mode or Aggressive mode. This

IKE provides secured key generation and key management.

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Pre-shared Key: This is for the Internet Key Exchange (IKE) protocol, a string from 4 to 128 characters. Both sides should use the same key. IKE is used to establish a shared security policy and authenticated keys for services (such as IPSec) that require a key. Before any IPSec traffic can be passed, each router must be able to verify the identity of its peer. This can be done by manually entering the pre-shared key into both sides (router or hosts).

Local ID:

Content: Input ID’s information, like domain name www.ipsectest.com.

Remote ID:

Identifier: Input remote ID’s information, like domain name www.ipsectest.com

Hash Function: It is a Message Digest algorithm which coverts any length of a message into a unique set of bits. It is widely used MD5 (Message Digest) and SHA-1 (Secure Hash Algorithm) algorithms. SHA1 is more resistant to brute-force attacks than MD5, however it is slower.

MD5: A one-way hashing algorithm that produces a 128−bit hash.

SHA1: A one-way hashing algorithm that produces a 160−bit hash

Encryption: Select the encryption method from the pull-down menu. There are several options,

DES, 3DES and AES (128, 192 and 256). 3DES and AES are more powerful but increase latency.

DES: Stands for Data Encryption Standard, it uses 56 bits as an encryption method.

3DES: Stands for Triple Data Encryption Standard, it uses 168 (56*3) bits as an encryption method.

AES: Stands for Advanced Encryption Standards, you can use 128, 192 or 256 bits as encryption method.

Diffie-Hellman Group: It is a public-key cryptography protocol that allows two parties to establish a shared secret over an unsecured communication channel (i.e. over the Internet). There are three modes, MODP 768-bit, MODP 1024-bit and MODP 1536-bit. MODP stands for Modular

Exponentiation Groups.

IPSec Proposal: Select the IPSec security method. There are two methods of checking the authentication information, AH (authentication header) and ESP (Encapsulating Security Payload).

Use ESP for greater security so that data will be encrypted and authenticated. Using AH data will be authenticated but not encrypted.

Authentication: Authentication establishes the integrity of the datagram and ensures it is not tampered with in transmit. There are three options, Message Digest 5 (MD5), Secure Hash

Algorithm (SHA1) or NONE. SHA1 is more resistant to brute-force attacks than MD5, however it is slower.

MD5: A one-way hashing algorithm that produces a 128−bit hash.

SHA1: A one-way hashing algorithm that produces a 160−bit hash

Encryption: Select the encryption method from the pull-down menu. There are several options,

DES, 3DES, AES (128, 192 and 256) and NULL. NULL means it is a tunnel only with no encryption.

3DES and AES are more powerful but increase latency.

DES: Stands for Data Encryption Standard, it uses 56 bits as an encryption method.

3DES: Stands for Triple Data Encryption Standard, it uses 168 (56*3) bits as an encryption

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method.

AES: Stands for Advanced Encryption Standards, you can use 128, 192 or 256 bits as encryption method.

Perfect Forward Secrecy: Choose whether to enable PFS using Diffie-Hellman public-key cryptography to change encryption keys during the second phase of VPN negotiation. This function cryptography protocol that allows two parties to establish a shared secret over an unsecured communication channel (i.e. over the Internet). There are three modes, MODP 768-bit, MODP

1024-bit and MODP 1536-bit. MODP stands for Modular Exponentiation Groups.

SA Lifetime: Specify the number of minutes that a Security Association (SA) will stay active before new encryption and authentication key will be exchanged. There are two kinds of SAs, IKE and

IPSec. IKE negotiates and establishes SA on behalf of IPSec, an IKE SA is used by IKE.

Phase 1 (IKE): To issue an initial connection request for a new VPN tunnel. The range can be from 5 to 15,000 minutes, and the default is 480 minutes.

Phase 2 (IPSec): To negotiate and establish secure authentication. The range can be from 5 to 15,000 minutes, and the default is 60 minutes.

A short SA time increases security by forcing the two parties to update the keys. However, every time the VPN tunnel re-negotiates, access through the tunnel will be temporarily disconnected.

PING for Keep Alive:

None: The default setting is None. To this mode, it will not detect the remote IPSec peer has been lost or not. It only follows the policy of Disconnection time after no traffic, which the remote IPSec will be disconnected after the time you set in this function.

PING: This mode will detect the remote IPSec peer has lost or not by pinging specify IP address.

DPD: Dead peer detection (DPD) is a keeping alive mechanism that enables the router to be detected lively when the connection between the router and a remote IPSec peer has lost.

Please be noted, it must be enabled on the both sites.

PING to the IP: It is able to IP Ping the remote PC with the specified IP address and alert when the connection fails. Once alter message is received, Router will drop this tunnel connection.

Reestablish of this connection is required. Default setting is 0.0.0.0 which disables the function.

Interval: This sets the time interval between Pings to the IP function to monitor the connection status. Default interval setting is 10 seconds. Time interval can be set from 0 to 3600 second, 0 second disables the function.

Ping to the IP Interval (sec) Ping to the IP Action

0.0.0.0

0.0.0.0

0

2000 xxx.xxx.xxx.xxx (A valid IP Address) 0

No

No

No xxx.xxx.xxx.xxx(A valid IP Address) 2000 Yes, activate it in every 2000 second.

Disconnection Time after no traffic: It is the NO Response time clock. When no traffic stage time is beyond the Disconnection time set, Router will automatically halt the tunnel connection and reestablish it base on the Reconnection Time set. 180 seconds is minimum time interval for this function.

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Reconnection Time: It is the reconnecting time interval after NO TRAFFIC is initiated. 3 minutes is minimum time interval for this function.

Click Edit/Delete to save your changes.

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Example: Configuring an IPSec LAN to LAN VPN Connection

Table 3: Network Configuration and Security Plan

Local Network ID

Local Router IP

Remote Network ID

Branch Office

192.168.0.0/24

69.1.121.30

192.168.1.0/24

Remote Router IP

IKE Pre-shared Key

69.1.121.3

12345678

VPN Connection Type Tunnel mode

Security Algorithm ESP: MD5 with AES

69.1.121.3

Head Office

192.168.1.0/24

192.168.0.0/24

69.1.121.30

12345678

Tunnel mode

ESP: MD5 with AES

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Configuring IPSec VPN in the Head Office

Name

Local Network

IP Address

Netmask

Remote Secure

Gateway IP (or

Hostname)

Remote Network

Function

IPSec_HeadOffice

Subnet

192.168.1.0

255.255.255.0

69.121.1.30

Subnet

IP Address

Netmask

Pre-shared Key

Authentication

Encryption

Prefer Forward

Security

192.168.0.0

255.255.255.0

12345678

MD5

3DES

None

Description

Give a name of IPSec Connection

Select Subnet from Local Network drop-down menu.

Head office network

IP address of the head office router (in WAN side)

Select Subnet from Remote Network drop- down menu

Branch office network

Security plan

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Configuring IPSec VPN in the Branch Office

Name

Local Network

IP Address

Netmask

Remote Secure

Gateway IP (or

Hostname)

Remote Network

Function

IPSec_BranchOffice

Subnet

192.168.0.0

255.255.255.0

69.121.1.3

Subnet

IP Address

Netmask

Pre-shared Key

Authentication

Encryption

Prefer Forward

Security

192.168.1.0

255.255.255.0

12345678

MD5

3DES

None

Description

Give a name of IPSec Connection

Select Subnet from Local Network drop-down menu.

