Billion Electric 7300WX Wireless-N ADSL2+ Firewall Router User Manual User MAnual
Billion Electric Co., Ltd. Wireless-N ADSL2+ Firewall Router User MAnual
User MAnual
BiPAC 7300W
Wireless-N ADSL2+ Firewall Router
User Manual
Version Released: 1.02 (FW: v2.01.RC1)
Last Revised on April 14, 2010
Table of Contents
Chapter 1.................................................................................................................... 1
1.1 Introducing the BiPAC 7300W ............................................................... 1
1.2 Features ................................................................................................. 3
1.3 Hardware Specifications ......................................................................... 7
1.3 Applications of the BiPAC 7300W........................................................... 8
Chapter 2.................................................................................................................... 9
2.1 Important Notes...................................................................................... 9
2.2 Package Contents ................................................................................ 10
2.3 The Front LEDs .....................................................................................11
2.4 The Rear Ports ..................................................................................... 12
2.5 Cabling ................................................................................................. 14
Chapter 3.................................................................................................................. 15
3.1 Before Configuration............................................................................. 15
3.2 Network Configuration .......................................................................... 16
3.2.1 Configuring a PC in Windows 7.................................................. 16
3.2.2 Configuring a PC in Windows Vista............................................ 18
3.2.3 Configuring a PC in Windows XP ............................................... 20
3.2.4 Configuring a PC in Windows 2000............................................ 21
3.2.5 Configuring PC in Windows 98/Me............................................. 22
3.2.6 Configuring PC in Windows NT4.0 ............................................. 23
3.3 Factory Default Settings ....................................................................... 24
3.4 LAN and WAN Port Addresses ............................................................. 25
3.5 Information from your ISP..................................................................... 25
3.6 Configuring with your BiPAC 7300W .................................................... 26
Chapter 4.................................................................................................................. 30
4.2 Quick Start............................................................................................ 32
4.3 WAN ..................................................................................................... 33
4.4 WLAN ................................................................................................... 34
Chapter 5.................................................................................................................. 40
5.1 Status ................................................................................................... 41
5.1.1 ADSL Status....................................................................................... 43
5.1.2 ARP Table.......................................................................................... 44
5.1.3 DHCP Table....................................................................................... 44
5.1.4 System Log........................................................................................ 45
5.1.5 Firewall Log ....................................................................................... 46
5.1.6 UPnP Portmap................................................................................... 46
5.2 Quick Start............................................................................................ 47
5.3 Configuration ........................................................................................ 52
5.3.1 LAN (Local Area Network) ................................................................. 52
5.3.1.1 Ethernet................................................................................... 52
5.3.1.2 IP Alias .................................................................................... 53
5.3.1.3 Wireless................................................................................... 54
5.3.1.4 Wireless Security..................................................................... 57
5.3.1.5 WPS ........................................................................................ 61
5.3.1.6 DHCP Server........................................................................... 74
5.3.2 WAN (Wide Area Network) ................................................................ 76
5.3.2.1 WAN Profile............................................................................. 77
5.3.2.3 ADSL Mode ............................................................................. 86
5.3.3 System .............................................................................................. 87
5.3.3.1 Time Zone ............................................................................... 88
5.3.3.2 Firmware Upgrade................................................................... 89
5.3.3.3 Backup / Restore..................................................................... 90
5.3.3.4 Restart Router ......................................................................... 91
5.3.3.5 User Management................................................................... 91
5.3.3.6 Mail Alert.................................................................................. 92
5.3.4 Firewall .............................................................................................. 93
5.3.4.1 Packet Filter ............................................................................ 95
5.3.4.2 MAC Filter ............................................................................... 97
5.3.4.3 Intrusion Detection................................................................... 98
5.3.4.4 Block WAN PING................................................................... 100
5.3.4.5 URL Filter .............................................................................. 100
5.3.5 QoS (Quality of Service).................................................................. 103
5.3.6 Virtual Server................................................................................... 109
5.3.6.1 Port Mapping ..........................................................................111
5.3.6.2 DMZ........................................................................................113
5.3.6.3 ALG ........................................................................................114
5.3.7 Wake on LAN....................................................................................115
5.3.8 Time Schedule..................................................................................116
5.3.9 Advanced..........................................................................................117
5.3.9.1 Static Route............................................................................118
5.3.9.2 Static ARP ..............................................................................118
5.3.9.3 Dynamic DNS.........................................................................119
5.3.9.4 VLAN..................................................................................... 120
5.3.9.5 Device Management.............................................................. 121
5.3.9.6 IGMP ..................................................................................... 128
5.3.9.7 SNMP Access Control ........................................................... 128
5.3.9.8 Remote Access ..................................................................... 131
5.4 Save Configuration to Flash ............................................................... 132
5.5 Restart................................................................................................ 132
5.6 Logout ................................................................................................ 133
Chapter 6................................................................................................................ 134
Problems starting up the router ......................................................... 134
Problems with the WAN Interface...................................................... 134
Problems with the LAN Interface....................................................... 135
APPENDIX.............................................................................................................. 136
1
Chapter 1
Introduction
1.1 Introducing the BiPAC 7300W
The BiPAC 7300W is an economical ADSL2+ router ideal for Home and SOHU users to
have an improved wireless access with a maximum operational speed of 150Mbps. It
delivers the highest level of security with higher speed and better coverage of wireless-G
solutions. The BiPAC 7300W has integrated SOHO firewall security, providing protection for
your valuable but vulnerable data and network against potential hack attacks and at the
same time provides Quality of Service function, helping to prioritize queues of data traffic
and ensure a smooth Internet connection. With a built-in antenna, the BiPAC 7300W is able
to search for wireless signals inherently and intuitively, effectively reaching optimal
connectivity; you can surf the Internet with the convenience and fun of mobility from every
corner of your home or office. This device allows you to enjoy all Internet applications like
music downloads, online gaming, video streaming, and file sharing with your family or
colleagues!
High speed Access
Complying with worldwide ADSL standards, the BiPAC 7300W supports downstream data
transmission rates up to 12/24 Mbps with ADSL2/2+, 8 Mbps with ADSL, and performs at
upstream rates of up to 1 Mbps. The BiPAC 7300W includes Annex M technology that
supports the latest ADSL2/2+ standard for higher upload speeds by increasing the upstream
data rate to approximately 2.5Mbps (up to 3Mbps under ideal conditions). With a Wireless-N
Access Point that supports up to 150Mbps wireless data rate, the BiPAC 7300W is truly an
upgrade Wireless LAN solution compared to your existing 802.11b/g standard. With all
these technologies, users can enjoy high-speed accss for broadband multimedia
applications such as interactive gaming, video streaming and real-time audios that run faster
and easier than ever.
Multiple Options for Internet Access
Among 4 Ethernet ports, the port 1 can be configured as WAN port for connecting a to
ADSL/Cable/VDSL/Fiber modem device, providing more options for users to access
2
Internet. So the SOHO or small office users can even deploy the BiPAC 7300W for FTTx
(Fiber-to-the-building, noed, or home) applications over a VDSL or Fiber device connected.
Rich Security
Wi-Fi Protected Access (WPA-PSK / WPA2-PSK) and Wired Equivalent Privacy (WEP)
features enhance the level of transmission security and access control over your Wireless
LAN. The NAT default firewall has an advanced anti-hacker pattern-filtering protection
features that can automatically detect and block Denial of Service (DoS) attacks. In addition,
Packet Filtering provides high-level security for access control. Built with Stateful Packet
Inspection (SPI), the router enables users to determine whether a data packet is allowed to
pass through the firewall to the private LAN.
Ease of Set up and Management
Easy Sign-ON (EZSO), WPS push button and Auto-scan ADSL settings allow users to
manage the device functions without too much effort! The user-friendly, web-based user
interface makes installing and managing the BiPAC 7300W extremely easy. With support for
both DHCP client and server, system administrators can manage IP assignment without
having to reconfigure other stations and fitting the router into existing network environments.
3
1.2 Features
• Base on Wireless-N Technology, and compliant with IEEE 802.11g, 802.11b
standards
• High-speed wireless connection up to 150Mbps
• Wireless-N AP with Wi-Fi Protected Setup (WPS), Wi-Fi Protected Access
(WPA-PSK/ WPA2-PSK) and Wired Equivalent Privacy (WEP) support
• Wireless On/Off time schedule control
• High speed Internet access with ADSL2/2+; backward compatible with ADSL
• Integrated with 4-port Ethernet switch, one port can be configured to WAN port for
connecting to ADSL/Cable/VDSL/Fiber modem device
• SOHO firewall security with DoS prevention and SPI
• Universal Plug and Play (UPnP) Compliant
• Supports Virtual Private Network (VPN) pass-through
• Quality of Service Control
• Dynamic Domain Name System (DDNS)
• Easy Sign-ON (EZSO)
ADSL Compliance
• Compliant with ADSL Standards
- Full-rate ANSI T1.413 Issue 2
- G.dmt (ITU G.992.1)
- G.lite (ITU G.992.2)
- G.hs (ITU G.994.1)
- ADSL over ISDN/U-R2
• Compliant with ADSL2 Standards
- G.dmt.bis (ITU G.992.3)
- ADSL2 Annex M (ITU G.992.3 Annex M) (available for BiPAC 7300WA model
only)
4
• Compliant with ADSL2+ Standards
- G.dmt.bis plus (ITU G.992.5)
- ADSL2+ Annex M (ITU G.992.5 Annex M)(available for BiPAC 7300WA model
only)
Network Protocols and Feathers
• NAT, static routing and RIP-1/2
• Universal Plug and Play (UPnP) Compliant
• Transparent Bridging
• Dynamic Domain Name System (DDNS)
• Virtual Server and DMZ
• SNTP, DNS relay and IGMP proxy
• IGMP snooping for video service
• Management based-on IP protocol, port number and address
• SMTP Client
Firewall & Virtual Private Network(VPN)
• Built-in NAT Firewall
• Stateful Packet Inspection (SPI)
• Prevents DoS attacks including Land Attack, Ping
of Death, etc.
