Fiplex Communications CBDAS-1A1S ESMR REPEATER User Manual UM 0101 01 09
Fiplex Communications Inc ESMR REPEATER UM 0101 01 09
Users Manual
n
ano
SAW
Series
Re
peater
User’s Manual
November 2009
UM-0101-01.09 – November 2009
II
Document History
Description
Revision
Date Issued
Preliminary release for early field trials 0.0 September 10
th
, 2009
Preliminary release, screenshots updated 1.0 November 1
st
, 2009
UM-0101-01.09 – November 2009
III
About this manual
This manual describes installation, commissioning, usage, function, operation and maintenance of Fiplex
nanoSAW series repeater and Fiplex portable Operational and Maintenance Software (pFOMS). The first
part of the manual describes the repeater hardware and the second part describes the software.
Hardware and software mentioned in this manual are subjected to continuous development and improvement.
Consequently, there may be minor discrepancies between the information in the manual and the performance
and design of the hardware and software. Specifications, dimensions and other statements mentioned in this
manual are subject to change without notice.
This manual or parts of it may not be reproduced without the written permission of Fiplex Europe SL.
Infringements will be prosecuted. All rights reserved.
Copyright © Fiplex Communications Inc, USA, 2009.
UM-0101-01.09 – November 2009
IV
Contents
Abbreviations .................................................................................................................................. V
Part 1 HARDWARE ......................................................................................................................... 1
1. Safety ....................................................................................................................................... 1
FCC Radiation Hazard Warning.................................................................................................... 1
R&TTE Compliance Statement ..................................................................................................... 1
Disposal of Electric and Electronic Waste ..................................................................................... 1
2. Installation ................................................................................................................................ 2
Sitting the repeater ....................................................................................................................... 2
Mounting ....................................................................................................................................... 2
3. Commissioning ......................................................................................................................... 3
Connection ................................................................................................................................... 3
Starting operation ......................................................................................................................... 4
Status Indicators ........................................................................................................................... 5
Automatic Gain Control (AGC) ...................................................................................................... 7
Overload Protection ...................................................................................................................... 7
Downlink Signal Indicator ............................................................................................................. 7
Laboratory Measurements ............................................................................................................ 7
Part 2 SOFTWARE ......................................................................................................................... 8
4. Installation ................................................................................................................................ 8
5. Overview ................................................................................................................................. 14
General Tabsheet ....................................................................................................................... 14
Status tabsheet ........................................................................................................................... 15
Configuration .............................................................................................................................. 16
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Abbreviations
AGC Automatic Gain Control
AMPS Advanced Mobile Phone Service
ARFCN Absolute Radio Frequency Channel Number
BCCH Broadcast Control Channel (GSM broadcast channel time slot)
BS Base Station, BS antenna = towards the base station
CDMA Code Division Multiple Access
DC Direct Current
DCS Digital Communication System (same as PCN)
DL Downlink signal direction (from base station via repeater to mobile station)
DPLX Duplex filter
EEPROM Electrical Erasable Programmable Read Only Memory
EGSM Extended Global System for Mobile communication
ETACS Extended Total Access Communication System
ETSI European Telecommunications Standard Institute
GSM Global System for Mobile communication
HW Hardware
LED Light Emitting Diode
LNA Low Noise Amplifier, uplink and downlink
MS Mobile Station, MS antenna = towards the mobile station
OMS Operation and Maintenance System
OL Overload
PA Power Amplifier
PCN Personal Communication Network (same as DCS)
PCS Personal Communication System
pFOMS Portable Fiplex Operation and Maintenance Software
PS Power Supply
RF Radio Frequency
RSSI Received Signal Strength Indication
SW Software
TDMA Time Division Multiple Access
UL Uplink signal direction (from mobile station via repeater to base station)
WEEE Waste of Electric and Electronic Equipment
UM-0101-01.09 – November 2009 1
Part 1 HARDWARE
1. Safety
Any personnel involved in installation, operation or service of Fiplex repeaters must understand
and obey the following:
Any repeater, including this repeater, will generate radio signals and thereby give rise to
electromagnetic fields that may be hazardous to the health of any person who is extensively
exposed to the signals at the immediate proximity of the repeater and the repeater antennas.
FCC Radiation Hazard Warning
To comply with FCC RF exposure requirements in Section 1.1307 and 2.1091 of FCC Rules, the
antenna used for this transmitter must be fixed-mounted on outdoor permanent structures with a
separation distance of at least 2 meter from all persons.
R&TTE Compliance Statement
This equipment complies with the appropriate essential requirements of Article 3 of the R&TTE
Directive 1999/5/EC.
BTS chassis, Repeater, feeders, donor antenna, service antenna/s and auxiliary equipment (splitters, tabs,
.etc) are required to be bonded to protective grounding using the bonding stud or screw provided
with each unit.
Static electricity means no risk of personal injury but it can severely damage essential parts of
the repeater, if not handled carefully.
Parts on the printed circuit boards as well as other parts in the repeater are sensitive to
electrostatic discharge.
Never touch printed circuit boards or uninsulated conductor surfaces unless absolutely
necessary.
If you must handle printed circuit boards or uninsulated conductor surfaces, use ESD protective
equipment, or first touch the repeater chassis with your hand and then do not move your feet on
the floor.
Never let your clothes touch printed circuit boards or uninsulated conductor surfaces.
Disposal of Electric and Electronic Waste
Pursuant to the WEEE EU Directive electronic and electrical waste must not be disposed of with unsorted
waste. Please contact your local recycling authority for disposal of this product.
