CastleNet Technology CBW500 802.11g Wireless Cable REsidential Gateway User Manual Manual

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802.11g Wireless Cable
Residential Gateway
CBW500/501
User’s Manual
For 1 Port and 4 Ports Model
m3
Federal Communication Commission Interference Statement
This equipment has been tested and found to comply with the limits for a Class B digital
device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide
reasonable protection against harmful interference in a residential installation. This
equipment generates, uses and can radiate radio frequency energy and, if not installed
and used in accordance with the instructions, may cause harmful interference to radio
communications. However, there is no guarantee that interference will not occur in a
particular installation. If this equipment does cause harmful interference to radio or
television reception, which can be determined by turning the equipment off and on, the
user is encouraged to try to correct the interference by one of the following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment into an outlet on a circuit different from that to which the receiver
is connected.
- Consult the dealer or an experienced radio/TV technician for help.
FCC Caution: To assure continued compliance, (example - use only shielded interface
cables when connecting to computer or peripheral devices) any changes or modifications
not expressly approved by the party responsible for compliance could void the user's
authority to operate this equipment.
This device complies with Part 15 of the FCC Rules. Operation is subject to the following
two conditions:
(1) This device may not cause harmful interference, and
(2) This device must accept any interference received, including interference that may
cause undesired operation.
IMPORTANT NOTE:
This equipment complies with FCC radiation exposure limits set forth for an
uncontrolled environment. This equipment should be installed and operated
with minimum distance 20cm between the radiator & your body.
This transmitter must not be co - located or operating in conjunction with any
other antenna or transmitter.
Table of Contents
INTRODUCTION............................................................................................2
FEATURES ......................................................................................................2
PACKAGE CONTENTS.................................................................................3
HARDWARE CONNECTION .......................................................................3
LED INDICATORS .........................................................................................2
Mode ..................................................................................................................2
GETTING STARTED .....................................................................................3
CONFIGURATION MENU..............................................................................4
7.1 STATUS ..................................................................................................................4
7.1.1 Software ........................................................................................................4
7.1.2 Connection ....................................................................................................5
7.1.3 Security .........................................................................................................6
7.1.4 Diagnostics ...................................................................................................7
7.2 BASIC ....................................................................................................................8
7.2.1 Setup..............................................................................................................8
7.2.2 DHCP............................................................................................................9
7.3 ADVANCED .........................................................................................................10
7.3.1 Options........................................................................................................10
7.3.2 IP Filtering..................................................................................................12
7.3.3 MAC Filtering.............................................................................................13
7.3.4 Port Filtering ..............................................................................................14
7.3.5 Forwarding .................................................................................................15
7.3.6 Port Triggers...............................................................................................16
7.3.7 DMZ Host....................................................................................................17
7.3.8 RIP Setup ....................................................................................................18
7.4 FIREWALL ...........................................................................................................19
7.4.1 ToD Filter ...................................................................................................19
7.4.2 Web Filter ...................................................................................................20
7.4.3 Local Log ....................................................................................................21
7.4.4 Remote Log .................................................................................................22
7.5 PARENTS CONTROL .............................................................................................23
7.5.1 Basic............................................................................................................23
7.6 WIRELESS ...........................................................................................................24
7.6.1 Basic............................................................................................................24
7.6.2 Security .......................................................................................................26
7.6.3 Access Control ............................................................................................29
7.6.4 Advanced.....................................................................................................30
TROUBLESHOOTING ..................................................................................33
Basic Connection .................................................................................................33
Browsing Configuration Utility ...........................................................................33
Connecting to the Internet ...................................................................................34
Wireless Network Connection ..............................................................................34
TECHNICAL SPECIFICATION...................................................................36
ii
Introduction
The CBW500 Wireless Cable Residential Gateway is a broadband gateway
product combining Ethernet network and wireless together. With IEEE 802.11g
standard wireless integration, this device not only allows you to take an
advantage of wired-free data transmission, but also allows you to have 4 of
10/100 Mbps Ethernet connections with auto-sensing switch Ethernet ports.
