User's Manual
Table Of Contents
- Trademarks
- Statement of Conditions
- Federal Communications Commission (FCC) Compliance Notice: Radio Frequency Notice
- Canadian Department of Communications Compliance Statement
- CE Declaration of Conformity
- Contents
- Chapter 1 About This Manual
- Chapter 2 Introduction
- Chapter 3 Basic Installation and Configuration
- Observing Placement and Range Guidelines
- Default Factory Settings
- Understanding WG602 v2 Wireless Security Options
- Installing the 54 Mbps Wireless Access Point WG602 v2
- Two Ways to Log In to the WG602 v2
- Using the Basic IP Settings Options
- Understanding the Basic Wireless Settings
- Understanding Wireless Security Options
- How to Configure WEP Wireless Security
- How to Configure WPA-PSK Wireless Security
- How to Restrict Wireless Access by MAC Address
- Chapter 4 Management
- Chapter 5 Advanced Configuration
- Chapter 6 Troubleshooting
- Troubleshooting
- No lights are lit on the access point.
- The Ethernet LAN light is not lit.
- The Wireless LAN activity light is not lit.
- I cannot configure the wireless access point from a browser.
- I cannot access the Internet or the LAN with a wireless capable computer.
- When I enter a URL or IP address I get a timeout error.
- Using the Reset Button to Restore Factory Default Settings
- Troubleshooting
- Appendix A Specifications
- Appendix B Wireless Networking Basics
- Appendix C Network, Routing, Firewall, and Cabling Basics
- Appendix D Preparing Your PCs for Network Access
- Glossary
- Index
User’s Guide for the WG602 54 Mbps Wireless Access Point
Network, Routing, Firewall, and Cabling Basics C-5
Subnet addressing allows us to split one IP network address into smaller multiple physical
networks known as subnetworks. Some of the node numbers are used as a subnet number instead.
A Class B address gives us 16 bits of node numbers translating to 64,000 nodes. Most
organizations do not use 64,000 nodes, so there are free bits that can be reassigned. Subnet
addressing makes use of those bits that are free, as shown below.
Figure 6-2: Example of Subnetting a Class B Address
A Class B address can be effectively translated into multiple Class C addresses. For example, the
IP address of 172.16.0.0 is assigned, but node addresses are limited to 255 maximum, allowing
eight extra bits to use as a subnet address. The IP address of 172.16.97.235 would be interpreted as
IP network address 172.16, subnet number 97, and node number 235. In addition to extending
the number of addresses available, subnet addressing provides other benefits. Subnet addressing
allows a network manager to construct an address scheme for the network by using different
subnets for other geographical locations in the network or for other departments in the
organization.
Although the preceding example uses the entire third octet for a subnet address, note that you are
not restricted to octet boundaries in subnetting. To create more network numbers, you need only
shift some bits from the host address to the network address. For instance, to partition a Class C
network number (192.68.135.0) into two, you shift one bit from the host address to the network
address. The new netmask (or subnet mask) is 255.255.255.128. The first subnet has network
number 192.68.135.0 with hosts 192.68.135.1 to 129.68.135.126, and the second subnet has
network number 192.68.135.128 with hosts 192.68.135.129 to 192.68.135.254.
Note: The number 192.68.135.127 is not assigned because it is the broadcast address
of the first subnet. The number 192.68.135.128 is not assigned because it is the network
address of the second subnet.
7262
C
lass B
Network Subnet Node