D-Link DI-624 User Manual

D-Link AirPlus Xtreme G

DI-624DI-624

DI-624

DI-624DI-624

High-Speed 2.4 GHz

Wireless Router

Manual

Version 1.06

TM

Building Networks for People

Contents

Package Contents ................................................................................3

Introduction............................................................................................4

Wireless Basics ....................................................................................8

Getting Started ....................................................................................11

Using the Configuration Menu..............................................................12

Networking Basics ..............................................................................40

Troubleshooting...................................................................................55

Technical Specifications ......................................................................62

Frequently Asked Questions ................................................................65

Contacting Technical Support .............................................................. 93

Warranty..............................................................................................94

Registration ........................................................................................97

2

Package Contents

Contents of Package:

D-Link AirPlus XTREME G DI-624



High-Speed 2.4GHz Wireless Router

Power Adapter-DC 5V, 3.0A



Manual and Warranty on CD



Quick Installation Guide



Ethernet Cable (All the DI-624’s Ethernet ports are Auto-MDIX)



Note: Using a power supply with a different voltage rating than the one included with the
DI-624 will cause damage and void the warranty for this product.

If any of the above items are missing, please contact your reseller.

System Requirements for Configuration:

Ethernet-Based Cable or DSL Modem



Computers with Windows, Macintosh, or Linux-based



operating systems with an installed Ethernet adapter

Internet Explorer Version 6.0 or Netscape Navigator



Version 6.0 and Above

3

Introduction

The D-Link AirPlus Xtreme G DI-624 High-Speed Wireless Router is an 802.11g high­performance, wireless router that supports high-speed wireless networking at home, at
work or in public places.

Unlike most routers, the DI-624 provides data transfers at up to 108 Mbps (compared to
the standard 54 Mbps) when used with other D-Link AirPlus Xtreme G products. The

802.11g standard is backwards compatible with 802.11b products. This means that you
do not need to change your entire network to maintain connectivity. You may sacrifice
some of 802.11g’s speed when you mix 802.11b and 802.11g devices, but you will not
lose the ability to communicate when you incorporate the 802.11g standard into your

802.11b network. You may choose to slowly change your network by gradually replacing
the 802.11b devices with 802.11g devices .

In addition to offering faster data transfer speeds when used with other 802.11g products,
the DI-624 has the newest, strongest, most advanced security features available today.
When used with other 802.11g WPA (WiFi Protected Access) and 802.1x compatible
products in a network with a RADIUS server, the security features include:

WPA: Wi-Fi Protected Access authorizes and identifies users based on a secret key

that changes automatically at a regular interval. WPA uses TKIP (Temporal
Key Integrity Protocol) to change the temporal key every 10,000 packets (a
packet is a kind of message transmitted over a network.) This insures much
greater security than the standard WEP security. (By contrast, the older WEP
encryption required the keys to be changed manually.)

802.1x: Authentication is a first line of defense against intrusion. In the Authentication
process the server verifies the identity of the client attempting to connect to the
network. Unfamiliar clients would be denied access.

For home users that will not incorporate a RADIUS server in their network, the security
for the DI-624, used in conjunction with other 802.11g products, will still be much stronger
than ever before. Utilizing the Pre Shared Key mode of WPA, the DI-624 will obtain a
new security key every time it connects to the 802.11g network. You only need to input
your encryption information once in the configuration menu. No longer will you have to
manually input a new WEP key frequently to ensure security, with the DI-624, you will
automatically receive a new key every time you connect, vastly increasing the safety of
your communications.

4

Connections

All Ethernet Ports (WAN and LAN)
are auto MDI/MDIX, meaning you can
use either a straight-through or a
crossover Ethernet cable.

Pressing the

Reset Button

restores the
router to its
original factory
default settings.

Auto MDI/MDIX
LAN ports

automatically sense
the cable type when
connecting to
Ethernet-enabled
computers.

The Auto MDI/
MDIX WAN port is
the connection for
the Ethernet cable
to the Cable or
DSL modem

Receptor
for the

Power
Adapter

5

LEDs

WAN LED

A solid light indi­cates connection
on the WAN port.
This LED blinks
during data trans­mission.

POWER LED

A solid light
indicates a proper
connection to the
power supply.

STATUS

A blinking light
indicates that the
DI-624 is ready.

