User's Manual
Table Of Contents
- 1 About This User Guide
- 2 Avoiding Hazards
- Getting Started
- For Your Safety
- 3.2 Welcome
- 3.3 Product Description
- 3.4 Warranty
- 4 Product Architecture
- 5 General Considerations
- 5.1 Spectrum Planning
- 5.2 Introducing the Time Division Duplex (TDD) Synchronization Feature
- 5.3 Region Codes
- 5.4 Operational Restrictions
- 5.5 2.5GHz Specific Frequency Planning Considerations
- 5.6 5.4GHz Specific Frequency Planning Considerations
- 5.7 5.8GHz Specific Frequency Planning Considerations
- 5.8 Distance
- 5.9 Networking Information
- 5.10 Lightning Protection
- 5.11 Electrical Requirements
- 6 Site Planning
- 6.1 Site Selection Criteria
- 6.1.1 ODU Site Selection
- 6.1.2 PTP 600 Series Bridge PIDU Plus Site Selection
- 6.1.3 Path Loss Considerations
- 6.1.4 Definitions
- 6.1.5 2.5 GHz Product Variant - Receive Sensitivity, Link Loss, Output Power and Threshold Vs Modulation Mode
- 6.1.6 5.4 GHz Product Variant - Receive Sensitivity, Link Loss, Output Power and Threshold Vs Modulation Mode
- 6.1.7 5.8 GHz Product Variant - Receive Sensitivity, Link Loss, Output Power and Threshold Vs Modulation Mode
- 6.1 Site Selection Criteria
- 7 Installation
- 7.1 Preparation
- 7.2 Installation Procedure
- 7.3 Tools Required
- 7.4 Installation Support
- 7.5 Legal Disclaimer
- 7.6 Mounting the ODUs
- 7.7 Connecting Up
- 7.7.1 Preparing The PIDU Plus To ODU Cable
- 7.7.2 Making the Connections at the ODU
- 7.7.3 Making the PTP 600 Series Bridge PIDU Plus Connection At The ODU
- 7.7.4 Routing the Cable
- 7.7.5 Fitting A Surge Arrestor
- 7.7.6 Grounding the Installation
- 7.7.7 Making the ODU Connection at the PTP 600 Series Bridge PIDU Plus
- 7.7.8 Making the Network Connection at The PIDU Plus – PTP 600 Series Bridge
- 7.7.9 Mounting the PTP 600 Series Bridge PIDU Plus
- 7.7.10 Powering Up
- 7.7.11 Aligning the PTP 600 Series Bridge ODUs
- 8 Web Page Reference
- 8.1 Home Page – PTP 600 Series Bridge
- 8.2 Systems Status Page
- 8.3 System Administration Pages
- 8.3.1 System Configuration
- 8.3.2 Statistics Page
- 8.3.3 Detailed Counters Page
- 8.3.4 Install Pages
- 8.3.5 Graphical Install
- 8.3.6 Software Upgrade
- 8.3.7 Spectrum Management
- 8.3.7.1 Wireless Channels
- 8.3.7.2 Spectrum Management Measurements
- 8.3.7.3 Measurement Analysis
- 8.3.7.4 The Spectrum Management Master / Slave Relationship
- 8.3.7.5 Spectrum Management Configuration
- 8.3.7.6 Barring Channels
- 8.3.7.7 Local and Peer Channel Spectrum Graphics
- 8.3.7.8 Active Channel History
- 8.3.7.9 Viewing Historic Spectrum Management Metrics
- 8.3.8 Spectrum Management (Fixed Frequency and WIMAX)
- 8.3.9 Spectrum Management Control - With Operational Restrictions
- 8.3.10 Spectrum Management – Example of 2.5 GHz Product variant
- 8.3.11 Remote Management Page
- 8.3.12 Diagnostics
- 8.3.13 Change System Administration Password
- 8.3.14 License Key
- 8.3.15 Properties
- 8.3.16 Reboot
- 9 Recovery Mode
- 10 Fault Finding
- 11 Lightning Protection
- 12 Wind Loading
- 13 PTP 600 Series Bridge – Connectorized Model
- 13.1 Scope
- 13.2 Product Description
- 13.3 Software/Features
- 13.4 Deployment Considerations
- 13.5 Link Budget
- 13.6 Regulatory Issues
- 13.7 Antennas for USA / Canada
- 13.8 Installation
- 13.8.1 Antenna Choice
- 13.8.2 Cables and Connectors
- 13.8.3 Tools
- 13.8.4 Miscellaneous supplies
- 13.8.5 Mounting the Connectorized 600 Series Bridge
- 13.8.6 Mounting the antennas
- 13.8.7 Alignment Process
- 13.8.8 Aligning Dual Polar Antennas
- 13.8.9 Aligning Separate Antennas
- 13.8.10 Completing the Installation
- 13.8.11 Antenna Cable Fixing
- 13.8.12 Antenna Connection Weatherproofing
- 13.9 Additional Lightning Protection
- 14 TDD Synchronization Configuration and Installation Guide
- 15 E1/T1 Installation Guide
- 16 Lightning Protection
- 17 Data Rate Calculations
- 18 AES Encryption Upgrade
- 19 Legal and Regulatory Notices
- 20 Glossary
- 21 FAQs
- 22 Index Alar
170
If it does illuminate then either the ODU is drawing too much current, or the power wiring to
the ODU is short circuit or the PSU is supplying insufficient power. The likely fault can be
determined by removing the jumper (J906), found inside the removable cover of the PIDU
Plus, and measuring the current taken with an ammeter placed across the 2 jumper pins. This
is normally 10mA without the ODU connected and 300mA to 1A when the ODU is connected.
If it does not illuminate then recheck that power is applied to the PIDU Plus by measuring the
voltage across +55V and 0V pads inside the removable cover in the PIDU Plus. Check that
the PIDU Plus is not short circuit by measuring the impedance across the Power connector. Is
the lamp faulty?
10.1.2 Ethernet
The Ethernet LED is driven from the ODU processor and thus is capable of informing you of
many conditions using different flash sequences. If the Ethernet indicator does not illuminate
at all there are four possible conditions.
• There is no power reaching the ODU because of a wiring fault
• The ODU is faulty
• The PIDU Plus is faulty
• The Ethernet network side is faulty
Look at the following table to check the LED response for power up, disconnect the power
and reapply and note what happens.
Differentiating between 1-3 and 4 can be achieved by removing the power for 1 second.
Watch the Ethernet indicator for 1 minute, if it never flashes then the problem is 1-3. Take the
jumper (J906) out of the PIDU Plus and check the current taken by the ODU. This should be
300mA to 1A when starting to run normally.
If the Ethernet indicator flashes to begin with but then stops flashing, the ODU is powered and
software loaded but Ethernet connectivity has been lost between the ODU and the users
connected equipment. All Ethernet connections should be rechecked.