User's Manual Part 1
Table Of Contents
- Preface
- InterReach Fusion Wideband System Description
- System Overview
- System Hardware Description
- System OA&M Capabilities Overview
- 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 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-2500-2-WMAX)
- 2600/2600 RAU (FSN-W3-2626-1)
- Fusion Wideband Main Hub
- Fusion Wideband Expansion Hub
- Remote Access Unit
- Designing a Fusion Wideband Solution
- 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 High Power RAU (FSN-W1-21HP-1)
- 2500/2500 WiMAX RAU (FSN-2500-2-WMAX)
- 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
Expansion Hub Overview
InterReach Fusion Wideband Installation, Operation, and Reference Manual Page 47
D-620616-0-20 Rev H • TECP-77-044 Issue 7 • May 2013 © 2013 TE Connectivity Ltd.
Green/Green
Red/Red
• The Expansion Hub is reporting a fault condition.
• Optical power received is above minimum (Main Hub is
connected) although the cable optical loss may be greater than
recommended maximum.
• Optical power transmitted is below minimum (Expansion Hub
uplink laser has failed; unable to communicate with Main Hub).
UL STATUS LED state must be checked within the first 90
seconds after power on. If initially green, then red after 90
seconds, it means that there is no communication with the
Main Hub. If red on power up, replace the Expansion Hub.
Green/Red
Red/Red
• Optical power received is below minimum
(the Main Hub is not
connected, is not powered, or the Main Hub’s downlink laser
has failed, or the downlink fiber is disconnected or damaged.)
• Optical power transmitted is below minimum (the Expansion
Hub uplink laser has failed; is unable to communicate with the
Main Hub).
UL STATUS LED state must be checked within the
first 90 seconds after power on. If initially green, then red after
90 seconds, it means that there is no communication with the
Main Hub. If red on power up, the uplink laser has failed,
replace the Expansion Hub.
Green/Off
Green/Off
• Expansion Hub is in factory test mode
, return it to the factory.
Red/Don’t Care
Red/Don’t Care
• One or more power supplies are out of sp
ecification. The hub
needs to be replaced.
Green/Red
Off/Off
• Expansion Hub failure. The Hub mu
st be replaced.
Table33. ExpansionHubUnitStatusandDL/ULStatusLEDStates(Cont.)
LED State Indicates
POWER
EH STATUS
DL STATUS
UL STATUS
POWER
EH STATUS
DL STATUS
UL STATUS
POWER
EH STATUS
DL STATUS
UL STATUS
POWER
EH STATUS
DL STATUS
UL STATUS
POWER
EH STATUS
DL STATUS
UL STATUS