• Remose access control for web base access
• Anti probe function
• Packet filtering, MAC filtering, URL content filtering
• Password protection for system management
• VPN pass-through
Qulity of Service Control
• Supports the DiffServ approach
• Traffic prioritization and bandwidth management based-on IP protocol, port number
and address
5
Wireless LAN
• Base on Wireless-N Technology, and compliant with IEEE 802.11g, 802.11b
standards
• Up to 150Mbps wireless operation rate
• 2.4 GHz–2.484 GHz frequency range
• WPS (Wi-Fi Protected Setup)
• 64/128 bits WEP supported for encryption
• Wireless Security with WPA-PSK/ WPA2-PSK support
• 802.1x radius supported
• WDS repeater function support
• WLAN on/off time schedule control
ATM and PPP Protocols
• ATM Adaptation Layer Type 5 (AAL5)
• Multiple Protocol over AAL5 (RFC 2684, formerly RFC 1483)
• Bridged or routed Ethernet encapsulation
• VC and LLC based multiplexing
• PPP over Ethernet (PPPoE)
• PPP over ATM (RFC 2364)
• Classical IP over ATM (RFC 1577)
• MAC Encapsulated Routing (RFC 1483 MER)
• OAM F4/F5
• ATM QoS: UBR, CBR, VBR-rt, VBR-nrt
6
Management
• Easy Sign-ON (EZSO) and Auto-scan ADSL settings
• Web-based GUI for remote and local management
• Firmware upgrades and configuration data upload/download via web-based
interface
• Embedded Telnet server for remote and local management
• Available syslog
• Supports DHCP server/client/relay
• SNMP v1/v2, MIB supported
• Wake on LAN
• Mail Alert for WAN IP changed
7
1.3 Hardware Specifications
Physical Interface
• DSL: ADSL port
• EWAN: Ethernet port #1 can be configured to WAN port for connecting to
ADSL/Cable/VDSL/Fiber modem device
• Ethernet: 4-port 10/100M auto-crossover (MDI/MDI-X) switch
• Factory default reset button
• WPS push button
• Power jack
• Power switch
• WLAN: 1 antenna
8
1.3 Applications of the BiPAC 7300W
9
Chapter 2
Product Overview
2.1 Important Notes
9 Place the router on a stable surface.
9 Only use the power adapter that comes with the package. Using
a different voltage rating power adaptor may damage the router.
Attention
9 Do not use the router in high humidity or high temperatures.
9 Do not use the same power source for the router as other
equipment.
9 Do not open or repair the case yourself. If the router is too hot,
turn off the power immediately and have it repaired at a
qualified service center.
9 Avoid using this product and all accessories outdoors.
Warning
10
2.2 Package Contents
BiPAC 7300W Wireless-N ADSL2+ Firewall Router
CD-ROM containing the online manual
RJ-11 ADSL/telephone Cable (1.8M)
Ethernet (CAT-5 LAN) Cable (1.8M Straight)
Power Adapter (12V DC, 1A)
Quick Start Guide (105*150 mm)
Antennas (1 pcs)
11
2.3 The Front LEDs
LED Meaning
1 Power
Lit red while the flash is damage and cannot bring the system
up.
Lit green when the system is ready.
Flashes green when the the system is rebooting or firmware
upgrading.
2 Ethernet
Port 1 - 4
Lit when connected to an Ethernet device.
Green for 100Mbps; Orange for 10Mbps.
Blinking when data is Transmitted / Received.
3 Wireless Lit green when the wireless connection is established.
Flashes when sending/receiving data.
4 WPS Blinking when WPS is in progress.
5 DSL Lit green when successfully connected to an ADSL DSLAM
(“linesync”).
6 Internet Lit red when WAN port fails to get IP address.
Lit green when WAN port gets IP address successfully.
12
2.4 The Rear Ports
Port Description
1 Antenna Connect the antenna to this port.
2 ON/OFF Power ON/OFF switch.
3 Power Connect the supplied power adapter to this jack.
4 Reset
After the router is powered on, press this reset button using the
end of paper clip or other small pointed object for 6 seconds and
above to restore it to factory default settings.
1. Recovery procedures for non-working routers (e.g. after a
failed firmware upgrade flash).
2. Recovery procedures for a lost web interface password.
5 WPS
Press the WPS button acoording to the following two to achieve
different functions.
2-5 seconds: start WPS.
5 seconds above: switch to enable/disable WLAN.
6 Ethernet
Connect a UTP Ethernet cable (Cat-5 or Cat-5e) to one of the
four LAN ports when connecting to a PC or an office/home
network of 10Mbps or 100Mbps.
Note: Only Ethernet port 1 can be used for EWAN.
7 DSL Connect the supplied RJ-11 (“telephone”) cable to this port when
connecting to the ADSL/telephone network.
13
Before powering on the router to enter the recovery process, please
configure the IP address of the PC as 192.168.0.100 and proceed with the
following step by step guide.
1. Power the router off.
2. Hold the "Reset Button”.
3. Power on the router. Then Router's IP will reset to Emergency IP
address (Say 192.168.0.254)
4. Download the firmware.
The detail instruction in Reset Button
1. Recovery procedures for non-working routers (e.g. after a failed firmware upgrade flash):
Hold the Reset Button on the back of the modem in. Keep this button held in and turn on the
modem. Once the lights on the modem have stopped flashing, release the Reset Button.
The modem's emergency-reflash web interface will then be accessible via
http://192.168.0.254 where you can upload a firmware image to restore the modem to a
functional state. Please note that the modem will only respond via its web interface at this
address, and will not respond to ping requests from your PC or to telnet connections.
14
2.5 Cabling
One of the most common causes of problems is because of bad cabling or ADSL line(s).
Make sure that all connected devices are turned on. On the front of the product is a bank of
LEDs. Verify that the LAN Link and ADSL line LEDs are lit. If they are not, verify that you are
using the proper cables.
Ensure that all other devices connected to the same telephone line as your router (e.g.
telephones, fax machines, analog modems) have a line filter connected between them and
the wall socket (unless you are using a Central Splitter or Central Filter installed by a
qualified and licensed electrician), and to ensure that all line filters are correctly installed and
the right way around. Missing line filters or line filters installed being the wrong way around
can cause problems with your ADSL connection, which includes frequent disconnections.
15
Chapter 3
Installation
You can configure the BiPAC 7300W router through the convenient and user-friendly
interface of a web browser. Most popular operating systems such as Linux and Windows
7/Vista/98/NT/2000/XP/Me include a web browser as a standard application.
3.1 Before Configuration
PCs must have a properly installed Ethernet interface which connects to the router directly
or through an external repeater hub. In addition, PCs must have TCP/IP installed and
configured 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 between 192.168.1.1 and 192.168.1.253). The easiest way
is to configure the PC is to obtain an IP address automatically from the router using DHCP. If
you encounter any problems accessing the router’s web interface you are advised to
uninstall any kind of software firewall on your PCs, as they can cause problems when trying
to access the 192.168.1.254 IP address of the router.
Please follow the steps below for installation on your PC’s network environment. First of all,
check your PC’s 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.
Any TCP/IP capable workstation can be used to communicate with or
through the BiPAC 7300W. To configure other types of workstations,
please consult the manufacturer’s documentation.
16
3.2 Network Configuration
3.2.1 Configuring a 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.
17
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.
18
3.2.2 Configuring a 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 pane.
4. Select the Local Area
Connection, and right click
the icon to select Properties.
19
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.
20
3.2.3 Configuring a 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.
21
3.2.4 Configuring a 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.
22
3.2.5 Configuring PC in Windows 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.
23
3.2.6 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.
24
3.3 Factory Default Settings
Before configuring the 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.
LAN Device 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
Attention
If you ever forget the username/password to login to the router, you
may press the RESET button up to 6 seconds then release it to restore
the factory default settings.
Caution: After pressing the RESET button for more than 6 seconds then release it, to
be sure you power cycle the device again.
Attention
25
3.4 LAN and WAN Port Addresses
The parameters of LAN and WAN ports are preset in the factory. The default values are
shown below.
LAN Port WAN Port
IP address 192.168.1.254
Subnet Mask 255.255.255.0
DHCP server function Enabled in ports 1, 2, 3 and 4
IP addresses for
distribution to PCs 100 IP addresses continuing
from 192.168.1.100 through
192.168.1.199
The PPPoE function is
enabled to automatically get
the WAN port configuration
from the ISP.
3.5 Information from your ISP
Before configuring this device, you have to check with your ISP (Internet Service Provider)
which kind of services are provided, such as PPPoE, PPPoA, MPoA or Pure Bridge.
Gather the information as illustrated in the following table and keep it for reference.
PPPoE VPI/VCI, VC-based/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 VPI/VCI, VC-based/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).
RFC1483 Bridged VPI/VCI, VC-based/LLC-based multiplexing to use Bridged Mode.
RFC1483 Routed VPI/VCI, VC-based/LLC-based multiplexing, IP address, Subnet mask,
Gateway address, and Domain Name System (DNS) IP address (it is
fixed IP address).
26
3.6 Configuring with your BiPAC 7300W
Easy Sign On
After setting up the router with appropriate cables plugged, proceed to load the internet
browser to surf Internet, the EZSO WEB GUI will be popped up and request you to input
some basic information you get from ISP. After this, you can surf Internet right away.
Follow the Easy Sign-On configuration wizard and it will guide you to complete the basic
network configuration.
1. Click continue.
2. Choose “Auto” or “Manually” to scan ADSL information.
1. To configure this device, you must have IE 5.0 / Netscape 4.5 or
above installed
2. You may configure the router for Internet access in two ways:
(
A
)
Eas
y
Si
g
n-On
(
EZSO
)
(
B
)
Web Confi
g
uration
27
3. Show Auto scan result - Protocol information.
4. Please enter “Username” and “Password” as supplied by your ISP (Internet Service
Provider) and click continue.
5. Wait for the device to be configured.
6. You’ve have completed the WAN port setup and now click “Next to Wireless” to proceed
to the wireless configuration.
