User's Manual
Table Of Contents
- Table of Contents
- System Description
- Microwave Path Engineering Basics
- Engineering Guidelines
- Network Turnup Procedure
- User Interface Guide
- 1. Navigating the Terminal Menu
- 2. Menu and System Control
- 3. Menu Descriptions
- > System Status
- > Main Menu
- > System Configuration
- > RF Link Configuration
- > RF Link Performance History (Main Screen)
- > RF Link Error History
- > RF Link Max/Min Received Power History
- > RF Link Min/Max Received Signal Quality History
- > Datapath Provisioning
- > 4xE1 Module Configuration/Status/History (Main Screen)
- > E1x Status/Configuration/Loopback
- > E1x Performance History
- > T1 Module Configuration/Status/History (Main Screen)
- > T1x Status/Configuration/Loopback
- > Ethernet Switch Module Configuration/Status/History (Main Screen)
- > Ethernet Switch Configuration
- > Ethernet Switch Status
- > Management/Utilities (Main Screen)
- > Ping Utility
- > Firmware Upgrade Utility
- > RF Link Management Bridge Configuration
- > System Alarms
- Detail Level Procedures
- MIBs
- Troubleshooting Guide
- 1. Overview
- 2. LED Indicators
- PWR LED
- TST LED
- RF DWN LED
- RF LOW LED
- T1 Interface Alarms
- E1 Interface Alarms
- 1. Display the E1(x) Status screen and check the E1(x) Interface Alarm field to identify the active alarm.
- 1. Verify that the E1 cable is connected to the E1 interface on the TRACER 64x0.
- 2. Verify the connections at the opposite end of the E1 cable.
- 3. Verify that the framing mode (framed, multiframed, or unframed) is the same for both the TRACER 64x0 and the E1 equipment.
- 2. Verify the cable connections for the E1 interface are solid.
- 2. Verify the cable connections for the E1 interface are solid.
- LAN LEDs
- 3. RF Errors
- 4. Step-by-Step Troubleshooting
- 5. Installing/Troubleshooting the TRACER Hardware
Section 4 Network Turnup Procedure TRACER 6000 Series Integrated System Manual
48 Copyright © 2005 ADTRAN, Inc. 612806420L1-1D
4. CHANNEL SELECTION
The FCC has allocated 83.5 MHz of spectrum in the 2.4 GHz band where the TRACER 6410 operates, and
125 MHz of spectrum in the 5.8 GHz band where the TRACER 6420 operates. Figure 1 and Figure 2
illustrates the bandwidth division.
Figure 1. 2.4 GHz Bandwidth Division
Figure 2. 5.8 GHz Bandwidth Division
To designate the utilization of the Industrial, Scientific, and Medical (ISM) bandwidth, there are two
different frequency plans, labeled A and B. The letter of each frequency plan setting is preset by the factory
and refers to the physical configuration of the diplexer filter inside the chassis. Each frequency plan is then
divided into three band plans (1, 2, or 3). The band plans must be the same for the local and remote
TRACER 64x0. For example, the transmitter at one end of the link will transmit in band plan 1 of frequency
plan A (the lower portion of the spectrum) and receive in band plan 1 of frequency plan B (the upper
portion). Consequently, the receiver at the other end should receive in band plan 1 of frequency plan A (the
lower portion) and transmit in band plan 1 of frequency plan B (the upper portion).
The letter of the frequency plan (A or B) must be different on both ends, and the number of the band plan (1,
2, or 3) must be the same on both ends. The default band plan configuration for the TRACER 64x0 is band
plan 1.
The frequency plan (A or B) of the unit may be changed in the field, if necessary, by rewiring the internal
diplexer. Contact Technical Support (see Warranty, Customer Service, Product Support Information, and
Training on page 7) for more information on this procedure.
Channel A
2419 2441.752422 24252400 MHz 2483.5 MHz
Bandplan 3
Bandplan 2
Bandplan 1
Channel B
2459 2462 2465
Bandplan 3
Bandplan 2
Bandplan 1
Frequency Plan A
57445725 5787 58505747 5751MHz MHz
Band plan 3Band plan 2Band plan 1
Frequency Plan B
5824 5827 5831
Band plan 3Band plan 2Band plan 1