Branch office network

IP address of the head office router (in WAN side)

Select Subnet from Remote Network drop- down menu

Head office network

Security plan

123

Example: Configuring an IPSec Host to LAN VPN Connection

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Configuring IPSec VPN in the Office

Name

Local Network

IP Address

Netmask

Remote Secure

Gateway IP (or

Hostname)

Remote Network

Function

IPSec

Subnet

192.168.1.0

255.255.255.0

69.121.1.30

Single Address

IP Address

Pre-shared Key

Authentication

Encryption

Prefer Forward

Security

69.121.1.30

12345678

MD5

3DES

None

Description

Give a name of IPSec Connection

Select Subnet from Local Network drop-down menu.

Head office network

IP address of the head office router (in WAN side)

Select Single Address from Remote Network drop-down menu

Remote worker's IP address

Security plan

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L2TP (Layer Two Tunneling Protocol)

Two types of L2TP VPN are supported Remote Access and LAN-to-LAN (please refer below for more information.). Fill in the blank with information you need and click Add to create a new VPN connection account.

Active: This function activates or deactivates the PPTP connection. Check Active checkbox if you want the protocol of tunnel to be activated and vice versa.

Note: When the Active checkbox is checked, the function of Edit and Delete will not be available.

Name: This is a given name of the connection.

Connection Type: Displays the condition of your L2TP tunneling connection.

Type: This refers to your router whether it operates as a client or a server, Dial-out or Dial-in respectively.

L2TP Connection-Remote Access

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Connection Type: Remote Access or LAN to LAN

Name: A given name for the connection (e.g. “connection to office”).

Connection Type: Remote Access or LAN to LAN.

Type: Check Dial Out if you want your router to operate as a client (connecting to a remote VPN server, e.g. your office server), check Dial In operates as a VPN server.

When configuring your router as a Client, enter the remote Server IP Address (or Hostname) you wish to connect to.

When configuring your router as a server, enter the Private IP Address Assigned to the Dial in

User.

Username: If you are a Dial-Out user (client), enter the username provided by your Host. If you are a Dial-In user (server), enter your own username.

Password: If you are a Dial-Out user (client), enter the password provided by your Host. If you are a Dial-In user (server), enter your own password.

Authentication Type: Default is Auto if you want the router to determine the authentication type to use, or else manually specify CHAP (Challenge Handshake Authentication Protocol) or PAP

(Password Authentication Protocol) if you know which type the server is using (when acting as a client), or else the authentication type you want clients connecting to you to use (when acting as a server). When using PAP, the password is sent unencrypted, whilst CHAP encrypts the password before sending, and also allows for challenges at different periods to ensure that an intruder has not replaced the client.

Tunnel Authentication: This enables router to authenticate both the L2TP remote and L2TP host.

This is only valid when L2TP remote supports this feature.

Secret: The secure password length should be 16 characters which may include numbers and characters.

Active as default route: Commonly used by the Dial-out connection which all packets will route through the VPN tunnel to the Internet; therefore, active the function may degrade the Internet performance.

Remote Host Name (Optional): Enter hostname of remote VPN device. It is a tunnel identifier from the Remote VPN device matches with the Remote hostname provided. If remote hostname matches, tunnel will be connected; otherwise, it will be dropped.

Cautious: This is only when the router performs as a VPN server. This option should be used by advanced users only.

Local Host Name (Optional): Enter hostname of Local VPN device that is connected / establishes a VPN tunnel. As default, Router’s default Hostname is home.gateway

.

IPSec: Enable for enhancing your L2TP VPN security.

Authentication: Authentication establishes the integrity of the datagram and ensures it is not tampered with in transmit. There are three options, Message Digest 5 (MD5), Secure Hash

Algorithm (SHA1) or NONE. SHA1 is more resistant to brute-force attacks than MD5, however it is slower.

MD5: A one-way hashing algorithm that produces a 128−bit hash.

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SHA1: A one-way hashing algorithm that produces a 160−bit hash.

Encryption: Select the encryption method from the pull-down menu. There are four options, DES,

3DES, AES and NULL. NULL means it is a tunnel only with no encryption. 3DES and AES are more powerful but increase latency.

DES: Stands for Data Encryption Standard, it uses 56 bits as an encryption method.

3DES: Stands for Triple Data Encryption Standard, it uses 168 (56*3) bits as an encryption method.

AES: Stands for Advanced Encryption Standards, it uses 128 bits as an encryption method.

Perfect Forward Secrecy: Choose whether to enable PFS using Diffie-Hellman public-key cryptography to change encryption keys during the second phase of VPN negotiation. This function will provide better security, but extends the VPN negotiation time. Diffie-Hellman is a public-key cryptography protocol that allows two parties to establish a shared secret over an unsecured communication channel (i.e. over the Internet). There are three modes, MODP 768-bit, MODP

1024-bit and MODP 1536-bit. MODP stands for Modular Exponentiation Groups.

Pre-shared Key: This is for the Internet Key Exchange (IKE) protocol, a string from 4 to 128 characters. Both sides should use the same key. IKE is used to establish a shared security policy and authenticated keys for services (such as IPSec) that require a key. Before any IPSec traffic can be passed, each router must be able to verify the identity of its peer. This can be done by manually entering the pre-shared key into both sides (router or hosts).

Click Edit/Delete to save your changes.

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Example: Configuring a L2TP VPN - Remote Access Dial-in Connection

A remote worker establishes a L2TP VPN connection with the head office using Microsoft's VPN

Adapter (included with Windows XP/2000/ME, etc.). The router is installed in the head office, connected to a couple of PCs and Servers.

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Configuring L2TP VPN in the Office

The input IP address 192.168.1.200 will be assigned to the remote worker. Please make sure this

IP is not used in the Office LAN.

Name

Connection Type

Function

VPN_L2TP

Remote Access

Type

IP Address

Username

Password

Auth. Type

IPSec

Authentication

Encryption

Perfect Forward

Secrecy

Pre-Shared Key

Dial in

192.168.1.200 username

123456

Chap (Auto)

Enable

MD5

3DES

None

12345678

Description

Give a name of L2TP Connection

Select Remote Access from the Connection Type drop-down menu

Select Dial in from the Type drop down menu

An IP assigned to the remote client

Enter the username and password to authenticate a remote client

Keep this as the default value for most cases

Enable this to enhance your L2TP VPN security

Both sides should use the same value

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Example: Configuring a Remote Access L2TP VPN Dial-out Connection

A company’s office establishes a L2TP VPN connection with a file server located at a separate location. The router is installed in the office, connected to a couple of PCs and Servers.

131

Configuring L2TP VPN in the Office

The input IP address 192.168.1.200 will be assigned to the remote worker. Please make sure this

IP is not used in the Office LAN.

Name

Connection Type

Type

IP Address (or

Hostname)

Username

Password

Auth. Type

Function

VPN_L2TP

Remote Access

Dial out

69.121.1.33 username

123456

Chap (Auto)

Description

Give a name of L2TP Connection

Select Remote Access from the Connection Type drop-down menu

Select Dial out from the Type drop down menu

A Dialed Server IP

An assigned username and password

Keep this as the default value for most cases

IPSec

Authentication

Encryption

Perfect Forward

Secrecy

Enable

MD5

3DES

None

Enable this to enhance your L2TP VPN security

Both sides should use the same value

Pre-Shared Key 12345678

Example: Configuring your Router to Dial-in to the Server

Currently, Microsoft Windows operation system does not support L2TP incoming service.

Additional software may be required to set up your L2TP incoming service.

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L2TP Connection - LAN to LAN

L2TP VPN Connection

Name: A given name for the connection

Connection Type: Remote Access or LAN to LAN.

Type: Check Dial Out if you want your router to operate as a client (connecting to a remote VPN server, e.g. your office server), check Dial In to have it operate as a VPN server.

When configuring your router to establish a connection to a remote LAN, enter the remote Server

IP Address (or Hostname) you wish to connect to.

When configuring your router as a server to accept incoming connections, enter the Private IP

Address assigned to the Dial in User.

Peer Network IP: Enter Peer network IP address.

Netmask: Enter the subnet mask of peer network based on the Peer Network IP setting.