28
7. Please configure the Wireless LAN setting and click Continue.
8. Save Configuration.
9. Congratulations!! You’ve completed the setup procedure and you are now ready to surf
the Internet, enjoy.
29
Web Configuration
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 prompt window appears. The
default username and password are “admin” and “admin” respectively.
Congratulations! You have successfully logged on to your BiPAC 7300W Router!
30
Chapter 4
Basic Configuration
Once you have logged on to your BiPAC 7300W Router via your web browser, you can begin
to set it up according to your requirements. On the configuration homepage, the left
navigation pane links you directly to the setup pages, which include:
Advanced (Switch to Advanced Configuration mode)
Status
Quick Start
WAN
WLAN
31
4.1 Status
Device Information
Model Name: Provide a name for the router for identification purposes.
System Up-Time: Records system up-time.
Hardware Version: Device version
Software Version: Firmware version
Physical Port Status
Port Status: Users can look up to see if they are connected to Ethernet, ADSL, EWAN or
Wireless.
WAN
Port: Name of the WAN connection.
Protocol VPI/VCI: Virtual Path Identifier and Virtual Channel Identifier
Operation: Current available operation.
Connection: The current connection status.
IP Address: WAN port IP address.
Net mask: WAN port IP subnet mask.
Gateway: The IP address of the default gateway.
Primary DNS: The IP address of the primary DNS server.
32
4.2 Quick Start
For the exactly steps, turn to Advanced –Quick Start on page 47 for help.
Set Wireless configuration
WLAN Service: Default setting is set to Enable.
ESSID: The ESSID is the unique name of a wireless access point (AP) to be
distinguished from another. For security purpose, 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.
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. For more information , turn to
page 35-37 for help.
33
4.3 WAN
Main Port: Select the connection mode from the drop-down menu, ADSL or EWAN.
VPI/VCI: Enter the VPI and VCI information provided by your ISP.
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.
Encap. method: Select the encapsulation format, the default is LLC. Select the one
provided by your ISP
Auth. Protocol: Default is Auto. Your ISP advises on using Chap or Pap.
IP Address: Your WAN IP address. Leave this at 0.0.0.0 to automatically obtain an IP
address from your ISP.
MTU: Maximum Transmission Unit. The size of the largest datagram (excluding
media-specific headers) that IP will attempt to send through the interface.
34
4.4 WLAN
WLAN Service: Default setting is set to 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.
Note: ESSID is case sensitive and must not excess 32 characters.
Hide ESSID: 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 Disable.
~ Enable: Select Enable if you do not want broadcast your ESSID. When select Enable,
no one will be able to locate the Access Point (AP) of your router.
~ Disable: When Disable is selected, you can allow anybody with a wireless client to
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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Security Parameters
WPA or WPA2
WPA and WPA2 pre-shared keys are an authentication mechanism in which users provide
some form of credentials to verify that they should be allowed access to a network. This
requires a single password entered into each WLAN node (Access Points, Wireless Routers,
client adapters, bridges). As long as the passwords match, a client will be granted access to
a WLAN.
WLAN Service: Default setting is set to Enable. If you want to use wireless, you can
select Enable.
ESSID: The ESSID is the unique name of a wireless access point (AP) used to
distinguish one from another. For security propose, change to a unique ID name which is
already built into the router wireless interface. It is case sensitive and must not exceed 32
characters. Make sure your wireless clients have exactly the ESSID as the device in order to
connect to your network.
Hide ESSID: 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 Disable.
~ Enable: Select Enable if you do not want broadcast your ESSID. When select Enable,
no one will be able to locate the Access Point (AP) of your router.
~ Disable: When Disable is selected, you can allow anybody with a wireless client to
be able to locate the Access Point (AP) of your router.
Channel ID: Select the channel ID that you would like to use.
Security Mode: You can disable or enable with WPA or WEP to protect wireless network.
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The default mode of wireless security is Disable.
RADIUS/802.1x: You can enable or disable the RADIUS(Remote Authentication Dial In
User Service) service.
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 between
wireless client and Access Point (AP). This process is done automatically.
If you want to enable the RADIUS function, check Enable and then do the following settings.
RADIUS Server IP Address: The IP address of RADIUS authentication server.
RADIUS Server Port: The port number of RADIUS authentication server here. Default
value is 1812.
RADIUS Shared Secret: The password of RADIUS authentication server.
WPA / WPA2 Pre-Shared Key
WLAN Service: Default setting is set to Enable. If you want to use wireless, you can
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select Enable.
ESSID: The ESSID is the unique name of a wireless access point (AP) used to
distinguish one from another. For security propose, change to a unique ID name which is
already built into the router wireless interface. It is case sensitive and must not exceed 32
characters. Make sure your wireless clients have exactly the ESSID as the device in order to
connect to your network.
Hide ESSID: This function enables the router to become invisible on the network. Thus,
any clients using the wireless setting to search for available or specific router on the network
will not be able to discover the router whose Hide ESSID function is set to enabled. The
default setting is disabled.
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 channel ID that you would like to use.
Security Mode: You can disable or enable with WPA or WEP to protect wireless network.
The default mode of wireless security is Disable.
WPA Shared Key: The key for network authentication. The input format is in character
style and the 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 between
wireless client and Access Point (AP). This process is done automatically.
Note: Wireless performance may degrade if the selected channel ID is already being
occupied by other AP(s).
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WEP
WLAN Service: Default setting is set to Enable. If you do not have any wireless, select
Disable.
ESSID: The ESSID is the unique name of a wireless access point (AP) used to
distinguish one from another. For security propose, change to a unique ID name which is
already built into the router wireless interface. It is case sensitive and must not exceed 32
characters. Make sure your wireless clients have exactly the ESSID as the device in order to
connect to your network.
Hide ESSID: This function enables the router to become invisible on the network. Thus,
any clients using the wireless setting to search for available or specific router on the network
will not be able to discover the router whose Hide ESSID function is set to enabled. The
default setting is disabled.
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.
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Channel ID: Select the wireless connection channel ID that you would like to use.
Note: Wireless performance may degrade if the selected channel ID is already being
occupied
Security Mode: You can disable or enable with WPA or WEP to protect wireless network.
The default mode of wireless security is Disable.
RADIUS / 802.1x: You can disable or enable the RADIUS service.
WEP Authentication: To prevent an unauthorized wireless station from accessing the
data transmitted over the network, the router offers a secure data encryption, known as
WEP. There are 3 options to select from: Open System, Shared key or both.
Default Used WEP Key: Select the encryption key ID; please refer to Key (1~4) below.
Passphrase: This is used to generate WEP keys automatically based upon the input
string and a pre-defined algorithm in WEP64 or WEP128.
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 can be either HEX style or ASCII
format, 10 and 26 HEX codes or 5 and 13 ASCII codes are required for WEP64 and
WEP128 respectively.
If you want to enable the RADIUS function, check Enable and then do the following settings.
RADIUS Server IP Address: The IP address of RADIUS authentication server.
RADIUS Server Port: The port number of RADIUS authentication server here. Default
value is 1812.
RADIUS Shared Secret: The password of RADIUS authentication server.
Click Apply to confirm the settings.
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Chapter 5
Advanced Configuration
Once you have logged on to your BiPAC 7300W Router via your web browser, you can begin
to set it up according to your requirements. On the configuration homepage, the left
navigation pane links you directly to the setup pages, which include:
Basic (Switch to Basic Configuration Mode)
Status (ADSL Status, ARP Table, DHCP Table, System Log, Firewall Log, UPnP Portmap)
Quick Start
Configuration (LAN, WAN, System, Firewall, QoS, Virtual Server, Wake on LAN, Time
Schedule and Advanced)
The following sections provide an overview of the settings available for configuring your
router.
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5.1 Status
Device Information
Host Name: Provide a name for the router for identification purposes. Host Name lets
you change the router name.
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System Up-Time: Records system up-time.
Current time: Set the current time. See the Time Zone section for more information.
Hardware Version: Device version.
Software Version: Firmware version.
MAC Address: The LAN MAC address.
WAN
Port: Name of the WAN connection.
Protocol VPI/VCI: Virtual Path Identifier and Virtual Channel Identifier
Operation: Current available operation.
Connection: The current connection status.
IP Address: WAN port IP address.
Net mask: WAN port IP subnet mask.
Gateway: The IP address of the default gateway.
Primary DNS: The IP address of the primary DNS server.
Physical Port Status
Port Status: User can look up to see if they are connected to Ethernet, ADSL, EWAN or
Wireless.
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5.1.1 ADSL Status
DSP Firmware Version: DSP code version
DMT Status: Current DMT Status
Operational Mode: To show the state when user select “AUTO” on connect mode. Click
the link, the following will appear.
~ ADSL Mode: There are four modes “Open Annex Type and Follow DSLAM’s
Setting”, ”Annex A”, ”Annex L”, ”Annex M” and “Annex J” that user can select for this
connection.
~ Modulator: There are seven modes “AUTO”, ”ADSL
Multimode”,”ADSL2”, ”ADSL2+”,”G.Lite”, “T1.413” and “G.DMT” that user can select for
this connection.
Upstream: Upstream rate.
Downstream: Downstream rate.
SNR Margin (Upstream): This is noise margin in upstream.
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SNR Margin (Downstream): This is noise margin in downstream.
Line Attenuation (Upstream): This is attenuation of signal in upstream.
Line Attenuation (Downstream): This is attenuation of signal in downstream.
Refresh: Press this button to get the latest statistics.
5.1.2 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: It is IP Address of internal host that join this network.
MAC Address: The MAC address of internal host.
Interface: The interface name (on the router) that this IP address connects to.
Static ARP: Shows the status of static ARP.
5.1.3 DHCP Table
IP Address: The current corresponding DHCP-assigned dynamic IP address of the
device.
MAC Address: The MAC Address of internal DHCP client host.
Client Host Name: The Host Name of internal DHCP client.
Register Information: Register time information.
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5.1.4 System Log
Display system logs accumulated up to the present time. You can trace historical information
with this function.
