Billion Electric BIL-9800VNXPD Point-to-Point Fibre Wireless-N VPN VoIP Gateway User Manual 1
Billion Electric Co., Ltd. Point-to-Point Fibre Wireless-N VPN VoIP Gateway 1
Contents
- 1. User Manual-1
- 2. User Manual-2
User Manual-1
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BiPAC 9800 VNX(L)
Point-to-Point Fibre Wireless-N (VPN)
VoIP Gateway
User Manual
Version Released: 1.11
Last Revised Date: November 20, 2013
Table of Contents
Chapter 1................................................................................................................................................................1
1.1 Introducing the BiPAC 9800VNX(L) .............................................................................................................. 1
1.2 Features of the BiPAC 9800VNX(L)............................................................................................................... 3
Network Protocols and Features....................................................................................................................3
WAN Protocol .................................................................................................................................................3
Firewall ...........................................................................................................................................................4
Quality of Service Control...............................................................................................................................4
USB Application Server ...................................................................................................................................4
Virtual Private Network (VPN)........................................................................................................................ 4
Wireless LAN...................................................................................................................................................4
VoIP.................................................................................................................................................................4
IPTV Applications ............................................................................................................................................5
Management ..................................................................................................................................................5
1.3 Hardware Specifications...............................................................................................................................5
Physical Interface............................................................................................................................................5
1.4 Applications for the BIPAC 9800VNX(L) ....................................................................................................... 6
Chapter 2................................................................................................................................................................7
2.1 Important note for using the BIPAC 9800VNX(L).........................................................................................7
2.2 Package Contents .........................................................................................................................................8
2.3 The Front LEDs..............................................................................................................................................9
2.4 The Rear Ports ............................................................................................................................................10
2.6 Cabling........................................................................................................................................................11
Chapter 3..............................................................................................................................................................12
3.1 Before Configuration..................................................................................................................................12
3.1.1 Configuring a PC in Windows 7 ...........................................................................................................13
3.1.2 Configuring a PC in Windows Vista......................................................................................................16
3.1.3 Configuring a PC in Windows XP .........................................................................................................18
3.1.4 Configuring a PC in Windows 2000 .....................................................................................................20
3.1.5 Configuring a PC in Windows 98/Me...................................................................................................21
3.1.6 Configuring a PC in Windows NT4.0 ....................................................................................................22
3.2 Factory Default Settings .............................................................................................................................23
3.2.1 Username and Password ..................................................................................................................... 23
3.3 LAN Port Addresses ....................................................................................................................................24
3.4 Information from your ISP ......................................................................................................................... 24
Chapter 4..............................................................................................................................................................25
4.1 Configuring BiPAC 9800VNX(L) with your Web Browser ...........................................................................25
4.2 Status..........................................................................................................................................................27
4.2.1 Device Info ...........................................................................................................................................28
4.2.2 System Log...........................................................................................................................................32
4.2.3 3G/4G‐LTE Status.................................................................................................................................33
4.2.4 Statistics...............................................................................................................................................34
4.2.5 DHCP Table ..........................................................................................................................................39
4.2.6 ARP Table.............................................................................................................................................39
4.2.7 IPSEC Status (9800VNX only) ...............................................................................................................40
4.2.8 PPTP Status (9800VNX only) ................................................................................................................41
4.2.9 L2TP Status (9800VNX only) ................................................................................................................42
4.2.10 Disk Status .........................................................................................................................................42
4.2.11 VoIP Status.........................................................................................................................................43
4.2.11.1 VoIP Status ..................................................................................................................................43
4.3 Quick Start..................................................................................................................................................44
4.4 Configuration..............................................................................................................................................51
4.4.1 Interface Setup ....................................................................................................................................52
4.4.1.1 Internet .........................................................................................................................................53
4.4.1.2 LAN................................................................................................................................................63
4.4.1.3 Wireless.........................................................................................................................................66
4.4.1.4 Wireless MAC Filter ......................................................................................................................78
4.4.2 Dual WAN ............................................................................................................................................79
4.4.2.1 General Setting .............................................................................................................................79
4.4.3 Advanced Setup...................................................................................................................................81
4.4.3.1 Firewall..........................................................................................................................................82
4.4.3.2 Routing..........................................................................................................................................83
4.4.3.3 NAT................................................................................................................................................85
4.4.3.4 Static DNS......................................................................................................................................90
4.4.3.5 QoS................................................................................................................................................91
4.4.3.6 IPSEC Setting (9800VNX only) .......................................................................................................94
4.4.3.7 PPTP (9800VNX only) ..................................................................................................................103
4.4.3.8 PPTP Client (9800VNX only) ........................................................................................................105
4.4.3.9 L2TP (9800VNX only)...................................................................................................................116
4.4.3.10 Port Isolation.............................................................................................................................126
4.4.3.11 Time Schedule...........................................................................................................................127
4.4.4 VoIP....................................................................................................................................................128
4.4.4.1 Basic ............................................................................................................................................129
4.4.4.2 Media ..........................................................................................................................................130
4.4.4.3 Advanced ....................................................................................................................................131
4.4.4.4 Speed Dial ...................................................................................................................................132
4.4.4.5 Call Features................................................................................................................................133
4.4.5 Access Management..........................................................................................................................135
4.4.5.1 Device Management...................................................................................................................135
4.4.5.1 SNMP...........................................................................................................................................136
4.4.5.2 Universal Plug & Play ..................................................................................................................137
4.4.5.3 Dynamic DNS...............................................................................................................................138
4.4.5.4 Access Control.............................................................................................................................140
4.4.5.5 Packet Filter ................................................................................................................................142
4.4.5.6 CWMP (TR‐069)........................................................................................................................... 146
4.4.5.7 Parental Control..........................................................................................................................148
4.4.5.8 SAMBA & FTP Server...................................................................................................................149
4.4.6 Maintenance......................................................................................................................................153
4.4.6.1 User Management ......................................................................................................................154
4.4.6.2 Time Zone ...................................................................................................................................155
4.4.6.3 Firmware & Configuraion............................................................................................................156
4.4.6.4 System Restart ............................................................................................................................158
4.4.6.5 Diagnostics Tool ..........................................................................................................................159
Chapter 5............................................................................................................................................................162
Problems starting up the router .............................................................................................................162
Problems with the WAN Interface..........................................................................................................162
Problems with the LAN Interface............................................................................................................162
APPENDIX ...........................................................................................................................................................163
Chapter 1
Introduction the BIPAC 9800VNX(L)
1.1 Introducing the BiPAC 9800VNX(L)
The BiPAC 9800VNX(L) is a point-to-point (Active Ethernet) Fibre Optical Gateway future ultra-fast connectivity
(FTTP/FTTH) – with uniquely Small Form Factor Pluggable (SFP) interface that can support 100Base or
1000Base connectivity in a box. With WAN throughput in excess of 900Mbps and one USB ports on the rear of
the router will support 3G/4G LTE services from selected dongles for high-speed mobile connectivity. Failover
between fixed line and mobile connectivity also quickly and smoothly ensures maximum Internet uptime. The
BiPAC 9800VNX(L) is designed for home and office environment extending reliable, high-speed, and
long-reach last-mile connectivity to people living and working building.
