InterReach Fusion Installation
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Transcript of InterReach Fusion Installation
InterReach Fusion ® Installation
An InterReach Product Training Module
Objectives
• Describe the project steps when deploying Fusion
• Understand considerations for a DAS deployment
• Understand the Fusion systems inter-connections
Fusion – Installation Topics
• Main Hub & Expansion Hub chassis installations (mechanical installation)
• Cable and RAU installation
• RF source integration
3
• Turn up procedures / how to optimize
• System powering
• As built documentation
• Budgetary design – usually based on floor plans
– Determine which areas of the building require coverage
(entire building, public areas, parking levels, etc.)
– Determine the building’s construction materials (sheetrock, metal, concrete, etc.)
– Determine capacity requirements
In-Building Wireless Implementation
Scope of Work
– Determine capacity requirements
• Site survey– Confirm RF propagation– Determine locations for equipment – Confirm antenna locations– Measure interference thresholds– Confirm cable routes and lengths– Power– Security
In-Building Wireless Implementation
Scope of Work cont’d
• Final design quote• Installation• Commissioning & Acceptance
(including as-built drawings)
Facility and Installation Considerations –
Potential Cost Impacts
• Type of environment - Open layout, dense, mixed use
• Building’s construction materials (sheetrock, metal, concrete, etc.)• RF design goals (required strength of signal)• What type of cable infrastructure is installed and/or will be required?
– Is there dark fiber available?• Are there any special installation requirements?
– Is conduit required?
• How much conduit; Required in just the horizontals or everywhere?• How much conduit; Required in just the horizontals or everywhere?
• How large is the conduit; how many fibers; how long are the runs?
– Are there any fire code requirements?
• Building-code requirement or environmental need based on facility type• Working hours, access arrangements
Special Requirement - Application
Profiles
• Hospitals
– Tenting, Union and/or incumbent installer, conduit, core drilling, work hour restrictions, validation of drawings (lead-lined walls), proper definition of coverage requirements (e.g. Operating Rooms, boiler rooms, etc.).
• Campus
– Union and/or incumbent installer, validation of facility drawings and fiber map, conduit, work hour restrictions, core drilling, high lift
• Manufacturing• Manufacturing
– Union labor, conduit, work hour restriction, high lift
• Airport
– Union labor, Security clearance, conduit, work hour restriction, high lift
• Hospitality
– Work hour restrictions, historic architecture, union labor (regional)
• Corporate Office
– Union labor, conduit, work hour restriction
Fusion – HUB & RAU
Installation Considerations
• Fusion components are intended to be installed in indoor locations only or in protected housings.
• Provide sufficient airflow and cooling to prevent heat build-up from exceeding maximum ambient air temperature specification. Do not compromise amount of airflow required for safe operation of equipment.
• MH and EH can be mounted in 19 racks or wall mounted.• MH and EH can be mounted in 19 racks or wall mounted.
• There are no user-serviceable parts inside the components.
• The internal power supply has internal fuses that are not user replaceable. Consider maximum power consumption shown on product labels when provisioning AC power source and distribution.
– Main Hub: 30 W typical
– Expansion Hub (8 RAUs): 530 W max, 585 W max (tri-band RAU)
8
Fusion – HUB AC /DC Power
Considerations
• Fusion Hubs can be AC or DC powered
• AC / DC powering can be mixed between MH and EH
• MH and EH can be supported by most UPS
– UPS must generate a true sine wave output– UPS must generate a true sine wave output
– UPS weight dictates floor / rack mounting
– EH has the highest load, 530-585 Watts max.
– Always check Fusion specs for typical / max power
– MH and EH each have three dry contacts to monitor UPS
9
Fusion – Typical Installation
Main Hub
SMF: up to 6km / 3.7milesMMF: up to 500m / 1640 feetNote: SC/APC connectors only!