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5.1.5 Firewall Log
Firewall Log displays log information of any unexpected action with your firewall settings.
This page displays the router’s Firewall Log entries. The log shows log entries when you
have enabled Intrusion Detection or Block WAN PING 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.
5.1.6 UPnP Portmap
The section lists all port-mapping established using UPnP (Universal Plug and Play). Please
see the Advanced section of this manual for more details on UPnP and the router’s UPnP
configuration options.
Name: the description of this application.
Protocol: the protocol used by UpnP NAT Mapping.
External Port: the external service port transformed by the mapping,thus the remote
port or the port in the WAN wanting to connect in.
Internal Port: the internal service port.
IP Address: the internal host IP address.
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5.2 Quick Start
ADSL
Connect mode: ADSL
Protocol: The current ATM protocol in the device
VPI / VCI: The current value of VPI / VCI in the device
IP address: To show current value of IP address in the device.
EWAN
Click on Continue to choose the Protocol to connect with EWAN or click Jump to Wireless
Setting to use Protocol: Obtain an IP Address Automatically to connect and setup wireless
settings at the same time.
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Obtain an IP Address Automatically
When connecting to the ISP, BiPAC 7300W also functions as a DHCP client. BiPAC 7300W
can automatically obtain an IP address, subnet mask, gateway address, and DNS server
addresses if the ISP assigns this information via DHCP.
Protocol: The current ATM protocol in the device
Click on the Continue button and wait for your connection to be connected.
If connection is successful the following image will be shown.
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Fixed IP Address
Select this option to set static IP information. You will need to enter in 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 is 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.
Protocol: The current ATM protocol in the device
IP Address: Enter your WAN IP address.
Netmask: Type the subnet mask assigned to you by your ISP (if given).
Gateway: You must specify a gateway IP address (supplied by your ISP)
Click on the Continue button and wait for your connection to be connected.
If connection is successful the following image will be shown.
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PPPoE
PPPoE (PPP over Ethernet) provides access control in a manner similar to dial-up services
using PPP.
Protocol: The current ATM protocol in the device
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 Address: 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.
MTU: Maximum Transmission Unit. The size of the largest datagram (excluding
media-specific headers) an IP attempts to send through the interface.
Click on the Continue button and wait for your connection to be connected.
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If connection is successful the following image will be shown.
Set Wireless configuration
WLAN Service: Default setting is set to 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.
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. Turn to page 35-37 for help.
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5.3 Configuration
Click this item to access the following sub-items that configure the ADSL router: LAN, WAN,
System, Firewall, QoS, Virtual Server, Wake on LAN, Time Schedule and Advanced.
These functions are described in the following sections.
5.3.1 LAN (Local Area Network)
A Local Area Network (LAN) is a shared communication system to which many computers
are attached and is limited to the immediate area, usually the same building or floor of a
building.
There are six items within the LAN section: Ethernet, IP Alias, Wireless, Wireless
Security, WPS and DHCP Server.
5.3.1.1 Ethernet
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The router supports more than one Ethernet IP addresses in the LAN, and with distinct LAN
subnets through which you can access the Internet at the same time. Users usually only
have one subnet in their LAN. The default IP address for the router is 192.168.1.254.
IP Address: The default IP on this router.
Netmask: The default subnet mask on this router.
RIP: RIP v1, RIP v2 Broadcast, RIP v1+v2 Broadcast and RIP v2 Multicast.
5.3.1.2 IP Alias
This function allows the creation of 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.
Netmask: Specify a subnet mask on this virtual interface.
Press Add to apply and the corresponding information will be listed below.
54
Click Edit radio button, then the item you want to reedit will be displayed above just as
showed below.
Press Edit/Delete to apply your modification.
Check Delete if you want to delete the item, then press Edit/Delete, the deleting prompt
window will appear to remind you, do as you like.
5.3.1.3 Wireless
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Parameters
WLAN Service: Default setting is set to Enable.
Time Schedule: A self-defined time period. You may specify a time schedule for your
prioritization policy.
Here we provide two groups of Time Schedule setting. You can flexibly set the time you
want the wireless connection works.
If you select Always On in group1, then the group2 is disabled.
While if you select any other item from the group1 drop-down menu, the group2 will be
activated. Select the timeslot you want, then the wireless will work according to the time of
the two time schedule settings. That is to say you can flexibly set the time the wireless
works.
For example, if you select TimeSlot1 in group1, then the group2 is activated, you can select
a timeslot from the drop-down menu, then the wireless connection will perform according to
the two timeslots you have set.
For setup and detail, refer to Time Schedule section.
Mode: The default setting is 802.11g+n (Mixed mode). If you do not know or have both
11g and 11n 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. If you have only 11n card, then select 802.11n.
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.
Note: ESSID is case sensitive and must not excess 32 characters.
Hide ESSID: 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 Disable.
~ Enable: Select Enable if you do not want broadcast your ESSID. When select Enable,
no one will be able to locate the Access Point (AP) of your router.
~ Disable: When Disable is selected, you can allow anybody with a wireless client to
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.
56
Channel Wdith: Select either 20 MHz or 20/40 MHz or 40MHZ for the channel bandwidth.
The higher the bandwidth the better the performance will be.
Note: This parameter appears only when you select one of the item as the following graph
Tx Power Level: It is function that enhances the wireless transmitting signal strength.
User may adjust this power level from minimum 0 up to maximum 100.
Note: The Power Level maybe different in each access network user premises environment
and choose the most suitable level for your network.
AP MAC Address: It is a unique hardware address of the Access Point.
AP Firmware Version: The Access Point firmware version.
WPS service: Enable / disable
WPS State: Current WPS state in AP. It is be used for WCN (Windows Connect Now).
~ Configured: This AP is be configured via WPS. It is not allowed to configure via
WCN.
~ Unconfigured: This AP is un-configured via WPS. It can be configured via WCN.
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: Check to activate WMM feature.
Disable: Check 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 define the 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.
WDS Service: The default setting is Disable. 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.
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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 ( : ) or Dash (-) must be included.
5.3.1.4 Wireless Security
You can disable or enable with WPA or WEP for protecting wireless network. The default
mode of wireless security is Disable.
WPA or WPA2
Here take WPA for example.
Security Mode: You can choose the type of security mode you want to apply from the
drop down menu.
RADIUS/802.1x: Whether to enable RADIUS function or not (For WPA/WPA2/WEP
encryption).
WPA Algorithms: There are two Algorithms, AES (Advanced Encryption Standard) and
TKIP(Temporal Key Integrity Protocol) which help to protect the wireless communication.
The Default algorithms is AES.
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 3600
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seconds.
If you want to enable the RADIUS service, check Enable and then do the following settings.
RADIUS Server IP Address: Enter the IP address of RADIUS authentication server.
RADIUS Server Port: Enter the port number of RADIUS authentication server here.
Default value is 1812.
RADIUS Shared Secret: Enter the password of RADIUS authentication server.
Click Apply to confirm the settings.
WPA / WPA2 - PSK
Security Mode: You can choose the type of security mode you want to apply from the
drop-down menu.
WPA Algorithms: There are two Algorithms, AES (Advanced Encryption Standard) and
TKIP(Temporal Key Integrity Protocol) which help to protect the wireless communication.
The Default algorithm is AES.
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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 3600
seconds.
Click Apply to confirm the settings.
WEP
RADIUS / 802.1x: Whether to enable RADIUS / 802.1x.
WEP Authentication: To prevent unauthorized wireless stations from accessing data
transmitted over the network, the router offers secure data encryption, known as WEP.
There are 3 options to select from: Open System, Shared key or both.
Default Used WEP Key: Select the encryption key ID; please refer to Key (1~4) below.
Passphrase: This is used to generate WEP keys automatically based upon the input
string and a pre-defined algorithm in WEP64 or WEP128.
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 can be either HEX style or ASCII
format, 10 and 26 HEX codes or 5 and 13 ASCII codes are required for WEP64 and
WEP128 respectively.
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If you want to enable the RADIUS service, check Enable and then do the following settings.
WEP Authentication: If you enable RADIUS/802.1x, then the default WEP
Authentication is Open System.
RADIUS Server IP Address: Enter the IP address of RADIUS authentication server.
RADIUS Server Port: Enter the port number of RADIUS authentication server here.
Default value is 1812.
RADIUS Shared Secret: Enter the password of RADIUS authentication server.
Click Apply to confirm the settings.
Note: For information about settling Radius/802.1x, please refer to WLAN setup section.
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5.3.1.5 WPS
WPS (WiFi Protected Setup) feature is a standard protocol created by Wi-Fi Alliance. This feature
greatly simplifies the steps needed to create a Wi-Fi network for a residential or an office setting. WPS
supports 2 types of configuration methods which are commonly known among consumers: PIN
Method & PBC Method.
Wi-Fi Network Setup
PIN Method: Configure AP as Registrar
1. Jot down the client’s Pin (eg. 16837546).
2. Enter the Enrollee’s PIN number and then press Start.
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3. Launch the wireless client’s WPS utility (eg. Ralink Utility). Set the Config Mode as Enrollee, press
the WPS button on the top bar, select the AP (eg. wlan-ap) from the WPS AP List column. Then press
the PIN button located on the middle left of the page to run the scan.
63
4. The client’s SSID and security setting will now be configured to match the SSID and security
setting of the registrar.
64
PIN Method: Configure AP as Enrollee
1. In the WPS configuration page, change the Role to Enrollee. Then press Start.
2. Jot down the WPS PIN (eg. 25879810).
3. Launch the wireless client’s WPS utility (eg. Ralink Utility). Set the Config Mode as Registrar.
Enter the PIN number in the PIN Code column then choose the correct AP (eg. wlan-ap) from
the WPS AP List section before pressing the PIN button to run the scan.
65
4. The router’s (AP’s) SSID and security setting will now be configured to match the SSID and
security setting of the registrar.
66
5. Now to make sure that the setup is correctly done, cross check to see if the SSID and the security
setting of the registrar setting match with the parameters found on both Wireless Configuration
and Wireless Security Configuration page.
