User's Manual
Table Of Contents
- Chapter 1 Introduction
- Product Description and Contents
- Product Features
- Chapter 2 Quick Start
- Rooftop and Tower Installations Warning
- Installation Steps
- Installation Diagrams
- Chapter 3 Hardware
- Drawings of Components
- SPEEDLAN 8500 ODU Hardware
- Antenna
- Restoring Factory Default Settings on the SPEEDLAN 8500 IDU
- Upgrading the Firmware
- Chapter 4 Overview of Configurator
- Installation and Setup
- Toolbar and Menus
- Chapter 5 Configuring SPEEDLAN
- General Setup
- Interface & Advanced Interface Setup
- The Setup Buttons
- Chapter 6 Bridging Setup
- IDU Setup
- Chapter 7 Setting Up the IP Addresses (IP Host Setup)
- Part I - Quick Overview of IP Addressing
- Part II - Setting Up the IP Address
- Part III - Setting Up NAT
- Chapter 8 IP-Router Setup
- IP Routing Setup
- Chapter 9 SNMP Setup
- SNMP Setup
- Chapter 10 System Access Setup
- System Access Setup
- Chapter 11 SNMP Monitoring
- Remote Statistics
- Interface Monitor
- Ethernet-like Interface Monitor
- SectorPRC Station Entries
- 11Mb RF Interface
- SNMP Monitor
- IP Monitor
- IP/TCP/UDP Monitor
- ICMP Monitor
- Chapter 12 Tables
- System Information
- IDU Learn Table
- IP ARP Table
- IP Route Table
- IP/TCP Connection Table
- IP/UDP Listener Table
- Local IP-Address Table
- Chapter 13 Analyzing Wireless Equipment
- Select Another Device
- Analysis Polling Interval
- Wireless Link Test
- Antenna Alignment
- Glossary for Standard Data Communications
- Glossary for Standard Data Communications
- Appendixes
- Appendix A Protocols & Ethernet Addresses
- Common Ethernet Protocols
- Common Ethernet Vendor Addresses
- Common Ethernet Multicast Addresses
- Common Ethernet Broadcast Addresses
- Appendix B Startup LED Patterns
- Startup LED Patterns
SPEEDLAN 8500 Series Installation and Operation User Guide
Setting Up the IP Addresses (IP Host Setup) 7-7
Diagram of Subnetting a Network
Still confused?
An easier method to explain this concept is to use the classic "mailing" analogy used in IP
addressing. Consider that this network, called Long Street, is four blocks long. There are 254 houses
on Long Street, and each block contains 64 houses. Houses 1 to 63 reside on Block A. Houses 64
to 127 reside on Block B. Houses 128 to 191 reside on Block C. Houses 192 to 254 reside on
Block D. Think of each block as a subnet. This means that Blocks A, B, C, and D are all part of Long
Street, which is also known as the network in this example. The mailman would organize the letters
(or IP addresses for network equipment) by creating four piles (one for each block, or subnet). As
soon as the mailman picks up pile A in his hand, he knows which block to turn on. This same
reasoning applies to piles B, C, and D as well. Router D knows exactly which subnet to transfer (or
turn) the packets to by reading its IP and subnet mask address. Note that each subnet on this
network is 255.255.255.192. Why is 192 the last octet in the subnet mask and not 64? The last
octet, 192, is the mask that allows 64 "houses" to know that the mailman (or router) is coming in
advance. The "houses" will know it's mailman "Jim" by looking at the IP number.
Internet
Router D
Router B
Router C
Computer Computer
Computer
Computer
Computer Computer Computer
Computer Computer Computer
Long Street
Subnet A
IP Address: 195.172.3.1
Subnet Mask: 255.255.255.192
Subnet B
IP Address: 195.172.3.64
Subnet Mask: 255.255.255.192
Subnet C
IP Address: 195.172.3.128
Subnet Mask: 255.255.255.192
Subnet D
IP Address: 195.172.3.192
Subnet Mask: 255.255.255.192
Router A