This combination of router and switch product eliminates the needs to buy an
additional hub or switch to serve your network, so users on either WLAN
(wireless LAN) or wired LAN can share files, other networking resource, and
even for a single account of Internet access by having this device connect to a
Cable modem.
The CBW500 allows up to 253 total (128 wireless) users to share a single
Cable connection. A high-speed routing engine and 54Mbps (802.11g
standard) wireless throughput easily handle large data transmission, including
those from multimedia applications.
802.11g also backward-compatible with 802.11b WLAN equipment, preserving
existing network investments.
The CBW500 can work as DHCP server to assigns an IP Address to every PC
on the LAN automatically and/or work as DHCP client to get an IP address
dynamically assigned by ISP. CBW500 Cable Residential Gateway is easy to
setup and maintain. All functions can be configured via web browsers such as
Internet Explorer.
Features
Enhance upstream performance, up to 30Mbps
DOCSIS 2.0 and CableHome 1.0 compliant
High speed wireless connection, up to 54Mbps
Ethernet (w/A-MDIX) or USB Interface for easy installation
QoS enhancement
MSO SNMP remote network management
Web Browser Management auto detect cable modem status
Field software upgradeable by MSO
Support up to 253 network clients
Provide MIBs DOCSIS1.0/1.1
Package Contents
1 x CBW500 Wireless Cable Residential Gateway with antennas
1 x Quick Installation Guide
1 x CD-ROM containing USB driver* and User’s Manual
1 x 12V DC/1A Power Adapter
1 x Ethernet cable
1 x USB cable (optional)
*USB interface depends on your model type, you may not have USB driver
contained in the CD-ROM.
Hardware Connection
1-Port Model (CBW501)
4-Port Model (CBW500)
Power: This port is for the 12V DC power supply connection.
Cable: Connect a DOCSIS 2.0/1.1/1.0 equivalent cable feed to the
F-connector on the back of the CBW500.
LAN: (1-Port Model) This LAN port is used to connect Ethernet device to the
LAN via Ethernet cable. You may use a HUB to extend the connections.
L1-L4: (4-Port Model) The four LAN ports are used to connect Ethernet
devices to the LAN via Ethernet cables.
Reset: Click RESET button to restart the system while press in and hold
RESET button for about three seconds to reset the CBW500 to the factory
default settings.
Antenna: These connection ports are reverse polarity.
LED Indicators
LED
Color
Mode
Power
Green
On
O.K.
Cable
Green
On
Connected
WLAN
Green
On
WLAN interface has data
transmitting
USB (optional)
Green
On
Connected
LAN
Activity
Green/Orange
or
10/100Linked Green/Orange
LAN1~4
Blinking
On
Status
Data transmitting
Green as 10Mbps
Orange as 100Mbps
Getting Started
Web Configuration
You can access the Configuration
Page by opening the web-browser
and typing in the IP Address of the
CBW500. The default IP Address of
the CBW500 is shown as right.
Leave the User name as blank and
the password as cable and then
press OK button. It is recommended
that you change the default
password for security purposes.
Please go to Status > Security to
change your password.
Configuration Menu
7.1 Status
7.1.1 Software
This page displays information of current system software.
7.1.2 Connection
This page displays information of status of cable modem’s HCF and IP
network connectivity.
7.1.3 Security
This page allows configuration of administration access privileges and the
ability to restore system’s factory defaults.
Administrator can change the logging password in this page. It is
recommended that you change the password once you have accessed the
CBW500 for the first time. The password can be up to 64 characters.
This page also provides an easy way to restore the factory defaults settings if
you want to clean all the existing settings or reset your settings.
7.1.4 Diagnostics
This page provides ping diagnostics function to help user solve IP connectivity
problems.
PING is a utility, which is used to determine whether a device is active at the
specified IP address. PING is normally used to test the physical connection
between two devices, to ensure that everything is working correctly.
Enter the settings of Ping target and then press Start Test to start the
diagnostic. The results will display in Results table and you need to refresh this
web page to update the diagnostic results.
