User's Manual
Table Of Contents
- PTP 600 User Guide
- Copyright Information
- Contents
- 1 About This User Guide
- 2 Avoiding Hazards
- Getting Started
- 4 Product Architecture
- 5 Radio Link Planning and Regulations
- 5.1 Spectrum Planning
- 5.2 Licenses and Region Codes
- 5.3 Operational Restrictions
- 5.4 Variable Channel Bandwidth Operation
- 5.5 PTP 25600 Specific Frequency Planning Considerations
- 5.6 PTP 45600 Specific Frequency Planning Considerations
- 5.7 PTP 48600 Specific Frequency Planning Considerations
- 5.8 PTP 49600 Specific Frequency Planning Considerations
- 5.9 PTP 54600 Specific Frequency Planning Considerations
- 5.10 PTP 58600 Specific Frequency Planning Considerations
- 5.11 PTP 59600 Specific Frequency Planning Considerations
- 5.12 Time Division Duplex (TDD) Synchronization
- 5.13 Link Mode Optimization
- 5.14 Distance
- 5.15 Networking Information
- 5.16 Lightning Protection
- 5.17 Electrical Requirements
- 5.18 Latency
- 6 Site Planning
- 6.1 Site Survey and Link Planning
- 6.2 Site Selection Criteria
- 6.2.1 ODU Site Selection
- 6.2.2 PTP 600 Series Bridge PIDU Plus Site Selection
- 6.2.3 Path Loss Considerations
- 6.2.4 Definitions
- 6.2.5 PTP 25600 System Threshold, Output Power and Link Loss
- 6.2.6 PTP 45600 System Threshold, Output Power and Link Loss
- 6.2.7 PTP 48600 System Threshold, Output Power and Link Loss
- 6.2.8 PTP 49600 System Threshold, Output Power and Link Loss
- 6.2.9 PTP 54600 System Threshold, Output Power and Link Loss
- 6.2.10 PTP 58600 System Threshold, Output Power and Link Loss
- 6.2.11 PTP 59600 System Threshold, Output Power and Link Loss
- 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 Lightning Protection Unit
- 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
- 7.8 Establishing a Radio Link
- 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
- 8.3.8 Spectrum Management (Fixed Frequency)
- 8.3.9 Spectrum Management Control - With Operational Restrictions
- 8.3.10 Spectrum Management – Example of PTP 25600 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 Lightning Protection
- 10.1 Overview
- 10.2 Detailed Installation
- 10.3 Installation Wiring
- 10.4 LPU Recommended Configurations
- 10.4.1 Typical Mast or Tower Installation
- 10.4.2 Typical Wall Installation
- 10.4.3 Mast or Tower Installation with E1/T1
- 10.4.4 Wall Installation with E1/T1
- 10.4.5 Mast or Tower Installation with GPS Sync Box
- 10.4.6 Wall Installation with GPS Sync Box
- 10.4.7 Mast or Tower Installation with GPS Sync Box and E1/T1
- 10.4.8 Wall Installation with GPS Sync Box and E1/T1
- 11 Troubleshooting (Fault Finding)
- 12 Wind Loading
- 13 Connectorized PTP 600 Series Bridge
- 13.1 Scope
- 13.2 Product Description
- 13.3 Software/Features
- 13.4 Deployment Considerations
- 13.5 Link Budget
- 13.6 Regulatory Issues with Connectorized Units
- 13.7 Installation
- 13.7.1 Antenna Choice
- 13.7.2 Cables and Connectors
- 13.7.3 Tools
- 13.7.4 Miscellaneous supplies
- 13.7.5 Mounting the Connectorized 600 Series Bridge
- 13.7.6 Mounting the antennas
- 13.7.7 Alignment Process
- 13.7.8 Aligning Dual Polar Antennas
- 13.7.9 Aligning Separate Antennas
- 13.7.10 Completing the Installation
- 13.7.11 Antenna Cable Fixing
- 13.7.12 Antenna Connection Weatherproofing
- 13.8 Additional Lightning Protection
- 14 TDD Synchronization Configuration and Installation Guide
- 15 E1/T1 Installation Guide
- 16 Data Rate Calculations
- 17 AES Encryption Upgrade
- 18 Remote Software Upgrade by TFTP
- 19 Legal and Regulatory Notices
- 19.1 Important Note on Modifications
- 19.2 National and Regional Regulatory Notices – PTP 49600 variant
- 19.3 National and Regional Regulatory Notices – PTP 59600 variant
- 19.4 National and Regional Regulatory Notices – PTP 58600 variant
- 19.5 National and Regional Regulatory Notices – PTP 54600 Variant
- 19.6 National and Regional Regulatory Notices – PTP 25600 Variant
- 19.7 Exposure
- 19.8 Legal Notices
- 20 Specifications
- 20.1 System Specifications
- 20.1.1 Wireless PTP 25600 Variant
- 20.1.2 Wireless PTP 45600 Variant
- 20.1.3 Wireless PTP 48600 Variant
- 20.1.4 Wireless PTP 49600 Variant
- 20.1.5 Wireless PTP 54600 Variant
- 20.1.6 Wireless PTP 58600 Variant
- 20.1.7 Wireless PTP 59600 Variant
- 20.1.8 Management
- 20.1.9 Ethernet Bridging
- 20.1.10 Physical
- 20.1.11 Powering
- 20.1.12 Telecoms Interface
- 20.2 Safety Compliance
- 20.3 EMC Emissions Compliance
- 20.4 EMC Immunity Compliance
- 20.5 Radio Certifications
- 20.6 Environmental Specifications
- 20.7 System Connections
- 20.1 System Specifications
- 21 FAQs
- 22 Glossary
- 23 Index
8 Web Page Reference
186
The analysis produces three key metrics for each channel:
• Peak of Means
• 99.9% Percentile of the Means
• Mean of Means
Peak of Means is the largest mean interference measurement encountered during the
quantization period. The peak of means is similar to the peak of peaks and is useful for
detecting slightly longer duration spikes in the interference environment.
99.9% Percentile of the Means is the value of mean interference measurement which 99.9%
of all mean measurements fall below, during the quantization period. The 99.9% percentile
metric is useful for detecting short duration repetitive interference that by its very nature has a
minimal effect of the mean of means.
Mean of Means is the arithmetic mean of the measured means during a quantization period.
The mean of means is a coarse measure of signal interference and gives an indication of the
average interference level measured during the quantization period. The metric is not very
good at predicting intermittent interference and is included to show the spread between the
mean of means, the 99.9% percentile and the peak of means.
NOTE: The arithmetic mean is the true power mean and not the mean of the values
expressed in dBm.
NOTE: Spectrum Management uses the 99.9% percentile as the prime interference
measurement. All subsequent references to interference level refer to this percentile
measurement.
The display of statistical measurement on the spectrum management page always shows a
statistical summary of all channel measurement. The statistical summary is controlled by the
Statistics Window attribute. This attribute defaults to a value of twenty minutes, which means
that the mean and percentile values displayed for each channel are calculated over the 20
minute period. All channel decisions are made using the values computed over the statistics
window period.
8.3.7.4 The Spectrum Management Master / Slave Relationship
The Spectrum Management operates in a master / slave relationship. The master is assumed
to be the link master configured during installation. All Spectrum Management configuration
changes MUST be performed from the master. To enforce this, the Spectrum Management
web page has a different appearance depending if you are viewing the data from the master
or slave.