Username: If you are a Dial-Out user (client), enter the username provided by your Host. If you are a Dial-In user (server), enter your own username.

Password: If you are a Dial-Out user (client), enter the password provided by your Host. If you are a Dial-In user (server), enter your own password.

Authentication Type: Default is Auto if you want the router to determine the authentication type to use, or else manually specify CHAP (Challenge Handshake Authentication Protocol) or PAP

(Password Authentication Protocol) if you know which type the server is using (when acting as a client), or else the authentication type you want clients connecting to you to use (when acting as a server). When using PAP, the password is sent unencrypted, whilst CHAP encrypts the password before sending, and also allows for challenges at different periods to ensure that the client has not been replaced by an intruder.

Tunnel Authentication: This enables router to authenticate both the L2TP remote and L2TP host.

This is only valid when L2TP remote supports this feature.

Secret: The secure password length should be 16 characters which may include numbers and characters.

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Active as default route: Commonly used by the Dial-out connection which all packets will route through the VPN tunnel to the Internet; therefore, active the function may degrade the Internet performance.

Remote Host Name (Optional): Enter hostname of remote VPN device. It is a tunnel identifier from the Remote VPN device matches with the Remote hostname provided. If remote hostname matches, tunnel will be connected; otherwise, it will be dropped.

Cautious: This is only when the router performs as a VPN server. This option should be used by advanced users only.

Local Host Name (Optional): Enter hostname of Local VPN device that is connected / establishes a VPN tunnel. As default, Router’s default Hostname is home.gateway

.

IPSec: Enable for enhancing your L2TP VPN security.

Authentication: Authentication establishes the integrity of the datagram and ensures it is not tampered with in transmit. There are three options, Message Digest 5 (MD5), Secure Hash

Algorithm (SHA1) or NONE. SHA1 is more resistant to brute-force attacks than MD5, however it is slower.

MD5: A one-way hashing algorithm that produces a 128−bit hash.

SHA1: A one-way hashing algorithm that produces a 160−bit hash.

Encryption: Select the encryption method from the pull-down menu. There are four options, DES,

3DES, AES and NULL. NULL means it is a tunnel only with no encryption. 3DES and AES are more powerful but increase latency.

DES: Stands for Data Encryption Standard, it uses 56 bits as an encryption method.

3DES: Stands for Triple Data Encryption Standard, it uses 168 (56*3) bits as an encryption method.

AES: Stands for Advanced Encryption Standards, it uses 128 bits as an encryption method.

Perfect Forward Secrecy: Choose whether to enable PFS using Diffie-Hellman public-key cryptography to change encryption keys during the second phase of VPN negotiation. This function will provide better security, but extends the VPN negotiation time. Diffie-Hellman is a public-key cryptography protocol that allows two parties to establish a shared secret over an unsecured communication channel (i.e. over the Internet). There are three modes, MODP 768-bit, MODP

1024-bit and MODP 1536-bit. MODP stands for Modular Exponentiation Groups.

Pre-shared Key: This is for the Internet Key Exchange (IKE) protocol, a string from 4 to 128 characters. Both sides should use the same key. IKE is used to establish a shared security policy and authenticated keys for services (such as IPSec) that require a key. Before any IPSec traffic can be passed, each router must be able to verify the identity of its peer. This can be done by manually entering the pre-shared key into both sides (router or hosts).

Click Edit/Delete to save your changes.

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Example: Configuring L2TP LAN-to-LAN VPN Connection

The branch office establishes a L2TP VPN tunnel with head office to connect two private networks over the Internet. The routers are installed in the head office and branch office accordingly.

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Configuring L2TP VPN in the Head Office

The IP address 192.168.1.200 will be assigned to the router located in the branch office. Please make sure this IP is not used in the head office LAN.

Name

Connection Type

Function

HeadOffice

LAN to LAN

Type

IP Address

Peer Network IP

Username

Password

Auth. Type

IPSec

Authentication

Encryption

Perfect Forward

Secrecy

Pre-Shared Key

Dial in

192.168.1.200

192.168.0.0 username

123456

Chap (Auto)

Enable

MD5

3DES

None

12345678

Description

Give a name of L2TP Connection

Select LAN to LAN from the Connection Type drop-down menu

Select Dial in from the Type drop down menu

IP address assigned to branch office network

Branch office network

An assigned username and password to authenticate branch office network

Keep this as the default value for most cases

Enable this to enhance your L2TP VPN security

Both sides should use the same value

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Configuring L2TP VPN in the Branch Office

The IP address 69.1.121.30 is the Public IP address of the router located in head office. If you registered the DDNS (please refer to the DDNS section of this manual), you can also use the domain name instead of the IP address to reach the router.

Name

Connection Type

Function

BranchOffice

LAN to LAN

Type

IP Address (or

Hostname)

Peer Network IP

Netmask

Username

Password

Auth. Type

IPSec

Authentication

Encryption

Perfect Forward

Secrecy

Pre-Shared Key

Dial out

69.121.1.33

192.168.1.0

255.255.255.0 username

123456

Chap (Auto)

Enable

MD5

3DES

None

12345678

Description

Give a name of L2TP Connection

Select LAN to LAN from the Connection Type drop-down menu

Select Dial out from the Type drop down menu

IP address assigned to branch office network

Head office network

An assigned username and password to authenticate branch office network

Keep this as the default value for most cases

Enable this to enhance your L2TP VPN security

Both sides should use the same value

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VoIP - Voice over Internet Protocol

VoIP enables telephone calls through existing Internet connection instead of going through the

PSTN (Public Switched Telephone Network). It is not only cost-effective, especially for a long distance telephone charges, but also toll-quality voice calls over the Internet.

Here are the items within the VoIP section: SIP Device Parameters, SIP Accounts, Phone Port,

PSTN Dial Plan, VoIP Dial Plan, Call Features, Speed Dial and Ring &Tone.

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SIP Device Parameters

This section provides easy setup for your VoIP service. Phone port 1 and 2 can be registered to different SIP Service Provider.

SIP Device Parameters

SIP: To use VoIP SIP as VoIP call signaling protocol. Default is set to Disable.

Silence Suppression (VAD): Voice Activation Detection (VAD) prevents transmitting the nature silence to consume the bandwidth. It is also known as Silence Suppression which is a software application that ensures the bandwidth is reserved only when voice activity is activated. Default is set to Enable.

Echo Cancellation: G.168 echo canceller is an ITU-T standard. It is used for isolating the echo while you are on the phone. This helps you not to hear much of your own voice reflecting on the phone while you talk. Default is set to Enable.

RTP Port: Provide the based value from the media (RTP) ports that are assigned for various endpoints and the different call sessions that may exist within an end-point. (Range from 5100 to

65535, default value is 5100)

Region: This selection is a drop-down box, which allows user to select the country for which the

VoIP device must work. When a country is selected, the country parameters are automatically loaded.

Voice QoS, DSCP Marking: Differentiated Services Code Point (DSCP), it is the first 6 bits in the

ToS byte. DSCP Marking allows users to assign specific application traffic to be executed in priority by the next Router based on the DSCP value. See Table 4. The DSCP Mapping Table:

Note: To be sure the router(s) in the backbones network have the capability in executing and checking the DSCP through-out the QoS network.

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Advanced – Parameters

VoIP through IP Interface: IP Interface decides where to send/receive the voip traffic; it includes: ipwan and iplan. Easy way to select the interface is to check the location of the SIP server. If it locates some where in the Internet then select ipwan. If the VoIP SIP server is on the local

Network then select iplan.

Voice Frame Size: Frame size is available from 10ms to 60ms. Frame size meaning how many milliseconds the Voice packets will be queued and sent out. It is ideal to have the same frame size in both of Caller and Receiver.

