User's Manual

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Table Of Contents

SECTION 1 General Information
- 1.1 Firmware Release
- 1.2 Purpose and Scope
- 1.3 Conventions in this Manual
- 1.4 Standards Conformance
- 1.5 Related Publications
SECTION 2 InterReach Fusion Wideband System Description
- 2.1 System Overview
- 2.2 System Hardware Description
- 2.3 System OA&M Capabilities Overview
  - 2.3.1 System Monitoring and Reporting
  - 2.3.2 Using Alarm Contacts
- 2.4 System Connectivity
- 2.5 System Operation
- 2.6 System Specifications
  - 2.6.1 RF End-to-End Performance
SECTION 3 Fusion Wideband Main Hub
- 3.1 Fusion Wideband Main Hub Overview
- 3.2 Fusion Wideband Main Hub Front Panel
- 3.3 Fusion Wideband Main Hub Rear Panel
  - 3.3.1 Fusion Wideband Main Hub Rear Panel Connectors
    - 3.3.1.1 9-pin D-sub Connector
    - 3.3.1.2 N-type Female Connectors
- 3.4 Main Hub Specifications
- 3.5 Faults, Warnings, and Status Messages
  - 3.5.1 Description
  - 3.5.2 View Preference
SECTION 4 Fusion Wideband Expansion Hub
- 4.1 Expansion Hub Overview
- 4.2 Expansion Hub Front Panel
- 4.3 Expansion Hub Rear Panel
- 4.4 Faults, Warnings, and Status Messages
- 4.5 Expansion Hub Specifications
SECTION 5 Remote Access Unit
- 5.1 RAU Overview
- 5.2 Remote Access Unit Connectors
  - 5.2.1 50 Ohm Type-N Connector
  - 5.2.2 75 Ohm Type-F Connector
- 5.3 RAU LED Indicators
- 5.4 Faults and Warnings
- 5.5 Remote Access Unit Specifications
SECTION 6 Designing a Fusion Wideband Solution
- 6.1 Overview
- 6.2 Downlink RSSI Design Goal
- 6.3 Maximum Output Power per Carrier
- 6.4 System Gain
- 6.5 Estimating RF Coverage
- 6.6 Link Budget Analysis
- 6.7 Optical Power Budget
- 6.8 Connecting a Main Hub to a Base Station
  - 6.8.1 Uplink Attenuation
  - 6.8.2 RAU Attenuation and ALC
    - 6.8.2.1 Using the RAU 10 dB Attenuation Setting
    - 6.8.2.2 Using the Uplink ALC Setting
SECTION 7 Installing Fusion Wideband
- 7.1 Installation Requirements
- 7.2 Safety Precautions
- 7.3 Preparing for System Installation
- 7.4 Fusion Wideband Installation Procedures
- 7.5 Splicing Fiber Optic Cable
- 7.6 Interfacing the Fusion Wideband Main Hub to an RF Source
  - 7.6.1 Connecting a Single Fusion Wideband Main Hub to an RF Source
  - 7.6.2 Connecting Multiple Fusion Wideband Main Hubs to an RF Source
- 7.7 Connecting Contact Alarms to a Fusion Wideband System
- 7.8 Alarm Monitoring Connectivity Options
SECTION 8 Replacing Fusion Wideband Components
- 8.1 Replacing an RAU
- 8.2 Replacing a Fusion Wideband Expansion Hub
- 8.3 Replacing a Fusion Wideband Main Hub
SECTION 9 Maintenance, Troubleshooting, and Technical Assistance
- 9.1 Service
- 9.2 Maintenance
- 9.3 Troubleshooting
  - 9.3.1 Troubleshooting Using AdminBrowser
    - 9.3.1.1 Troubleshooting Recommendations
    - 9.3.1.2 Fault/Warning/Status Indications
  - 9.3.2 Troubleshooting Using LEDs
    - 9.3.2.1 Troubleshooting Main Hub LEDs During Normal Operation
    - 9.3.2.2 Troubleshooting Expansion Hub LEDs During Normal Operation
- 9.4 Troubleshooting CATV
- 9.5 Technical Assistance
APPENDIX A Cables and Connectors
A.1 75 Ohm CATV Cable
A.2 Fiber Optical Cables
A.3 Coaxial Cable
A.4 Standard Modem Cable
A.5 TCP/IP Cross-over Cable
A.6 DB-9 to DB-9 Null Modem Cable
APPENDIX B Compliance
B.1 Fusion Wideband System Approval Status
B.2 Human Exposure to RF
APPENDIX C Faults, Warnings, Status Tables for Fusion, Fusion Wideband, Fusion SingleStar
C.1 Faults Reported by Main Hubs
C.2 Faults Reported for System CPU
C.3 Faults for Expansion Hubs
C.4 Faults for RAUs
C.5 Messages for Main Hubs
C.6 Messages for System CPUs
C.7 Messages for Expansion Hubs
C.8 Messages for RAUs

Estimating RF Coverage

6-16 InterReach Fusion Wideband Installation, Operation, and Reference Manual

CONFIDENTIAL D-620616-0-20 Rev F

6.5 Estimating RF Coverage

The maximum output power per carrier (based on the number and type of RF carriers

being transmitted) and the minimum acceptable received power at the wireless device

(that is, the RSSI design goal) essentially establish the RF downlink budget and, con-

sequently, the maximum allowable path loss (APL) between the RAU’s antenna and

the wireless device. Since in-building systems, such as the Fusion Wideband, are gen-

erally downlink-limited, this approach is applicable in the majority of deployments.

Figure 6-1 Determining APL between the Antenna and the Wireless Device

APL = (P – L

coax

+ G) – RSSI (1)

where:

• APL = the maximum allowable path loss in dB

• P = the power per carrier transmitted by the RAU in dBm

•L

coax

= the coaxial cable loss between the RAU and passive antenna in dB

• G = the gain of the passive antenna in dBi

Coaxial cable is used to connect the RAU to an antenna. Table 6-14 lists coaxial cable

loss for various cable lengths.

You can calculate the distance, d, corresponding to the maximum allowable path loss

using equations introduced in the following sections.

Table 6-14 Coaxial Cable Losses (

coax)

Length of Cable

(.195 in. diameter)

Loss at

850 MHz (dB)

Loss at

1900 MHz (dB)

0.9 m (3 ft) 0.6 0.8

1.8 m (6 ft) 1.0 1.5

3.0 m (10 ft) 1.5 2.3

RAU

P = power per

Distance = d

G = Antenna Gain

RSSI = power at the

wireless device

carrier from the RAU

coax

= Coaxial cable loss