67
The parameters on both Wireless Configuration and Wireless Security Configuration page are as
follows:
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PBC Method:
1. Press the PBC button of the AP.
2. Launch the wireless client’s WPS Utility (eg. Ralink Utility). Set the Config Mode as Enrollee.
Then press the WPS button and choose the correct AP (eg. wlan-ap) from the WPS AP List
section before pressing the PBC button to run the scan.
69
3. When the PBC button is pushed, a wireless communication will be established between your
router and the PC. The client’s SSID and security setting will now be configured to match the SSID
and security setting of the router.
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Wi-Fi Network Setup with Windows Vista WCN:
1. Jot down the AP PIN from the Web (eg. 25879810).
2. Access the Wireless configuration of the web GUI. Set the WPS State to Unconfigured then click
Apply.
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3. In your Vista operating system, access the Control Panel page, then select Network and Internet
> View Network Computers and Devices. Double click on the BiPAC 7300W icon and enter the
AP PIN in the column provided then press Next.
72
4. Enter the AP SSID then click Next.
5. Enter the Passphrase then click Next.
73
6. When you have come to this step, you will have completed the Wi-Fi network setup using the
built-in WCN feature in Windows Vista.
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5.3.1.6 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.
DHCP Server Mode: Disable
To disable the router’s DHCP Server, check Disabled and then click Apply. When the
DHCP Server is disabled, you will need to manually assign a fixed IP address to each PC on
your network, and set the default gateway for each PC to the IP address of the router (the
default is 192.168.1.254).
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DHCP Server Mode: DHCP Server
To configure the router’s DHCP Server, check DHCP Server. 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 performs the domain name lookup, finds the IP
address from the outside network automatically and forwards it back to the requesting PC in
the LAN (your Local Area Network).
Fixed Host: click Fixed Host link to enter, the following will appear. The Specifyed IP
Address will be assigned to the correspongding MAC address by DHCP.
Note: the IP Address you want to enter can’t be within the DHCP Server range.
Click Add to add the item, and the corresponding message will be listed below.
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DHCP Server Mode: DHCP Relay
If you check DHCP Relay and then you must enter the IP address of the DHCP server which
assigns 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.
5.3.2 WAN (Wide Area Network)
A WAN (Wide Area Network) is an outside connection to another network or the Internet.
There are two items within the WAN section: WAN Profile and ADSL Mode.
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5.3.2.1 WAN Profile
Main Port--ADSL
PPPoE Connection (ADSL)
PPPoE (PPP over Ethernet) provides access control in a manner similar to dial-up services
using PPP.
Description: A user-definable name for this connection.
VPI/VCI: Enter the VPI and VCI information provided by your ISP.
Encap. method: Select the encapsulation format, the default is LLC. Select the one
provided by your ISP
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 ISP 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.
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IP Address: 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.
Obtain DNS Automatically: Select this check box 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 Netmask.
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 to Demand (un-select Always On): If you want to establish a PPPoE
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). In this mode, you must set
Idle Timeout value at same time.
Idle Timeout: Auto-disconnect the broadband firewall gateway when there is no activity
on the line for a predetermined period of time. The minimum value is 10 minutes.
MTU: Maximum Transmission Unit. The size of the largest datagram (excluding
media-specific headers) an IP attempts to send through the interface.
MAC Spoofing: This option is required by some service Providers. You must fill the MAC
address specified by your service provider when this information is required. The default
setting is set to disable.
PPPoA Connection (ADSL)
PPPoA stands for Point to Point Protocol over ATM Adaptation Layer 5 (AAL5). It provides
access control and billing functionality in a manner similar to dial-up services using PPP.
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Description: User-definable name for the connection.
VPI/VCI: Enter the VPI and VCI information provided by your ISP.
Encapsulation method: Select the encapsulation format, the default is LLC. Select the
one provided by your ISP
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 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.
IP Address: Your WAN IP address. Leave this at 0.0.0.0 to automatically obtain an IP
address from your ISP.
Authentication Protocol: Default is Auto. Your ISP should advise you on whether to use
Chap or Pap.
Obtain DNS Automatically: Select this check box 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 Netmask.
Connection:
~ Always on: The router will establish a PPPoA session when starting up and to
automatically re-establish the PPPoA session when disconnected by the ISP.
~ Connect to Demand (un-select Always On): 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). In this mode, you must set
Idle Timeout value at same time.
Idle Timeout: Auto-disconnect the broadband firewall gateway when there is no activity
on the line for a predetermined period of time. The minimum value is 10 minutes.
MTU: Maximum Transmission Unit. The size of the largest datagram (excluding
media-specific headers) that the IP attempts to send through the interface.
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MPoA Connection (ADSL)
Description: Your description of this connection.
VPI and VCI: Enter the VPI and VCI information provided by your ISP.
Encap. method: Select the encapsulation format, the default is LLC. Select the one
provided by your ISP.
Encap. mode: Choose whether you want the device to function as bridge mode or
routing mode.
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.
Keep Alive: Set Enable to keep the router on line and prevent to be disconnected by the
ISP when they think there is no activity on the line.
IP Address: Your WAN IP address. Leave this at 0.0.0.0 to automatically obtain 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 netmask assigned to you by your ISP (if given)
Gateway: Enter the IP address of the default gateway.
Obtain DNS Automatically: Select this check box 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 netmask.
MAC Spoofing: This option is required by some service Providers. You must fill the MAC
address specified by your service provider when this information is required. The default
setting is set to disable.
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Pure Bridge Connections (ADSL)
Description: A user-definable name for this connection.
VPI/VCI: Enter the VPI and VCI information provided by your ISP.
Encap. method: Select the encapsulation format, this is provided by your ISP.
PPPoE with Pass-through (ADSL)
Description: A user-definable name for this connection.
VPI/VCI: Enter the VPI and VCI information provided by your ISP.
Encap. method: Select the encapsulation format, the default is LLC. Select the one
provided by your ISP.
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
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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 ISP 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.
IP Address: 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.
Obtain DNS Automatically: Select this check box 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.
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 to Demand (un-select Always On): If you want to establish a PPPoE
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). In this mode, you must set Idle Timeout
value at same time.
Idle Timeout: Auto-disconnect the broadband firewall gateway when there is no activity
on the line for a predetermined period of time. The minimum value is 10 minutes.
MTU: Maximum Transmission Unit. The size of the largest datagram (excluding
media-specific headers) an IP attempts to send through the interface.
MAC Spoofing: This option is required by some service Providers. You must fill the MAC
address specified by your service provider when this information is required. The default
setting is set to disable.
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Main Port—EWAN
Besides using ADSL to get connected to the Internet, BiPAC 7300W offers its Ethernet port 1
as a WAN port to be used to connect to Cable Modems, VDSL and fibre optic lines. This
alternative, yet faster method to connect to the internet will provide users with more flexibility
to get online
Obtain an IP Address Automatically (EWAN)
When connecting to the ISP, BiPAC 7300W also functions as a DHCP client. BiPAC 7300W
can automatically obtain an IP address, netmask, gateway address, and DNS server
addresses if the ISP assigns this information via DHCP.
Line Speed: Set the downstream and upstream of your connection in kilobytes per
second. The connection speed is used by QoS settings.
NAT: The NAT (Network Address Translation) feature allows multiple users to access the
Internet through a single ISP 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.
Obtain DNS Automatically: Select this check box 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 netmask.
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.
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Fixed IP Address (EWAN)
Select this option to set static IP information. You will need to enter in 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 is 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.
Line Speed: Set the downstream and upstream of your connection in kilobytes per
second. The connection speed is used by QoS settings.
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.
IP Address: Enter your WAN IP address.
IP Netmask: Type the netmask assigned to you by your ISP (if given).
Gateway: You must specify a gateway IP address (supplied by your ISP)
Obtain DNS Automatically: Select this check box 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 netmask.
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.
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PPPoE (EWAN)
PPPoE (PPP over Ethernet) provides access control in a manner similar to dial-up services
using PPP.
Line Speed: Set the downstream and upstream of your connection in kilobytes per
second. The connection speed is used by QoS settings.
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.
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.
IP Address: 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.
Obtain DNS Automatically: Select this check box 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.
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.
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5.3.2.3 ADSL Mode
ADSL Mode: There are four modes “Open Annex Type and Follow DSLAM’s
Setting”, ”Annex A”, ”Annex L”, ”Annex M” and “Annex J” that user can select for this
connection.
Modulator: There are seven modes “AUTO”,”ADSL multimode”,”ADSL2”,”ADSL2+”,
“G.Lite:”, “T1.413” and “G.DMT” that user can select for this connection.
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5.3.3 System
There are five items within the System section: Time Zone, Firmware Upgrade,
Backup/Restore, Restart, User Management and Mail Alert.
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5.3.3.1 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 retrieves the correct local time from the SNTP server
you have specified. If you prefer to specify an SNTP server other than those in the
drop-down list, simply enter its IP address as shown above. Your ISP may provide an SNTP
server for you to use.
Resync Period (in minutes) is the periodic interval the router waits before it resynchronizes
the router’s time with that of the specified SNTP server. 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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DO NOT power down the router or interrupt the firmware upgrade while it
is still in process. Improper operation may damage the router. Please see
section 2.4 for emergency recovery procedures.
5.3.3.2 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 modified. Your router allows you to
upgrade the software it runs to take advantage of these changes.
Clicking on Browse allows 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.
Restart Device with: To choose “Factory Default Settings” or “Current Settings” which
uses your current setting on the new firmware (it is highly advised to use Factory Default
Settings over Current Settings for a clean firmware upgrade).
New Firmware Image: Type in the location of the file you wish to upload in this field or
click Browse… to locate it.
Browse…: Click Browse… to find the file with the .afw file extension that you wish to
upload. Remember that you must decompress compressed (.zip) files before you can
upgrade from the file.
Upgrade: Click upgrade to begin the upload process. This process may take up to three
minutes.
Warning
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5.3.3.3 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.
Select the settings files you wish to use, and press Restore to load those settings into the
router.
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5.3.3.4 Restart Router
Click Restart with option Current Settings to reboot your router and save the current
configuration to device.