Expansion Hub – Up to 4 per Main Hub
RemoteAccess
Unit
75 Ω Coax Cable: RG-59; RG-6; RG-11F connectors
Remote Access Unit (RAU) – Up to 8 per Expansion Hubfor a possible total of 32 RAUs per Main Hub
Antenna
Coax
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• Single Mode or Multi–Mode Fiber
• Use only SC/APC fiber connectors; Any other connector type will result in degraded system performance and may damage the equipment.
• SC/APC connectors are typically Green; Blue connectors are typically flat-polished connectors.
InterReach Fusion – Fiber Cable
Requirements
typically flat-polished connectors.
• The SC/APC connectors are required at any connector location throughout the entire fiber run, even interim distribution panels.
• Maximum Optical loss = 3 dB; measured at 1310 nm
• Reflection in the fiber generates noise which can cause performance issues
• Use fusion splicing for all fiber splicing.
11
InterReach Fusion – Fiber Cable
Requirements cont’d
• Fiber distances: • SMF: up to 6km / 3.7miles • MMF: up to 500m / 1640 feet
• When Connecting -
• Make sure that fiber ports and connectors are clean.
• Connect the Expansion Hub’s uplink fiber optic cable to the Main • Connect the Expansion Hub’s uplink fiber optic cable to the Main Hub’s uplink fiber port and the downlink cable to the downlink port
12
Fusion - Main Hub to RF Source Cabling
Measure RF power from BTS or BDA to ensure that power level does not exceed PPC limits. Exceeding the limit could cause permanent damage to the Main Hub.
Make sure that the signal level into the Main Hub, plus the system gain (0–15 dB) does not exceed the level listed in the power per carrier tables in Section 6 of the user manual.
13
InterReach Fusion - 75 Ω Coax Cable
Requirements
Cable
Type
Manuf /
Part #
Plenum Center
Conductor
Dual-
Band
Max DC
Distance
Tri-Band
Max DC
Distance
Max RF
Distance
RG59 Belden /
1505A
No Solid 1589 ft 1033 ft 532 ft
RG59 Belden /
1506A
Yes Solid 1661 ft 1080 ft 435ft
RG6 Belden /
1695A
Yes Solid 2383 ft 1549 ft 581 ft
Examples of 75 Ω Cable Tri-Band lengths:
Tri-Band RAUs draw more power than Dual Band so lengths are shorter
Cables with solid copper center conductor provide RG6 Belden /
9116R
No C-Clad 593 ft 385 ft 672 ft
RG6 General /
495025
Yes Solid 2357 ft 1532 ft 735 ft
RG6 General /
C3525
Yes C-Clad 647 ft 420 ft 641 ft
RG11 Belden /
7732A
Yes Solid 5347 ft 3476 ft 757 ft
RG11 General /
395029
No Solid 5347 ft 3476 ft 936 ft
RG11 CableCon
/ 1523AP
Yes C-Clad 1452 ft 944 ft 676 ft
RG11 Coleman /
99901
Yes Solid 3986 ft 2591 ft 758 ft
center conductor provide better performance/distance
Connectors should use a quality crimp or compression type.
Connectors with a machined center-pin is preferred.
InterReach Fusion Installation –
BDA Application for Amplification
850 1900
Downlink Downlink
Uplink Uplink
Main Hub
Uplink Uplink
15
Bi-Directional Amplifier
InterReach Fusion – Antenna Splitter
Application
RAU
RG Coax
Antenna Antenna
RAU
N-Male
connector
½” coax
Splitter
N-female
connector
N-female
connector
30" jumper
30" jumper
30" jumper
½” coax
16
Remote Access Unit
Installation Photos: RF Source
Donor Antenna System on Rooftop
Main Hub in IT Center
Installation Photos: RF Source
Main Hubs and repeater
Installation Photos: Main Hub, Exp.
Hub, RAU
Main Hubs
Exp Hubs
RAU
Installation Photos: Antennas
Preguntas, comentarios?
Thank You!Thank You!Omar Huitzil (CALA)Field Application Engineer [email protected]+52-1-5554-06-8025