User's Manual
Table Of Contents
- Revision Record
- Table of Contents
- List of Figures
- List of Tables
- Abbreviations
- Chapter 1 Product Description
- Introduction
- Scope of Manual
- Safety
- Warning Signs
- Human Exposure of RF Radiation
- Radiation Safety Distances
- Electrostatic Discharge (ESD)
- Overview
- Repeaters with RF / RF Transmission
- Repeaters with RF / Fiber Optic Transmission
- Repeater with Fiber Optics / RF Transmission
- Combined Repeater
- Repeater Chassis Design
- Channel Amplifier PCBA for GSM and EDGE (CHE)
- CDMA/WCDMA Segment Amplifier PCBA (CSA)
- Band Selective Amplifier PCBA (BSA)
- Power Amplifier PCBA (PA)
- Booster Amplifier (BA)
- Distribution PCBA (DIA)
- Control Unit PCBA (CU)
- Directional Coupler (DC)
- Low Noise Amplifier (LNA)
- Duplex filter (DPX)
- Fiber Optic Unit (FOU)
- Fiber Optic Node (FON)
- Power Supply Unit (PSU)
- Remote Control Unit (RCU)
- Combiner unit (CMB)
- Alarm Interface PCBA (ALI) and Remote Control Interface PCBA (RCI)
- Repeater-to-Repeater Interface Adapter (RIA)
- CSel GSM Repeater
- CSel CDMA/WCDMA Repeater
- CSel High Power CDMA/WCDMA Repeater
- BSel Repeater
- BMU
- RMU
- FOR
- Combined Repeater
- Shaded Area
- Fiber Optic Distribution Networks
- Multi-Operator Configurations
- Chapter 2 Controls, Connections and Indicators
- Chapter 3 Installation
- Introduction
- Site Survey
- Unpacking and Inspection
- Repeater Location
- Mounting
- Connections
- Main Power and Grounding
- RF-to-RF Repeater Connections
- Table 3-1 RF-to-RF Connections Procedure
- Table 3-2 BMU RF-to-Fiber Connections Procedure
- Table 3-3 RMU RF-to-Fiber Connections Procedure
- Table 3-4 FOR RF-to-Fiber Connections Procedure
- Table 3-5 Main Power Breakdown Relay Connection
- Table 3-6 PSU Replacement Procedure
- Table 3-7 Initial Statup Procedure
- Chapter 4 Maintenance
- Introduction
- Periodic Maintenance
- Table 4-1 Recommended Periodic Maintenance
- Table 4-2 Alarm Troubleshooting
- Table 4-3 FON Replacement Procedure
- Table 4-4 PSU Replacement Procedure
- Table 4-5 Repeater Replacement Procedure
- Return For Service Procedures
- Obtaining an RMA
- Repackaging for Shipment
- Remote Control Unit (RCU)
- RCU for Radio Communication
- RCU for Telephone Line Communication
- Previous RCU Version for GSM 900/1800/1900
- Repeater-to-Repeater Link (R2R)
- Traffic Statistics
- Battery Backup (BBU)
- 7/16" Antenna Cable Connectors
- Operation and Maintenance System (OMS)
- Chapter 5 Specifications
- Appendix A Block Diagrams
AR Standard Repeater Safety
1-2 044-05250 Rev A
coaxial cable insulation. No particular measures are to be taken in case of fire because
the emitted concentration of hydrogen fluoride is very low.
• A lithium battery is permanently mounted in repeater CU units, and in FON and OCM
units. Due to the risk of explosion, this battery must only be removed from the board by
an Powerwave authorized service technician.
• NiCd batteries are mounted on the FON unit. These batteries contain environmental
poisonous substances. If replaced, the old batteries should be taken care of as stated
in the local prescriptions.
• The FON unit contains a class IIIb laser transmitter that emits 2 – 4mW invisible laser
radiation during operation. Avoid direct exposure from unconnected laser transmitter or
fiber cord as follows:
– Do not power up the FON unit if a fiber cable is not attached to the fiber output UL
port, neither if a fiber cable is attached to the port but unattached in the other end.
– Never look in the end of a fiber cable. The 1310nm and 1550nm laser light is not
visible, so no signal identification can be made anyway. Use always an instrument,
such as a power meter to detect signaling.
– Never use any kind of magnifying devices that can focus the laser light to an
unaided eye.
Warning Signs
The following warning signs must be observed and be kept clean and readable. The warning
sign to the left is applied on boards and units which contain beryllium oxide parts. The warning
sign below is applied at the bottom, inside the cabinet, below the power supply unit.
Human Exposure of RF Radiation
Safe distances must be kept when working around antennas. The following paragraphs
describe the cautions to be aware of during the installation and maintenance of antenna
systems and how to calculate safety distances needed for RF radiation at different antenna
power and frequencies.
Repeater Antennas
To be able to receive and transmit signals, a repeater is connected to a donor antenna directed
towards the base station and a service antenna directed towards the coverage area. A fiber
optic cable from the base station might, however, be substituted for the donor antenna.
Installation and Maintenance of Antenna Systems
Installation and maintenance of all repeater antenna systems must be performed with respect
to the radiation exposure limits for public areas. The antenna radiation level is affected by
repeater output power, antenna gain, and transmission devices such as cables, connectors,
splitters and feeders. Also have in mind the system minimum coupling loss, typically between
25dB and 35dB, is determined by a standard with the purpose to protect base stations from
noise and other performance dropping effects.
Radiation Exposure
The World Health Organization (WHO) and International Commission on Non-Ionizing
Radiation Protection (ICNIRP) have determined recommendations for radiation exposure.
ICNIRP recommends not to exceed the following radiation power for public exposure:
Frequency Radiation power
900MHz 4.5W/m²
1800MHz 9.0W/m²
2100MHz 10.0W/m²
Beryllium
oxide
hazard
BERYLLIUM OXIDE
(Toxic)
used in equipment
see instruction boo
k