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.
5.3.3.5 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 Edit on the account you want to edit, the
information of the account will be displayed above. Just go ahead and change the password.
You can change the user’s password, whether their account is active and Valid. These
options are the same when creating a user account, with the exception that once created
you cannot change the username. You cannot delete the default admin account; however
you can delete any other created accounts by clicking ticking the box under Delete and then
press the Edit/Delete button.
You are strongly advised to change the password on the default “admin” account when you
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receive your router, and any time you reset your configuration to Factory Defaults.
5.3.3.6 Mail Alert
Send a log via email, if WAN IP is changed or if intruders accessing your computer without
permission.
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 (WAN IP Change Alert): Enter the email address that will receive the
alert message once a computer / network server failover occurs.
Alert Mail Time (Intrusion Detection): The interval for sending alert mail.
Recipient’s Email (Intrusion Detection): Enter the email address that will receive the
alert message once intrusion has been detected.
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When using Virtual Servers (port mapping) your PCs are exposed to the
ports specified opened in your firewall packet filter settings.
5.3.4 Firewall
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. In addition to this,
when using NAT (Network Address Translation) the router acts as a “natural” Internet firewall,
since all PCs on your LAN use private IP addresses that cannot be directly accessed from
the Internet. See the WAN configuration section for more details on NAT.
Firewall: Prevents access from outside your network.
NAT natural firewall: This masks LAN users’ IP addresses, which are invisible to outside
users on the Internet, making it much more difficult for a hacker to target a machine on your
network. This natural firewall is on when the NAT function is enabled.
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Firewall Security and Policy (General Settings): Inbound direction of Packet Filter rules
prevent unauthorized computers or applications accessing your local network from the
Internet.
Intrusion Detection: Enable Intrusion Detection to detect, prevent, and log malicious
attacks.
MAC Filter rules: Prevents unauthorized computers accessing the Internet.
URL Filter: Blocks PCs on your local network from unwanted websites.
A detailed explanation of each of the following five items appears in the Firewall section
below: Packet Filter, MAC Address Filter, Intrusion detection, Block WAN PING and
URL Filter.
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5.3.4.1 Packet Filter
Packet filtering enables you to configure your router to block specified internal/external
users (IP address) from Internet access, or you can disable specific service requests (Port
number) to /from Internet. This configuration program allows you to set up to 6 different filter
rules for different users based on their IP addresses or their network Port number. The
relationship among all filters is “or” operation, which means that the router checks these
different filter rules one by one, starting from the first rule. As long as one of the rules is
satisfied, the specified action will be taken.
Rule Name: Users-define description to identify this entry. The maximum name length is
32 characters, and then can choose application that they want from listbox.
Internal IP Address / External IP Address: This is the Address-Filter used to allow or
block traffic to/from particular IP address(es). Input the range you want to filter out. If you
leave empty or 0.0.0.0, it means any IP address.
Protocol: Specify the packet type (TCP, UDP, ICMP, etc.) that the rule applies to.
Select TCP if you wish to search for the connection-based application service on the remote
server using the port number. Or select UDP if you want to search for the connectionless
application service on the remote server using the port number.
Action: If a packet matches this filter rule, Forward (allows the packets to pass) or
Drop (disallow the packets to pass) this packet.
Internal Port: This Port or Port Range defines the ports 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.
External Port: This is the Port or Port Range that defines the application.
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Direction: Determine whether the rule is for outgoing packets or for incoming packets.
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.
Log: Choose “log” if you wish to generate logs when the filer rule is applied to a packet.
Add: Click this button to add a new packet filter rule and the added rule will appear at the
bottom table.
Edit: Check the Rule No. you wish to edit, and then click “Edit”.
Delete: Check the Rule No. you wish to delete, and then click “Delete”.
Reorder: Be aware that packet filtering parameters appear in priority order i.e. the first
one takes precedence over all other rules. There is a sort function next to the Rule Name
column, you can move the rule to higher or lower priority by clicking the Order arrow, and
press “Reorder” to save the new priority.
Click Add to add the item configured and the corresponding information will be listed below
just as the following.
Press Edit radio button, the item you want to re-edit will be displayed in the editing area, edit
then press Edit/Delete to confirm your modification. If you want to delete the rule, check
Delete, then press Edit/Delete to delete the rule.
If the DHCP server option is enabled, you must be very careful in assigning
IP addresses of a filtered private IP range to avoid conflicts because you do
not know which PC in the LAN is assigned which IP address. The easiest
and safest way is that the filtered IP address is assigned to a specific PC
that is not allowed to access an outside resource such as the Internet. You
configure the filtered IP address manually for this PC, but it stays in the
same subnet with the router.
Attention
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5.3.4.2 MAC Filter
A MAC (Media Access Control) address is the unique network hardware identifier for each
PC on your network’s interface (i.e. its Network Interface Card or Ethernet card). Using your
router’s MAC Address Filter function, you can configure to block specific machines from
accessing your LAN.
There are no pre-defined MAC address filter rules; you can add the filter rules to meet your
requirements.
The format of MAC address could be: xx:xx:xx:xx:xx:xx or xx-xx-xx-xx-xx-xx.
Filter Action
Action: Select an action for MAC Filter. This feature is disabled by default. Check Allow
or Block to activate the filter.
Parameters
MAC Address: Enter the Ethernet MAC addresses you wish to have the filter rule applies
to.
Time Schedule: A self defined time period. You may specify a time schedule for your
prioritization policy. For setup and detail, refer to Time Schedule section.
For Add, Edit, Delete, see the Packet filter.
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5.3.4.3 Intrusion Detection
Check Enable if you wish to detect intruders accessing your computer without permission.
The router automatically detects and blocks a DoS (Denial of Service) attack if a user
enables this function. This kind of attack is not to access confidential data on the network;
instead, it aims to disrupt specific equipment or the entire network. If this happens, users will
have trouble accessing the network resources.
Intrusion Detection: Check Enable if you wish to detect intruders accessing your
computer without permission.
Maximum 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.
Maximum 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.
Maximum 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).
Log: Check Log if you wish to generate logs when the filer rule is applied to the Intrusion
Detection.
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For SYN Flood, ICMP Echo Storm and ICMP flood, IDS will just warn the user in the Event
Log but it will not be able to protect against such attacks.
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 TCP
Port 135, 137~139,
Flag: URG Src IP DoS Yes Yes
Smurf ICMP type 8
Des IP is broadcast Dst IP Victim
Protection Yes Yes
Land attack SrcIP = DstIP Yes Yes
Echo/CharGen Scan UDP Echo Port and
CharGen Port Yes Yes
Echo Scan UDP Dst Port =
Echo(7) Src IP Scan Yes Yes
CharGen Scan UDP Dst Port =
CharGen(19) Src IP Scan Yes Yes
X’mas Tree Scan TCP Flag: X’mas Src IP Scan Yes Yes
IMAP
SYN/FIN Scan
TCP Flag: SYN/FIN
DstPort: IMAP(143)
SrcPort: 0 or 65535 Src IP Scan Yes Yes
SYN/FIN/RST/ACK
Scan
TCP,
No Existing session
A
nd Scan Hosts
more than five.
Src IP Scan Yes Yes
Net Bus Scan
TCP
No Existing session
DstPort = Net Bus
12345,12346, 3456
SrcIP Scan Yes Yes
Back Orifice Scan UDP, DstPort =
Orifice Port (31337) SrcIP Scan Yes Yes
SYN Flood Max TCP Open
Handshaking Count
(Default 100 c/sec) Yes
ICMP Flood Max ICMP Count
(Default 100 c/sec) Yes
ICMP Echo Max PING Count
(Default 15 c/sec) Yes
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Src IP: Source IP Src Port: Source Port
Dst Port: Destination Port Dst IP: Destination IP
5.3.4.4 Block WAN PING
Check Enable if you wish to exclude outside PING requests from reaching this router.
5.3.4.5 URL Filter
URL (Uniform Resource Locator – e.g. an address in the form of http://www.example.com )
filter rules allow you to prevent users on your network from accessing particular websites
from their URL. There are no pre-defined URL filter rules; you can add filter rules to meet
your requirements.
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 is checked to see if any keywords are present in
URLs accessed to determine if the connection attempt should be blocked. Note that the URL
filter blocks web browser (HTTP) connection attempts using port 80 only.
For example, the URL http://www.abc.com/abcde.html would be dropped since the keyword
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“abcde” occurs in the URL.
Domains Filtering: Checks the domain name in URLs accessed against your list of
domains to block or allow. If it matches, the URL request is sent (Trusted) or dropped
(Forbidden). The checking procedure is:
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, it is checked with the forbidden list. If present, the connection attempt is dropped.
3. If the packet matches neither of the above, 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”
Restrict URL Features: This function enhances the restriction to your URL rules.
~ Block Java Applet: Blocks Web content which includes the Java Applet to prevent
someone who wants to damage your system via the standard HTTP protocol.
~ Block ActiveX: Blocks ActiveX
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~ Block Cookies: Blocks Cookies
~ Block Proxy: Blocks Proxy
Except IP Address:
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.
Log: Click “Log” if you wish to generate logs when the filer rule is applied to the URL
Filter.
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5.3.5 QoS (Quality of Service)
Quality of Service Introduction
If you’ve ever found your ‘net’ speed has slowed to a crawl because another family member
is using a P2P file sharing program, you’ll understand why the Quality of Service features in
the routers is such a breakthrough for home users and office users.
QoS: Keeping Your Net Connection Fast and Responsive
Configurable by internal IP address, external IP address, protocol, and port, the Quality of
Service (QoS) gives you full control over which types of outgoing data traffic should be given
priority by the router, ensuring bandwidth-consumption data like gaming packets,
latency-sensitive application like voice, or even mission critical files, move through the router
at lightning speed, even under heavy load. You can throttle the speed at which different
types of outgoing data pass through the router. In addition, you can simply change the
priority of different types of upload data and let the router sort out the actual speeds.
QoS Setup
Please choose the QoS in the Configuration item of the left window as depicted below.