Dial Plan Priority: Define the priority between VoIP and PSTN dial plan.

PSTN Auto-fallback: Whenever VoIP SIP responses error and error code matching with the codes in the Edit section, the VoiP calls will automatically fallback to PSTN. In the other word, the call will be called via the PSTN when VoIP SIP returns an error code.

Click the Edit to add or remove the responses code. To be sure the code is separated by a comma

(,).

For more information about SIP responses codes, please check

to link to http://voip-info. org/wiki/view/sip+response+codes where you can get to know the meaning of each error code.

T.38 Fax Relay: It allows the transfer of facsimile documents in real-time between two standard

Group 3 facsimile terminals over the Internet or other networks using IP protocols. It will only function when both sites are support this feature and enabled.

Advanced – PSTN Environment Adjustment

PSTN Environment Adjustment options will help you to adjust the onhook and offhook voltage detection values for your environment. You should use these if the default values are incorrect and result in PSTN calls not being detected properly, e.g. calls being terminated within 5 seconds of being answered. The actual levels are determined by your environment including the number and type of telephones used.

Note: ONHOOK means hung up.

140

To take your phone OFFHOOK, lift the receiver then press Hook/Flash until you hear your normal

PSTN dialtone, not your VoIP dialtone. Wait several seconds and then press Check Level.

You should check the OFFHOOK value for each telephone you have connected to this device. Set the OFFHOOK voltage to the lowest setting registered for all your telephones, e.g. if your telephones return values of 4, 5 and 7 then you should set your OFFHOOK voltage to 4.

Note: The detected values will not automatically be set by the Check Level function; you must enter the lowest level detected after testing all your telephones.

141

SIP Accounts

This section reflects and contains basic settings for the VoIP module from selected provider in the

Wizard section. Fail to provide correct information will halt making calls out to the Internet.

Profile Name: User-defined name is for identifying the Profile.

Registrar Address (or Hostname): Indicate the VoIP SIP registrar IP address.

Registrar Port: Specify the port of the VoIP SIP registrar on which it will listen for register requests from VoIP device.

Expire: Expire time for the registration message sending.

User Domain/Realm: Set different domain name for the VoIP SIP proxy server.

Outbound Proxy Address: Indicate the VoIP SIP outbound proxy server IP address. This parameter is very useful when VoIP device is behind a NAT.

Outbound Proxy Port: Specify the port of the VoIP SIP outbound proxy on which it will listen for messages.

Phone Number: This parameter holds the registration ID of the user within the VoIP SIP registrar.

Username: Same as Phone Number.

Password: This parameter holds the password used for authentication within VoIP SIP registrar.

Display Name: This parameter will be appeared on the Caller ID.

Direct in Dial: Select the ringing port when getting an incoming VoIP call.

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Phone Port

This section displays status and allows you to edit the account information of your Phones. Click

Edit to update your phone information.

Port: It allows you to change the phone port setting for specify FXS port.

*69 (Return Call): Dial *69 to return the last missed call. It is only available for VoIP call(s).

*20 (Do not Disturb ON): Dial *20 to set the No Disturb on. Your phone will not ring if someone calls.

*80 (Do not Disturb OFF): Dial *80 to set the No Disturb off. Your will be able to hear ring tone when someone calls.

*90x (Blind Call Transfer): Dial *90 + phone-number to translate a call to a third party. This feature is enabled by default.

x# Speed Dial (x:2..9): Refer to Phone Port section in the Web GUI. Set up your Speed Dial phone book first before accessing the Speed Dial feature. It is enabled by default.

## Redial: Press ## to redial the latest number you dialed. This feature is enabled by default.

*74<x><number>#: Use your phone key pad to insert a phone number to the Speed Dial phone book. Or you can update your Speed Dial phone number manually. Refer to the Phone Port section in the Web GUI for details.

*67 Anonymous Call: Hide the own phone number for each call and it will not be displayed on the remote site. It is only applied to the next call when you enter this control character. The detailed operation procedure is “Off Hook -> *67 -> On Hook -> Off Hook -> Dial”. This feature is disabled by default.

Phone Number + #: This is the fast dial which you can dial out a phone number immediately without waiting.

Note: Refer to Special Dial Code section in this Manual for more details.

143

Codec Preference

Codec is known as Coder-Decoder used for data signal conversion. Set the priority of voice compression; Priority 1 owns the top priority.

G.729: It is used to encoder and decoder voice information into a single packet which reduces the bandwidth consumption.

G.711μ-LAW: It is a basic non-compressed encoder and decoder technique. μ-LAW uses pulse code modulation (PCM) encoder and decoder to convert 14-bit linear sample.

G.711A-LAW: It is a basic non-compressed encoder and decoder technique. A-LAW uses pulse code modulation (PCM) encoder and decoder to convert 13-bit linear sample.

G.726-32: It is used to encoder and decoder voice information into a single packet which reduces the bandwidth consumption. Currently only supports bit rate with 32Kbps.

DTMF Method: The Inband, RFC 2833 and SIP INFO (RFC 2976) are supported.

Volume Control

Volume control helps you to adjust the voice quality of telephone to the best comfortable listening level.

Press “-“, the minus sign, to reduce either microphone or/both speaker’s level of your telephone.

Press “+“, the plus sign, to increase either microphone or/both speaker’s level of your telephone.

144

PSTN Dial Plan (Router with LINE port only)

This section enables you to configure “VoIP with PSTN switching” on your system. You can define a range of dial plans to make regular call from VoIP switching to PSTN line. Prefix numbers is essential key to make a distinguishing between VoIP and Regular phone call. If actual numbers dialed matches with prefix number defined in this dial plan, the dialed number will be routed to the

PSTN to make a regular call. Otherwise, the number will be routed to the VoIP networks.

Reminder! In order to utilize this feature, you must have registered and connected to your

SIP Server first.

Prefix: Specify number(s) for switching to a PSTN call.

Number of Digits: Specify the total number of digits wish to dial out. Maximum digit number is 15.

Action: Specify a dialing method you wish to make PSTN call(s).

Dial with Prefix: The dialed number with prefix will be sent call through the PSTN.

Note: The actual dialed number of valid digits length requires matching in the Number of

Digits filed.

Dial without Prefix: The dialed number will be sent call through the PSTN without prefix.

Note: The actual dialed number of valid digits length requires matching in the Number of

Digits filed.

Dial at Timeout: The dialed number will be sent call through the PSTN with the prefix when timeout starts. This timeout activates when no more digits are dialed in a specific duration.

Note: The actual dialed number of valid digits length MUST NOT exceed in the Number of

Digits filed.

Dial at Timeout no Prefix: The dialed number will be sent call through the PSTN without prefix when timeout starts. This timeout activates when no more digits are dialed in a specific duration.

Note: The actual dialed number of valid digits length MUST NOT exceed in the Number of

Digits filed.

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PSTN Dial Plan Examples:

1. Dial with Prefix

If you dial 01223 707070, number 01223707070 will be dialed out via FXO to make a regular phone call.

2. Dial without Prefix

If you dial 9102, the number 102 will only be dialed out via FXO port to make a regular phone call.

147

3. Dial at Timeout

If you only dial 01223 7070 and no more numbers, after the timeout activates, 012237070 will be dialed to make a regular call via FXO port.

148

Even though 7070 (only 4 digits) does not match with number of digits 6 defined in the filed, 7070 is still a valid phone number since it has not exceeded 6 digits.

4. Dial at Timeout no Prefix

If you only dial 97070 and no more numbers, after the timeout activates, 7070 will be dialed without prefix to make a regular call via FXO port.

Even though 7070 (only 4 digits) does not match with number of digits 6 defined in the filed, 7070 is still a valid phone number since it has not exceed 6 digits.

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VoIP Dial Plan

This section helps you to make a telephony number dialed as making a regular call via VoIP.

