TELEFONICA P660HW-B1A User manual
P660HW-B1A Telefonica
User Manual
V1.00
i
Contents
1
Introduction......................................................................................................1
1.1
Application ..........................................................................................1
1.2
Features..............................................................................................2
1.3
Wireless Specifications........................................................................3
1.4
Compliance Certificates.......................................................................4
1.5
Standards Compatibility and Compliance ............................................4
1.6
Supported Encapsulation ....................................................................5
1.7
Environment Requirements.................................................................5
1.8
System Requirements.........................................................................5
1.9
Safety Precautions..............................................................................9
1.10
LED Status Description......................................................................10
1.10.1
Front Panel........................................................................10
1.10.2
Rear Panel........................................................................12
2
Hardware Installation.....................................................................................12
2.1
Choosing the Best Location for Wireless Operation...........................13
2.2
Connecting the ADSL Router............................................................. 14
2.3
Factory Reset Button.........................................................................14
3
Introduction to Web Configuration..................................................................15
3.1
Preparation before Login...................................................................15
3.2
Logging In to the Router....................................................................16
3.2.1
First-Time Login......................................................................16
3.3
Device Info........................................................................................17
3.3.1
Summary of Device Information..............................................18
3.3.2
WAN Interface Information......................................................18
3.3.3
Statistics.................................................................................19
3.3.4
Route Table Information..........................................................22
3.3.5
ARP Table Information............................................................22
3.3.6
DHCP.....................................................................................22
3.4
Advanced Setup................................................................................23
3.4.1
WAN Configuration.................................................................23
3.4.2
LAN Configuration ..................................................................40
3.4.3
NAT ........................................................................................41
3.4.4
Security ..................................................................................50
3.4.5
Quality of Service....................................................................52
3.4.6
Routing...................................................................................62
ii
3.4.7
DNS........................................................................................64
3.4.8
DSL........................................................................................66
3.4.9
Port Mapping..........................................................................67
3.4.10
IPSec ................................................................................68
3.4.11
Certificate..........................................................................69
3.5
Wireless............................................................................................72
3.5.1
Wireless LAN Basics ..............................................................73
3.5.2
Wireless – Basic.....................................................................76
3.5.3
Wireless – Security.................................................................77
3.5.4
Wireless - MAC Filter..............................................................87
3.5.5
Wireless – Bridge....................................................................88
3.5.6
Wireless – Advanced ..............................................................90
3.5.7
Wireless – Station Info............................................................93
3.6
Diagnostics .......................................................................................93
3.7
Management.....................................................................................94
3.7.1
Settings ..................................................................................94
3.7.2
System Log.............................................................................95
3.7.3
TR-069 Client .........................................................................97
3.7.4
Internet Time...........................................................................98
3.7.5
Access Control .......................................................................99
3.7.6
Update Software...................................................................100
3.7.7
Save/Reboot......................................................................... 101
1
1 Introduction
The P660HW-B1A Telefonica is a highly ADSL2+ Integrated access device and
can supportADSL link with downstream up to 24 Mbps andupstream up to 1 Mbps.
It is designed to provide a simple and cost-effectiveADSL Internet connection for a
private Ethernet or 802.11b/g wireless network. The Router combines high-speed
ADSL Internet connection, IP routing for the LAN and wireless connectivity in one
package. It is usually preferred to provide high access performance applications for
the individual users, the SOHOs, and the small enterprises.
The P660HW-B1A Telefonica is easy to install and use. The router connects to an
Ethernet LAN or computers via standard Ethernet ports. The ADSL connection is
made using ordinary telephone line with standard connectors. Multiple
workstations can be networked and connected to the Internet by a single Wide
Area Network (WAN) interface and single global IP address. The advanced
security enhancements, packet filtering and port redirection, can help protect your
network from potentially devastating intrusions by malicious agents from outside
your network.
Network and Router management is done through the web-based management
interface that can be accessed through the local Ethernet using any web browser.
You may also enable remote management to enable configuration of the Router via
the WAN interface.
The embedded 802.11g wireless access point provides Internet access and
connectivity to the Ethernet for 802.11g and 802.11b wireless workstations. IEEE
802.11g is fully compatible with IEEE 802.11b wireless devices. The 802.11g
standard supports data transfer with rate up to 54 Mbps. The wireless access point
(AP) of the router supports common security protocols that are used for wireless
LAN, including 64/128 bits WEP encryption, 802.1x, WPA and WPA2.