With an integrated 802.11n wireless access point and 4-port Gigabit Ethernet LAN ports, the gateway enables
faster wireless speeds of up to 300Mbps and LAN connection 10 times faster than regular 10/100Mpbs Ethernet
LAN. The BiPAC 9800VNX(L) provides a unique Management Center, enabling users to monitor 3G/4G LTE
signal strength, bandwidth, download speed, and much more.
Furthermore, the BiPAC 9800VNX(L) supports remote management which facilitate FTTH service provider
deliver more efficient management. The gateway leverages the extraordinary bandwidth to deliver high-speed
Internet applications to home and office users. The full-featured fibre router providing is an ideal solution for
FTTH deployments.
FTTH Applications
The BiPAC 9800VNX(L) can be used for a point-to-point fibre access network. Since the Fibre WAN interface
allows faster rates over even longer distances, it can support Telcom operators or ISPs to provide high quality
and reliable Internet broadband services to either business users or home users. The 4-port Gigabit Switch
incorporated into the BiPAC 9800VNX(L) enables blistering LAN transfer rates for multimedia applications such
as interactive gaming, IPTV video streaming and real-time audio.
3G/ 4G-LTE Mobility and Always-on Connection
With the BiPAC 9800VNX(L) you can connect a 3G/4G LTE USB modem to built-in USB ports. The auto failover
feature ensures maximum connectivity and minimum interruption by quickly and smoothly connecting to a
3G/4G LTE network in the event that your fixed line fails. The BiPAC 9800VNX(L) will then automatically
reconnect to the fixed line connection when it's restored, ideal for office situations where a constant and
uninterrupted connection is critical.
Wireless Mobility and Security
With an integrated 802.11n Wireless Access Point, the router delivers up to 3 times the wireless coverage of a
802.11b/g network device, so that wireless access is available everywhere in the house or office. If your network
requires wider coverage, the built-in Wireless Distribution System (WDS) allows you to expand your wireless
network without additional wires or cables. The BiPAC 9800VNX(L) also supports the Wi-Fi Protected Setup
(WPS) standard and allows users to establish a secure wireless network just by pressing a button. Multiple
SSIDs allow users to access different networks through a single access point. Network managers can assign
different policies and functions for each SSID, increasing the flexibility and efficiency of the network infrastructure.
Cost saving (VoIP)
Making VoIP calls is extremely simple; just connect the router to your existing telephones. The BIPAC
9800VNX(L) complies with the most popularly adopted VoIP standard, SIP protocol, to ensure interoperability
with SIP devices and major VoIP Gateways. The router also supports a wider range of telephony features, such
as Call Waiting, Conference Call, Speed Dial, Return Call, Redial, Don't Disturb, etc.
IPv6 supported – Pathway to Future
The BiPAC 9800VNX(L) fully supports IPv6 (Internet Protocol Version 6), launched as the current IPv4 range is
filling up, and IPv6 is gradually becoming the indispensable addressing system for savvy cloud computing users.
Dual stack means the router is capable of running IPv4 and IPv6 in parallel during the transition period. With
Billion IPv6 enabled devices, three major transition mechanisms such as Dual-Stack, Dual-Stack Lite, and 6RD
(IPv6 rapid deployment) are supported to be adapted easily into service provider’s IPv4/IPv6 network.*1
Quick Start Wizard
Support a WEB GUI page to install this device quickly. With this wizard, end users can enter the information
easily which they get from ISP, then surf the Internet immediately.
Firmware Upgradeable
Device can be upgraded to the latest firmware through the WEB based GUI.
1.2 Features of the BiPAC 9800VNX(L)
• WAN Interface supports up to 1000Mbps downstream and upstream wire-speed (over 900Mbps) rates
• SFP interface supports 100Base or 1000Base fibre connectivity
• Extra Rj-45 EWAN WAN port for connecting to ADSL/VDSL/Cable/Fibre modem devices
• 4-port Gigabit LAN Switch
• IPv6 ready (IPv4/IPv6 dual stacks)
• Dual-Stack Lite and 6RD (IPv6 raid development) *2
• Embedded 8 VPN tunnels IPSec VPN endpoint/server with powerful encryption (BiPAC 9800VNX), up to
30 tunnels *1
• USB port supports 3G/4G-LTE for broadband connectivity
• Auto failover feature to ensure an always-on WAN connectivity
• 802.11 wireless AP with high-speed wireless connection rate of up to 300Mbps
• Support Wi-Fi Protecyed Setup (WPS) and WPA-PSK/WPA2-PSK
• Multiple wireless SSIDs with wireless guest access and client isolation
• Wi-Fi Protected Access (WPA-PSK/ WPA2-PSK) and Wired Equivalent Privacy (WEP)
• Two FXS ports for connecting to regular telephones
• Supports FAX Transmission: T.38 fax relay, G.711 pass-through
• USB ports for NAS and 3G/4G-lTE USB modem
• QoS for traffic prioritization and bandwidth management
• Supports IPTV Applications*3
Network Protocols and Features
• IPv4, IPv6 or IPv4/IPv6 Dual Stack
• Dual-Stack Lite and 6RD (IPv6 rapid development) *2
• DHCPv4/ v6
• NAT, Static Routing and RIP-1/ 2
• Dual WAN failover and failback
• Virtual Server and DMZ
• SNTP, DNS Proxy
• Universal Plug and Play (UPnP) Compliant
• Dynamic Domain Name System (DDNS)
• IGMP Snooping and IGMP Proxy
• MLD Snooping and MLD Proxy
WAN Protocol
• DHCP Client
• PPPoE
• Static IP
Firewall
• Built-in NAT Firewall
• Stateful Packet Inspection (SPI)
• DoS attack prevention including Land Attack, Ping of Death, etc
• Access Control
• IP&MAC filter, URL Content Filter
• Password protection for system management
• VPN pass-through
Quality of Service Control
• Traffic prioritization management based-on Protocol, Port Number and IP Address (IPv4/ IPv6)
USB Application Server
• 3G/4G-LTE USB modem
• Storage/NAS: FTP server, SAMBA server
Virtual Private Network (VPN)
• 8 IPSec VPN tunnels (up to 30 tunnels *1)
• 4 L2TP VPN tunnles
• 4 PPTP VPN tunnels
Wireless LAN
• Compliant with IEEE 802.11 b/ g/ n standards
• 2.4 GHz - 2.484GHz radio band for wireless
• Up to 300 Mbps wireless operation rate
• 64/ 128 bits WEP supported for encryption
• WPS (Wi-Fi Protected Setup) for easy setup
• Wireless Security with WPA-PSK/ WPA2-PSK support
• Multiple wireless SSIDs with wireless guest access and isolation
• WDS repeater function support
VoIP
• Compliant with SIP standard: RFC3261
• Two RJ-11 FXS ports for connecting to regular telephones
• Supports two SIP accounts for connecting to Internet Telephony Service Provider (ITSP)
• Supports G.711 A / μ law, and G.729*3 Audio CODEC standards
• Supports FAX Transmission: T.38 fax relay, G.711 pass-through
• Supports Telephony Features: silence suppression, Voice Activity Detection (VAD), Comfort Noise
Generation (CNG), G.168 echo cancellation, packet loss concealment
• Adaptive jitter buffer support
• DTMF: In-band / out-of-band (RFC2833) / SIP INFO
IPTV Applications*3
• IGMP Snooping and IGMP Proxy
• MLD Snooping and MLD Proxy
• Virtual LAN (VLAN)
• Quality of Service (QoS)
Management
• Quick Installation Wizard
• Web-based GUI for remote and local management (IPv4/ IPv6)
• Firmware upgrades and configuration data upload and download via web-based GUI
• Supports DHCP Server/ Client/ Relay
• Supports SNMP v1, v2, v3. MIB-I and MIB-II
• TR-069*4 supports remote management
1.
