User's Manual
Table Of Contents
- Installation Manual
- Contents
- Introduction
- Site Requirements
- Indoor Installation
- Tools Required for Indoor Installation
- Indoor Equipment
- Indoor Accessories
- Baseband Unit
- Traffic Interface Unit
- Mounting the Indoor Unit
- Grounding the Indoor Unit
- Installing the Cables for the Indoor Unit
- Outdoor Installation
- Tools Required for Outdoor Installation
- Outdoor Equipment
- Choosing Vertical or Horizontal Polarization
- Integrating Antenna Unit and Radio Frequency Unit
- Choosing Left or Right Side Antenna Mounting
- Fastening the Mast Mounting Bracket
- Mounting the Integrated Antenna/Radio Frequency Unit
- Grounding the Antenna/Radio Frequency Unit
- Outdoor Radio Cable Installation
- Start-up and Configuration
- Antenna Alignment
- Installation Verification and Test
- Index
6LWH5HTXLUHPHQWV
WLDM001B
,QGRRU3RZHU5HTXLUHPHQWV
3RZHU6XSSO\
The power supply should be a two wire power distribution
between 20 V and 72 V DC, any polarity.
,QWHUQDO3URWHFWLRQ&LUFXLWV
The radio terminal is equipped with two 5 A fuses on the power
supply input to the Indoor Unit. These fuses are mounted for
safety reasons and can only be exchanged by the manufacturer.
3RZHU&RQVXPSWLRQ
The maximum power consumption is 50 W per radio terminal
(dependent on traffic capacity).
*URXQGLQJRI,QGRRU(TXLSPHQW
Normally, the Indoor Unit is grounded via the rack’s connection to
ground.
If the rack is not connected to ground, it is recommended to
ground the Indoor Unit via a separate cable. The cable should be
connected to the M6 grounding lug located on the front of the
Baseband Unit (BBU). A flat copper braid is recommended for
this purpose.
,QGRRU(OHFWURPDJQHWLF,QWHUIHUHQFH(0&
The Indoor Unit meets the electromagnetic interference
requirements of ETS 300 385.
&$87,21
7KHVXSSO\YROWDJHPXVWQRWH[FHHG9