1.1 Application
Home gateway
SOHOs
Small enterprises
TV over IP (IPTV)
Higher data rate broadband sharing
2
Broadband Internet access sharing
Audio and video streaming and transfer
PC file and application sharing
Network and online gaming
1.2 Features
ADSL2+ interface complied with G.dmt, G.lite, T1.413, G.992.3
(ADSL/ADSL2), G.992.5(ADSL2+), Annex A, Annex L.
Hardware ATM segmentation & reassembly engine with CBR, rt- VBR,
nrt-VBR, UBR- with-PCR, UBR
4 x 10/100BASE-T/TX Ethernet switch ports
IEEE802.11 b/g compatible wireless AP
Support 64/128-bit WEP, 802.1x, WPA, and WPA2 for wireless security
Firmware upgrade: Telnet, HTTP Web Management, TFTP, FTP
VPN Pass Through on L2TP, PPTP, IPSec
Transparent Bridging among 10/100 Mbps Ethernet, and 802.11g wireless
LAN
Backup and restoration of the configuration file
Support DHCP server/client/relay
Support self-learning bridge (IEEE 802.1D Transparent Bridging)
Support 64 learning MAC addresses at least
Support IP source and destination routing
Support address filtering, UPnP, NAT, NAPT, DMZ, IP QoS
Supporting up to 8 PVCs
Support ATM forum UNI3.0, 3.1 and 4.0 Permanent Virtual Circuits (PVCs)
Support ITU-T i.610F4/F5 Operation, Administration, and Maintenance
(OAM)
Command line interface via serial port, telnet, or ssh
Date and time update from Simple Network Time Server (SNTP)
Three-level usernames and passwords: admin, user, and support
Service access control based on incoming interface: WAN or LAN
Protect Denial of Service (DoS) attacks from WAN/LAN: SYN flooding, IP
surfing, ping of Death, fraggle,- UDP ECHO (port 7) , teardrop, land
PAP (RFC1334), CHAP (RFC1994), MSCHAP for PPP session
Support auto channeling for wireless
3
Support a main SSID and a guest SSID for wireless
Support RTS/CTS, segment function for wireless
Support STA mutual isolation for wireless
Support SES for wireless
support WDS for wireless
Support Hide SSID for wireless
Support MAC access/deny list for wireless
WMM support for wireless
PRE 54M: -66 dBm@10%PER; 11M: -80 dBm@8%PER for wireless
Industry standard and interoperable DSL interface
1.3 Wireless Specifications
Item Description
Network Standard IEEE 802.11b
IEEE 802.11g
Frequency Range 2.40 GHz~2.4835 GHz ISM band
Modulation 802.11b: DBPSK, DQPS, CCK
802.11g: BPSK, QPSK, 16QAM, 64QAM
RF Power 20 dBm (Max). Typ. 18 dBm @Normal Temp Range,
802.11g: Typ. 15 dBm @ Normal Temp Range
Access User
Quantity 50 Pcs~80 Pcs/AP (Proposal)
Channel
11 (US and Canada)
13 (Europe and China)
14 (Japan)
AP Capacity
Auto-sensing
Data Rate
802.11.b: 1 Mbps, 2 Mbps, 5.5
Mbps, 11 Mbps
802.11g: 6 Mbps, 9 Mbps, 12
Mbps, 18 Mbps, 24 Mbps, 36
Mbps, 48 Mbps, 54 Mbps
1 Mbps DBPSK @ 0.81 Mbps
2 Mbps DQPSK @ 1.58 Mbps
5.5 Mbps CCK @ 4.07 Mbps
Payload Rate
6 Mbps BPSK @ 4.64 Mbps
4
Item Description
9 Mbps BPSK @ 6.55 Mbps
11 Mbps CCK @ 7.18 Mbps
12 Mbps BPSK @ 8.31 Mbps
18 Mbps QPSK @ 11.5 Mbps
24 Mbps 6QAM @ 14.18 Mbps
36 Mbps 16QAM @ 18.31 Mbps
48 Mbps 64QAM @ 23.25 Mbps
54 Mbps 64QAM @ 26.12 Mbps
Security 64-bit/128-bit WEP, 802.1x, WPA, WPA2
User Isolation MAC Level
MAC Filter Interface MAC Filter: Support
Vacancy MAC Filter: Support
Authentication
DHCP Client & Static IP: Support
802.1X and Radius Client: Support
DHCP Server: Support
Radio Cover
Range
Outdoor: 120m~400m
Indoor: 35m~100m
Antenna Type Internal Diversity with Connector. 3 dBi
1.4 Compliance Certificates
FCC Class B
CE Mark
1.5 Standards Compatibility and Compliance
RFC 2684 multi-protocol Encapsulation over ATM Adaptation Layer 5
RFC1483 Multi-protocol Encapsulation over ATMAdaptation Layer 5
RFC2364 PPP over ATM ALL5 (PPPoA)
RFC2516 PPP Over Ethernet (PPPoE)
RFC1662 PPP in HDLC-like Framing
RFC1332 PPP Internet Protocol Control Protocol
RFC1577/2225 Classical IP and ARP over ATM (IPoA)
5
RFC1483R
RFC894A Standard for the Transmission of IP Datagrams over Ethernet
Networks
RFC1042A standard for the Transmission of IP Datagrams over IEEE 802
Networks
MER (IP over Ethernet over AAL5)
Support Application Level Gateways (ALG)
ITU G.992.1 (G.dmt)