2.
3.
4.
5.
Future release
Future release and upon request for Telco/ISP tender projects
IPTV application may require subscription to IPTV services from a Telco / ISP.
Only upon requests for Telco/ISP tender projects
Specifications on this datasheet are subject to change without prior notice.
1.3 Hardware Specifications
Physical Interface
• WAN: 100/1000BASE SFP interface for direct connection to Fibre
• EWAN: RJ-45 Gigabit Ethernet port for connecting to ADSL/Cable/VDSL/Fibre modem device
• Ethernet LAN: 4-port 10/100/1000Mbps auto-crossover (MDI/ MDI-X) switch
• VoIP Phone port: 2 RJ-11 FXS for connecting to regular telephones
• USB: USB 2.0 type A ports support storage service or 3G/4G LTE USB modem
• WLAN: 2 detachable antennas
• Factory default reset button
• Wireless on/off and WPS push button
• Power jack
• Power switch
1.4 Applications for the BIPAC 9800VNX(L)
BIPAC 9800VNX(L) is an all-in-one router, supporting alternative ways (3G/4G-LTE, EWAN) to connect to the
Internet. Then users can choose one of the ways to connect to the Internet or ISP.
overview
SFP (direct connection to fibre) mode
BIPAC 9800VNX(L) has a SFP interface for direct fibre connection.
3G/ 4G-LTE router mode
BIPAC 9800VNX(L) supports one USB ports for your 3G/ 4G-LTE dongle. It can be used to connect to 3G/
4G-LTE connection.
Broadband router mode
BIPAC 9800VNX(L) has a Gigabits Ethernet WAN port to connect to your Fibre/ Cable/ xDSL modem.
Chapter 2
Installing the BIPAC 9800VNX(L)
2.1 Important note for using the BIPAC 9800VNX(L)
Do not use the BIPAC 9800VNX(L) in high humidity or high
temperatures.
Do not use the same power source for the BIPAC 9800VNX(L) as
other equipment.
Do not open or repair the case yourself. If the BIPAC 9800VNX(L) is
too hot, turn off the power immediately and have it repaired at a
qualified service center.
Avoid using this product and all accessories outdoors.
Warning
Place the BIPAC 9800VNX(L) on a stable surface.
Only use the power adapter that comes with the package. Using a
different voltage rating power adaptor may damage the router.
Attention
2.2 Package Contents
BIPAC 9800VNX(L) - Point-to-Point Fibre Wireless-N (VPN) VoIP Gateway
Quick Start Guide
CD containing user manual
Two detachable wireless Antennas
Ethernet (RJ-45 CAT-5) cable
Power adapter
2.3 The Front LEDs
LED
Meaning
Green
System ready
Red
Boot failed
Green
Transmission speed hitting 1000Mbps
Orange
Transmission speed hitting 10/100Mbps
Blinking
Data being transmitted/received
Green
Transmission speed hitting 1000Mbps
Orange
Transmission speed hitting 10/100Mbps
Blinking
Data being transmitted/ received
Green
Successfully connected the Fibre.
Green
Wireless connection established
Green blinking
Sending/ Receiving data
Orange
WPS on
Green
Connected to a 3G/ 4G-LTE modem or storage device
Green
Successfully registered
Orange
Phone being in use
Red
Obtaining IP failure
Green
Having obtained an IP address successfully
Off
Router in bridged mode or WAN connection not present.
Power
EWAN
Ethernet (1-4)
SFP
Wireless/ WPS
USB
Phone (1-2)
Status
Internet
2.4 The Rear Ports
Port
Meaning
Power Switch
Power on/off the router.
Power Jack
Connect the supplied DC power adapter to this jack.
RESET
After the device is powered on, press it 6 seconds or above: to restore to factory
default settings (this is used when you can not login to the router, e.g. forgot the
password)
By controlling the pressing time, users can achieve two different effects:
Wireless On/Off
WPS
(1) Wireless ON/OFF button: Press over 6 seconds to switch on wireless function when
wireless is off and press over 6 seconds again to disable wireless function.
(2) WPS: Press less than 6 seconds to trigger WPS function.
EWAN
Connect to Fibre/ Cable/ xDSL Modem with your RJ-45 cable.
Gigabit Ethernet
Connect a UTP Ethernet cable (Cat-5 or Cat-5e) to one of the LAN ports when
connecting to a PC or an office/home network of 10Mbps /100Mbps /1000Mbps.
SFP
Connect the fibre to this port.
USB
Connect the 3G/ 4G-LTE USB modem or storage device to this port.
Phone (1-2)
Connect your analog phone set to this port with the RJ-11 cable.
10
Wireless Antenna
Connect to the supplied two high performance external antennas
10
2.6 Cabling
One of the most common causes of problems is bad cabling. Make sure that all connected devices are turned
on. On the front panel of the product is a bank of LEDs. Verify that the LAN Link and LEDs are lit. If they are not,
verify that you are using the proper cables.
Make sure that all other devices (e.g. telephones, fax machines, analogue modems) connected to the same
telephone line as your Billion router 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 that all line
filters are correctly installed in a right way. If the line filter is not correctly installed and connected, it may cause
problems to your connection or may result in frequent disconnections.
11
Chapter 3
Basic Installation
The router can be configured with your web browser. A web browser is included as a standard application in the
following operating systems: Windows 98/NT/2000/XP/Vista/Win7, Linux, Mac OS, etc. The product provides
an easy and user-friendly interface for configuration.
3.1 Before Configuration
PCs must have an Ethernet interface installed properly and be connected to the router either directly or through
an external repeater hub, and 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 of 192.168.1.1 to 192.168.1.253). The best and easiest way is to configure the
PC to get an IP address automatically from the router using DHCP. If you encounter any problems accessing the
router’s web interface it may also be advisable to uninstall any kind of software firewall on your PCs, as they
can cause problems accessing the 192.168.1.254 IP address of the router. Users should make their own
decisions on how to best protect their network.
Please follow the steps below for your PC’s network environment installation. First of all, please 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 9800VNX(L). To configure other types of workstations,
please consult the manufacturer’s documentation.
12
3.1.1 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.
13
IPv4:
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.
14
IPv6:
4. Select Internet Protocol
Version 6 (TCP/IPv6) then
click Properties
5.
In the TCP/IPv6 properties
window, select the Obtain an
IPv6 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.
15
3.1.2 Configuring a PC in Windows Vista
1. Go to Start. Click on Network.
Then click on Network and
Sharing Center at the top bar.
2. When the Network and
Sharing Center window pops
up, select and click on Manage
network connections on the
left window pane.
3. Select the Local Area
Connection, and right click the
icon to select Properties.
16
IPv4:
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.
17
3.1.3 Configuring a PC in Windows XP
IPv4:
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.
18
IPv6:
IPv6 is supported by Windows XP, but you should install it first.
Act as shown below:
1. On the desktop, Click Start > Run, type cmd, then press Enter key in the keyboard, the following screen
appears.
2. Key in command ipv6 install
Configuration is OK now, you can test whether it works ok.
