User's Manual
Table Of Contents
- Table of Contents
- Preface
- InterReach Fusion Wideband System Description
- System Overview
- System Hardware
- System OA&M Capabilities
- System Connectivity
- System Operation
- System Specifications
- RF End-to-End Performance
- 2100/1800 RAU (FSN-W1-2118-1)
- 2100 HP/1800 HP (FSN-W1-2118-1-HP)
- 2100 HP/2600 HP (FSN-W1-2126-1-HP)
- 2100 High Power RAU (FSN-W1-21HP-1)
- 1900/AWS RAU (FSN-W1-1921-1)
- 800/850/1900 RAU (FSN-W2-808519-1)
- 700/AWS RAU (FSN-W2-7021-1)
- 700/700 (Upper C) MIMO RAU (FSN-W2-7575-1)
- 700/700 (Lower ABC) MIMO RAU (FSN-W2-7070-1)
- 700 ABC/AWS HP/AWS HP RAU (FSN-W4-702121-1-HP)
- 700 UC/AWS HP/AWS HP RAU (FSN-W4-752121-1-HP)
- 850/1900 HP/AWS HP RAU (FSN-W5-851921-1-HP)
- 2500/2500 RAU (FSN-2525-1-TDD)
- 2600/2600 RAU (FSN-W3-2626-1)
- Fusion Wideband Main Hub
- Fusion Wideband Expansion Hub
- Remote Access Unit
- Designing a Fusion Wideband Solution
- Design Overview
- Downlink RSSI Design Goal
- Maximum Output Power Per Carrier
- 700/AWS RAU (FSN-W2-7021-1)
- 700 MHz (Upper C) MIMO RAU (FSN-W2-7575-1)
- 700 MHz (Lower ABC) MIMO RAU (FSN-W2-7070-1)
- 700 ABC/AWS HP/AWS HP RAU (FSN-W4-702121-1-HP)
- 700 UC/AWS HP/AWS HP RAU (FSN-W4-752121-1-HP)
- 800/850/1900 RAU (FSN-W2-808519-1)
- 850/1900 HP/AWS HP RAU (FSN-W5-851921-1-HP)
- 1900/AWS RAU (FSN-W1-1921-1)
- 2100/1800 RAU (FSN-W1-2118-1)
- 2100 HP/1800 HP RAU (FSN-W1-2118-1-HP)
- 2100 HP/2600 HP RAU (FSN-W1-2126-1-HP)
- 2100 High Power RAU (FSN-W1-21HP-1)
- 2500/2500 TDD RAU (FSN-2525-1-TDD)
- 2600 MHz MIMO RAU (FSN-W3-2626-1)
- Designing for Capacity Growth
- System Gain
- Estimating RF Coverage
- Link Budget Analysis
- Optical Power Budget
- Connecting a Main Hub to a Base Station
- Installing Fusion Wideband
- Installation Requirements
- Safety Precautions
- Preparing for System Installation
- Installing a Fusion Wideband Main Hub
- Installing a Fusion Wideband Main Hub in a Rack
- Installing an Optional Cable Manager in the Rack
- Installing a Main Hub Using the 12” Wall-Mounted Rack (PN 4712)
- Installing a Fusion Wideband Main Hub Directly to the Wall
- Connecting the Fiber Cables to the Main Hub
- Making Power Connections
- Optional Connection to DC Power Source
- Power on the Main Hub
- Installing Expansion Hubs
- Installing the Expansion Hub in a Rack
- Installing an Expansion Hub Using the 12” Wall-Mounted Rack
- Installing an Expansion Hub Directly to the Wall
- Installing an Optional Cable Manager in the Rack
- Powering on the Expansion Hub
- Connecting the Fiber Cables to the Expansion Hub
- Connecting the 75 Ohm CATV Cables
- Troubleshooting Expansion Hub LEDs During Installation
- Installing RAUs
- Configuring the Fusion Wideband System
- Splicing Fiber Optic Cable
- Interfacing the Fusion Wideband Main Hub to an RF Source
- Connecting a Fusion Wideband Main Hub to an In-Building BTS
- Connecting a Duplex Base Station to a Fusion Wideband Main Hub
- Connecting a Fusion Wideband Main Hub RF Band to Multiple BTSs
- Connecting a Fusion Wideband Main Hub to a Roof-Top Antenna
- Connecting a Fusion Wideband Main Hub to Flexwave Focus
- Connecting Multiple Fusion Wideband Main Hubs to an RF Source
- Connecting Contact Alarms to a Fusion Wideband System
- Alarm Monitoring Connectivity Options
- Replacing Fusion Wideband Components
- Maintenance and Troubleshooting
- Appendix A: Cables and Connectors
- Appendix B: Compliance
- Appendix C: Faults, Warnings, Status Tables for Fusion, Fusion Wideband, Fusion SingleStar
- Appendix D: Contacting TE Connectivity
Installing Fusion Wideband
Page 148 InterReach Fusion Wideband Installation, Operation, and Reference Manual
© 2015 TE Connectivity D-620616-0-20 Rev K • TECP-77-044 Issue 9 • March 2015
INTERFACING THE FUSION WIDEBAND MAIN HUB TO AN RF SOURCE
CAUTION! Only TE personnel or TE-authorized installation personnel should connect the Fusion Wideband
Main Hub to its Band associated Base Station or repeater. Exceeding the maximum input power
could cause failure of the Fusion Wideband Main Hub (refer to “Appendix A: Cables and
Connectors” on page 191 for maximum power specifications). If th
e
maximum composite power
is too high, attenuation is required.
NOTE: The following procedures assume that the system is installed and has
bee
n programmed with
bands.
Connecting a Fusion Wideband Main Hub to an In-Building BTS
CAUTION! Only TE personnel or TE-authorized installation personnel should connect the Fusion Wideband
Main Hub to a Base Station or repeater. Exceeding the maximum input power could cause failure
of the Fusion Wideband Main Hub (refer to “Appendix A: Cables and Connectors” on page 191 for
maximum power specifications). If the maximum composite power
is too high, atten
uation is
required.
CAUTION! The UPLINK and DOWNLINK ports cannot handle a DC power feed from the Base Station. If DC
po
wer is pres
ent, a DC block must be used or the hub may be damaged.
Do the following to connect a Simplex Base Station to a Fusion Wideband Main Hub RF Band:
1 Connect an N-male to N-male coaxial cable to
the transmit simplex connector on the Base
Station.
2 Connect the
other end of the N-male to N-male coaxial cable to the DOWNLINK connector on
the Hub for the corresponding Band 1, Band 2, or Band 3.
3 Connect an N-male to N-male coaxial cable to
the receive simplex connector on the Base
Station.
4 Connect the other end o
f the N-male to N-male coaxial cable to the UPLINK connector on the
Hub for the corresponding Band 1, Band 2, or Band 3.
Figure 21.
Simplex Base Station to a Fusion Wideband Main Hub
Simplex
Base Station
Band 3
Band 1 Band 2 Band 3
UL1 UL2 UL3
Alarms
DL1 DL2 DL3
AC Power
N-male to N-male
coaxial cable
T1/E1 to
Mobile
Switching
Center
Insert attenuator
(if needed)
NOTE: This applies to Band 1, Band 2, and Band 3.