NETGEAR WGT634U Router Manual PDF (Setup & Configuration Guide)

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Reference Manual for the 108 Mbps Wireless Media Router WGT634U

D-4

Wireless Networking Basics

April 2004, 202-10018-02

2.

The access point authenticates the station.

3.

The station associates with the access point and joins the network.

This process is illustrated below.

Figure D-1:

Open system authentication

Shared Key Authentication

The following steps occur when two devices use Shared Key Authentication:

1.

The station sends an authentication request to the access point.

2.

The access point sends challenge text to the station.

3.

The station uses its configured 64-bit or 128-bit default key to encrypt the challenge text, and

sends the encrypted text to the access point.

4.

The access point decrypts the encrypted text using its configured WEP Key that corresponds

to the station’s default key. The access point compares the decrypted text with the original

challenge text. If the decrypted text matches the original challenge text, then the access point

and the station share the same WEP Key and the access point authenticates the station.

5.

The station connects to the network.

If the decrypted text does not match the original challenge text (the access point and station do not

share the same WEP Key), then the access point will refuse to authenticate the station and the

station will be unable to communicate with either the 802.11 network or Ethernet network.

This process is illustrated below.

FVM318

Access Point (AP)

1) Authentication request sent to AP

2) AP authenticates

3) Client connects to network

Open System

Authentication Steps

Cable or

DLS modem

Client

attempting

to connect

Page 152 / 180

Reference Manual for the 108 Mbps Wireless Media Router WGT634U

Wireless Networking Basics

D-5

April 2004, 202-10018-02

Figure D-2:

Shared key authentication

Overview of WEP Parameters

Before enabling WEP on an 802.11 network, you must first consider what type of encryption you

require and the key size you want to use. Typically, there are three WEP Encryption options

available for 802.11 products:

1.

Do Not Use WEP:

The 802.11 network does not encrypt data. For authentication purposes, the

network uses Open System Authentication.

2.

Use WEP for Encryption:

A transmitting 802.11 device encrypts the data portion of every

packet it sends using a configured WEP Key. The receiving device decrypts the data using the

same WEP Key. For authentication purposes, the network uses Open System Authentication.

3.

Use WEP for Authentication and Encryption:

A transmitting 802.11 device encrypts the data

portion of every packet it sends using a configured WEP Key. The receiving device decrypts the

data using the same WEP Key. For authentication purposes, the wireless network uses Shared Key

Authentication.

Note:

Some 802.11 access points also support

Use WEP for Authentication Only

(Shared Key

Authentication without data encryption).

FVM318

Access Point

1) Authentication

request sent to AP

2) AP sends challenge text

3) Client encrypts

challenge text and

sends it back to AP

4) AP decrypts,and if correct,

authenticates client

5) Client connects to network

Shared Key

Authentication Steps

Cable or

DLS modem

Client

attempting

to connect

Page 153 / 180

Reference Manual for the 108 Mbps Wireless Media Router WGT634U

D-6

Wireless Networking Basics

April 2004, 202-10018-02

Key Size

The IEEE 802.11 standard supports two types of WEP encryption: 40-bit and 128-bit.

The 64-bit WEP data encryption method allows for a five-character (40-bit) input. Additionally,

24 factory-set bits are added to the forty-bit input to generate a 64-bit encryption key. The 24

factory-set bits are not user-configurable). This encryption key will be used to encrypt/decrypt all

data transmitted via the wireless interface. Some vendors refer to the 64-bit WEP data encryption

as 40-bit WEP data encryption since the user-configurable portion of the encryption key is 40 bits

wide.

The 128-bit WEP data encryption method consists of 104 user-configurable bits. Similar to the

forty-bit WEP data encryption method, the remaining 24 bits are factory set and not user

configurable. Some vendors allow passphrases to be entered instead of the cryptic hexadecimal

characters to ease encryption key entry.

128-bit encryption is stronger than 40-bit encryption, but 128-bit encryption may not be available

outside of the United States due to U.S. export regulations.

When configured for 40-bit encryption, 802.11 products typically support up to four WEP Keys.

Each 40-bit WEP Key is expressed as 5 sets of two hexadecimal digits (0-9 and A-F). For

example, “12 34 56 78 90” is a 40-bit WEP Key.

When configured for 128-bit encryption, 802.11 products typically support four WEP Keys but

some manufacturers support only one 128-bit key. The 128-bit WEP Key is expressed as 13 sets of

two hexadecimal digits (0-9 and A-F). For example, “12 34 56 78 90 AB CD EF 12 34 56 78 90”

is a 128-bit WEP Key.

