User's Manual

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Table Of Contents

Chapter 1 Introduction
Features and Benefits
- SPEEDLAN 9000 Series Features
- ISP Functionality
- Configuration and Monitoring
- Wired LAN Interface
- Wireless LAN Interface
- SPEEDView (A Network Management Tool)
- IP-Router Features
- Additional Functionality for SPEEDLAN 9000 RF cable loss is negligible
Equipment Features
SPEEDLAN K2's Polling Protocol -- How it Works in Star Networks
- Point-to-Multipoint Functionality
- Point-to-Point Functionality
SPEEDLAN 9000 Mesh Protocol -- How It Works in Non-Line-of-Sight Networks
- Routing Around Obstacles
- SPEEDLAN’s NLOS Pico Cell Architecture
- SPEEDLAN 9000 Mesh Protocol's Core Components
- Network Expansion: Connecting Buildings in a SPEEDLAN 9000 Network
Chapter 2 Installing the SPEEDLAN 9101 & SPEEDLAN 9102 Hardware
Rooftop and Tower Installations Warning
Hardware Overview
Drawings of Outdoor, Remote-Mounted Components
- Indoor Junction Box
The SPEEDLAN 9101 (with an Attached Standard Omni)
- Bottom View of SPEEDLAN 9101
- System Description
- Package Contents
- Installation Steps for the SPEEDLAN 9101
- Installation Diagram of the SPEEDLAN 9101
The SPEEDLAN 9102 (with an External Antenna)
- Bottom View of SPEEDLAN 9102
- System Description
- Package Contents
- Installation Steps for the SPEEDLAN 9102
- Installation Diagram of the SPEEDLAN 9102
Chapter 3 Using the SPEEDLAN 9000 Configurator
Initial Configuration of the SPEEDLAN 9000
- Prerequisites
- Configuring the SPEEDLAN 9000
- Wireless Interface IP Address Assignment
- Automating the Configuration of Multiple SPEEDLAN 9000s
- Completing Configuration
- Adding Additional SPEEDLAN 9000s to the Wired Network
Overview of the SPEEDLAN 9000 Configurator Main Menu
Logging on to the SPEEDLAN 9000 Configurator
- Logging On
- After Logging On
Interfaces
- Setup
- Interface Parameters
System
- General/System Information
- Performance
- Password
Routing
- Def Gateway
- Route Table
- Static Route
Wireless
- Configuration
DHCP Server
- How DHCP Assigns an IP Address
- Basic Instructions for Setting Up DHCP on an Interface
- Elements Defined on the General and Known Client Pages
- Viewing Log Messages
- Enabled Interfaces
DHCP Relay
NAT
- Outgoing NAT
- Incoming NAT
Diagnostics & Troubleshooting
- Interface Statistics
- ARP Table
- ICMP Statistics
- Connectivity
- System Control
Administrative Access Pages
- User Configuration
- Replication
- Remote Control
- Factory Reset
Chapter 4 Using SPEEDView
What is SPEEDView?
System Requirements
Installation Instructions
Starting SPEEDView
- Star Network
- Mesh Network
The Program Instructions
The Main Tab
- The Main Tab Icons
- The Node, Link, Stats and View Menus (on the Main tab)
- Buttons (on the Main tab)
- Performing a Bandwidth Test
- Performing a Ping Test
- Accessing the Statistics Tabs on Bottom of Main Tab
Options Tab
Admin Tab
Chapter 5 Basics of IP Addressing
Basics of IP Addressing
- What is an IP address?
- Internet Address Classes
- Subnetting a Network
- How does a network administrator assign an IP address?
- What is DHCP?
- What is NAT?
- NAPT
- Diagram of Outgoing NAT
- Diagram of Incoming NAT
Glossary for Standard Data Communications
Glossary for Standard Data Communications
Software License Agreement
- Wave Wireless Networking LIMITED WARRANTY STATEMENT

SPEEDLAN 9000 Series Installation and Operation User Guide

Glossary-15

Received Signal Strength Indicator (RSSI)

The RSSI Voltage provided at the output of the RF Unit that is used to indicate the RF Input Level.

Reflection

The sharp change in direction of a wave after hitting an obstruction in its path.

Refraction

The bending of a wave as it moves from one medium to another.

Reliability

A measure of the percentage of time the system is operating. Reliability is usually a measure of both the availability of the

signal and the MTBF of the equipment.

Responsible personnel

This is the person(s) responsible for maintaining the radio system.

RF Signal Level

The strength of the power received by the RF Unit from the antenna.

Right arrow

This is the right arrow

key on your keyboard.

9000 router

This device filters out network traffic by specific protocol rather than by packet address. This device operates at the

Network layer of the OSI model. 9000 routers also divide networks logically instead of physically. An IP 9000 router can

divide a network into various subnets so that only traffic designated for particular IP addresses can pass between

segments. Network speed often decreases due to this type of intelligent forwarding. Such filtering takes more time than

exercised in a switch or bridge, which only looks at the Ethernet address. In more complex networks, overall efficiency is

improved by using 9000 routers.

Rx (Receiver)

This is where the packet is going.

Server

A computer that is responsible for tracking, as well as receiving and sending requests from other computers connected to

it (on the same network).