WLAN LED

A solid light
indicates that the
wireless segment
is ready. This LED
blinks during
wireless data
transmission.

LOCAL
NETWORK LED

A solid light indicates
a connection to an
Ethernet-enabled
computer on ports 1-

4. This LED blinks
during data trans­mission.

6

Features

Fully compatible with the 802.11g standard to provide a wireless data rate of



up to 108Mbps

Backwards compatible with the 802.11b standard to provide a wireless data



rate of up to 11Mbps

WPA (Wi Fi Protected Access) authorizes and identifies users based on a



secret key that changes automatically at a regular interval, for example:



TKIP (Temporal Key Integrity Protocol), in conjunction with a RADIUS
server, changes the temporal key every 10,000 packets, ensuring greater
security

Pre Shared Key mode means that the home user, without a RADIUS



server, will obtain a new security key every time the he or she connects
to the network, vastly improving the safety of communications on the
network

802.1x Authentication in conjunction with the RADIUS server verifies the



identity of would be clients

Utilizes OFDM technology (Orthogonal Frequency Division Multiplexing)



User-friendly configuration and diagnostic utilities



Operates in the 2.4GHz frequency range



Connects multiple computers to a Broadband (Cable or DSL) modem to



share the Internet connection

Advanced Firewall features



Supports NAT with VPN pass-through, providing added security



MAC Filtering



IP Filtering



URL Filtering



Domain Blocking



Scheduling



DHCP server enables all networked computers to automatically receive IP



addresses



Web-based interface for Managing and Configuring

Access Control to manage users on the network



Supports special applications that require multiple connections



Equipped with 4 10/100 Ethernet ports, 1 WAN port, Auto MDI/MDIX



7

Wireless Basics

D-Link wireless products are based on industry standards to provide easy-to-use and
compatible high-speed wireless connectivity within your home, business or public access
wireless networks. D-Link wireless products will allow you access to the data you want,
when and where you want it. You will be able to enjoy the freedom that wireless networking
brings.

A WLAN is a cellular computer network that transmits and receives data with radio
signals instead of wires. WLANs are used increasingly in both home and office
environments, and public areas such as airports, coffee shops and universities. Innovative
ways to utilize WLAN technology are helping people to work and communicate more
efficiently. Increased mobility and the absence of cabling and other fixed infrastructure
have proven to be beneficial for many users.

Wireless users can use the same applications they use on a wired network. Wireless
adapter cards used on laptop and desktop systems support the same protocols as
Ethernet adapter cards.

People use wireless LAN technology for many different purposes:

Mobility - Productivity increases when people have access to data in any location

within the operating range of the WLAN. Management decisions based on real-time
information can significantly improve worker efficiency.

Low Implementation Costs – WLANs are easy to set up, manage, change and

relocate. Networks that frequently change can benefit from WLANs ease of
implementation. WLANs can operate in locations where installation of wiring may be
impractical.

Installation and Network Expansion - Installing a WLAN system can be fast

and easy and can eliminate the need to pull cable through walls and ceilings. Wireless
technology allows the network to go where wires cannot go - even outside the home or
office.

Scalability – WLANs can be configured in a variety of topologies to meet the needs of

specific applications and installations. Configurations are easily changed and range
from peer-to-peer networks suitable for a small number of users to larger infrastructure
networks to accommodate hundreds or thousands of users, depending on the number

of wireless devices deployed.

Inexpensive Solution - Wireless network devices are as competitively priced as

conventional Ethernet network devices.

8

Wireless Basics (continued)

Standards-Based Technology

The DI-624 Wireless Broadband Router utilizes the new 802.11g standard.

The IEEE 802.11g standard is an extension of the 802.11b standard. It increases the
data rate up to 54Mbps within the 2.4GHz band, utilizing OFDM technology.

This means that in most environments, within the specified range of this device, you will
be able to transfer large files quickly or even watch a movie in MPEG format over your
network without noticeable delays. This technology works by transmitting high-speed
digital data over a radio wave utilizing OFDM (Orthogonal Frequency Division Multiplexing)
technology. OFDM works by splitting the radio signal into multiple smaller sub-signals
that are then transmitted simultaneously at different frequencies to the receiver. OFDM
reduces the amount of crosstalk (interference) in signal transmissions.