Table D-1:

Encryption Key Sizes

Note:

Typically, 802.11 access points can store up to four 128-bit WEP Keys but some 802.11

client adapters can only store one. Therefore, make sure that your 802.11 access and client

adapters’ configurations match.

Encryption Key Size

# of Hexadecimal Digits

Example of Hexadecimal Key Content

64-bit (24+40)

10

4C72F08AE1

128-bit (24+104)

26

4C72F08AE19D57A3FF6B260037

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Reference Manual for the 108 Mbps Wireless Media Router WGT634U

Wireless Networking Basics

D-7

April 2004, 202-10018-02

WEP Configuration Options

The WEP settings must match on all 802.11 devices that are within the same wireless network as

identified by the SSID. In general, if your mobile clients will roam between access points, then all

of the 802.11 access points and all of the 802.11 client adapters on the network must have the same

WEP settings.

Note:

Whatever keys you enter for an AP, you must also enter the same keys for the client adapter

in the same order. In other words, WEP key 1 on the AP must match WEP key 1 on the client

adapter, WEP key 2 on the AP must match WEP key 2 on the client adapter, and so on.

Note:

The AP and the client adapters can have different default WEP Keys as long as the keys are

in the same order. In other words, the AP can use WEP key 2 as its default key to transmit while a

client adapter can use WEP key 3 as its default key to transmit. The two devices will communicate

as long as the AP’s WEP key 2 is the same as the client’s WEP key 2 and the AP’s WEP key 3 is

the same as the client’s WEP key 3.

Wireless Channels

The wireless frequencies used by 802.11b/g networks are discussed below.

IEEE 802.11b/g wireless nodes communicate with each other using radio frequency signals in the

ISM (Industrial, Scientific, and Medical) band between 2.4 GHz and 2.5 GHz. Neighboring

channels are 5 MHz apart. However, due to spread spectrum effect of the signals, a node sending

signals using a particular channel will utilize frequency spectrum 12.5 MHz above and below the

center channel frequency. As a result, two separate wireless networks using neighboring channels

(for example, channel 1 and channel 2) in the same general vicinity will interfere with each other.

Applying two channels that allow the maximum channel separation will decrease the amount of

channel cross-talk, and provide a noticeable performance increase over networks with minimal

channel separation.

The radio frequency channels used in 802.11b/g networks are listed in

Table D-2

:

Table D-2:

802.11b/g Radio Frequency Channels

Channel

Center Frequency

Frequency Spread

1

2412 MHz

2399.5 MHz - 2424.5 MHz

2

2417 MHz

2404.5 MHz - 2429.5 MHz

3

2422 MHz

2409.5 MHz - 2434.5 MHz

Page 155 / 180

Reference Manual for the 108 Mbps Wireless Media Router WGT634U

D-8

Wireless Networking Basics

April 2004, 202-10018-02

Note:

The available channels supported by the wireless products in various countries are different.

For example, Channels 1 to 11 are supported in the U.S. and Canada, and Channels 1 to 13 are

supported in Europe and Australia.

The preferred channel separation between the channels in neighboring wireless networks is 25

MHz (5 channels). This means that you can apply up to three different channels within your

wireless network. There are only 11 usable wireless channels in the United States. It is

recommended that you start using channel 1 and grow to use channel 6, and 11 when necessary, as

these three channels do not overlap.

WPA Wireless Security

Wi-Fi Protected Access (WPA) is a specification of standards-based, interoperable security

enhancements that increase the level of data protection and access control for existing and future

wireless LAN systems.

The IEEE introduced the WEP as an optional security measure to secure 802.11b (Wi-Fi) WLANs,

but inherent weaknesses in the standard soon became obvious. In response to this situation, the

Wi-Fi Alliance announced a new security architecture in October 2002 that remedies the

shortcomings of WEP. This standard, formerly known as Safe Secure Network (SSN), is designed

to work with existing 802.11 products and offers forward compatibility with 802.11i, the new

wireless security architecture being defined in the IEEE.

4

2427 MHz

2414.5 MHz - 2439.5 MHz

5

2432 MHz

2419.5 MHz - 2444.5 MHz

6

2437 MHz

2424.5 MHz - 2449.5 MHz

7

2442 MHz

2429.5 MHz - 2454.5 MHz

8

2447 MHz

2434.5 MHz - 2459.5 MHz

9

2452 MHz

2439.5 MHz - 2464.5 MHz

10

2457 MHz

2444.5 MHz - 2469.5 MHz

11

2462 MHz

2449.5 MHz - 2474.5 MHz

12

2467 MHz

2454.5 MHz - 2479.5 MHz

13

2472 MHz

2459.5 MHz - 2484.5 MHz

Table D-2:

802.11b/g Radio Frequency Channels

Channel

Center Frequency

Frequency Spread

Rate

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