7.2 Basic
7.2.1 Setup
This page allows configuration of the basic features of the broadband gateway
related to your ISP’s connection.
There are three options of obtaining a WAN IP address.
1. Obtain WAN IP Address by DHCP
2. Static WAN IP Address (for most leased line users)
3. Obtain WAN IP Address by PPPoE (for most dial-up users)
Select the item according to your situation and enter the information required
by your ISP. Press Apply to confirm the settings.
7.2.2 DHCP
This page allows configuration of DHCP server for LAN.
You need to enable (default) DHCP server feature and indicate the Starting
Local Address for the DHCP server to start with when issuing IP addresses
and the number of CPEs (clients).
Starting Local Address Because the CBW500’s default IP address is
192.168.0.1.the Starting Local address must be 192.168.0.2 or greater, but
smaller than 192.168.0.253. The default Starting Local Address is
192.168.0.10.
Number of CPEs Enter the maximum number of PCs that you want the DHCP
server to assign IP addresses to. This number can not be greater than 253 and
the default is 245.
The DHCP Client Lease Info table displays the PCs that are given IP
addresses by the CBW500. For each PC, the list shows the MAC Address, IP
Address, Subnet Mask, Duration and Expires.
7.3 Advanced
7.3.1 Options
This page allows configuration of advanced features of the CBW500.
WAN Blocking By enabling the Block WAN feature, you can prevent your
network from being pinged or detected by other Internet users.
This feature also reinforces your network security by hiding your network ports.
Both functions of the Block WAN Request feature make it more difficult for
outside users to work their way into your network.
IPsec PassThrough IPsec (Internet Protocol Security) is a suite of protocols
used to implement secure exchange of packets at the IP layer. To allow IPSec
tunnels to pass through the CBW500, IPsec PassThrough is enabled by
default.
10
PPTP PassThrough PPTP (Point to Point Tunneling Protocol) is the method
used to enable VPN* sessions to a Windows NT4.0, 2000 server. To allow
tunnels to pass through the CBW500. The default setting is enable.
*VPN (Virtual Private Networking) is a security measure that basically creates
a secure connection between two remote locations.
Remote Config Management This feature allows you to manage your
Gateway from a remote location, via the Internet. To enable this feature, tick
Enable, and use the specified port (default is 8080) on your PC to remotely
manage the CBW500. You must also change the CBW500's default password
if you haven’t already. A unique password will increase security.
To remotely manage the Router, enter http://xxx.xxx.xxx.xxx:8080 (the x’s
represent the CBW500's Internet IP address, and 8080 represents the
specified port) in your web browser’s Address field. You will be asked for the
CBW500’s password. After successfully entering the password, you will be
able to access the Gateway’s web-based utility.
Multicast Enable IP Multicasting occurs when a single data transmission is
sent to multiple recipients at the same time. With Multicast feature enable, the
CBW500 allows IP multicast packets to be forwarded to the appropriate
computers.
11
7.3.2 IP Filtering
This page allows configuration of IP address filters in order to block Internet
traffic to specific network on the LAN.
Tick Enable check box and enter the IP address or IP address range you want
to block and then click Apply button.
12
7.3.3 MAC Filtering
This page allows configuration of MAC address filters in order to block Internet
traffic to specific network on the LAN.
Enter the MAC address you want to block and then click Apply button.
13
7.3.4 Port Filtering
This page allows configuration of port address filters in order to block Internet
traffic to specific network on the LAN.
Tick Enable check box and enter the port or port range you want to block.
Select Protocol type and then click Apply button.
14
7.3.5 Forwarding
This allows for incoming requests on specific port numbers to reach web, FTP
server and mail servers, etc. so they can be accessed from the public Internet.
The table on the right is commonly used port numbers.
Tick Enable check box and enter the Local IP address, port or port range you
want to block. Select Protocol type and then click Apply button.
15
7.3.6 Port Triggers
This page allows configuration of dynamic triggers to specific devices on the
LAN. It allows special applications that require specific port number with
bi0directional traffic of function properly. Applications such as video
conferencing, video, gaming, and some messenging program features may
require these special settings.