The DI-624 is backwards compatible with 802.11b devices. This means that if you have
an existing 802.11b network, the devices in that network will be compatible with 802.11g

devices at speeds of up to 11Mbps in the 2.4GHz range.

9

Wireless Basics (continued)

Installation Considerations

The D-Link AirPlus Xtreme G DI-624 lets you access your network, using a wireless
connection, from virtually anywhere within its operating range. Keep in mind, however,
that the number, thickness and location of walls, ceilings, or other objects that the
wireless signals must pass through, may limit the range. Typical ranges vary depending
on the types of materials and background RF (radio frequency) noise in your home or

business. The key to maximizing wireless range is to follow these basic guidelines:

Keep the number of walls and ceilings between the DI-624 and other network

11

1

11

devices to a minimum - each wall or ceiling can reduce your D-Link wireless
product’s range from 3-90 feet (1-30 meters.) Position your devices so that
the number of walls or ceilings is minimized.

Be aware of the direct line between network devices. A wall that is 1.5 feet

22

2

22

thick (.5 meters), at a 45-degree angle appears to be almost 3 feet (1 meter)
thick. At a 2-degree angle it looks over 42 feet (14 meters) thick! Position
devices so that the signal will travel straight through a wall or ceiling (instead
of at an angle) for better reception.

Building Materials can impede the wireless signal - a solid metal door or

33

3

33

aluminum studs may have a negative effect on range. Try to position wireless
devices and computers with wireless adapters so that the signal passes
through drywall or open doorways and not other materials.

Keep your product away (at least 3-6 feet or 1-2 meters) from electrical

44

4

44

devices or appliances that generate extreme RF noise.

10

Getting Started

Setting up a
Wireless
Infrastructure
Network

66

6

66

Please remember that D-Link AirPlus Xtreme G wireless devices are pre-configured

to connect together, right out of the box, with their default settings.

For a typical wireless setup at home (as shown above),

You will need broadband Internet access (a Cable or DSL-subscriber line into
your home or office).

22

2

22

please do the following:

11

1

11

33

3

33

44

4

44

55

5

55

Consult with your Cable or DSL provider for proper installation of the modem.

Connect the Cable or DSL modem to the DI-624 Wireless Broadband Router
(see the printed Quick Installation Guide included with your router.)

If you are connecting a desktop computer to your network, install the D-Link
AirPlus Xtreme G DWL-G520 wireless PCI adapter into an available PCI slot on
your desktop computer. You may also install the DWL-520+, or the DWL-520.

(See the printed Quick Installation Guide included with the network adapter.)

Install the D-Link DWL-G650 wireless Cardbus adapter into a laptop computer.
(See the printed Quick Installation Guide included with the DWL-G650.)

Install the D-Link DFE-530TX+ adapter into a desktop computer. The four
Ethernet LAN ports of the DI-624 are Auto MDI/MDIX and will work with both
Straight-Through and Cross-Over cable.
(See the printed Quick Installation Guide included with the DFE-530TX+.)

11

Using the Configuration Menu

Whenever you want to configure your network or the
DI-624, you can access the Configuration Menu by
opening the web-browser and typing in the IP Address
of the DI-624. The DI-624 default IP Address is shown

at right:

 Open the web browser
 Type in the IP Address of

the Router (http://192.168.0.1)

Note: if you have changed the default IP Address assigned
to the DI-624, make sure to enter the correct IP Address.

http://192.168.0.1





Leave the Password blank

Click OK

The Home>Wizard
screen will appear.
Please refer to the

Quick Installation
Guide for more infor-

mation regarding the
Setup Wizard.

These buttons appear
on most of the configu­ration screens in this
section. Please click on
the appropriate button
at the bottom of each
screen after you have
made a configuration
change.



Type admin in the User
Name field

Home > Wizard

.

.

.

.

12

Using the Configuration Menu (continued)

Home > Wireless

SSID-

Channel-

WEP-

WEP Encryption-

Key Type-

Keys 1-4-

Service Set Identifier (SSID) is the name designated for a spe­cific wireless local area network (WLAN). The SSID’s factory
default setting is default. The SSID can be easily changed to
connect to an existing wireless network or to establish a new
wireless network.

6 is the default channel. All devices on the network must share
the same channel. (Note: The wireless adapters will automati-

cally scan and match the wireless setting.)