19
3.1.4 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.
20
3.1.5 Configuring a 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.
21
3.1.6 Configuring a 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.
22
3.2 Factory Default Settings
Before configuring your router, you need to know the following default settings.
Web Interface:
Username: admin
Password: admin
LAN Device IP Settings:
IP Address: 192.168.1.254
Subnet Mask: 255.255.255.0
DHCP server:
DHCP server is enabled.
Start IP Address: 192.168.1.100
IP pool counts: 20
3.2.1 Username and Password
The default username and password are “admin” and “admin” respectively.
If you ever forget the password to log in, you may press the RESET button
up to 6 seconds to restore the factory default settings.
Attention
Attention
23
3.3 LAN Port Addresses
The parameters of LAN ports are pre-set in the factory. The default values are shown below.
IPv4:
IP address
192.168.1.254
Subnet Mask
255.255.255.0
DHCP server function
Enabled
IP addresses for distribution to PCs
20 IP addresses continuing from 192.168.1.100 through
192.168.1.119
3.4 Information from your ISP
Before configuring this device, you have to check with your ISP (Internet Service Provider) what kind of service
is provided such as EWAN (Dynamic IP address, Static IP address, PPPoE, Bridge Mode), SFP(Dynamic IP
address, Static IP address, PPPoE, Bridge Mode).
Gather the information as illustrated in the following table and keep it for reference.
EWAN/SFP:
PPPoE
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).
Dynamic IP Address
Domain Name System (DNS) IP address (it can be automatically assigned by
your ISP when you connect or be set manually).
Static IP Address
Static IP Address, IP Subnet Mask, Gateway IP Address, and Domain Name
System (DNS) IP address.
Bridge Mode
Pure bridge.
24
Chapter 4
Configuration
4.1 Configuring BiPAC 9800VNX(L) with your Web Browser
Open your web browser, enter the IP address of your router, which by default is 192.168.1.254, and click “OK”,
a user name and password window prompt will appear. The default username and password are “admin” and
“admin”.
Congratulation! You are now successfully logged on to the BiPAC 9800VNX!
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At the configuration homepage, the left navigation pane where bookmarks are provided links you directly to the
desired setup page, including:
Status(Device Info, System Log, 3G/4G-LTE Status, Statistics, DHCP Table, ARP Table, IPSEC Status,
PPTP Status, L2TP Status, Disk Status, VoIP Status)
Quick Start (Wizard Setup)
Configuration (Interface Setup, Dual WAN, Advanced Setup, VoIP, Access Management, Maintenance)
Language
Please see the relevant sections of this manual for detailed instructions on how to configure your router.
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4.2 Status
In this section, you can check the router working status, including Device Info, System Log, 3G/4G-LTE
Status, Statistics, DHCP Table, ARP Table, IPSEC Status, PPTP Status, L2TP Status, Disk Status, and
VoIP Status.
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4.2.1 Device Info
Users will see device's basic information in this page.
EWAN
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SFP
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3G/ 4G-LTE USB
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Device Information
Model Name: Show model name of the router
Firmware Version: This is the Firmware version
MAC Address: This is the MAC Address
LAN
IPv4:
IP Address: LAN port IPv4 address.
Subnet Mask: LAN port IP subnet mask.
DHCPv4 Server: LAN port DHCP role - Enabled, Relay or Disabled.
IPv6:
IP Address: LAN port IPv6 address.
Prefix Length: The prefix length
DHCPv6 Server: The DHCP status.
WAN
Interface: The now used connection method, "EWAN", "SFP" and "3G/4G-LTE USB".
Connection Type: The protocol selected.
PPP Connection Time: The time totaled since PPP has been successfully connected.
IPv4:
Status: The connection status, Not connected or Connected.
IP Address: WAN port IP address.
Subnet Mask: WAN port IP subnet mask.
Default Gateway: The IP address of the default gateway.
DNS Server: DNS information.
IPv6:
Status: The IPv6 connection status.
IP Address: WAN port IPv6 address.
Prefix Length: The prefix length of IPv6 address.
Default Gateway: The IP address of the default gateway.
DNS Server: DNS information.
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4.2.2 System Log
In system log, users can check the operations to the router and track the glitches to the router when occurred.
Refresh: Press this button to refresh the statistics.
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4.2.3 3G/4G-LTE Status
In this page users can check the 3G/4G-LTE connection information.
Status: The current status of the 3G/4G-LTE connection.
Signal Strength: The signal strength bar and dbm value indicates the current 3G/ 4G-LTE signal strength. On
the front panel, the 3G/ 4G-LTE Signal Strength LED indicates the signal strength too.
Signal Information: Giving out some important LTE signal parameters like RSRP(Reference Signal Receiving
Power), RSRQ(Reference Signal Receiving Quality), SINR(Signal to Interference plus Noise Ratio).
Network Name: The network name that the device is connected to.
Location ID and Cell ID: The ID of base station that the device is connected to.
Card Name: The name of the 3G/4G LTE module.
Card Firmare: The firmare of the 3G/4G-LTE module.
Card IMEI: The unique identification number that is used to identify the 3G/ 4G-LTE module.
Card IMSI: The international mobile subscriber identity used to uniquely identify the 3G/ 4G-LTE module.
Network Mode: Show the using network mode.
Network Band: Show the using network band.
Refresh: Press this button to refresh the statistics.
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4.2.4 Statistics
Ethernet
Interface: This field displays the type of port
Transmit Frames: This field displays the number of frames transmitted until the latest second.
Transmit Multicast Frames: This field displays the number of multicast frames transmitted until the latest
second.
Transmit Total Bytes: This field displays the number of bytes transmitted until the latest second.
Transmit Collision: This is the number of collisions on this port.
Transmit Error Frames: This field displays the number of error packets on this port.
Receive Frames: This field displays the number of frames received until the latest second.
Receive Multicast Frames: This field displays the number of multicast frames received until the latest second.
Receive Total Bytes: This field displays the number of bytes received until the latest second.
Receive CRC Errors: This field displays the number of error packets on this port.
Receive Under-size Frames: This field displays the number of under-size frames received until the latest
second.
Refresh: Press this button to refresh the statistics.
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Wireless
Transmit Frames: This field displays the number of frames transmitted until the latest second.
Transmit Error Frames: This field displays the number of error frames transmitted until the latest second.
Transmit Drop Frames: This field displays the number of drop frames transmitted until the latest second.
Receive Frames: This field displays the number of frames received until the latest second.
Receive Error Frames: This field displays the number of error frames received until the latest second.
Receive Drop Frames: This field displays the number of drop frames received until the latest second.
Refresh: Press this button to refresh the statistics.
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EWAN
Transmit Frames: This field displays the total number of frames transmitted until the latest second.
Transmit Multicast Frames: This field displays the total number of multicast frames transmitted till the latest
second.
Transmit Total Bytes: This field displays the total number of bytes transmitted until the latest second.
Transmit Collision: This is the number of collisions on this port.
Transmit Error Frames: This field displays the number of error packets on this port.
Receive Frames: This field displays the number of frames received until the latest second.
Receive Multicast Frames: This field displays the number of multicast frames received until the latest second.
Receive Total Bytes: This field displays the number of bytes received until the latest second.
Receive CRC Errors: This field displays the number of error packets on this port.
Receive Under-size Frames: This field displays the number of under-size frames received until the latest
second.
