User's Manual
Table Of Contents
- Contents
- Contents v
- Figures ix
- Tables xi
- Preface xv
- Appendix A Specifications 157
- Appendix B Factory Configuration 159
- Appendix C CommandLine Syntax 163
- Appendix D Antenna Guidelines 181
- Appendix E CCU/EUM Data Tables 183
- Appendix F Ping Commands 197
- Appendix G SNMP MIB Definitions 199
- Appendix H Operating Statistics 223
- Appendix I IP Plan — Example 241
- Appendix J Acronyms and Glossary 253
- Index 261
- Figures
- Tables
- Preface
- 1 Introduction
- 2 Quick Startup
- 3 Detailed Description
- 4 IP Network Planning
- 5 Radio Network Planning
- 6 Installation/Diagnostic Tools
- 7 Configuring the CCU
- 7.1 CCU and EUM Serial Number, MAC Address, and Station ID
- 7.2 Setting the CCU Password
- 7.3 Configuring the CCU RF Parameters
- 7.4 Configuring CCU IP Parameters
- 7.5 Configuring DHCP Relay
- 7.6 Configuring Port Filtering
- 7.7 Configuring the SNTP/UTC Time Clock
- 7.8 Configuring SNMP
- 7.9 Adding EUMs to the Authorization Table
- 8 Configuring the EUM
- 9 Installing the EUM
- 9.1 Before you Start the EUM Installation
- 9.2 Other EUM Programming Considerations
- 9.3 Installation Overview
- 9.4 Installation Procedures
- 9.4.1 Opening the Box
- 9.4.2 Turning off the End-user’s Cordless Phones
- 9.4.3 Choosing a Location for the EUM and Antenna
- 9.4.4 Connecting the EUM Components
- 9.4.5 Conducting a Preliminary Check of the EUM
- 9.4.6 Positioning the Antenna
- 9.4.7 Mounting the Antenna
- 9.4.8 Connecting the End-user’s PC
- 9.4.9 Obtaining Valid IP Addresses for the End-user’s PC
- 9.4.10 Testing the Data Link
- 9.4.11 Configuring the Browser Application
- 9.4.12 Completing the Installation
- 9.4.13 Baselining the Installation
- 9.4.14 Troubleshooting
- 10 Maintaining the Network
- 11 Monitoring the Network
- 12 Troubleshooting
- 13 Specialized Applications
- Appendix A Specifications
- Appendix B Factory Configuration
- Appendix C CommandLine Syntax
- Appendix D Antenna Guidelines
- Appendix E CCU/EUM Data Tables
- Appendix F Ping Commands
- Appendix G SNMP MIB Definitions
- MIB-II Elements Supported from RFC-1213
- WaveRider CCU Enterprise MIBs
- CCU Base MIB
- CCU General Information Group
- CCU Radio Configuration Group
- CCU Radio Statistics Group
- CCU Radio General Statistics Group
- CCU Radio Driver Statistics Group
- CCU Radio MAC Statistics Group
- CCU Ethernet Statistics Group
- CCU Modem Information MIB
- CCU Registration Information MIB
- CCU Registration Table
- CCU Authorization Information MIB
- CCU Authorization Table
- CCU RFC MIB-II Traps
- WaveRider EUM Enterprise MIBs
- EUM RFC MIB-II Traps
- Appendix H Operating Statistics
- Appendix I IP Plan — Example
- Appendix J Acronyms and Glossary
- Index

1 Introduction
APCD-LM043-4.0 3
• SNMP Support: Using WaveRider-supplied SNMP MIBs, network operators can
integrate the LMS4000 with their existing network management system to allow
monitoring of CCUs and EUMs from an existing and/or centralized SNMP manager.
Once SNMP is configured, the operator can monitor system events, parameters, and
statistics in real time. Statistics can be processed in the SNMP manager to provide
alarms, trend data, graphical outputs, and derived performance data.
• Channel Redundancy (optional): Optional CCU redundancy, which can be ordered
from WaveRider, improves LMS4000 system reliability, and reduces or eliminates
down time if a CCU fails. This redundancy eliminates interruption of service to the end
users and reduces the urgency for getting to the CCU site to replace the failed CCU.
• Accurate Time Stamping (SNTP): The CCUs and EUMs can be programmed to
synchronize their internal clocks with one or more NTP servers. Time stamping
enables all logged events in the CCUs and EUMs to be correlated with events that
have taken place at other locations in the network or with events logged by equipment
installed outside the network, if this equipment is equipped with accurate time-
stamping. Accurate time-stamping facilitates diagnosis of complex network problems.
• Field-replaceable Equipment: In the event of an equipment failure, LMS4000
components are easily replaced with minimal or no disruption to the operation of other
components.
• System Upgradability: The LMS4000 network architecture supports orderly growth
from simple installations, through single-CCU CAP (Communication Access Point)
sites and multi-CCU CAP sites, to multi-CAP networks.
• Port Filtering: The LMS4000 network operator can configure CCUs and EUMs to
filter IP packets on specific TCP and UDP ports to improve network performance,
security, and privacy.
• Low Maintenance: CCUs and EUMs require no routine maintenance, other than
maintenance of their operating environments within the specified temperature and
humidity range.
• Extensive Installation, Maintenance and Diagnostic Support: TheCCUandEUM
are equipped with a wide range of features and utilities to facilitate unit installation,
operation, maintenance, monitoring, and diagnostics:
• Visual status indicators on all units
• Simple-to-use command-line interface, offering full unit configuration
capability
• Windows-based EUM configuration and installation utilities
• RSSI (receive signal strength indication) output, to simplify antenna pointing
and performance measurement
• Ability to remotely FTP files to and from CCUs and EUMs
• Wide range of operating and performance statistics
• SNMP support
• Simple and reliable field-upgrade process
• Remote download of equipment configuration files to CCUs and EUMs
Your decision to implement an LMS4000 900MHz Radio Network enables you to deliver high-
quality, high-speed wireless Internet service to the business and residential subscribers in
your serving area.