After clicking the QoS item, you can Add/Edit/Delete a QoS policy. This page will show the
brief information for policies you have added or edited. This page will also display the total
available (Non-assigned) bandwidth, in percentage, can be assigned.
Application: A name that identifies an existing policy.
Direction: The traffic flow direction to be controlled by the QoS policy.
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There are two settings to be provided in the Router:
~ LAN to WAN: You want to control the traffic flow from the local network to the outside
world. e.g., you have a FTP server inside the local network and you want to have a limited
traffic rate controlled by the QoS policy. So, you need to add a policy with LAN to WAN
direction setting.
~ WAN to LAN: Control Traffic flow from the WAN to LAN. The connection maybe either
issued from LAN to WAN or WAN to LAN.)
Protocol: The Protocol will be controlled. For GRE protocol, there is no need to specify
the IP addresses or Application ports in this page. For other protocols, at least one value
shall be given.
~ ANY: No protocol type is specified.
~ TCP
~ UDP
~ ICMP
~ GRE: For PPTP VPN Connections.
DSCP Marking: Differentiated Services Code Point (DSCP), it is the first 6 bits in the ToS
byte. DSCP Marking allows users to classify traffic based on DSCP value and send packets
to next Router.
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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DSCP Mapping Table
ADSL2+ Router Standard DSCP
Disabled None
Best Effort Best Effort (000000)
Premium Express Forwarding (101110)
Gold service (L) Class 1, Gold (001010)
Gold service (M) Class 1, Silver (001100)
Gold service (H) Class 1, Bronze (001110)
Silver service (L) Class 2, Gold (010010)
Silver service (M) Class 2, Silver (010100)
Silver service (H) Class 2, Bronze (010110)
Bronze service (L) Class 3, Gold (011010)
Bronze service (M) Class 3, Silver (011100)
Bronze service (H) Class 3, Bronze (011110)
Rate Type: 2 types are provided:
~ Limited (Maximum): specify a limited data rate for this policy. It also is the maximal
rate for this policy. As above FTP server example, you may want to “throttle” the outgoing
FTP speed to 20% of 256K and limit to it, you may use this type.
~ Guaranteed (Minimum): specify a minimal data rate for this policy. For example,
you want to provide a guaranteed data rate for your outside customers to access your
internal FTP server with, say at least, 20% of your total bandwidth. You can use this type.
Then, if there is available bandwidth that is not used, it will be given to this policy by following
priority assignment.
Ratio: Assign the data ratio for this policy to be controlled. For examples, we want to only
allow 20% of the total data transfer rate for the LAN-to-WAN direction to be used for FTP
server. Then we can specify here with data ratio = 20. If you have ADSL LINE with
256K/bps.rate, the estimated data rate, in kbps, for this rule is 20%*256*0.9 = 46kbps. (For
0.9 is an estimated factor for the effective data transfer rate for an ADSL LINE from LAN to
WAN. For WAN-to-LAN, it is 0.85 to 0.8).
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Priority: Specify the priority for the bandwidth that is not used. For examples, you may
specify two different QoS policies for different applications. Both applications need a minimal
bandwidth and need more bandwidth, beside the assigned one, if there is any
available/non-used one available. So, you may specify which application can have higher
priority to acquire the non-used bandwidth.
~ High
~ Normal: The default is normal priority.
~ Low
For the sample priority assignment for different policies, it is served in a First-In-First-Out
way.
Internal IP Address: The IP address values for Local LAN machines you want to control.
(For IP packets from LAN to WAN, it is the source IP address. For IP packages from WAN to
LAN, it is the destination IP address.)
Internal Port: The Application port values for local LAN machines you want to control.
(For TCP/UDP packets from LAN to WAN, it is the source port value. For TCP/UDP packets
from WAN to LAN, it is the destination port value.)
External IP Address: The IP address values for Remote WAN machines you want to
control. (For IP packets from LAN to WAN, it is the destination IP address. For IP packages
from WAN to LAN, it is the source IP address.)
External Ports: The Application port values for remote machines you want to control.
(For TCP/UDP packets from LAN to WAN, it is the destination port value. For TCP/UDP
packets from WAN to LAN, it is the source port value.)
Time Schedule: Scheduling your prioritization policy.
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QoS example for your Network
Connection Diagram
ADSL Subscription Rate
Upstream: 256 kbps
Downstream: 2048 Mbps
Example QoS Plan
Application IP or Ports Control Flow Data Rate Time Schedule
VoIP User 192.168.1.1 Outgoing Minimal 20% with high priority
for non-used bandwidth with
DSCP marking Class 1 Gold
Service.
Always
FTP Sever 192.168.1.100 Incoming and
Outgoing outgoing: minimal 30%. Data
rate.
incoming: minimal 30%. Data
rate.
Both with low priority for
non-used bandwidth.
Only Working
Hours 9:00 to
17:00 Monday
to Friday.
HTTP web
browsing
users
80 Incoming and
Outgoing outgoing: limited 20%. Data
rate.
incoming: limited 30%. Data
rate.
Always
HTTP web
browsing users
Restricted PC
Normal PCs
V
oIP
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Example QoS Setup
VoIP application
Voice is latency-sensitive application. Most VoIP devices are used 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.
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5.3.6 Virtual Server
In TCP 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 need to configure your router to forward these incoming
connection attempts using specific ports to the PC on your network running the application.
You also need to use port forwarding if you wish to host an online game server.
The reason is that when using NAT, your publicly accessible IP address is used by and
points to your router, which needs to deliver all traffic to the private IP addresses used by
your PCs. Please see the WAN configuration section of this manual for information on NAT.
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 port numbers 0 to 1023 are reserved for privileged services and are
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designated as “well-known ports”. The registered ports are numbered from 1024 through
49151. The remaining ports, referred to as dynamic ports, or private ports, are numbered
from 49152 through 65535.
Examples of well-known and registered port numbers are shown below, for further
information, please see IANA’s website at: http://www.iana.org/assignments/port-numbers
Well-known and Registered Ports
Port Number Protocol Description
20 TCP FTP Data
21 TCP FTP Control
22 TCP & UDP SSH Remote Login Protocol
23 TCP Telnet
25 TCP SMTP (Simple Mail Transfer Protocol)
53 TCP & UDP DNS (Domain Name Server)
69 UDP TFTP (Trivial File Transfer Protocol)
80 TCP World Wide Web HTTP
110 TCP POP3 (Post Office Protocol Version 3)
119 TCP NEWS (Network News Transfer Protocol)
123 UDP NTP (Network Time Protocol)
161 TCP SNMP
443 TCP & UDP HTTPS
1503 TCP T.120
1720 TCP H.323
4000 TCP ICQ
7070 UDP RealAudio
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5.3.6.1 Port Mapping
Application: Select the service you wish to configure
Protocol: Automatic when you choose Application from listbox or select a protocol type
which you want.
External Port & Internal Port: Enter the public port number & range you wish to
configure.
Internal IP Address: Enter the IP address of a specific internal server to which requests
from the specified port is forwarded.
Add: Click to add a new virtual server rule. Click again and the next figure appears.
Edit: Check the Rule No. you wish to edit and then click “Edit/Delete”.
Delete: Check the Rule No. you wish to delete then click “Edit/Delete”.
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Since NAT acts as a “natural” Internet firewall, your router protects your network from access
by outside users, as all incoming connection attempts 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 is forwarded to the
corresponding internal server.
For example, if you set the port number 80 (Web/HTTP) to be mapped to the IP Address
192.168.1.2, then all incoming HTTP requests from outside users are forwarded to the local
server (PC) with the IP address of 192.168.1.2. If the port is not listed as a predefined
application, you need to add it manually.
In addition to specifying the port number used, you also need to specify the protocol used.
The protocol is determined by the particular application. Most applications use TCP or UDP,
however you can specify other protocols using the drop-down Protocol menu. Setting the
protocol to “all” causes all incoming connection attempts using all protocols on all port
numbers to be forwarded to the specified IP address.
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5.3.6.2 DMZ
DMZ: 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 are checked by the Firewall and
NAT algorithms, it is then passed to the DMZ host when a packet received does not use a
port number in use by any other Virtual Server entries.
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5.3.6.3 ALG
Controls enable or disable various protocols over application layer.
For example, SIP ALG:
Enable: When SIP phone need ALG to pass through the NAT.
Disable: When SIP phone included NAT-Traversal algorithm. Turn off the SIP ALG.
1. If you disable the NAT option in the WAN-ISP section, the Virtual
Server function becomes invalid.
2. If the DHCP server option is enabled, you have to be very careful in
assigning the IP addresses of the virtual servers in order to avoid
conflicts. The easiest way of configuring Virtual Servers is to manually
assign a static IP address to each virtual server PC, with an address
that does not fall into the range of IP addresses that are issued by the
DHCP server. You can configure the virtual server IP address
manually, but it must still be in the same subnet as the router.
Attention
Using port mapping does have security implications, since outside users
are able to connect to PCs on your network. For this reason you are
advised to use specific Virtual Server entries just for the ports your
application requires instead of simply using DMZ or creating a Virtual
Server entry for “All” protocols, as doing so results in all connection
attem
p
ts to
y
our
p
ublic IP address accessin
g
the s
p
ecified PC.
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5.3.7 Wake on LAN
This feature provides greater flexibility for users to turn on / boot the computer of the network
from a remotely site.
MAC Address: Enter the MAC address of the target computer or you can select the MAC
address directly from the Select drop down menu on the right.
: You can select the MAC from this list.
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5.3.8 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.
Name: A user-define description to identify this time portfolio.
Day in a week: The default is set from Sunday through Saturday. 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. Select the Apply button to apply your changes.
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5.3.9 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.
There are seven items within the Advanced section: Static Route, Static ARP, Dynamic
DNS, VLAN, Device Management, IGMP, SNMP Access Control and Remote Access.
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5.3.9.1 Static Route
Destination: The destination subnet IP address.
Netmask: Subnet mask of the destination IP addresses based on above destination.
Gateway: The gateway IP address to which packets are forwarded.