Wired Equivalent Privacy (WEP) is a wireless security protocol
for Wireless Local Area Networks (WLAN). WEP provides secu­rity by encrypting the data that is sent over the WLAN. Select

Enabled or Disabled. Disabled is the default setting. (Note: If
you enable encryption on the DI-624 make sure to also enable
encryption on all the wireless clients or wireless connection will
not be established.)

Select the level of encryption desired: 64-bit, or 128-bit.

Select HEX or ASCII.

Input up to 4 WEP keys; select the one you wish to use.

13

Using the Configuration Menu (continued)

Home > WAN > Dynamic IP Address

DI-754

Dynamic
IP Address-

Host Name-

MAC Address-

Clone
MAC Address-

Primary/
Secondary DNS
Address-

MTU-

Choose Dynamic IP Address to obtain IP Address information
automatically from your ISP. Select this option if your ISP does
not give you any IP numbers to use. This option is commonly
used for Cable modem services.

The Host Name is optional but may be required by some ISPs.
The default host name is the device name of the Router and may
be changed.

The default MAC Address is set to the WAN’s physical inter­face MAC address on the Broadband Router. It is not recom­mended that you change the default MAC address unless re­quired by your ISP.

The default MAC address is set to the WAN’s physical interface
MAC address on the Broadband Router. You can use the “Clone
MAC Address” button to copy the MAC address of the Ethernet
Card installed by your ISP and replace the WAN MAC address
with the MAC address of the router. It is not recommended that
you change the default MAC address unless required by your
ISP.

Enter a DNS Address if you do not wish to use the one
provided by your ISP.

Enter an MTU value only if required by your ISP. Otherwise, leave
it at the default setting.

14

Using the Configuration Menu (continued)

Home > WAN > Static IP Address

Static IP Address-

IP Address-

Subnet Mask-

ISP
Gateway Address-

Primary
DNS Address-

Secondary
DNS Address-

MTU-

Choose Static IP Address if all WAN IP information is provided to
you by your ISP. You will need to enter in the IP address, subnet
mask, gateway address, and DNS address(es) provided to you
by your ISP. Each IP address entered in the fields must be in the
appropriate IP form, which are four octets separated by a dot
(x.x.x.x). The Router will not accept the IP address if it is not in
this format.

Input the public IP Address provided by your ISP.

Input your Subnet mask. (All devices in the network must have
the same subnet mask.)

Input the public IP address of the ISP to which you are
connecting.

Input the primary DNS (Domain Name Server) IP address
provided by your ISP.

This is optional.

Enter an MTU value only if required by your ISP. Otherwise, leave
it at the default setting.

15

Using the Configuration Menu (continued)

Please be sure to
remove any

existing

PPPoE client

software
installed on your
computers.

Choose PPPoE (Point
to Point Protocol over
Ethernet) if your ISP
uses a PPPoE con­nection. Your ISP will
provide you with a
username and pass­word. This option is
typically used for DSL
services. Select Dy­namic PPPoE to ob­tain an IP address au­tomatically for your
PPPoE connection.
Select Static PPPoE
to use a static IP ad­dress for your PPPoE
connection.

Home > WAN > PPPoE

PPPoE-

User Name-

Retype Password-

Service Name-

IP Address-

Primary DNS
Address-

Secondary DNS
Address-

Choose this option if your ISP uses PPPoE. (Most DSL users
will select this option.)

Dynamic PPPoE- receive an IP Address automatically from your ISP.

Static PPPoE-you have an assigned (static) IP Address.

Your PPPoE username provided by your ISP.

Re-enter the PPPoE password

Enter the Service Name provided by your ISP (optional).

This option is only available for Static PPPoE. Enter the static IP
Address for the PPPoE connection.

Primary DNS IP address provided by our ISP

This option is only available for Static PPPoE. Enter the static IP
Address for the PPPoE connection.

(Continued on the next page)

16

Using the Configuration Menu (continued)

Home > WAN > PPPoE continued
MTU-

Auto-reconnect-

Maximum Transmission Unit-1492 is the default setting-you may
need to change the MTU for optimal performance with your
specific ISP.

If enabled, the DI-624 will automatically connect to your ISP af­ter your system is restarted or if the PPPoE connection is dropped.