Refresh: Press this button to refresh the statistics.
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SFP
Transmit Frames: This field displays the total number of frames transmitted until the latest second.
Transmit Multicast Frames: This field displays the total number of multicast frames transmitted till the latest
second.
Transmit Total Bytes: This field displays the total number of bytes transmitted until the latest second.
Transmit Collision: This is the number of collisions on this port.
Transmit Error Frames: This field displays the number of error packets on this port.
Receive Frames: This field displays the number of frames received until the latest second.
Receive Multicast Frames: This field displays the number of multicast frames received until the latest second.
Receive Total Bytes: This field displays the number of bytes received until the latest second.
Receive CRC Errors: This field displays the number of error packets on this port.
Receive Under-size Frames: This field displays the number of under-size frames received until the latest
second.
Refresh: Press this button to refresh the statistics.
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3G/4G-LTE USB
Transmit Frames of Current Connection: This field displays the total number of 3G/4G LTE frames
transmitted until the latest second for the current connection.
Transmit Bytes of Current Connection: This field shows the total bytes transmitted till the latest second for
the current connection for the current connection.
Transmit Total Frames: The field displays the total number of frames transmitted till the latest second since
system is up.
Transmit Total Bytes: This field displays the total number of bytes transmitted until the latest second since
system is up.
Receive Frames of Current Connection: This field displays the number of frames received until the latest
second for the current connection.
Receive Bytes of Current Connection: This field shows the total bytes received till the latest second for the
current connection.
Receive Total Frames: This field displays the total number of frames received until the latest second since
system is up.
Receive Total Bytes: This field displays the total frames received till the latest second since system is up.
Refresh: Press this button to refresh the statistics.
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4.2.5 DHCP Table
DHCP table displays the devices connected to the router with clear information.
#: The index identifying the connected devices.
Host Name: Show the hostname of the PC.
IP Address: The IP allocated to the device.
MAC Address: The MAC of the connected device.
Expire Time: The total remaining interval since the IP assignment to the PC.
4.2.6 ARP Table
This section displays the router’s ARP (Address Resolution Protocol) results, which shows the mapping of
Internet (IP) addresses to Ethernet (MAC) addresses.
ARP table
#: The index marking ARP resolution results.
IP Address: Show the IP Address that the MAC address maps to.
MAC Address: Show the MAC address that is corresponded to the IP address it is mapped to.
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4.2.7 IPSEC Status (9800VNX only)
#: The IPSec entry index number.
Connection Name: User-defined IPSEC VPN connection name.
Remote Gateway: The IP of the remote gateway.
Local Address: The IP and netmask of local access range.
Remote address: The IP and netmask of remote access range.
Connected: Show the connecting status.
Action: Connection or Drop the connection.
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4.2.8 PPTP Status (9800VNX only)
PPTP Client
User: Four users(sessions) for client sessions. Here shows the using user.
Connection Name: Show user-defined PPTP VPN connection name.
Active: Show if the tunnel is active for connection.
Connection Type: Remote Access or LAN to LAN.
Server IP: Show the IP of VPN Server.
Peer Network IP: Display the remote network and subnet mask in LAN to LAN PPTP connection.
NetmasK: Show the netmask of peer network.
Connected: Show the connecting status.
PPTP Server
User: Four users(sessions) for server sessions. Here shows the using user.
Connection Name: Show user-defined PPTP VPN connection name.
Active: Show if the tunnel is active for connection.
Connection Type: Remote Access or LAN to LAN.
Assigned IP: Show the IP assigned to the client.
Peer Network IP: Display the remote network and subnet mask in LAN to LAN PPTP connection.
NetmasK: Show the netmask of peer network.
Connected: Show the connecting status.
Refresh: Click this button to refresh the connection status.
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4.2.9 L2TP Status (9800VNX only)
Name: Display the user-defined L2TP connection name.
Type: The VPN mode: dialin or dialout.
Connect: The connecting status.
Active: Show if the L2TP tunnel is active for connection.
Username: The user assigned to client (dialout use) or the user set for client to connect in (dialin use).
4.2.10 Disk Status
Partition: Display the NAS partition.
Disk Space(KB): Display the total storage space of the NAS in KB unit.
Free Space(KB): Display the available space in KB unit.
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4.2.11 VoIP Status
4.2.11.1 VoIP Status
VoIP status give users a directive picture on the registered VoIP accounts.
Phone Number: The phone number user registers and fills in the Basic page of VoIP.
Host: Show the IP address and port number of SIP Registrar.
Status: The status of the registered SIP account.
Registered Time: The duration the account has been successfully registered to the SIP registrar.
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4.3 Quick Start
For detailed instructions on configuring WAN settings, see the Interface Setup section of this manual.
The Quick Start Wizard is a useful and easy utility to help setup the device to quickly connect to your ISP
(Internet Service Provider) with only a few steps required. It will guide you step by step to configure the
password, time zone, and WAN settings of your device. The Quick Start Wizard is a helpful guide for first time
users to the device.
Click NEXT to enter step 1.
Step1. Set new password of the “admin” account. The password was used to manage the web access. The
default is “admin”. Once changed, please remember carefully. Click NEXT to continue.
Step2: Choose your time zone. Click NEXT to continue.
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Step3: Set your wireless connection. Click NEXT to continue.
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Step4: Set your Internet connection
WAN Transfer Modes: EWAN, SFP and 3G/4G-LTE
SFP (SFP interface for direct connection to fibre )
1). Select SFP. Refer to your ISP to choose the appropriate connection protocol. Click NEXT to continue.
2). Enter the PPPoE account information provided to you by your ISP. Click NEXT to continue.
3).The Setup Wizard has completed. Click on BACK to modify changes or mistakes. Click NEXT to save the
current settings.
4). Quick Start Completed!
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3G/4G-LTE USB
1) Select 3G/4G-LTE (for example).
2). Type relevant 3G/4G-LTE parameters from your ISP.
3). Click Next to save changes.
4). Quick Start completed!.
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Switch to Status > Device Info to view the status.
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EWAN
1). Select EWAN. Refer to your ISP to choose the appropriate connection protocol. Click NEXT to continue.
2). Enter the PPPoE account information provided to you by your ISP. Click NEXT to continue.
3).The Setup Wizard has completed. Click on BACK to modify changes or mistakes. Click NEXT to save the
current settings.
4). Quick Start Completed!
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Switch to Status > Device Info to view the status.
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4.4 Configuration
Click this item to access the following sub-items that configure the router: Interface Setup, Dual WAN,
Advanced Setup, VoIP, Access Management, and Maintenance.
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4.4.1 Interface Setup
First, let us take a look at the Interface Setup. There are four items contained in this section, namely, Internet,
LAN, Wireless and Wireless MAC Filter. Each is described in the following scenario.
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4.4.1.1 Internet
SFP (direct connection to fibre)
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Status: Select whether to enable the service.
Line Speed: Select the exact working line speed (1G/100M) for SFP.
IPv4/IPv6
IP version: choose IPv4, IPv4/IPv6, IPv6 based on users’ environment.
Here we take IPv4/IPv6 for example, when you just choose IPv4 or IPv6, you can just get information from the
following listed parameters.
ISP Connection Type:
ISP: Select the encapsulation type your ISP uses.
Dynamic IP: Select this option if your ISP provides you an IP address automatically. This option is
typically used for Cable services. Please enter the Dynamic IP information accordingly.