ITU G.992.2 (G.lite)
ITU G.994.1 (G.hs)
ITU G.992.3 (ADSL2)
ITU G.992.5 (ADSL2+)
ANSI T1.413 issue 2
IEEE802.3
IEEE802.3u
IEEE 802.11b
IEEE 802.11g
1.6 Supported Encapsulation
RFC 1483 bridge
RFC 1483 Router
Classical IP over ATM (RFC 1577)
PPP over ATM (RFC 2364)
PPP over Ethernet (RFC 2516)
1.7 Environment Requirements
Operating temperature: 0ºC~40ºC (32ºF to 104ºF)
Storage temperature: -20ºC~70ºC (-4ºF to 158ºF)
Operating humidity: 10%~95%, non-condensing
Storage humidity: 5%~95%, non-condensing
1.8 System Requirements
Recommended system requirements are as follows:
Pentium 233 MHZ or above
6
Memory: 64 Mbps or above
10M Base-T Ethernet or above
Windows 9x, Windows 2000, Windows XP, Windows ME, Windows NT
Ethernet network interface card (NIC)
The following information is very helpful for your ADSL configuration. To keep a
record for reference, fill in the column as follows.
Collect the following information from your ADSL service provider.
Item Description Enter
Information in
This Column
VPI
Most users are not required to change
this setting. The virtual path identifier
(VPI) is used in conjunction with the
virtual channel identifier (VCI) to identify
the data path between the network of
your ADSL service provider and your
computer. If you set up the Router for
multiple virtual connections, you need to
configure the VPI and VCI as instructed
by your ADSL service provider for
additional connections. You can change
this setting by accessing the WAN menu
of the web management interface.
VCI
Most users are not required to change
this setting. The VCI used in conjunction
with the VPI to identify the data path
between the network of yourADSL
service provider and your computer. If
you set up the Router for multiple virtual
connections, you need to configure the
VPI and VCI as instructed by yourADSL
service provider for additional
connections. You can change this setting
by accessing the WAN menu of the web
management interface.
7
Item Description Enter
Information in
This Column
Connection
and
Encapsulation
Type
This is the method your ADSL service
provider uses to transmit data between
the Internet and your computer. Most
users use the default PPPoE/PPPoA
connection type. The Setup Wizard can
be used to configure a PPPoE/PPPoA
connection type. You may need to specify
one of the following connection types:
PPPoE LLC, PPPoA LLC and PPPoA
VC-MUX. Other available connections
and encapsulation combinations must be
configured by using the Web manager.
These include the Bridge Mode (1483
Bridged IP LLC or 1483 Bridged IP
VC-MUX), Static IP (Bridged IP LLC,
1483 Bridged IP VC-MUX, 1483 Routed
IP LLC, 1483 Routed IP VC-MUX or
IPoA), etc.
Username
This is the user name used to log in to the
network of your ADSL service provider. It
is usually in the form of user@isp.com.
Your ADSL service provider uses this to
identify your account.
Password
This is the password used, in conjunction
with the user name previouslymentioned,
to log in to the network of your ADSL
service provider. It is used to verify the
identity of your account.
Necessary information about your Router Residential Gateway is as follows.
8
Item Description Enter
Information in
This Column
LAN IP
addresses
for the
Router
This is the IP address you enter in the
Address field in the Web browser to access
the configuration graphical user interface
(GUI) of the gateway. The default IP address
is 192.168.1.1 and it is referred to as the
“Management IP” address in this User
Manual. You can change this to suit any
desired IP address scheme. This address is
the basic IP address used for DHCP service
on the LAN when DHCP is enabled.
LAN
Subnet
Mask for
the
Router
This is the subnet mask used by the Router,
and is used throughout your LAN. The
default subnet mask is 255.255.255.0. You
can change it later.
Username
This is the user name used to access the
management interface of the gateway, when
you attempt to connect to the device through
a web browser. The default username of the
Router is admin. It cannot be changed.