You no longer need to memorize a long dial string of number for making a VoIP call. Go to

Configuration > VoIP > VoIP Dial Plan.

Dial Plan Rules

Click the Add button to create and define a VoIP dial-plan rule(s).

Prefix Processing:

Prepend xxx unconditionally: xxx number is appended unconditionally to the front of the dialing number when making a call. Prefix can also be included with any number and/or character such as

+, *, #.

Note: For special service with +, *, #, you may need to check with your VoIP or Local Telephone

Service Provider for information.

If Prefix is xxx, delete it: Prefix xxx is removed from the dialing numbers before making a call.

If Prefix is xxx, replace with: Prefix xxx is appended to the front of the dialing numbers when making a call.

No prefix: No prefix is appended to the front of the dialing numbers. It is set as in default settings.

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Main Digit Sequence: The call(s) can be called out via SIP or PSTN or ENUM.

x: Any numeric number between 0 and 9.

. ( period ): Repeat numeric number(s) between 0 and 9.

* (asterisk sign): It is normal character ‘*’ on phone key pad. Please check if special service(s) is provided by your VoIP Service Provider or your Local Telephone Service Provider.

# (pound sign): It is normal character ‘#’ on phone key pad. Please check if it is provided by your

VoIP Service Provider or Local Telephone Service Provider for special service(s).

<@ Current Profile>: Referring to the VoIP account registered on the VoIP Wizard for Port 1 / 2.

<@ PSTN>: Meaning making call(s) via the PSTN line.

<@ENUM>: Meaning making a VoIP SIP direct call via E.164 number (“ENUM”) to an ENUM callee.

Electronic Number (ENUM) uses the DNS (Domain Network System) based technology to map between a traditional phone number (PSTN) to an Internet addresses/ SIP URL. The ENUM number must be registered via a public ENUM site or your VoIP Service Provider.

<@ SIPgateway>: It is used for the Intelligent Call Routing feature where you need to set up your SIP account on the VoIP User-defined Profiles link on the VoIP Wizard page. Go to the VoIP

Wizard in this manual for more information.

Dial-Plan Examples: Description x.

Any digit number between 0 and 9 in variable length. Maximum length is 16. xxx

Any 3 digit number only between 0 and 9. Total length is 3.

Note: No period is needed (.) xxxx.

123x.

Any number between 0 and 9 with variable length but no shorter than 3 digits. Maximum length is 16.

Any number (0-9) starting with 123. Maximum length is 16.

[x…x]x.

For example: [124]x.

[x-x]x.

For example: [1-3]x. x[x-x]x.

For example: 9[4-6]8x.

Any number (0-9) starting with 1 or 2 or 4. Maximum length is

16.

Any number (0-9) starting with number 1 to 3. Maximum length is

16.

Any number (0-9) starting with 9, the second number between

4-6, and third number 8. Maximum length is 16.

*xx*x.

Special Dial Plan

Examples:

Description

Starting with ‘* sign’ + any two digit numbers + any number (0-9) in variable length. Maximum length is 16.

*xx

Starting with ‘* sign’ + any 2 digit numbers between 0 and 9. Total length including the * is 3.

Note: No period is needed (.)

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**xx*x.

#xx.

##xx*x.

Starting with ‘** sign’ + any two digit numbers between 0 + any number (0-9) in variable length. Maximum length is 16.

Starting with ‘# sign’ + any digit number (0-9) in variable length but no shorter than 1 digits. Maximum length is 16.

Starting with ‘## sign’ + any two digit numbers + ‘* sign’ + any number (0-9) in variable length. Maximum length is 16.

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Call Feature

VoIP has all the basic features of a traditional phone. Besides the provided basic features, VoIP also comes with several enhanced features that allows you to further customize their settings to suit your personal needs such as call forwarding setting, call waiting time length, conference call feature, anonymous call feature and incoming no answer timer.

Speed Dial

Speed Dial comes in handy to store frequently used telephone numbers which you can press number from 0 to 9 and the pound sign (#) on the phone keypad to activate the function. For example, speed dial to phone number lists on 9, just press keypad 9 then #. Your router will automatically call out to number listed on entry 9.

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Ring & Tone

This section allows advanced user to change the existing or newly defined parameters for the various ring tones (dial tone, busy tone, answer tone and etc.)

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Country Specific Ring & Tone

Region: Select a country ring-tone, from the drop-down list, where you are located. This VoIP router provides default parameter of ring tones according to different countries. The ring-tone parameters are automatically displayed after entering a specific country. If your country is not in the list, you may manually create ring-tone parameters.

Ring Parameters

Ring Cadence (in ms): Ring cadence is defined by three fields, Frequency: On Time1, Off Time1,

On Time2, Off Time2 and On Time3, Off Time3. Frequency is specified in Hertz. Time is given in milliseconds.

Tone Parameters

You may need to check with your local telephone service provider for such information. Also, it is recommended that this option be configured by advanced user unless you are instructed to do so.

Click Apply to apply the settings.

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QoS - Quality of Service

QoS function helps you to control your network traffic for each application from LAN (Ethernet and/or Wireless) to WAN (Internet). It facilitates you to control the different quality and speed of through put for each application when the system is running with full loading of upstream.

Here are the items within the QoS section: Prioritization, Outbound IP Throttling & Inbound IP

Throttling (bandwidth management).

Prioritization

There are three priority settings to be provided in the Router:

High

Normal (The default is normal priority for all of traffic without setting)

Low

And the balances of utilization for each priority are High (60%), Normal (30%) and Low (10%).

To delete the application, you can choose Delete option and then click Edit/Delete.

Name: User-define description to identify this new policy/application.

Time Schedule: Scheduling your prioritization policy.

Priority: The priority given to each policy/application. Its default setting is set to High; you may adjust this setting to fit your policy/application.

Protocol: The name of supported protocol.

Source IP Address Range: The source IP address or range of packets to be monitored.

Source Port: The source port of packets to be monitored.

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Destination IP address Range: The destination IP address or range of packets to be monitored.

Destination Port: The destination port of packets to be monitored.

DSCP Marking: Differentiated Services Code Point (DSCP), it is the first 6 bits in the ToS byte.

DSCP Marking allows users to assign specific application traffic to be executed in priority by the next Router based on the DSCP value. See Table 4 for DSCP Mapping Table .

Note: To be sure the router(s) in the backbones network have the capability in executing and checking the DSCP through-out the QoS network.

Table 4: DSCP Mapping Table

DSCP Mapping Table

(Wireless) ADSL Router

Disabled

Best Effort

Premium

Gold service (L)

Gold service (M)

Gold service (H)

Silver service (L)

Standard DSCP

None

Best Effort (000000)

Express Forwarding (101110)

Class 1, Gold (001010)

Class 1, Silver (001100)

Class 1, Bronze (001110)

Class 2, Gold (010010)

Silver service (M)

Silver service (H)

Bronze service (L)

Class 2, Silver (010100)

Class 2, Bronze (010110)

Class 3, Gold (011010)

Bronze service (M) Class 3, Silver (011100)

Bronze service (H) Class 3, Bronze (011110)

Outbound IP Throttling (LAN to WAN)

IP Throttling allows you to limit the speed of IP traffic. The value entered will limit the speed of the application that you set to the specified value’s multiple of 32kbps.

Name: User-define description to identify this new policy/name.

Time Schedule: Scheduling your prioritization policy. Refer to Time Schedule for more information.

Protocol: The name of supported protocol.

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Rate Limit: To limit the speed of outbound traffic

Source IP Address Range: The source IP address or range of packets to be monitored.

Source Port(s): The source port of packets to be monitored.

Destination IP Address Range: The destination IP address or range of packets to be monitored.

Destination Port(s): The destination port of packets to be monitored.