Tick Enable check box and enter the trigger range, target range. Select
Protocol type and then click Apply button.
16
7.3.7 DMZ Host
This page allows configuration of a specific network device to be exposed or
visible directly to the WAN (public Internet). This may be used when problem
applications do not work with port triggers.
This may be necessary if the firewall is causing problems with an application
such as a game or video conferencing application. However, since DMZ
feature places the specify computer on your network outside of the firewall,
use this feature on a temporary basis. The computer in the DMZ is NOT
protected from hacker attacks.
Enter the last digits of its IP address in the IP field and then click Apply. Enter
a “0” (default) means there are no exposed hosts.
17
7.3.8 RIP Setup
This page allows configuration of RIP parameters related to authentication,
destination IP address/subnet mask, and reporting intervals. RIP automatically
identifies and uses the best known and quickest route to any given destination
address.
You need to enable (default) RIP (Routing Information Protocol) feature and
configure its related settings and then click Apply.
RIP determines a route based on the smallest hop count between source and
destination. It is a distance vector protocol that routinely broadcasts routing
information to its neighboring routers.
18
7.4 Firewall
7.4.1 ToD Filter
This page allows configuration of web access filters to block all Internet traffic
to and from specific network devices based on time of day settings.
Follow the instructions below to create the Time of Day (ToD) filters:
1. Indicate the MAC address in the field and then click Add.
2. Select the filter items from drop-down list and then tick the Enabled check
box.
3. Set the days and/or time when access will be filtered and then click Apply.
19
7.4.2 Web Filter
This page allows certain Web-oriented cookies, java scripts, and pop-up
windows to be blocked by the firewall. A list of “trusted computers” can also be
defined that are not subject to any filters configured. Specific Firewall features
can also be enabled. It is highly recommended that the Firewall is left enabled
at all times for protection against Denial of Service attacks. Go to the Parental
Control page to block Internet access to specific web sites.
Filter Proxy Use of WAN proxy servers may compromise the CBW500’s
security. Denying Filter Proxy will disable access to any WAN proxy servers.
Filter Cookies A cookie is data stored on your PC and used by Internet sites
when you interact with them.
20
Filter Java Applets Java is a programming language for websites. If you deny
Java Applets, you run the risk of not having access to Internet sites created
using this programming language.
Filter ActiveX ActiveX is a programming language for websites. If you deny
ActiveX, you run the risk of not having access to Internet sites created using
this programming language.
Filter Popup Windows Deny to open popup windows trigger form Internet.
Block Fragmented IP Packages Block the IP packages that been cut into
smaller units when transmitting over a network medium.
Firewall Protection Firewall feature will protect your network from a wide
array of common hacker attacks.
7.4.3 Local Log
This page allows configuration of Firewall event log reporting via email alerts
and a local view of the attacks on the system.
Follow the instructions below to create the Time of Day (ToD) filters:
1. Enter the contact Email Address and SMTP Server Name.
2. Tick the Enabled check box and then click Apply.
The event logs will be listed in the table in this page.
21
7.4.4 Remote Log
This page allows optional configuration of events to be sent to a local system
log server.
Tick the events you want to be sent to the system log server and indicate the
system log server’s IP address and then click Apply to active remote log
feature.
22
7.5 Parents Control
7.5.1 Basic
This page allows basic selection of rules which block certain Internet content
and Web sites. When you change your Parental Control settings, you must
click on the appropriate “Apply”, “Add” or “Remove” button for your new
settings to take effect. Refresh your browser to see the currently active
settings.
23
7.6 Wireless
7.6.1 Basic
This page allows configuration of the AP (Access Point) parameters, including
the SSID and channel number.
Network Name (SSID) SSID (Service Set Identifier) is a unique identifier for
your wireless network. You must have the same SSID entered into the
CBW500 and each of its wireless clients. The default SSID is CBW500.
Network Type Select Open to indicate the network as an open network
system and select Closed to indicate the network as a closed network system.