Password
This is the password required when you
access the management interface of the
gateway. The default password is admin. It
cannot be changed.
Necessary information about your LAN or computer is as follows.
Item Description Enter
Information in
This Column
Ethernet
NIC
If your computer has an Ethernet NIC, you can
connect the Router to this Ethernet port using
an Ethernet cable. You can also use the
9
Item Description Enter
Information in
This Column
Ethernet ports on the Router to connect to
other computer or Ethernet devices.
DHCP
Client
status
By default, your Router Residential Gateway is
configured as a DHCP server. This means that
it can assign an IP address, a subnet mask,
and a default gateway address to computers
on your LAN. The default range of IP
addresses that the Router assigns is from
192.168.1.2 to 192.168.1.254. You need to set
your computer (or computers) to Obtain an IP
address automatically (that is, to set
computers as DHCP clients.)
1.9 Safety Precautions
Follow the announcements below to protect the device from risks and damage
caused by fire and electric power.
Use volume labels to mark the type of power.
Use the power adapter that is packed within the device package.
Pay attention to the power load of the outlet or prolonged lines. An
overburden power outlet or damaged lines and plugs may cause electric
shock or fire accident. Check the power cords regularly. If you find any
damage, replace it at once.
Proper space left for heat radiation is necessary to avoid any damage
caused by overheating to the device. The holes are designed for heat
radiation to ensure that the device works normally. Do not cover these heat
radiant holes.
Do not put this device close to a place where a heat source exits or high
temperature occurs.Avoid the device from direct sunshine.
Do not put this device close to a place where is over damp or watery. Do not
spill any fluid on this device.
10
Do not connect this device to any PC or electronic product, unless our
customer engineer or your broadband provider instructs you to do this,
because any wrong connection may cause any power or fire risk.
Do not place this device on an unstable surface or support.
1.10 LED Status Description
1.10.1 Front Panel
The following table describes the LED status of the Router:
LED Status Description
Off Router not powered-on.
Green The power is on and the device operates
normally.
The power is self-testing.
Power
Red The device enters the console mode of the
boot loader.
11
LED Status Description
The self-testing of the power fails if the LED is
always red.
Blink Red Upgrading software.
Off DSL link not established.
Slow
Blink
Green DSL line is training.
Fast Blink
Green DSL interface is TX/RX packets.
CONEXIÓN
Green DSL link established.
Off No PPPoA or PPPoE connection
Green The PPPoA or PPPoE connection is
established. The users can access the
Internet.
Internet
Red
Device attempts to become IP connected but
fails (no DHCP response, no PPPoE
response, PPPoE authentication failed, no IP
address from IPCP, etc.)
Off No Ethernet signal is detected.
Blink
Green The user data is passing through Ethernet
port.
Ethernet
Green Ethernet interface is ready to work
Off WLAN interface disable.
Blink
Green WLAN interface is TX/RX packets.
WLAN
Green WLAN interface enable.
Off Off: WPS process is inactive
WPS Green WPS process is on going
12
1.10.2 Rear Panel
The following table describes the interfaces and buttons of the router:
Interface Description
ANT Wireless antenna
ADSL RJ-11 port, for connecting the router to the ADSL interface
or a splitter via a telephone cable.
ETHERNET RJ-45 port, for connecting the router to the Ethernet
interface of a PC or other network devices via an Ethernet
cable.
Power Power interface, for connecting to the power adapter of 12
V, 800 mA.
RESET
Restore to the factory defaults. Keep the router powered
on and push a needle into the hole for 10 seconds, then
release it. The configuration is restored to the factory
defaults.
Power switch, power on or power off the router.
2 Hardware Installation
The Router has three separate interfaces, an Ethernet LAN, a wireless LAN and an
ADSL (WAN) interfaces. Place the Router in a location where it can be connected
to the various devices as well as to a power source. The Router should not be
located where it is exposed to moisture or excessive heat. Ensure that cables and
the power cord are placed safely out of the way so they do not create a tripping
hazard. As with any electrical appliance, observe common sense safety
procedures.
The Router can be placed on a shelf or desktop, ideally you should be able to see
the LED indicators in the front, as you may need to view them for troubleshooting.
13
2.1 Choosing the Best Location for Wireless Operation
Many environmental factors may affect the effective wireless function of the Router.
If this is the first time that you set up a wireless network device, read the following
information.
The access point can be placed on a shelf or desktop, ideally you should be able to
see the LED indicators in the front, as you may need to view them for
troubleshooting.