Home > LAN

LAN is short for Local Area Network. This is considered your internal network. These are
the IP settings of the LAN interface for the DI-624. These settings may be referred to as
Private settings. You may change the LAN IP address if needed. The LAN IP address is
private to your internal network and cannot be seen on the Internet.

IP Address-

Subnet Mask-

Local Domain-

The IP address of the LAN interface. The default IP address is:

192.168.0.1

The subnet mask of the LAN interface.
The default subnet mask is 255.255.255.0

This field is optional. Enter in the local domain name.

17

Using the Configuration Menu (continued)

Home > DHCP

DI-754

DHCP stands for Dynamic Host Control Protocol. The DI-624 has a built-in DHCP server.

The DHCP Server will automatically assign an IP address to the computers on the LAN/
private network. Be sure to set your computers to be DHCP clients by setting their TCP/
IP settings to “Obtain an IP Address Automatically.” When you turn your computers on,
they will automatically load the proper TCP/IP settings provided by the DI-624. The
DHCP Server will automatically allocate an unused IP address from the IP address pool
to the requesting computer. You must specify the starting and ending address of the IP

address pool.

DHCP Server-

Starting
IP Address-

Ending
IP Address-

Lease Time-

Select Enabled or Disabled. The default setting is Enabled.

The starting IP address for the DHCP server’s IP assignment

The ending IP address for the DHCP server’s IP assignment

The length of time for the IP lease. Enter the Lease time. The
default setting is one hour

18

Using the Configuration Menu (continued)

Advanced > Virtual Server

The DI-624 can be configured as a virtual server so that remote users accessing Web
or FTP services via the public IP address can be automatically redirected to local
servers in the LAN (Local Area Network).

The DI-624 firewall feature filters out unrecognized packets to protect your LAN
network so all computers networked with the DI-624 are invisible to the outside world.
If you wish, you can make some of the LAN computers accessible from the Internet
by enabling Virtual Server. Depending on the requested service, the DI-624 redirects

the external service request to the appropriate server within the LAN network.

The DI-624 is also capable of port-redirection, meaning incoming traffic to a particular
port may be redirected to a different port on the server computer.

Each virtual service that is created will be listed at the bottom of the screen in the
Virtual Servers List. There are pre-defined virtual services already in the table. You
may use them by enabling them and assigning the server IP to use that particular

virtual service.

19

Using the Configuration Menu (continued)

Advanced > Virtual Server continued

Virtual Server-

Name-

Private IP-

Protocol Type-

Private Port-

Public Port-

Schedule-

Select Enabled or Disabled.

Enter the name referencing the virtual service.

The server computer in the LAN (Local Area Network) that will be
providing the virtual services.

The protocol used for the virtual service.

The port number of the service used by the Private IP computer.

The port number on the WAN (Wide Area Network) side that will
be used to access the virtual service.

The schedule of time when the virtual service will be enabled.
The schedule may be set to Always, which will allow the
particular service to always be enabled. If it is set to Time,
select the time frame for the service to be enabled. If the
system time is outside of the scheduled time, the service will

be disabled.

Example #1:

If you have a Web server that you wanted Internet users to
access at all times, you would need to enable it. Web
(HTTP) server is on LAN (Local Area Network) computer

192.168.0.25. HTTP uses port 80, TCP.
Name: Web Server
Private IP: 192.168.0.25
Protocol Type: TCP
Private Port: 80
Public Port: 80

Schedule: always

20

Using the Configuration Menu (continued)

Advanced > Virtual Server continued

Click on this icon to edit the virtual service

Click on this icon to delete the virtual service

Example #2:

If you have an FTP server that you wanted Internet users to access by WAN port
2100 and only during the weekends, you would need to enable it as such. FTP
server is on LAN computer 192.168.0.30. FTP uses port 21, TCP.

Name: FTP Server
Private IP: 192.168.0.30
Protocol Type: TCP
Private Port: 21
Public Port: 2100

Schedule: From: 01:00AM to 01:00AM, Sat to Sun

All Internet users who want to access this FTP Server
must connect to it from port 2100. This is an example of
port redirection and can be useful in cases where there
are many of the same servers on the LAN network.

21

Using the Configuration Menu (continued)

Advanced > Applications

Some applications require multiple connections, such as Internet gaming, video
conferencing, Internet telephony and others. These applications have difficulties
working through NAT (Network Address Translation). Special Applications makes
some of these applications work with the DI-624. If you need to run applications that
require multiple connections, specify the port normally associated with an application
in the “Trigger Port” field, select the protocol type as TCP or UDP, then enter the
public ports associated with the trigger port to open them for inbound traffic.