24
Country/Channel Select your region and proper channel. Channel is a similar
concept to any radio device. The CBW500 allows you to choose different radio
channels in the wireless spectrum.
Regional
Channel
North American
1-11
Japan
1-14
European (ETSI)
1-13
Spain
10-11
France
10-13
Enter the correct channel in field to correspond with your network settings. All
devices in your network must set to the same channel in order to function
properly.
25
7.6.2 Security
This page allows configuration of the WEP keys and/or passphrase.
CBW500 is equipped with WPA (Wireless Protected Access), the latest
security standard. It also supports the legacy security standard, WEP (Wired
Equivalent Privacy). You must first determine which standard you want to use
and then configure the related settings.
Note: To use WPA security, all your clients must be upgraded to drivers and
software that support it. A free security patch download is available from
Microsoft. This patch works only with the Windows XP. Other operating
systems are not supported at this time. Microsoft’s patch only supports devices
with WPA-enabled drivers.
26
There are two types of WPA security: WPA Pre Shared Key (without server)
and WPA (with server).
WPA Pre Shared Key uses a so-called pre-shared key as the security key. A
pre-shared key is a password. Each client uses the same key to access the
network. Typically, this mode will be used in a home environment.
WPA (with server) is a configuration when there is a radius server distributes
the keys to the clients automatically. This is typically used in a business
environment.
Network Authentication
802.1x 802.1x anthentication protocol allows users to authenticate into a
wireless network by means of a RADIUS Server. In standard Wi-Fi, 802.1x
authentication is optional but a requirement for WPA.
WPA Pre-Shared Key This can be from 8 to 40 characters and can be a
combination of letters, numbers, and other characters. This same key must be
used on all of the clients that you set up.
WPA Group Rekey Interval Rekey interval is how often the keys are
distributed (in packets).
RADIUS Server/Port/Key Use a RADIUS (Remote Authentication Dial-In
User Service) server to distribute keys to the clients. You also need to
configure RADIUS port and Key. All the clients must set to match these
settings.
Data Encryption (WEP) WEP (Wired Equivalent Privacy) is a data privacy
mechanism based on a 64-bit or 128-bit shared key algorithm. Wireless device
without a valid WEP key may be excluded from network traffic. Higher
encryption levels offer higher levels of security, but due to the complexity of the
encryption, they may decrease network performance.
Shared Key Authentication Select Optional or Required for the sender and
the receiver use a WEP key for authentication.
27
PassPhrase Passphrase is used much like a password. It simplifies the WEP
encryption process by automatically generating the WEP keys for the CBW500.
A passphrase is an easy way to generate hexadecimal keys. Enter any word,
up to 30 characters, and then click Generate WEP Keys button, or manually
typing up to four keys. If your wireless cards support passphrase, you can
enter the same passphrase on all the wireless cards. Or you may also
manually enter the key elements into the setting table.
In 64-bit WEP, the passphrase will generate 4 different keys. However, in
128-bit WEP, this method only generates 1 key which is replicated for all 4
keys. The passphrase can be up to 30 characters long and may contain any
alphanumeric characters.
Network Key 1-4 WEP keys enable you to create an encryption scheme for
wireless LAN transmissions. If you are not using a Passphrase, then manually
enter a set of values. (Do not leave a key field blank, and do not enter all
zeroes. These are not valid key values.)
If you are using 64-bit WEP encryption, then the key must be exactly 10
hexadecimal characters in length. If you are using 128-bit WEP encryption,
then the key must be exactly 26 hexadecimal characters in length. Valid
hexadecimal characters are “0”-“9” and “A”-“F”.
If you encounter any difficulty when you enable WEP ensure that you check
each key on your wireless computer is exactly the same as each key on the
CBW500. In other words, Key 1 on the wireless computer must have the same
Hexadecimal number as Network Key 1 on the CBW500, Key 2 on the wireless
computer must match Network Key 2 on the CBW500 and so on.
Current Network Key Show the Network key in use.
28
7.6.3 Access Control
This page allows configuration of the Access Control to the AP as well as
status on the connected clients.