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Inbound IP Throttling (WAN to LAN)

IP Throttling allows you to limit the speed of IP traffic. The value entered will limit the speed of the application that you set to the specified value’s multiple of 32kbps.

Name: User-define description to identify this new policy/application.

Time Schedule: Scheduling your prioritization policy. Refer to Time Schedule for more information.

Protocol: The name of supported protocol.

Rate Limit: To limit the speed of for inbound traffic.

Source IP Address Range: The source IP address or range of packets to be monitored.

Source Port(s): The source port of packets to be monitored.

Destination IP Address Range: The destination IP address or range of packets to be monitored.

Destination Port(s): The destination port of packets to be monitored.

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Example: QoS for your Network

Connection Diagram

VoIP

Normal PCs

Restricted PC

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Information and Settings

Upstream: 928 kbps

Downstream: 8 Mbps

VoIP User : 192.168.1.1

Normal Users : 192.168.1.2~192.168.1.5

Restricted User: 192.168.1.100

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Mission-critical application

Mostly the VPN connection is mission-critical application for doing data exchange between head and branch office.

The mission-critical application must be sent out smoothly without any dropping. Set priority as high level for preventing any other applications to saturate the bandwidth.

Voice application

Voice is latency-sensitive application. Most VoIP devices are use SIP protocol and the port number will be assigned by SIP module automatically. Better to use fixed IP address for catching VoIP packets as high priority.

Above settings will help to improve quality of your VoIP service when traffic is full loading.

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Restricted Application

Some of companies will setup FTP server for customer downloading or home user sharing their files by using FTP.

With above settings that help to limit utilization of upstream of FTP. Time schedule also help you to only limit utilization at daytime.

Advanced setting by using IP throttling

With IP throttling you can specify more detail for allocating bandwidth; even the applications are located in the same level.

Upstream: 928kbps (29*32kbps)

Mission-critical Application: 192kbps (6*32kbps)

Voice Application: 128kbps (4*32kbps)

Restricted Application: 160kbps (5*32kbps)

Other Applications: 448kbps (14*32kbps)

6+4+14+5=29, 29*32kbps=928kbps

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Sometime your customers or friends may upload their files to your FTP server and that will saturate your downstream bandwidth. The settings below help you to limit bandwidth for the restricted application.

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Virtual Server (known as Port Forwarding)

In TCP/IP and UDP networks a port is a 16-bit number used to identify which application program

(usually a server) incoming connections should be delivered to. Some ports have numbers that are pre-assigned to them by the IANA (the Internet Assigned Numbers Authority), and these are referred to as “well-known ports”. Servers follow the well-known port assignments so clients can locate them.

If you wish to run a server on your network that can be accessed from the WAN (i.e. from other machines on the Internet that are outside your local network), or any application that can accept incoming connections (e.g. Peer-to-peer/P2P software such as instant messaging applications and

P2P file-sharing applications) and are using NAT (Network Address Translation), then you will usually need to configure your router to forward these incoming connection attempts using specific ports to the PC on your network running the application. You will also need to use port forwarding if you want to host an online game server.

The reason for this is that when using NAT, your publicly accessible IP address will be used by and point to your router, which then needs to deliver all traffic to the private IP addresses used by your

PCs. Please see the WAN configuration section of this manual for more information on NAT.

The device can be configured as a virtual server so that remote users accessing services such as

Web or FTP services via the public (WAN) IP address can be automatically redirected to local servers in the LAN network. Depending on the requested service (TCP/UDP port number), the device redirects the external service request to the appropriate server within the LAN network

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Porting Forwarding

Because NAT can act as a “natural” Internet firewall, your router protects your network from being accessed by outside users when using NAT, as all incoming connection attempts will point to your router unless you specifically create Virtual Server entries to forward those ports to a PC on your network.

When your router needs to allow outside users to access internal servers, e.g. a web server, FTP server, Email server or game server, the router can act as a “virtual server”. You can set up a local server with a specific port number for the service to use, e.g. web/HTTP (port 80), FTP (port 21),

Telnet (port 23), SMTP (port 25), or POP3 (port 110), When an incoming access request to the router for a specified port is received, it will be forwarded to the corresponding internal server.

Application: Users-define description to identify this entry or click the Application drop-down menu to select an existing predefined rules.

: 20 predefined rules are available. Application, Protocol and External/Redirect Ports will be filled after the selection.

Protocol: It is the supported protocol for the virtual server. In addition to specifying the port number to be used, you will also need to specify the protocol used. The protocol used is determined by the particular application. Most applications will use TCP or UDP.

Time Schedule: User-defined time period to enable your virtual server. You may specify a time schedule or Always on for the usage of this Virtual Server Entry. For setup and detail, refer to

Time Schedule section

External Port: The Port number on the Remote/WAN side used when accessing the virtual server.

Redirect Port: The Port number used by the Local server in the LAN network.

Internal IP Address: The private IP in the LAN network, which will be providing the virtual server application. List all existing PCs connecting to the network. You may assign a PC with IP address and MAC from this list.

Example:

If you like to remote accessing your Router through the Web/HTTP at all time, you would need to enable port number 80 (Web/HTTP) and map to Router’s IP Address. Then all incoming HTTP requests from you (Remote side) will be forwarded to the Router with IP address of 192.168.1.254.

Since port number 80 has already been predefined, next to the Application click Helper. A list of predefined rules window will pop and select HTTP_Sever.

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Application: HTTP_Sever

Time Schedule: Always On

Protocol: tcp

External Port: 80-80

Redirect Port: 80-80

IP Address: 192.168.1.254

Add: Click it to apply your settings.

Edit/Delete: Click it to edit or delete this virtual server application.

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Edit DMZ Host

The DMZ Host is a local computer exposed to the Internet. When setting a particular internal

IP address as the DMZ Host, all incoming packets will be checked by the Firewall and NAT algorithms then passed to the DMZ host, when a packet received does not use a port number used by any other Virtual Server entries.

Cautious: This Local computer exposing to the Internet may face varies of security risks.

Go to Configuration > Virtual Server > Edit DMZ Host

Enabled: It activates your DMZ function.

Disabled: As set in default setting, it disables the DMZ function.

Internal IP Address: Give a static IP address to the DMZ Host when Enabled radio button is checked. Be aware that this IP will be exposed to the WAN/Internet. this list.

List all existing PCs connecting to the network. You may assign a PC with IP address from

Select the Apply button to apply your changes.

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Edit One-to-One NAT (Network Address Translation)

One-to-One NAT maps a specific private/local IP address to a global/public IP address.

If you have multiple public/WAN IP addresses from you ISP, you are eligible for One-to-One NAT to utilize these IP addresses.

Go to Configuration > Virtual Server > Edit One-to-one NAT

NAT Type: Select desired NAT type. As set in default setting, it disables the One-to-One NAT function.

Global IP Address:

Subnet: The subnet of the public/WAN IP address given by your ISP. If your ISP has pro- vided this information, you may insert it here. Otherwise, use IP Range method.

IP Range: The IP address range of your public/WAN IP addresses. For example, IP:

192.168.1.1, end IP: 192.168.1.10

Select the Apply button to apply your changes.

Check

to create a new One-to-One NAT rule:

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Application: Users-defined description to identify this entry or click select existing predefined rules.

drop-down menu to

: 20 predefined rules are available. Application, Protocol and External/Redirect Ports will be filled after the selection.

Protocol: It is the supported protocol for the virtual server. In addition to specifying the port number to be used, you will also need to specify the protocol used. The protocol used is determined by the particular application. Most applications will use TCP or UDP;

Time Schedule: User-defined time period to enable your virtual server. You may specify a time schedule or Always on for the usage of this Virtual Server Entry. For setup and detail, refer to Time

Schedule section

Global IP: Define a public/ WAN IP address for this Application to use. This Global IP address must be defined in the Global IP Address.