Static IP: Select this option to set static IP information. You will need to enter in the Connection type, IP
address, subnet mask, 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 (xx.xx.xx.xx). The
Router will not accept the IP address if it is not in this format.
PPPoE: Select this option if your ISP requires you to use a PPPoE connection.
Bridge: Select this mode if you want to use this device as an OSI layer 2 device like switch.
802.1q Options
802.1q: Select whether to activate 802.1q feature. When activated, please enter the the VLAN ID.
VLAN ID: It is a parameter to specify the VLAN which the frame belongs. Enter the VLAN ID identification,
tagged: 0-4095.
PPPoE
Username: Enter the user name exactly as your ISP assigned.
Password: Enter the password associated with the user name above.
Bridge Interface for PPPoE: When “Activated”, the device will gain WAN IP from your ISP with the PPPoE
account. But if your PC is connected to the router working as a DHCP client, in this mode, the device acts as a
NAT router; while if you dial up with the account within your PC, the device will then work as a bridge forwarding
the PPPoE information to the PPPoE server and send the response to your PC, thus your PC gets a WAN IP
working in the internet.
Connection Setting
Connection:
Always On: Click on Always On to establish a PPPoE session during start up and to automatically
re-establish the PPPoE session when disconnected by the ISP.
Connect Manually: Select Connect Manually when you don't want the connection up all the time.
TCP MSS Option: Enter the TCP Maximum Segment Size (MSS).
IP Options
Default Route: Select Yes to use this interface as default route interface.
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IPv4 options:
Get IP Address: Choose Static or Dynamic
Static IP Address: If Static is selected in the above field, please enter the specific IP address you get from ISP
and the following IP subnet mask and gateway address.
IP Subnet Mask: The default is 0.0.0.0. User can change it to other such as 255.255.255.0.Type the subnet
mask assigned to you by your ISP (if given).
Gateway: Enter the specific gateway IP address you get from ISP.
NAT: Select Enable if you use this router to hold a group of PCs to get access to the internet.
Dynamic Route:
RIP Version: (Routing Information protocol) Select this option to specify the RIP version, including RIP-1,
RIP-2.
RIP Direction: Select this option to specify the RIP direction.
None is for disabling the RIP function.
Both means the router will periodically send routing information and accept routing information then
incorporate into routing table.
IN only means the router will only accept but will not send RIP packet.
OUT only means the router will only send but will not accept RIP packet.
TCP MTU Option: Maximum Transmission Unit, the maximum is 1500.
IGMP Proxy: IGMP (Internet Group Multicast Protocol) is a network-layer protocol used to establish
membership in a Multicast group. Choose whether enable IGMP proxy.
IPv6 options (only when choose IPv4/IPv6 or just IPv6 in IP version field above):
IPv6 Address: Type the WAN IPv6 address from your ISP.
Obtain IPv6 DNS: Choose if you want to obtain DNS automatically.
Primary/Secondary: if you choose Disable in the Obtain IPv6 DNS field, please type the exactly primary and
secondary DNS.
MLD Proxy: MLD (Multicast Listener Discovery Protocol) is to IPv6 just as IGMP to IPv4. It is a Multicast
Management protocol for IPv6 multicast packets.
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When router’s Internet configuration is finished successfully, you can go to status to get the connection
information.
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EWAN
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Status: Select whether to enable the service.
IPv4/IPv6
IP version: choose IPv4, IPv4/IPv6, IPv6 based on users’ environment.
Here we take IPv4/IPv6 for example, when you just choose IPv4 or IPv6, you can just get information from the
following listed parameters.
ISP Connection Type:
ISP: Select the encapsulation type your ISP uses.
Dynamic IP: Select this option if your ISP provides you an IP address automatically. This option is
typically used for Cable services. Please enter the Dynamic IP information accordingly.
Static IP: Select this option to set static IP information. You will need to enter in the Connection type, IP
address, subnet mask, 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 (xx.xx.xx.xx). The
Router will not accept the IP address if it is not in this format.
PPPoE: Select this option if your ISP requires you to use a PPPoE connection.
Bridge: Select this mode if you want to use this device as an OSI layer 2 device like switch.
802.1q Options
802.1q: Select whether to activate 802.1q feature. When activated, please enter the the VLAN ID.
VLAN ID: It is a parameter to specify the VLAN which the frame belongs. Enter the VLAN ID identification,
tagged: 0-4095.
PPPoE
Username: Enter the user name exactly as your ISP assigned.
Password: Enter the password associated with the user name above.
Bridge Interface for PPPoE: When “Activated”, the device will gain WAN IP from your ISP with the PPPoE
account. But if your PC is connected to the router working as a DHCP client, in this mode, the device acts as a
NAT router; while if you dial up with the account within your PC, the device will then work as a bridge forwarding
the PPPoE information to the PPPoE server and send the response to your PC, thus your PC gets a WAN IP
working in the internet.
Connection Setting
Connection:
Always On: Click on Always On to establish a PPPoE session during start up and to automatically
re-establish the PPPoE session when disconnected by the ISP.
Connect Manually: Select Connect Manually when you don't want the connection up all the time.
TCP MSS Option: Enter the TCP Maximum Segment Size (MSS).
IP Options
Default Route: Select Yes to use this interface as default route interface.
IPv4 options:
Get IP Address: Choose Static or Dynamic
Static IP Address: If Static is selected in the above field, please enter the specific IP address you get from ISP
and the following IP subnet mask and gateway address.
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IP Subnet Mask: The default is 0.0.0.0. User can change it to other such as 255.255.255.0.Type the subnet
mask assigned to you by your ISP (if given).
Gateway: Enter the specific gateway IP address you get from ISP.
NAT: Select Enable if you use this router to hold a group of PCs to get access to the internet.
Dynamic Route:
RIP Version: (Routing Information protocol) Select this option to specify the RIP version, including RIP-1,
RIP-2.
RIP Direction: Select this option to specify the RIP direction.
None is for disabling the RIP function.
Both means the router will periodically send routing information and accept routing information then
incorporate into routing table.
IN only means the router will only accept but will not send RIP packet.
OUT only means the router will only send but will not accept RIP packet.
TCP MTU Option: Maximum Transmission Unit, the maximum is 1500.
IGMP Proxy: IGMP (Internet Group Multicast Protocol) is a network-layer protocol used to establish
membership in a Multicast group. Choose whether enable IGMP proxy.
IPv6 options (only when choose IPv4/IPv6 or just IPv6 in IP version field above):
IPv6 Address: Type the WAN IPv6 address from your ISP.
Obtain IPv6 DNS: Choose if you want to obtain DNS automatically.
Primary/Secondary: if you choose Disable in the Obtain IPv6 DNS field, please type the exactly primary and
secondary DNS.
MLD Proxy: MLD (Multicast Listener Discovery Protocol) is to IPv6 just as IGMP to IPv4. It is a Multicast
Management protocol for IPv6 multicast packets.
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When router’s Internet configuration is finished successfully, you can go to status to get the connection
information.
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3G/4G-LTE USB
The BIPAC 9800VNX(L) supports 3G/4G-LTE USB(additional 3G/4G-LTE modem connected to the USB port).
Status: Choose Activated to enable the 3G connection.