The DI-624 provides some predefined applications in the table on the bottom of the
web page. Select the application you want to use and enable it.

Note! Only one PC can use each Special Application tunnel.

Name:

This is the name referencing the special application.

Trigger Port: This is the port used to trigger the application. It can be either

a single port or a range of ports.

Trigger Type: This is the protocol used to trigger the special application.

Public Port:

This is the port number on the WAN side that will be used to
access the application. You may define a single port or a
range of ports. You can use a comma to add multiple ports or
port ranges.

Public Type: This is the protocol used for the special application.

22

Using the Configuration Menu (continued)

Advanced > Filters > IP Filters

Filters are used to deny or allow LAN (Local Area Network) computers from accessing
the Internet. The DI-624 can be setup to deny internal computers by their IP or MAC
addresses. The DI-624 can also block users from accessing restricted web sites.

IP Filters:

IP:

Port:

Protocol Type:

Schedule:

Use IP Filters to deny LAN IP addresses from accessing the
Internet. You can deny specific port numbers or all ports for
the specific IP address.

The IP address of the LAN computer that will be denied
access to the Internet.

The single port or port range that will be denied access to the
Internet.

Select the protocol type.

This is the schedule of time when the IP Filter will be enabled.

23

Using the Configuration Menu (continued)

Advanced > Filters > URL Blocking

URL Blocking is used to deny LAN computers from accessing specific web sites by
the URL. A URL is a specially formatted text string that defines a location on the

Internet. If any part of the URL contains the blocked word, the site will not be
accessible and the web page will not display. To use this feature, enter the text string
to be blocked and click Apply. The text to be blocked will appear in the list. To

delete the text, just highlight it and click Delete.

Filters-

URL Blocking-

Keywords-

Select the filter you wish to use; in this case, URL Blocking
was chosen.

Select Enabled or Disabled.

Block URLs which contain keywords listed below.
Enter the keywords in this space.

24

Using the Configuration Menu

Advanced > Filters > MAC Filters

(continued)

Use MAC (Media Access Control) Filters to allow or deny LAN (Local Area Network)
computers by their MAC addresses from accessing the Network. You can either manually
add a MAC address or select the MAC address from the list of clients that are currently

connected to the Broadband Router.

Filters-

MAC Filters-

Name-

MAC Address-

DHCP Client-

Select the filter you wish to use; in this case, MAC filters was
chosen.

Choose Disable MAC filters; allow MAC addresses listed be­low; or deny MAC addresses listed below.

Enter the name here.

Enter the MAC Address.

Select a DHCP client from the pull-down list; click Clone to
copy that MAC Address.

25

Using the Configuration Menu

Advanced > Filters > Domain Blocking

(continued)

Domain Blocking is used to allow or deny LAN (Local Area Network) computers from
accessing specific domains on the Internet. Domain blocking will deny all requests to a
specific domain such as http and ftp. It can also allow computers to access specific

sites and deny all other sites.

Filters-

Select the filter you wish to use; in this case, Domain Blocking
was chosen.

Domain Blocking-

Disabled-

Allow-

Deny-

Select Disabled to disable Domain Blocking.

Allows users to access all domains except Blocked Domains.

Denies users access to all domains except

Permitted Domains.

Permitted
Domains-

Blocked Domains-

Enter the Permitted Domains in this field.

Enter the Blocked Domains in this field.

26

Using the Configuration Menu (continued)

Advanced > Firewall

Firewall Rules is an advanced feature used to deny or allow traffic from passing

through the DI-624. It works in the same way as IP Filters with additional settings.
You can create more detailed access rules for the DI-624. When virtual services are
created and enabled, it will also display in Firewall Rules. Firewall Rules contain all
network firewall rules pertaining to IP (Internet Protocol).

In the Firewall Rules List at the bottom of the screen, the priorities of the rules are
from top (highest priority) to bottom (lowest priority.)

Note:
The DI-624 MAC Address filtering rules have precedence over the Firewall Rules.

Firewall Rules-

Enable or disable the Firewall

Name- Enter the name

Action-

Source-

Destination-

Schedule-

Allow or Deny

Enter the IP Address range

Enter the IP Address range; the Protocol;
and the Port Range

Select Always or enter the Time Range.

