User's Manual
Table Of Contents
- Before You Begin
- CCU/Repeater Basics
- Planning a CCU/Repeater Installation
- Installing the Collector or Repeater
- Installation Overview
- Attaching the Local GPS/WAN Antennas
- Attaching the Direct Mount Standard (5.15 dBi) 900 MHz Antenna
- Attaching the Collector or Repeater
- Connecting Cables
- Installing a Local 4G WAN Antenna
- Installing the Battery
- Providing Power
- CCU Installation Wiring Diagram
- Tower Installation
- Solar Powered Installation
- Relocating a CCU or Repeater
- Battery Care and Maintenance
- Detailed Collector or Repeater Specifications
- Port and Protocol Requirements
- Status and Diagnostics
- Changing the Repeater Password
- Antenna Line Sweeps Procedure
- Anritsu Site Master Calibration
- Testing on a Network Device with a Remotely-Mounted 900 MHz Antenna
- Understanding Party Responsibilities
- Itron ChoiceConnect Antenna and Line Sweep Test Form
- Itron ChoiceConnect 900 MHz Antenna Specifications
- Typical Coaxial Cable Specification Summary Table
- Sample Sweeps Output
- Grounding Specifications
- Understanding Grounding and Bonding
- Understanding the Ohms Level
- Reducing the Ohms level
- Using a Megger
- Adjusting the Routing of the Grounding Conductor
- Supplier General Requirements and Equipment Competencies
- Exterior Grounding System Design for Concentrators
- Equipment Buried Ground Ring
- Chemical Ground Rod Installation
- Itron Concentrator Equipment
- Installing Coax Ground Kits
- Collector Sites with Indoor Itron TCU / CCU Equipment
- Grounding Rooftop Network Devices
- Down Conductor Installation
- Cold Water Pipe Option
- Building Steel Option
- Antenna and Coax Grounding - Rooftops
- Cable Tray Grounding
- Water Tower Grounding
- New Wooden and Concrete Antenna Poles
- Equipment Shelter Grounding
- Repeaters on Communication Tower Sites
- Repeaters on Rooftops
- Multiple Story Site Ground System
- Down Conductors Installation - Building / Shelter Penetrations
- Down Conductors Installation - Limits of Bend Radius
- Down Conductors Installation Connection Methods
- Cable Entrance Facilities
- Clamp-On Ground Resistance Testing
- Understanding Party Responsibilities
- Understanding Grounding and Bonding
- Index
Sample Sweeps Output
TDC-0971-011 CCU 100 and Repeater 100 Installation Guide 115
Proprietary and Confidential
To ground CCUs and repeaters on utility poles
1. Connect the ground lead from the repeater, coax, and antenna mounts (if applicable)
to a common MGB located below the repeater.
2. Bond the MGB to the ground rod using one run of No. 2 AWG BTCW.
3. If any antennas are located on different structures than the repeater equipment, the
antenna mount (if metallic) and coax ground kit will be bonded to a CGB located to
permit optimum ground lead connections.
4. Bond the CGB to a single ground rod located immediately adjacent to the support
structure using No. 2 AWG BTCW.
Note In all cases, ensure that the grounding design complies with the utility pole
owner’s requirements.
Repeaters on Rooftops
Repeaters located at rooftop sites must have antenna mounts, coax, and coax cable tray (if
required) grounded in the same manner as a full network device.
To ground repeaters on rooftops
1. Locate the MGB at the repeater equipment location.
2. Bond , in order of preference, to one of the following:
• existing building lightning or ground protection system
• building steel
• one 4/0 AWG down conductor to ground rod or cold water main.
Multiple Story Site Ground System
If the site is in a high rise building or in a metropolitan area with very limited access to
any earth, then a water pipe electrode with a single chemical ground rod for augmentation
is specified. This should yield as low a noise ground system as possible even if it is not
exactly a five ohm ground.
Down Conductors Installation - Building / Shelter Penetrations
Use Schedule 40 or 80 polyvinyl chloride (PVC) conduit to carry the required down
conductors, penetrating the outer wall and foundation of each building at ground level.
Using steel conduit is unacceptable since it significantly increases the conductor's
inductance.