Network Mode: There are 8 options of service standards: “Automatic”, “UMTS 3G only”, “GSM 2G Only”,
“UMTS 3G Preferred”, “GSM 2G Preferred”, “GSM and UMTS Only”, “LTE Only”, “GSM, UMTS, LTE”. If you are
uncertain what services are available to you, then please select Automatic.
TEL No.: The dial string to make a GPRS / 3G user internetworking call. It may provide by your mobile service
provider.
APN: An APN is similar to a URL on the WWW, it is what the unit makes a GPRS / UMTS call. The service
provider is able to attach anything to an APN to create a data connection, requirements for APNs varies
between different service providers. Most service providers have an internet portal which they use to connect to
a DHCP Server, thus giving you access to the internet i.e. some 3G operators use the APN ‘internet’ for their
portal. The default value is “internet”.
Username/Password: Enter the username and password provided by your service provider. The username
and password are case sensitive.
PIN: PIN stands for Personal Identification Number. A PIN code is a numeric value used in certain systems as a
password to gain access, and authenticate. In mobile phones a PIN code locks the SIM card until you enter the
correct code. If you enter the PIN code incorrectly into the phone 3 times in a row, then the SIM card will be
blocked and you will require a PUK code from your network/service provider.
Connection: Default set to Always on to keep an always-on 3G connection.
Keep Alive: Select Yes to keep the 3G/4G LTE connection always on.
Default Route: Select Yes to use this interface as default route interface.
NAT: Select this option to Disabled/Enable the NAT (Network Address Translation) function. Enable NAT to
grant devices in LAN access to internet through the 3G gateway sharing a single internet IP.
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When router’s Internet configuration is finished successfully, you can go to status to get the connection
information.
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4.4.1.2 LAN
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.
IPv6
The IPv6 address composes of two parts, thus, the prefix and the interface ID.
There are two ways to dynamically configure IPv6 address on hosts. One is statefull configuration, for example
using DHCPv6 (which resembles its counterpart DHCP in IPv4.) In the stateful autoconfiguration model, hosts
obtain interface addresses and/or configuration information and parameters from a DHCPv6 server. The Server
maintains a database that keeps track of which addresses have been assigned to which hosts.
The second way is stateless configuration. Stateless auto-configuration requires no manual configuration of
hosts, minimal (if any) configuration of routers, and no additional servers. The stateless mechanism allows a
host to generate its own addresses using a combination of locally available information (MAC address) and
information (prefix) advertised by routers. Routers advertise prefixes that identify the subnet(s) associated with
a link, while hosts generate an "interface identifier" that uniquely identifies an interface on a subnet. An address
is formed by combining the two. When using stateless configuration, you needn’t configure anything on the
client.
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IPv4 Parameters
IP Address: Enter the IP address of Router in dotted decimal notation, for example, 192.168.1.254 (factory
default).
IP Subnet Mask: The default is 255.255.255.0. User can change it to other such as 255.255.255.128.
Alias IP Address: This is for local networks virtual IP interface. Specify an IP address on this virtual interface.
Alias IP Subnet Mask: Specify a subnet mask on this virtual interface.
IGMP Snooping: Select Activated to enable IGMP Snooping function, Without IGMP snooping, multicast
traffic is treated in the same manner as broadcast traffic - that is, it is forwarded to all ports. With IGMP snooping,
multicast traffic of a group is only forwarded to ports that have members of that group.
Dynamic Route: Select the RIP version from RIP1 or RIP2.
DHCPv4 Server
DHCP (Dynamic Host Configuration Protocol) allows individual clients to obtain TCP/IP configuration at start-up
from a server.
DHCPv4 Server: If set to Enabled, your BIPAC 9800VNX(L) can assign IP addresses, default gateway and
DNS servers to the DHCP client.
If set to Disabled, the DHCP server will be disabled.
If set to Relay, the BIPAC 9800VNX(L) acts as a surrogate DHCP server and relays DHCP requests and
responses between the remote server and the clients. Enter the IP address of the actual, remote DHCP
server in the Remote DHCP Server field in this case.
When DHCP is used, the following items need to be set.
Start IP: This field specifies the first of the contiguous addresses in the IP address pool.
IP Pool Count: This field specifies the count of the IP address pool.
Lease Time: The current lease time of client.
DNS Relay Select Automatically obtained or Manually set (if selected. Please set the exactly information). If you
set Static IP in the ISP Connection Type field, then select Manually here and set the specific DNS information.
Primary DNS Server: 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.
Secondary DNS Server: 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.
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Fixed Host
In this field, users can map the specific IP (must in the DHCP IP pool) for some specific MAC, and this
information can be listed in the following table.
IP Address: Enter the specific IP. For example: 192.168.1.110.
MAC Address: Enter the responding MAC. For example: 00:0A:F7:45:6D:ED
When added, you can see the ones listed as showed below:
IPv6 parameters
Interface Address / Prefix Length: enter the static LAN IPv6 address, we suggest leave the field empty
because when setted wrong, it will result in LAN devices not being able to access other IPv6 device through
internet. Router will take the same WAN’s prefix to LAN side if the field is empty.
MLD Snooping: Similar to IGMP Snooping, but applicable for IPv6.
DHCPv6 Server
DHCPv6 Server: Check whether to enable DHCPv6 server.
DHCPv6 Server Type: Select Stateless or Stateful. When DHCPv6 is enabled, this parameter is available.
Stateless: If selected, the PCs in LAN are configured through RA mode, thus, the PCs in LAN are
configured through RA mode, to obtain the prefix message and generate an address using a
combination of locally available information (MAC address) and information (prefix) advertised by
routers, but they can obtain such information like DNS from DHCPv6 Server.
Stateful: If selected, the PCs in LAN will be configured like in IPv4 mode, thus obtain addresses and
DNS information from DHCPv6 server.
Start interface ID: enter the start interface ID. The IPv6 address composed of two parts, thus, the prefix and the
interface ID. Interface is like the Host ID compared to IPv4.
End interface ID: enter the end interface ID.
Leased Time (hour): the leased time, similar to leased time in DHCPv4, is a time limit assigned to clients, when
expires, the assigned ID will be recycled and reassigned.
Issue Router Advertisement: Check whether to enable issue Router Advertisement feature. It is to send
Router Advertisement messages periodically. Router will multicast the v6 Prefix information (similar to v4
network number 192.168.1.0) to all LAN devices if the field is enabled. We suggest enabling this field.
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4.4.1.3 Wireless
This section introduces the wireless LAN and some basic configurations. Wireless LANs can be as complex as
a number of computers with wireless LAN cards communicating through access points which bridge network
traffic to the wired LAN.
Access Point Settings
Access Point: Default setting is set to Activated. If you want to close the wireless interface, select
Deactivated.
AP MAC Address: The MAC address of wireless AP.
Wireless Mode: The default setting is 802.11b+g+n (Mixed mode). If you do not know or have both 11g and
11b devices in your network, then keep the default in mixed mode. From the drop-down manual, you can select
802.11g if you have only 11g card. If you have only 11b card, then select 802.11b and if you only have 802.11n
then select 802.11n.
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Channel: The range of radio frequencies used by IEEE 802.11b/g/n wireless devices is called a channel. There
are Regulation Domains and Channel ID in this field. The Channel ID will be different based on Regulation
Domains. Select a channel from the drop-down list box.
Beacon interval: The Beacon Interval value indicates the frequency interval of the beacon. Enter a value
between 20 and 1000. A beacon is a packet broadcast by the Router to synchronize the wireless network.
