User's Guide
Table Of Contents
- PTP 500 Series User Guide
- Copyright Information
- Disclaimer
- Contents
- List of Figures
- List of Tables
- List of Equations
- 1 About This User Guide
- 2 Product Description
- 2.1 Product Function
- 2.2 Typical Deployment
- 2.3 Frequency Variants
- 2.4 Other Product Variants
- 2.5 Network Connection
- 2.6 Outdoor Unit (ODU)
- 2.7 PIDU Plus PTP 300/500/600 Series
- 2.8 Redundancy and Alternative Powering Configurations
- 2.9 Remote LEDs and Recovery Switch
- 2.10 Cables and Connectors
- 2.11 PTP and Lightning Protection
- 2.12 Mounting Brackets
- 3 Product Features
- 4 Planning Considerations
- 5 Lightning Protection
- 6 Installation
- 6.1 Installation Support
- 6.2 Legal Disclaimer
- 6.3 Preparation
- 6.4 Mounting the ODUs
- 6.5 Connecting Up
- 6.5.1 Preparing the PIDU Plus To ODU Cable
- 6.5.2 Making the Connections at the ODU
- 6.5.3 Making the PIDU Plus Connection At The ODU
- 6.5.4 Routing the Cable
- 6.5.5 Fitting a Lightning Protection Unit
- 6.5.6 Grounding the Installation
- 6.5.7 Making the ODU Connection at the PIDU Plus
- 6.5.8 Making the Network Connection at the PIDU Plus
- 6.5.9 Mounting the PIDU Plus
- 6.5.10 Powering Up
- 6.6 Establishing a Radio Link
- 7 Web Page Reference
- 7.1 Menu Navigation Bar
- 7.2 Home (System Summary)
- 7.3 System Status
- 7.4 System Administration
- 7.5 Configuration
- 7.6 Statistics
- 7.7 Installation Wizard
- 7.8 Software Upgrade
- 7.9 Spectrum Management
- 7.9.1 Wireless Channels
- 7.9.2 Spectrum Management Measurements
- 7.9.3 Measurement Analysis
- 7.9.4 The Spectrum Management Master / Slave Relationship
- 7.9.5 Spectrum Management Configuration
- 7.9.6 Barring Channels
- 7.9.7 Master and Slave Channel Spectrum Graphics
- 7.9.8 Active Channel History
- 7.9.9 Viewing Historic Spectrum Management Metrics
- 7.9.10 Spectrum Management (Fixed Frequency)
- 7.9.11 Spectrum Management Control with Radar Avoidance
- 7.10 Remote Management
- 7.10.1 Control Access to HTTP Interface
- 7.10.2 Control Access to Telnet Interface
- 7.10.3 SNMP (Simple Network Management Protocol)
- 7.10.4 Supported Management Information Bases (MIBS)
- 7.10.5 Diagnostics Alarms
- 7.10.6 SNMP Configuration
- 7.10.7 SMTP (Simple Mail Transport Protocol)
- 7.10.8 SNTP (Simple Network Time Protocol)
- 7.10.9 Setting the clock
- 7.11 Diagnostics Plotter
- 7.12 Change Password
- 7.13 License Key
- 7.14 Properties
- 7.15 Reboot
- 8 Recovery Mode
- 9 Troubleshooting (Fault Finding)
- 10 Connectorized PTP 500 Series Bridge
- 10.1 Product Description
- 10.2 Software/Features
- 10.3 Deployment Considerations
- 10.4 Link Budget
- 10.5 Regulatory Issues with Connectorized Units
- 10.6 Antenna Choices
- 10.7 Installation
- 10.7.1 Cables and Connectors
- 10.7.2 Tools
- 10.7.3 Miscellaneous supplies
- 10.7.4 Mounting the Connectorized PTP 500 Series Bridge
- 10.7.5 Mounting the antennas
- 10.7.6 Alignment Process
- 10.7.7 Aligning Dual Polar Antennas
- 10.7.8 Aligning Separate Antennas
- 10.7.9 Completing the Installation
- 10.7.10 Antenna Cable Fixing
- 10.7.11 Antenna Connection Weatherproofing
- 10.8 Additional Lightning Protection
- 11 E1/T1 Installation Guide
- 12 Data Rate Calculations
- 13 AES Encryption
- 14 Remote Software Upgrade by TFTP
- 15 Legal Notices
- 15.1 Motorola Inc. End User License Agreement
- 15.1.1 Definitions
- 15.1.2 Grant of License
- 15.1.3 Conditions of Use
- 15.1.4 Title; Restrictions
- 15.1.5 Confidentiality
- 15.1.6 Right to Use Motorola’s Name
- 15.1.7 Transfer
- 15.1.8 Updates
- 15.1.9 Maintenance
- 15.1.10 Disclaimer
- 15.1.11 Limitation of Liability
- 15.1.12 U.S. Government
- 15.1.13 Term of License
- 15.1.14 Governing Law
- 15.1.15 Assignment
- 15.1.16 Survival of Provisions
- 15.1.17 Entire Agreement
- 15.1.18 Third Party Software
- 15.2 Hardware Warranty in U.S.