Interface: Select the interface through which packets are forwarded.
Cost: Represents the cost of transmission for routing purposes. The number need not be
precise, but it must be between 0 and 65535.
5.3.9.2 Static ARP
This feature allows you to map the layer-2 MAC (Media Access Control) address that
corresponds to the layer-3 IP address of the device.
IP Address: Enter the IP of the device that the corresponding MAC address will be mapped
to.
MAC Address: Enter the MAC address that corresponds to the IP address of the device.
Click Add to confirm the settings.
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Edit: Check the Edit radio button to display the parameter of the selected application, then
after changing the parameters click the "Edit/Delete" button to apply the changes.
Delete: To remove a static ARP entry, check the Delete box of the selected entry then click
the "Edit/Delete" button.
5.3.9.3 Dynamic DNS
The Dynamic DNS function lets you alias a dynamic IP address to a static hostname, so if
your ISP does not assign you a static IP address you can still 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 first need to register and establish an account with the Dynamic DNS provider using
their web site, for example http://www.dyndns.org/
Disable: Check to disable the Dynamic DNS function.
Enable: Check to enable the Dynamic DNS function. The fields following are activated
and required.
Dynamic DNS Server: Select the DDNS service you have established an account with.
Wildcard: Select this check box to enable the DYNDNS Wildcard.
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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. If the period is 0, the router will
check the DNS server every 5 min.
5.3.9.4 VLAN
VLAN (Virtual Local Area Network) is a group of devices on different physical LAN segments
that can communicate with each other as if they were all on the same physical LAN
segment.
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5.3.9.5 Device Management
The Device Management advanced configuration settings allow you to control your router’s
security options and device monitoring features.
Embedded Web Server:
HTTP Port: The port number of the router’s embedded web server (for web-based
configuration uses. The default value is the standard HTTP port, 80. You may specify an
alternative if, for example, you are running a web server on a PC within your LAN.
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 minutes. The router only allows 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 minutes, the device automatically
logs out 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
running NAT 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.
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Disable: Check to disable the router’s UPnP functionality.
Enable: Check to enable the router’s UPnP functionality.
UPnP Port: The Default setting is 2800. It is highly recommended you use this port value.
If this value conflicts with other ports already in use you may wish to change the port.
Installing UPnP in Windows Example
Follow the steps below to install the UPnP in Windows Me.
Step 1: Click Start and Control Panel. Double-click Add/Remove Programs.
Step 2: Click on the Windows Setup tab and select Communication in the Components
selection box. Click Details.
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Step 3: In the Communications window, select the Universal Plug and Play check box in the
Components selection box.
Step 4: Click OK to go back to the Add/Remove Programs Properties window. Click Next.
Step 5: Restart the computer when prompted.
Follow the steps below to install the UPnP in Windows XP.
Step 1: Click Start and Control Panel.
Step 2: Double-click Network Connections.
Step 3: In the Network Connections window, click Advanced in the main menu and select
Optional Networking Components ….
The Windows Optional Networking Components Wizard window displays.
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Step 4: Select Networking Service in the Components selection box and click Details.
Step 5: In the Networking Services window, select the Universal Plug and Play check box.
Step 6: Click OK to go back to the Windows Optional Networking Component Wizard
window and click Next.
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Auto-discover Your UPnP-enabled Network Device
Step 1: Click start and Control Panel. Double-click Network Connections. An icon displays
under Internet Gateway.
Step 2: Right-click the icon and select Properties.
Step 3: In the Internet Connection Properties window, click Settings to see the port
mappings that were automatically created.
126
Step 4: You may edit or delete the port mappings or click Add to manually add port
mappings.
Step 5: Select Show icon in notification area when connected option and click OK. An icon
displays in the system tray
Step 6: Double-click on the icon to display your current Internet connection status.
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Web Configurator Easy Access
With UPnP, you can access web-based configuration for the BiPAC 7300W without first
finding out the IP address of the router. This helps if you do not know the router’s IP address.
Follow the steps below to access web configuration.
Step 1: Click Start and then Control Panel.
Step 2: Double-click Network Connections.
Step 3: Select My Network Places under Other Places.
Step 4: An icon describing each UPnP-enabled device shows under Local Network.
Step 5: Right-click on the icon of your BiPAC 7300W and select Invoke. The web
configuration login screen displays.
Step 6: Right-click on the icon of your BiPAC 7300W and select Properties. A properties
window displays basic information about the BiPAC 7300W.
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5.3.9.6 IGMP
IGMP, known as Internet Group Management Protocol, is used to management hosts from
multicast group.
IGMP Proxy: Accepting multicast packet. Default is set to Disable.
IGMP Snooping: Allowing switched Ethernet / Wireless to check and make correct
forwarding decisions. Default is set to Disable.
5.3.9.7 SNMP Access Control
Software on a PC within the LAN is required in order to utilize this function – Simple Network
Management Protocol.
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
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view and modify the data.
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):
; System group
; Interfaces group
; Address Translation group
; IP group
; ICMP group
; TCP group
; UDP group
: EGP (not applicable)
; Transmission
; SNMP group
From RFC1650 (EtherLike-MIB):
130
; dot3Stats
From RFC 1493 (Bridge MIB):
; dot1dBase group
; dot1dTp group
; dot1dStp group (if configured as spanning tree)
From RFC 1471 (PPP/LCP MIB):
; pppLink group
: pppLqr group
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 RFC1573 (IfMIB):
; ifMIBObjects Group
From RFC1695 (atmMIB):
; atmMIBObjects
From RFC 1907 (SNMPv2):
only snmpSetSerialNo OID
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5.3.9.8 Remote Access
Remote Access Control:
Enable: Select Enable to allow management access from remote side (mostly from
internet).
Duration: Set how many minutes to allow management access from remote side. Zero
means always on.
Allowed Access IP Address Range:
Valid: Select Valid to allow remote management from these IP ranges.
IP Address Range: Specify what ip address to be allowed to access device from remote
side. Clink Add to insert management ip address list.
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5.4 Save Configuration to Flash
After changing the router’s configuration settings, you must save all of the configuration
parameters to FLASH to avoid losing them after turning off or resetting your router. Click
“Save Config“ and click “Apply” to write your new configuration to FLASH.
5.5 Restart
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.
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5.6 Logout
To exit the router’s web interface, choose Logout. Please ensure that you have saved the
configuration settings before you logout.
Be aware that the router is restricted to only one PC accessing the configuration web pages
at a time. Once a PC has logged into the web interface, other PCs cannot get access until
the current PC has logged out of the web interface. If the previous PC forgets to logout, the
second PC can access the page after a user-defined period, by default 3 minutes. You can
modify this value using the Advanced – Device Management section of the web interface.
Please see the Advanced section of this manual for more information.
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Chapter 6
Troubleshooting
If your ADSL Router is not functioning properly, you can refer first to this chapter for simple
troubleshooting before contacting your service provider support. This can save you time and
effort but if symptoms persist, consult your service provider.
Problems starting up the router
Problem Corrective Action
None of the LEDs
are on when you
turn on the router.
Check the connection between the adapter and the router. If the
error persists, you may have a hardware problem. In this case
you should contact technical support.
Problems with the WAN Interface
Problem Corrective Action
Initialization of the
PVC connection
(“linesync”) failed.
Ensure that the telephone cable is connected properly from the
ADSL port to the wall jack. The ADSL LED on the front panel of
the router should be on. Check that your VPI, VCI, encapsulation
type and type of multiplexing settings are the same as those
provided by your ISP. Reboot the router. If you still have
problems, you may need to verify these settings with your ISP.
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Frequent loss of
ADSL linesync
(disconnections).
Ensure that all other devices connected to the same telephone
line as your router (e.g. telephones, fax machines, analogue
modems) have a line filter connected between them and the wall
socket (unless you are using a Central Splitter or Central Filter
installed by a qualified and licensed electrician), and ensure that
all line filters are correctly installed and the right way around.
Missing line filters or line filters installed the wrong way around
can cause problems with your ADSL connection, including
causing frequent disconnections. If you have a back-to-base
alarm system you should contact your security provider for a
technician to make any necessary changes.
Problems with the LAN Interface
Problem Corrective Action
Can’t ping any PCs
on the LAN.
Check the Ethernet LEDs on the front panel. The LED should be
on for a port that has a PC connected. If it is off, check the cables
between your router and the PC. Make sure you have uninstalled
any software firewall for troubleshooting.
Verify that the IP address and the subnet mask are consistent
between the router and the workstations.
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APPENDIX
Product Support and Contact Information
Most problems can be solved by referring to the Troubleshooting section in the User’s
Manual. If you cannot resolve the problem with the Troubleshooting chapter, please
contact the dealer where you purchased this 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.
FCC Statement
Federal Communication Commission Interference Statement
This equipment has been tested and found to comply with the limits for a Class B digital device,
pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection
against harmful interference in a residential installation. This equipment generates, uses and can
radiate radio frequency energy and, if not installed and used in accordance with the instructions, may
cause harmful interference to radio communications. However, there is no guarantee that interference
will not occur in a particular installation. If this equipment does cause harmful interference to radio or
television reception, which can be determined by turning the equipment off and on, the user is
encouraged to try to correct the interference by one of the following measures:
● Reorient or relocate the receiving antenna.
● Increase the separation between the equipment and receiver.
● Connect the equipment into an outlet on a circuit different from that to which the receiver is
connected.
● Consult the dealer or an experienced radio/TV technician for help.
FCC Caution: Any changes or modifications not expressly approved by the party responsible for
compliance could void the user’s authority to operate this equipment.
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two
conditions: (1) This device may not cause harmful interference, and (2) this device must accept any
interference received, including interference that may cause undesired operation.
For product available in the USA/Canada market, only channel 1~11 can be operated. Selection of
other channels is not possible.
This device and its antenna(s) must not be co-located or operation in conjunction with any other
antenna or transmitter.
IMPORTANT NOTE:
FCC Radiation Exposure Statement:
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment.
This equipment should be installed and operated with minimum distance 20cm between the radiator &
your body.