RTS/CTS Threshold: The RTS (Request To Send) threshold (number of bytes) for enabling RTS/CTS
handshake. Data with its frame size larger than this value will perform the RTS/CTS handshake. Enter a value
between 1500 and 2347.
Fragmentation Threshold: The threshold (number of bytes) for the fragmentation boundary for directed
messages. It is the maximum data fragment size that can be sent. Enter a value between 256 and 2346, even
number only.
DTIM Interval: This value, between 1 and 255, indicates the interval of the Delivery Traffic Indication Message
(DTIM).
TX Power: The transmission power of the antennas, ranging from 1-100, the higher the more powerful of the
transmission performance.
IGMP Snooping: Enable or disable the IGMP Snooping function for wireless. Without IGMP snooping,
multicast traffic is treated in the same manner as broadcast traffic - that is, it is forwarded to all ports. With IGMP
snooping, multicast traffic of a group is only forwarded to ports that have members of that group.”
11n Settings
Channel Bandwidth: Select either 20 MHz or 20/40 MHz for the channel bandwidth. The wider the Channel
bandwidth the better the performance will be.
Guard Interval: Select either 400nsec or 800nsec for the guard interval. The guard interval is here to ensure
that data transmission do not interfere with each other. It also prevents propagation delays, echoing and
reflections. The shorter the Guard Interval, the better the performance will be. We recommend users to select
Auto.
MCS: There are options 0~15 and AUTO to select for the Modulation and Coding Scheme. We recommend
users selecting AUTO.
SSID Settings
Available SSID: User can determine how many virtual SSIDs to be used. Default is 1, maximum is 4.
SSID Index: Select how many SSIDs you want to lay out. A total of 4 is in list. By default 4 SSIDs are in use.
SSID: The SSID is the unique name of a wireless access point (AP) to be distinguished from another. For
security propose, change the default wlan-ap to a unique ID name to the AP which is already built-in to the
router’s wireless interface. Make sure your wireless clients have exactly the SSID as the device, in order to get
connected to your network.
Broadcast SSID: Select Yes to make the SSID visible so a station can obtain the SSID through passive
scanning. Select No to hide the SSID in so a station cannot obtain the SSID through passive scanning.
SSID Activated: Select the time period during which the SSID is active. Default is always which means the
SSID will be active all the time without time control. See 4.4.3.11 Time Schedule to set the timeslot to flexibly
control when the SSID functions.
WPS Settings
WPS (Wi-Fi Protected Setup) feature is a standard protocol created by Wi-Fi Alliance. This feature greatly
simplifies the steps needed to create a Wi-Fi networks for a residential or an office setting. WPS supports 2
types of configuration methods which are commonly known among consumers: PIN Method & PBC Method.
WPS State: Display whether the WPS is configured or unconfigured.
WPS Mode: Select the mode which to start WPS, choose between PIN Code and PBC (Push Button).
Selecting Pin Code mode will require you to know the enrollee PIN code.
To future understand the two modes of configuration; please refer to the following Wi-Fi Protected Setup.
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Wi-Fi Protected Setup
PIN Method: Configure AP as Registrar
1. Jot down the client’s Pin (eg. 04640776).
2. Enter the Enrollee(Client) PIN code and then press Start WPS.
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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. Billion_AP) from the WPS AP List column. Then press the PIN button
located on the middle left of the page to run the scan.
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4. The client’s SSID and security setting will now be configured to match the SSID and security setting of the
registrar (router).
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PIN Method: Configure AP as Enrollee
1. Jot down the WPS PIN (eg. 03454435).Press Start WPS.
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2. 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. Billion_AP) from the WPS AP List before
pressing the PIN button to run the scan.
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3. The router’s (AP’s) SSID and security setting will now be configured to match the SSID and security setting of
the registrar (client).
4. 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.
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PBC Method:
1. Press the PBC radio button, Then Start WPS.
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. Billion_AP) from the WPS AP List section before pressing the PBC
button to run the scan.
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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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Security Settings
Security Type: You can disable or enable wireless security for protecting wireless network. The default type of
wireless security is OPEN and to allow all wireless stations to communicate with the access points without any
data encryption.
To prevent unauthorized wireless stations from accessing data transmitted over the network, the router offers
secure data encryption, known as WEP and WPA.
There are five alternatives to select from: WEP 64-bit, WEP 128-bit, WPA-PSK, WPA2-PSK, Mixed
WPA/WPA2-PSK. If you require high security for transmissions, please select WPA-PSK, WPA2-PSK or
WPA/WPA2-PSK.
WEP
WEP Authentication Method: WEP authentication method, there are two methods of authentication used,
Open System authentication (OPENWEB) and Share Key authentication (SHAREDWEB). We suggest you
select OPENWEB.
Key 1 to Key 4: Enter the key to encrypt wireless data. To allow encrypted data transmission, the WEP
Encryption Key values on all wireless stations must be the same as the router. There are four keys for your
selection. The input format is in HEX style, 5 and 13 HEX codes are required for 64-bitWEP and 128-bitWEP
respectively.
If you chose WEP 64-bit, then enter any 5 ASCII characters or 10 hexadecimal characters ("0-9", "A-F").
If you chose WEP 128-bit, then enter 13 ASCII characters or 26 hexadecimal characters ("0-9", "A-F").
You must configure all four keys, but only one key can be activated at any one time. The default key is key 1.
Note: When you enable WPS function, this WEP function will be invalid. And if you select one of WEP-64Bits/
WEP-128Bits, the following prompt box will appear to notice you.
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WPA-PSK & WPA2-PSK
WPA Algorithms: TKIP (Temporal Key Integrity Protocol) or AES (Advanced Encryption System) utilizes a
stronger encryption method and incorporates Message Integrity Code (MIC) to provide protection against
hackers.
Pre-Shared key: The key for network authentication. The input format should be 8-63 ASKII characters or 64
hexadecimal characters
Key Renewal Interval: The time interval for changing the security key automatically between wireless client
and AP.
WDS Settings
WDS (Wireless distributed system) is a wireless access point mode that enables wireless link and
communication with other access point. It is easy to be installed, just define the peer’s MAC of the connected
AP.
WDS Mode: select Activated to enable WDS feature and Deactivated to disable this feature.
MAC Address: Enter the AP MAC addresses (in XX:XX:XX:XX:XX:XX format) of the peer connected AP.
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4.4.1.4 Wireless MAC Filter
The MAC filter screen allows you to configure the router to give exclusive access to up to 8 devices (Allow
Association) or exclude up to 8 devices from accessing the router (Deny Association). Every Ethernet device
has a unique MAC (Media Access Control) address. The MAC address is assigned at the factory and consists of
six pairs of hexadecimal characters, for example, 00:AA:BB:00:00:02. You need to know the MAC address of
the devices to configure this screen.
SSID Index: Select the targeted SSID you want the MAC filter rules to apply to.
Active: Select Activated to enable MAC address filtering.
Action: Define the filter action for the list of MAC addresses in the MAC address filter table.
Select Deny to block access to the AP, MAC addresses not listed will be allowed to access the router. Select
Allow to permit access to the router, MAC addresses not listed will be denied access to the router.
MAC Address: Enter the MAC addresses (in XX:XX:XX:XX:XX:XX format) of the wireless station that are
allowed or denied access to the specified in these address fields.
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