Access Control allows you to control which wireless-equipped PCs may
communicate with the CBW500 according to their MAC addresses.
The number is up to a maximum of 80 MAC addresses.
Select the MAC Restrict Mode (Allow or Deny) and indicate the MAC address
in the field and then click Apply.
29
7.6.4 Advanced
This page allows configuration of data rates and Wi-Fi thresholds.
54gTM Mode
54g Auto In this mode, the CBW500 is compatible with 802.11b and 54g
wireless clients simultaneously. This is the factory default mode and ensures
successful operation with all Wi-Fi-compatible devices. If you have a mix of
802.11b and 54g clients in your network, we recommend you set the CBW500
to 54g-Auto mode. This setting should only be changed if you have a specific
reason to do so.
54g Only 54g-Only mode works with 54g clients only. This mode is
recommended only if you want to prevent 802.11b clients from accessing your
network.
30
54g LRS It is recommended that DO NOT use this mode unless you have a
very specific reason to do so. 54g LRS (Limited Rate Support) mode exists
only to solve unique problems that may occur with some 802.11b client
adapters and is NOT necessary for interoperability of 54g and 802.11b
standards.
Note: In some cases, older 802.11b clients may not be compatible with 54g
wireless. These adapters tend to be of inferior design and may use older
drivers or technology. 54g-LRS allows these clients to be compatible with the
newer 54g technology. Switching to this mode may solve problems that
sometimes occur with these clients. If you suspect that you are using a client
adapter that falls into this category of adapters, first check with the adapter
vendor to see if there is a driver update. If there is no driver update available,
switching to 54g-LRS mode may fix your problem. Please note that switching
to 54g-LRS mode may decrease 54g performance slightly.
802.11b Only Use 802.11b Mode only. The maximum data transfer rate of
802.11b standard is 11Mbps.
54gTM Protection Protected mode ensures proper operation of 802.11g clients
and access points when there is heavy 802.11b traffic in your operating
environment. When protected mode is Auto, 802.11g scans for other wireless
network traffic before it transmits data. Therefore, using this mode in
environments with heavy 802.11b traffic or interference achieves best
performance results. If you are in an environment with very little, or no other
wireless network traffic, your best performance will be achieved with Protected
mode Off.
Rate The basic transfer rates should be set depending on the speed of your
wireless network. You have to select 1-2Mbps if you have older 802.1
compliant equipment on your network, such as wireless adapter that support
only 1 or 2 Mbps. Otherwise, you do not have to limit the basic transfer rates of
faster adapters. CBW500 adaptively selects the highest possible rate for
transmission. The system will step down in case of obstacles or interference.
31
Beacon Interval The default beacon interval is 100 milliseconds. A beacon is
a short frame that is sent from the AP (Access Point) to stations in order to
organize and synchronize wireless communication on the WLAN (Wireless
LAN). A beacon includes the wireless LAN service area, the AP address, the
broadcast destination addresses, a time stamp and DTIM (Delivery Traffic
Indication Message). Enter a value between 1 and 65,535 (milliseconds). This
value indicates the frequency interval of the beacon.
DTIM Interval DTIM (Delivery Traffic Indication Maps) Interval’s range is 1 to
65535 milliseconds and the default setting is set to 1. DTIM informs clients of
the next window for listening to broadcast and multicast messages. When
CBW500 has buffered broadcast or multicast messages for associated clients,
it sends the DTIM with a DTIM Interval value. Its clients hear the beacons and
awaken to receive the broadcast and multicast messages.
Fragmentation Threshold The range is 256 to 2346 bytes. This value should
remain at its default setting of 2346. Fragmentation mechanism is used for
improving the efficiency when there is heavy traffic within the wireless network.
If you transmit large files in a wireless network, you can enable this function
and specify the packet size. The mechanism will split the packet according to
the packet size you set. But setting Fragmentation threshold too low may
cause poor network performance.