External Port: The Port number on the Remote/WAN side used when accessing the virtual server.

Redirect Port: The Port number used by the Local server in the LAN network.

Internal IP Address: The private IP in the LAN network, which will be providing the virtual server application. address from this list.

List all existing PCs connecting to the network. You may assign a PC with IP

Select the Add button to apply your changes.

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53

69

80

110

119

123

20

21

22

23

25

Example: List of some well-known and registered port numbers.

The Internet Assigned Numbers Authority (IANA) is the central coordinator for the assignment of unique parameter values for Internet protocols. Port numbers range from 0 to 65535, but only ports numbers 0 to 1023 are reserved for privileged services and are designated as “well-known ports” (Please refer to Table 5). The registered ports are numbered from 1024 through 49151.

The remaining ports, referred to as dynamic or private ports, are numbered from 49152 through

65535.

For further information, please see IANA’s website at http://www.iana.org/assignments/port- numbers

For help on determining which private port numbers are used by common applications on this list, please see the FAQs (Frequently Asked Questions) at http://www.billion.com

Table 5: Well-known and registered Ports

Port Number Protocol Description

161

443

1503

1720

4000

7070

TCP

TCP

TCP & UDP

TCP

TCP

TCP & UDP

UDP

TCP

TCP

TCP

UDP

TCP

TCP & UDP

TCP

TCP

TCP

UDP

FTP Data

FTP Control

SSH Remote Login Protocol

Telnet

SMTP (Simple Mail Transfer Protocol)

DNS (Domain Name Server)

TFTP (Trivial File Transfer Protocol)

World Wide Web HTTP

POP3 (Post Office Protocol Version 3)

NEWS (Network News Transfer Protocol)

NTP (Network Time Protocol) / SNTP (Simple Network

Time Protocol)

SNMP

HTTPS

T.120

H.323

ICQ

RealAudio

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Wake on LAN

Wake on LAN (WOL, sometimes WoL) is an Ethernet computer networking standard that allows a computer to be turned on or woken up remotely by a network message.

Select: Select MAC address of the computer that you want to wake up or turn on remotely.

Add: After selecting, click Add then you can perform the Wake-up action.

Edit/Delete: Click to edit or delete the selected MAC address.

Ready:

“Yes” indicating the remote computer is ready for your waking up.

No” indicating the machine is not ready for your waking up.

Delete: Delete the selected MAC address.

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Time Schedule

The Time Schedule supports up to 16 time slots which helps you to manage your Internet connection. In each time profile, you may schedule specific day(s) i.e. Monday through Sunday to restrict or allowing the usage of the Internet by users or applications.

This Time Schedule correlates closely with router’s time, since router does not have a real time clock on board; it uses the Simple Network Time Protocol (SNTP) to get the current time from an

SNTP server from the Internet. Refer to Time Zone for details. You router time should correspond with your local time. If the time is not set correctly, your Time Schedule will not function properly.

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Configuration of Time Schedule

Edit a Time Slot

1. Choose any Time Slot (ID 1 to ID 16) to edit, click Edit radio button.

Note: Watch it carefully, the days you have selected will present in capital letter. Lower case letter shows the day(s) is not selected, and no rule will apply on this day(s).

2.

A detailed setting of this Time Slot will be shown.

ID: This is the index of the time slot.

Name: A user-define description to identify this time portfolio.

Day in a week: The default is set from Monday through Friday. You may specify the days for the schedule to be applied.

Start Time: The default is set at 8:00 AM. You may specify the start time of the schedule.

End Time: The default is set at 18:00 (6:00PM). You may specify the end time of the schedule.

Choose Edit radio button and click Edit/Delete button to apply your changes.

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Delete a Time Slot

Select the Delete radio button of the selected Time Slot under the Time Slot section, and click the

Edit/Delete button to confirm the deletion of the selected Time profile, i.e. erase the Day and back to default setting of Start Time / End Time.

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Advanced

Configuration options within the Advanced section are for users who wish to take advantage of the more advanced features of the router. Users who do not understand the features should not attempt to reconfigure their router, unless advised to do so by support staff.

Here are the items within the Advanced section: Static Route, Static ARP, Dynamic DNS,

Device Management, IGMP and VLAN Bridge.

Static Route

Go to Configuration > Advanced > Static Route.

Destination: This is the destination subnet IP address.

Netmask: Subnet mask of the destination IP addresses based on above destination subnet IP.

Gateway: This is the gateway IP address to which packets are to be forwarded.

Interface: Select the interface through which packets are to be forwarded.

Cost: This is the same meaning as Hop. This should usually be left at 1.

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Static ARP

Go to Configuration > Advanced > Static ARP.

IP Address: Fill in the IP address of the host computer that is sending the data packet.

MAC Address: Fill in the MAC address of the computer that the incoming data packets are to be forwarded.

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Dynamic DNS

The Dynamic DNS function allows you to alias a dynamic IP address to a static hostname, allowing users whose ISP does not assign them a static IP address to use a domain name. This is especially useful for hosting servers via your ADSL connection, so that anyone wishing to connect to you may use your domain name, rather than having to use your dynamic IP address, which changes from time to time. This dynamic IP address is the WAN IP address of the router, which is assigned to you by your ISP.

You will first need to register and establish an account with the Dynamic DNS provider using their website, for example http://www.dyndns.org/

There are more than 5 DDNS services supported.

Dynamic DNS:

Disable: Check to disable the Dynamic DNS function.

Enable: Check to enable the Dynamic DNS function. The following fields will be activated and required.

Dynamic DNS Server: Select the DDNS service you have established an account with.

Domain Name, Username and Password: Enter your registered domain name and your username and password for this service.

Period: Set the time period between updates, for the Router to exchange information with the DDNS server. In addition to updating periodically as per your settings, the router will perform an update when your dynamic IP address changes.

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Device Management

The Device Management advanced configuration settings allow you to control your router’s security options and device monitoring features.

Device Host Name

Host Name: Assign it a name.

(The Host Name cannot be used with one word only. There are two words should be connected with a ‘.’ at least.

Example:

Host Name: homegateway ==> Incorrect

Host Name: home.gateway or my.home.gateway ==> Correct)

Embedded Web Server ( 2 Management IP Accounts)

HTTP Port: This is the port number the router’s embedded web server (for web-based configuration) will use. The default value is the standard HTTP port, 80. Users may specify an alternative if, for example, they are running a web server on a PC within their

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LAN.

Management IP Address: You may specify an IP address allowed to logon and access the router’s web server. Setting the IP address to 0.0.0.0 will disable IP address restrictions, allowing users to login from any IP address.

Expire to auto-logout: Specify a time frame for the system to auto-logout the user’s configuration session.

For Example: User A changes HTTP port number to 100, specifies their own IP address of

192.168.1.55, and sets the logout time to be 100 seconds. The router will only allow User A access from the IP address 192.168.1.55 to logon to the Web GUI by typing: http://192.168.1.254:100 in their web browser. After 100 seconds, the device will automatically logout User A.

Universal Plug and Play (UPnP)

UPnP offers peer-to-peer network connectivity for PCs and other network devices, along with control and data transfer between devices. UPnP offers many advantages for users runningNAT routers through UPnP NAT Traversal, and on supported systems makes tasks such as port forwarding much easier by letting the application control the required settings, removing the need for the user to control advanced configuration of their device.

Both the user’s Operating System and the relevant application must support UPnP in addition to the router. Windows XP and Windows Me natively support UPnP (when the component is installed), and Windows 98 users may install the Internet Connection Sharing client from

Windows XP in order to support UPnP. Windows 2000 does not support UPnP.

Disable: Check to disable the router’s UPnP functionality.

Enable: Check to enable the router’s UPnP functionality.

UPnP Port: Its default setting is 2800. It is highly recommended for users to use this port value. If this value conflicts with other ports already being used you may wish to change the port.