27

Using the Configuration Menu (continued)

Advanced > DMZ

If you have a client PC that cannot run Internet applications properly from behind the
DI-624, then you can set the client up for unrestricted Internet access. It allows a
computer to be exposed to the Internet. This feature is useful for gaming purposes.
Enter the IP address of the internal computer that will be the DMZ host. Adding a
client to the DMZ (Demilitarized Zone) may expose your local network to a variety of

security risks, so only use this option as a last resort.

DMZ-

IP Address-

Enable or Disable the DMZ. The DMZ (Demilitarized Zone)

allows a single computer to be exposed to the internet. By
default the DMZ is disabled.

Enter the IP Address of the computer to be in the DMZ.

28

Using the Configuration Menu (continued)

Advanced > Performance

Wireless
Performance-

Displayed in this window are
the Wireless Performance
features for the Access Point
portion of the DI-624.

TX Rates-

Auto is the default selection.

Select from the drop down
menu.

Beacon Interval-

RTS Threshold-

Fragmentation-

DTIM interval-

Beacons are packets sent by an Access Point to synchronize a
wireless network. Specify a value. 100 is the default setting and
is recommended.

This value should remain at its default setting of 2432. If inconsis­tent data flow is a problem, only a minor modification should be
made.

The fragmentation threshold, which is specified in bytes, deter­mines whether packets will be fragmented. Packets exceeding
the 2346 byte setting will be fragmented before transmission.
2346 is the default setting.

(Delivery Traffic Indication Message) 3 is the default setting. A
DTIM is a countdown informing clients of the next window for
listening to broadcast and multicast messages.

Preamble Type- Select Short or Long Preamble. The Preamble defines the

length of the CRC block (Cyclic Redundancy Check is a com­mon technique for detecting data transmission errors) for com­munication between the wireless router and the roaming wire­less network adapters. Note: High network traffic areas should

use the shorter preamble type.

SSID Broadcast-

Choose Enabled to broadcast the SSID across the network.
All devices on a network must share the same SSID (Service
Set Identifier) to establish communication. Choose Disabled
if you do not wish to broadcast the SSID over the network.

29

Using the Configuration Menu (continued)

Advanced > Performance (continued)

802.11g only mode-

CTS Mode-

Super G Mode-

Disabled-

Select this mode to restrict your network to only those devices
that employ the 802.11g standard. Enabling this mode will en­sure that you maintain the highest connectivity rate, unhampered
by any connection to an 802.11b device.

CTS (Clear To Send) is a function used to minimize collisions
among wireless devices on a wireless local area network (LAN).
CTS will make sure the wireless network is clear before a wire­less client attempts to send wireless data. Enabling CTS will
add overhead and may lower wireless throughput.

None- CTS is typically used in a pure 802.11g environment.

If CTS is set to “None” in a mixed mode environment
populated by 802.11b clients, wireless collisions may
occur frequently.

Always- CTS will always be used to make sure the wireless

LAN is clear before sending data.

Auto-

Super G is a group of performance enhancement features that
increase end user application throughput in an 802.11g network.
Super G is backwards compatible to standard 802.11g devices.
For top performance, all wirelss devices on the network should
be Super G capable. Select either Disabled, Super G without
Turbo, Super G with Dynamic Turbo, or Super G with Static Turbo.

Standard 802.11g support, no enhanced capabilities.

CTS will monitor the wireless network and automati­cally decide whether to implement CTS based on
the amount of traffic and collisions that occurs on
the wireless network.

Super G without
Turbo-

Super G with
Dynamic Turbo-

Super G with
Static Turbo-

Capable of Packet Bursting, FastFrames, Compression, and no
Turbo mode.

Capable of Packet Bursting, FastFrames, Compression, and
Dynamic Turbo. This setting is backwards compatible with non­Turbo (legacy) devices. Dynamic Turbo mode is only enabled
when all nodes on the wireless network are Super G with Dy­namic Turbo enabled.

Capable of Packet Bursting, FastFrames, Compression, and
Static Turbo. This setting is not backwards compatible with non­Turbo (legacy) devices. Static turbo mode is always on and is
only enabled when all nodes on the wireless network is Super G
with Static Turbo enabled.

30