RTS Threshold RTS (Request to Send) Threshold is transmitters contending
for the medium may not be aware of each. If the packet size is smaller than the
setting RTS Threshold size, the RTS/CTS (Clear to Send) mechanism will not
be enabled. The CBW500 sends RTS frames to a particular receiving station
and negotiates the sending of a data frame. After receiving a RTS, the station
responds with a CTS frame to acknowledge their right of transmission.
This value should remain at its default setting of 2,347, although the range is
256 to 2,432 bytes. Setting this parameter to a small value will cause packets
to be sent more often and will consume more available bandwidth and reduce
throughput. However, a higher value will send more packets less often. Keep
this default setting is recommended.
32
Troubleshooting
Basic Connection
Check that the CBW500 is connected to your computers and the Cable
modem as well as all the equipment is powered on. Check that the LAN
and WAN port link status LEDs are lighted, and that any corresponding
LEDs and the network adapter are also lighted.
Ensure that the computer have completed their start-up procedure and
are ready for use. Some network interfaces may not be correctly initialized
until the start-up procedure has completed.
If the link status LED does not illuminate for a port that is connected,
check that you do not have a faulty cable.
Browsing Configuration Utility
Confirm that the physical connection between your computer and the
CBW500 is OK.
Ensure that you have configured your computer correctly (refer to chapter
6). Reboot your computer while it is connected to the CBW500 to ensure
your computer receives an IP address.
Ensure that you include the full URL including the prefix http:// (eg.
http://192.168.0.1)
If you cannot browse the CBW500, use winipcfg (for Windows95/98/ME)
or inconfig (for Windows 2000/XP) utility to verify that your computer has
received the correct address information from the CBW500. Check the
computer has an IP address of the form 192.168.0.XXX (where XXX is in
the range 2-254), the subnet mask is 255.255.255.0, and the default
Gateway is 192.168.0.1 (the address of the CBW500). If these are not
correct, use the Release and Renew functions to obtain a new IP address
from the CBW500.
Ensure that your computers are not configured to use a proxy server. If
you do, disable this proxy server temporary. It can be found under Internet
Explorer>Tools>Internet Options>Connections tab>LAN Settings.
33
Connecting to the Internet
Confirm that the physical connection between the Cable modem and
CBW500 is OK, and the link status LEDs on both CBW500 and Modem
are lighted.
Confirm that the connection between the Cable modem and its interface is
OK.
Ensure that you have entered the correct information into the CBW500
configuration screen as required by your ISP.
Forgotten Password
You need to reset the CBW500 to its factory default settings if you do not
know or have forgotten the logging password. And all your configuration
changes will be lost if you reset the CBW500. Your may need to reinstall
the USB driver before you can perform a connection to Internet if you
connect the CBW500 to PC via USB interface. Please refer to chapter 4
for reset description.
Wireless Network Connection
Ensure that you have a 802.11b/g wireless adapter for each wireless
computer, and is correctly installed and configured.
Verify that your wireless computers are configured to work in
Infrastructure mode and not AdHoc mode. The CBW500 is designed to
operate in Infrastructure mode. AdHoc mode is not supported by the
CBW500.
Check the status of the WLAN LED, it should be lit if wireless connection
is performed.
Ensure that the wireless clients are using the same SSID as the CBW500.
The SSID is case-sensitive.
Ensure that you are using the same level of security on all of your wireless
computers (Off, 64 or 128 bit) and all devices are using the same keys
and the same order of keys.
Ensure that you have the wireless computers enabled in the list of allowed
MAC addresses if you are using Wireless Access control feature.
34
If you are having problem connecting or are operating at a low speed try to
change the antenna positions of the CBW500. For more effective
coverage you can try to re-orientate your antenna. Place one antenna
vertically and the other horizontally to improve the coverage. In addition,
moving the wireless computer closer to the CBW500 to confirm that the
building structure or fittings are not adversely affecting the connectivity. If
this resolves the problem, consider relocating the wireless computer or
the CBW500 or try a different channel on the CBW500.
2.4 GHz ISM band is used for 802.11b/g and your may have other devices
at your location that operate in the frequency band. You should take care
to ensure that there are no devices such as microwave ovens close to the
wireless computer or the CBW500. It could affect receiver sensitivity and
reduce the performance of your wireless network.