SNMP Access Control (Software on a PC within the LAN is required in order to utilize this function) – Simple Network Management Protocol.

Disable: Check to disable the router’s SNMP functionality.

Enable: Check to enable the router’s SNMP functionality.

SNMP V1 and V2:

Read Community: Specify a name to be identified as the Read Community, and an IP address. This community string will be checked against the string entered in the configuration file. Once the string name is matched, user obtains this IP address will be able to view the data.

Write Community: Specify a name to be identified as the Write Community, and an IP address. This community string will be checked against the string entered in the configuration file. Once the string name is matched, users from this IP address will be able to view and modify the data.

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Trap Community: Specify a name to be identified as the Trap Community, and an IP address. This community string will be checked against the string entered in the configuration file. Once the string name is matched, users from this IP address will be sent

SNMP Traps.

SNMP V3:

Specify a name and password for authentication. And define the access right from identified IP address. Once the authentication has succeeded, users from this IP address will be able to view and modify the data.

SNMP Version: SNMPv2c and SNMPv3

SNMPv2c is the combination of the enhanced protocol features of SNMPv2 without the

SNMPv2 security. The “c” comes from the fact that SNMPv2c uses the SNMPv1 community string paradigm for “security”, but is widely accepted as the SNMPv2 standard.

SNMPv3 is a strong authentication mechanism, authorization with fine granularity for remote monitoring.

Traps supported: Cold Start, Authentication Failure.

The following MIBs are supported:

From RFC 1213 (MIB-II) dot1 dBase group

System group dot1 dTp group

Interface group dot1 dStp group (if configured as span- ning tree)

Address Translation group

IP group

From RFC 1471 (PPP/LCP MIB)

ICMP Group pppLink group pppLgr group (not applicable)

TCP group

UDP group

EGP (not applicable)

Transmission

SNMP group

From RFC 1650 (EtherLike-MIB) dot3stats

From RFC 1493 (Bridge MIB)

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From RFC 1472 (PPP/Security MIB)

PPP security group

From RFC 1473 (PPP/IP MIB)

PPP IP group

From RFC 1474 (PPP/Bridge MIB)

PPP Bridge group

From RFC 1573 (IfMIB) ifMIBObjects group

From RFC 1695 (atmMIB) atmMIBObjects

From RFC 1907 (SNMPv2) only snmpSetSerialNo OID

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IGMP

IGMP, known as Internet Group Management Protocol, is used to management hosts from multicast group.

IGMP Proxy: Enables or disables the router’s IGMP Proxy.

Upstream Interface: When IGMP Proxy enabled, sets one of the router’s existing IP interfaces as the upstream interface; all other router interfaces are designated downstream interfaces.

IGMP Forward All: Enables/Disables your router’s ability to forward multicast traffic to ALL interfaces.

IGMP Snooping: Enables/Disables the IGMP Snoop functionality in the bridge. When the IGMP snoop functionality is enabled, all the attached bridge interfaces are designated as downstream interfaces.

MLD

MLD, short for Multicast Listener Discovery protocol, is a component if the Internet Protocol version 6(IPv6) suite. MLD is used by IPv6 to discover multicast listeners on a directly attached link, much as IGMP used in

IPv4. The protocol is embedded in ICMPv6 instead of using a separate protocol. MLDv1 is similar to IGMPv2 and MLDv2 is similar to IGMPv3.

MLD Proxy: check whether to enable this function. MLD (Multicast Listener Discovery Protocol) Proxy intercepts the MLD request from Clients and forwards it to the router after some dealings. Support MLDv1 and

MLDv2.

Upstream Interface: When MLD Proxy enabled, sets one of the router’s existing IP interfaces as the upstream interface; all other router interfaces are designated downstream interfaces.

MLD Forward All: select enable to forward the multicast packets to all ports. If select disable, the multicast packets will be forwarded to ports set according to the MLD Snooping below.

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MLD Snooping: similar to IGMP snooping, listens in on the MLD conversation between hosts and routers by processing MLD packets sent in a multicast network, and it analyzes all MLD packets between hosts and the connected multicast routers in the network. Without MLD snooping, multicast traffic is treated in the same manner as broadcast traffic - that is, it is forwarded to all ports. With MLD snooping, multicast traffic of a group is only forwarded to ports that have members of that group.

VLAN Bridge

This section allows you to create VLAN group and specify the member.

Edit: Edit your member ports in selected VLAN group.

Create VLAN: To create another VLAN group.

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Logout

To exit the router web interface, choose Logout. Please save your configuration setting before logging out of the system.

Be aware that the router configuration interface can only be accessed by one PC at a time.

Therefore when a PC has logged into the system interface, the other users cannot access the system interface until the current user has logged out of the system. If the previous user forgets to logout, the second PC can only access the router web interface after a user-defined auto logout period which is by default 3 minutes. You can however modify the value of the auto logout period using the Advanced > Device Management section of the router web interface. Please see the

Advanced section of this manual for more information.

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Chapter 5: Troubleshooting

If your router is not functioning properly, please refer to the suggested solutions provided in this chapter. If your problems persist or the suggested solutions do not meet your needs, please kindly contact your service provider or Billion for support.

Problems with the router

Problem Suggested Action

None of the LEDs lit when the router is

turned on.

Check the connection between the router and the adapter. If the problem persists, most likely it is due to the malfunction of your hardware. Please contact your service provider or Billion for technical support.

You have forgotten your login username

or password

Try the default username "admin" and password

"admin". If this fails, you can restore your router to its factory settings by holding the Reset button on the back of your router more than 6 seconds

Problems with WAN interface

Problem Suggested Action

Initialization of PVC connection (line-

sync)fail

Frequent loss of ADSL linesync

(disconnection)

Make sure that the telephone cable is properly connected between the ADSL port and the wall jack.

The ADSL LED on the front panel should lit. Check that your VPI, VCI, encapsulation type and type of multiplexing settings are the same as those provided by your ISP. Reboot the router GE. If you still have problem, you may need to verify these settings with your ISP.

Make sure that all devices (e.g telephone, fax machine, analogue modems) that are connected to the telephone line as your router have a line filter connected between them and the wall outlet (unless you are using a Central Splitter or Central Filter installed by a qualified and licensed electrician). Make sure that all line filters are correctly installed as missing line filters or incorrect installation of line filters can cause ADSL connection problem, including frequent disconnections.

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Problem with LAN interface

Problem

Cannot PING any PC on LAN

Suggested Action

Check the Ethernet LEDs on the front panel. The LED should be on for the port that has a PC connected. If it does not lit, check to see if the cable between your router and the

PC is properly connected. Make sure you have first uninstalled your firewall program before troubleshooting.

Verify that the IP address and the subnet mask are consistent for both the router and the workstations.

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Appendix: Product Support & Contact

Following the suggestions listed in the Troubleshooting section of the user manual can help you solve most of your problems. However if your problems persist or you come across other technical issues that are not listed in the Troubleshooting section, please contact the dealer from where you purchased your product.

Contact Billion

Worldwide: http://www.billion.com

MAC OS is a registered Trademark of Apple Computer, Inc.

Windows 7/ 98, Windows NT, Windows 2000, Windows Me, Windows XP and Windows Vista are registered

Trademarks of Microsoft Corporation.

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Key Features

  • ADSL2+ broadband connectivity
  • 3G support
  • 802.11g wireless access point
  • VPN server and client
  • Firewall
  • VoIP capabilities

Frequently Answers and Questions

What is the default username and password for the router?
The default username and password are both "admin".
How do I connect to the router's web interface?
Open your web browser and enter the router's IP address, which is 192.168.1.254 by default.
What type of ADSL standards does the router support?
The router supports ADSL2/2+ and ADSL, with downstream rates up to 12/24 Mbps and 8 Mbps respectively.

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