- 15.3 Limit of Liability
- 15.1 Motorola Inc. End User License Agreement
- 16 PTP 500 Reference Information
- 16.1 PTP 500 General Reference Information
- 16.2 PTP 54500 Reference Information
- 16.2.1 PTP 54500 Examples of Regulatory Limits
- 16.2.2 PTP 54500 Licenses and Region Codes
- 16.2.3 PTP 54500 Regulatory Compliance
- 16.2.4 PTP 54500 Radio System Specifications
- 16.2.5 PTP 54500 Emissions and Radio Certifications
- 16.2.6 PTP 54500 Available Spectrum Settings
- 16.2.7 PTP 54500 System Threshold, Output Power and Link Loss
- 16.2.8 PTP 54500 FCC Antenna Restrictions
- 16.3 PTP 58500 Reference Information
- 16.3.1 PTP 58500 Examples of Regulatory Limits
- 16.3.2 PTP 58500 Licenses and Region Codes
- 16.3.3 PTP 58500 Regulatory Compliance
- 16.3.4 PTP 58500 Radio System Specifications
- 16.3.5 PTP 58500 Emissions and Radio Certifications
- 16.3.6 PTP 58500 Available Spectrum Settings
- 16.3.7 PTP 58500 System Threshold, Output Power and Link Loss
- 16.3.8 PTP 58500 FCC Antenna Restrictions
- 17 FAQs
- 18 Glossary
3 Product Features
30
3.9 Telecoms Circuits
The PTP 500 link provides native support for one E1 link, or one T1 link. The link relays
unstructured E1 or T1 data and provides accurate timing transfer.
3.9.1 Lowest Telecoms Modulation Mode
In narrow channel bandwidth and lower modulation modes, the link may have insufficient
capacity to relay the E1/T1 payload; in this case, the wireless link continues to carries timing
information in order to maintain accurate clock synchronization. The relay of telecoms data
resumes automatically when the link reaches a suitable modulation mode.
Links that are able to operate consistently in a high modulation mode can take advantage of
lower link latency. This option is configured by setting the "Lowest Telecoms Modulation
Mode" during installation. Appropriate settings for this control may be determined by using the
LINKPlanner tool. The reduction in latency is achieved by disabling the relay of telecoms data
in lower modulation modes, and this necessarily results in somewhat lower availability for the
telecoms circuit. The loss of availability can be estimated using the LINKPlanner.
The unit will override the user setting of Lowest Telecoms Modulation Mode if the selected
mode has insufficient capacity to carry the telecoms data, or if the mode demands very high
latency and requires more buffering than the link can provide. When the effective mode differs
for Single and Dual Payload operation two modes will be displayed: "Lowest Dual Payload
Modulation Mode" and "Lowest Single Payload Modulation Mode".
3.9.2 Fixed Frequency Operation
In the PTP 500 link, data errors may occur during channel changes on an operational link. It
may be appropriate to minimize channel-change-related errors in a link carrying Telecoms
traffic by preventing channel changes initiated by i-DFS. This can be achieved by barring all
channels except one in the Spectrum Management page, or alternately by selecting Fixed
Frequency mode. These steps disable interference avoidance mechanisms, and should not
be taken if the risk of errors due to interference is more severe than the risk due to channel
changes.