Most wireless computer adapters will scan the nearby channels. If a
wireless computer does not connect to the channel of the CBW500 then
try to initiate a search manually or manually set the channel on your
wireless computer to correspond to the CBW500’s channel.
The 802.11g standard will automatically choose the best speed depending
on the quality of the connection. The speed falls back to a lower speed if
the signal quality weakens. Generally, the closer you are to the CBW500
the better speed you will obtain. If your are not achieving the speed you
had anticipated then try to adjust the antennas or move the wireless
computer closer to the CBW500. In an idea network, the CBW500 should
be located on the center of the network with wireless computers
distributed around it.
35
Technical Specification
Hardware Specifications
Cable
F-type Connector
LAN
1 or 4 Ethernet 10/100 Mbps auto-MDI/MDIX, RJ-45 ports
WLAN
802.11g module as AP in MiniPCI Interface
LED (1-Port Model) Power / Cable / WLAN / USB / LAN1-4
LED (4-Port Model) Power / Cable / WLAN / USB / LAN
WLAN 802.11g
Host Interface
MiniPCI TYPE III B
Frequency Band
2.400 ~ 2.4835 GHz (subject to local regulations)
Spreading
DSSS (Direct Sequence Spread Spectrum)
Security
WPA support and Internal engine for 64-bit / 128-bit
WEP Encryption
Operating Range
Open Space: 100 - 400m
Indoor: 30m - 100m
Supported Bit Rate 1, 2, 5.5, 6, 9, 11, 12, 18, 24, 36, 48 and 54Mbps
Modulation
OFDM with BPSK, QPSK, 16QAM, 64QAM, DBPSK,
DQPSK and CCK
Antenna
Internal dipole antenna
Receiver Sensitivity 1E-5@-83dBm
Power
Consumption
TX power consumption <280mA
RX power consumption <220mA
Transmit Power
15dBm±2dBm
Operation Power
DC 3.3V
Roaming
Full mobility and seamless roaming from cell to cell and
across Access Point
OS Compatibility
Windows 98/2000/ME/XP
Operating Channels USA and Canada 1-11 channels
European (ETSI) 1-13 channels
Japan 1- 14 channels
Spain 10-11 channels
France- 10-13 channels
Operating
Environment
Temperature：0~50℃ for working；-10~65℃ for storing
Humidity：5%~95%（non-condensing）
36
Software Specifications
Routing
DNS relay / DHCP server / RIP I&II
Internet Sharing
NAT / NAPT / DHCP server / DNS relay
Application
protocol
SNMP v1/v2/v3, TELNET, TFTP, DHCP Server / Client
(up to 253 CPEs)
Network
protocols
PPPoE, ARP, TCP/IP, DNS proxy, RIP I&II, NAT, NAPT
Ping tool via ICMP
Speed test tool via UDP
Firewall
Stateful Packet Inspection (SPI)
Application Level Gateway modules (ALGs)
Denial of Services (DoS) and defense against common
hacker attacks
Baseline Privacy
40-bit/56-bit DES with RSA key management
DHCP Client
DHCP server: LAN DHCP service with and without
WAN connection
DHCP client: Automatically gets IP and DNS server
address from DHCP server at ISP
DNS Server
Resolve local host name & return referral upon
non-resolution
ToD (RF868)
ToD support for local and MSO time synchronization
TFTP Client
TFTP support for cable modem configuration file
download
Network
Protocol
Address translation of NAT, NAPT, C-NAT, C-NAPT
CableHome QoS Portal
Ping tool via ICMP
Speed test tool via UDP
IP, TCP, ARP RIP
Management
Web-based Management Interface utility and Telnet
Management utility
Controlled MIB access via SNMP v1/v2/v3
DOCSIS NmAccess (v1/v2) Coexistence (v1/v2/v3)
operation
Even configuration and generation
PS and FW config file download
WAN management IP address and data IP address
acquisition
Storage and MIB access to DHCP information
DHCP and SNMP driven provisioning mode
37

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