Designed to go up to 100 meters indoors and up to 300 meters outdoors, wireless
LAN lets you access your network from anywhere you want. However, the numbers
of walls, ceilings, or other objects that the wireless signals must pass through limit
signal range. Typical ranges vary depending on types of materials and background
RF noise in your home or business. For optimum range and signal strength, use
these basic guidelines.
Keep the numbers of walls and ceilings to the minimum:
The signal emitted from wireless LAN devices can penetrate through ceilings
and walls. However, each wall or ceiling can reduce the range of wireless
LAN devices from 1 ~ 30 miters. Position your wireless devices so that the
number of walls or ceilings obstructing the signal path is minimized.
Consider the direct line between access points and workstations:
A wall that is 0.5 meters thick, at a 45-degree angle appears to be almost 1
meter thick. At a 2-degree angle, it appears over 14 meters thick. Be careful
to position access points and client adapters so the signal can travel straight
through (90º angle) a wall or ceiling for better reception.
Building materials make difference:
Buildings constructed using metal framing or doors can reduce effective
range of the device. If possible, position wireless devices so that their
signals can pass through drywall or open doorways. Avoid positioning them
in the way that their signal must pass through metallic materials. Poured
concrete walls are reinforced with steel while cinderblock walls generally
have little or no structural steel.
Position the antenna for best reception:
Play around with the antenna position to see if signal strength improves.
Some adapters or access points allow you to judge the strength of the
signal.
Keep your product away (at least 1~2 meters) from electrical devices:
14
Keep wireless devices away from electrical devices that generate RF noise
such as microwave ovens, monitors, electric motors, etc.
2.2 Connecting the ADSL Router
The following describes the procedure for connecting the Router with PC.
Step 1 Connect the ADSL interface of the Router through a telephone cable.
Step 2 Connect the Ethernet interface of the Router to the network card
interface (NIC) of a PC through an Ethernet cable.
Step 3 Plug one end of the power adapter to the wall outlet and connect the
other end to the Power interface of the Router.
The following figure displays the connection of the Router, PC, and telephones.
2.3 Factory Reset Button
The Router is reset to the factory default settings by pressing the RESET button for
around 16 seconds while it is powered on. Use a ballpoint or paperclip to gently
push down the RESET button. Remember that this operation may wipe out the
settings stored in the flash memory, including user account information and LAN IP
settings.
The factory configuration of the Router is as follows:
IP address: 192.168.1.1
Subnet mask: 255.255.255.0
User name: 1234
Password: 1234
15
3 Introduction to Web Configuration
The first time you setup the Router. It is recommended that you configure the WAN
connection using a single computer, to ensure that both the computer and the
Router are not connected to the LAN. Once the WAN connection operates properly,
you may continue to make changes to Router configuration, including IP settings
and DHCP setup. This chapter is concerned with using your computer to configure
the WAN connection. The following chapter describes the various menus used to
configure and monitor the Router, including how to change IP settings and DHCP
server setup.
3.1 Preparation before Login
Before accessing the Router, ensure the communication between PC and Router is
normal. Check the communication between the PC and the Router as follows:
Step 4 Set the IP address of the PC to192.168.1.X (2~254), subnet mask to 255.
255.255.0, gateway address to 192. 168.1.1 (for a customized version, set
them according to the actual version).
Step 5 Enter arp -a in the DoS window to check whether the PC can read the
MAC address of the Router.
16
Step 6 Ping the management IP address (by default, it is 192.168.1.1) of the
Router.
Step 7 If the PC can read the MAC address of the Router and can ping through
the management IP address of the Router, which means the
communication of the PC and the Router is normal.
I Note:
When you manage the Router through Web, you must keep the Router power
on. Otherwise, the Router may be damaged.
3.2 Logging In to the Router
The following description is a detail “How-To” user guide and is prepared for first
time users.
3.2.1 First-Time Login
When you log in to the Router for the first time, the login wizard appears.
Step 1 Open a Web browser on your computer.
Step 2 Enter http://192.168.1.1 (the Router default IP address) in the address
bar. The login page appears.
Step 3 Enter the user name and password.
17
–The default username and password of the super user are 1234 and
1234.
You need not enter the username and password again if you select the option
Remember my password. It is recommended to change these default values after
logging in to the Router for the first time.
Step 4 Click OK to log in or click Cancel to exit the login page.
After logging in to the Router as a super user, you can query, configure, and modify
all settings. You can also diagnose the system.
You need to reboot the Router to enable your modification or configuration effective
in some cases, for example, after you modify the PVC configuration. Some
modification, such as adding a static route, takes effect at once, and does not
require Router reboot.
3.3 Device Info
Click Device Info and you can view the following information:
Summary
WAN
Statistics
Route
ARP
DHCP
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