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2. Installation
Sitting the repeater
Fiplex nanoSAW family of repeaters is designed for indoor use.
If repeater needs to be mounted outdoors, weather proof cabinet should be provided in order to
preserve weather tightness.
Mounting
nanoSAW is ready for wall mount using four fixing screws.
Figure 1
Figure 1 shows holes pattern for fixing screws.
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3. Commissioning
Connection
1. Connect service antenna (“TO MOBILE” port) and donor antenna (“TO BASE” port) coaxial
cables. SMA type female connectors are used in the repeater.
2. Once RF ports of the repeater are properly loaded connect the DC plug from power supply to
nanoSAW DC input.
The repeater powers on when power supply is connected to the AC line, and nanoSAW is
properly feed with DC voltage. Blue led labelled “PWR ON” must be on, under normal power
conditions.
Figure 2
Figure 2 shows DC input plug position.
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Starting operation
Prior to the following steps refer to section 2 of this manual in order to properly install pFOMS.
1. Setup desired filter configuration using pFOMS (only for programmable band selective and
programmable channel selective models).
In programmable band selective repeaters user must set up start and stop frequency.
In programmable channel selective user must set up center frequency, nanoSAW repeaters are
a special case of programmable selective repeater, where number of channels is equal to one.
For both types of repeaters user could set up start, stop or center frequency either using
absolute values (in MHz) or using ARFCN.
For fixed bandwidth repeaters this feature will not allow user to make changes, so, skip this step
for fixed bandwidth models.
2. Setup desired operating gain using pFOMS. UL and DL chain are independent, so both
values must be set.
For nominal gain of the repeater these values must be set to zero.
Figure 3
Figure 3 shows how to set up manual attenuation values.
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Status Indicators
There is an indicator panel located at the front of the repeater. This led panel works as a status
monitor, in order to advice different operational conditions of the repeater.
1. Power indicator
Every time the repeater is plugged to DC power supply, and under normal conditions of
operation, led labelled PWR ON will be ON.
Figure 4
Figure 4 shows PWR ON led location.
2. Automatic Gain Control Indicator
When Automatic Gain Control circuitry is active led labelled AGC UL and/or AGC DL will be ON.
Please see Automatic Gain Control for further functional explanation.
Figure 5
Figure 5 shows AGC DL led active, this is only for example purposes.
3. Overload Indicator
When Overload circuitry is active led labelled OV DL or OL UL will be ON.
Please see Overload Protection for further functional description.
Figure 6
Figure 6 shows OL DL led active, this is only for example purposes.
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4. Downlink Signal Indicator
Four leds indicates downlink signal strength
Please see Downlink Signal Indicator for further functional description.
Figure 7
Figure 7 shows Downlink Signal Indicator leds active, this is only for example purposes.
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Automatic Gain Control (AGC)
Automatic Gain Control circuitry is intended to keep repeater’s output power at a fixed level
when input signals exceed maximum values, avoiding quality signal degradation by
intermodulation generation.
When AGC is active AGC UL and/or AGC DL leds will be ON, this means that signal level from
donor and/or service area site, plus repeater gain produces an output power that is above the
maximum composite output power of the repeater. This should not be considered an undesired
working condition, far from that; this is the best operating condition because you are getting the
maximum composite output power available from the repeater.
Anyway is a good practice to increase attenuation (reducing gain), until AGC led turns off, this
operation releases AGC circuitry dynamic range.
Also is a good practice to check signals from donor site to ensure that undesired signals are not
being amplified by the repeater, or even desired signal levels are not excessively high taking
repeater to an overload condition.
Overload Protection
When AGC circuit reaches its limit, the power amplifier stage is shut down to prevent harmful
distortion and potential damage to the repeater. After approximately ten seconds the system
checks if overload condition is still present, if this happens, amplifiers will remain off. This cyclic
check will continue until condition that makes AGC circuitry reach its limits disappears.
Conditions that can cause AGC to reach its limits include the presence of one or more very
strong channels, a strong in-band noise source, or amplifier oscillation due to poor antenna
isolation.
Downlink Signal Indicator
Summarizes downlink repeater output. Indicates bad, poor, good, very good and excellent signal
levels as follows:
Bad RSSI, all leds off
Poor RSSI, first led ON
Good RSSI, first and second leds ON
Very Good RSSI, first, second and third leds ON
Excellent RSSI, all leds ON
Laboratory Measurements
For specific parameters verification and laboratory tests, please contact factory.
Detailed procedures, recommended tests set up, and a knowledge engineering team will bring
adequate support to perform this measurements in a comfortable and safely way.
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Part 2 SOFTWARE
4. Installation
The following section will describe the steps to be followed in order to install and use the pFOMS
software with your Fiplex repeater.
1. Execute the Fiplex Portable Foms installer and choose the default path “C:\program
files\fiplex”.
Please do not change this location.
2. Turn on the Repeater
BE SURE THAT “TO MOBILE” AND “TO BASE” PORTS ARE PROPERLY LOADED
EITHER WITH 50 OHMS DUMMY LOADS, OR RADIATING SYSTEM.
3. Plug in USB cable to USB male connector labeled as “COMM”. Repeater HW will trigger the
installation of its driver, which is a COM port emulator.
“New hardware found” advice should be noticed.
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4. Windows will start its hardware installation assistant, follow the steps and indicate the driver
location.
Select “No, not this time”
Select “Install from a list or specific location (Advanced)
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Windows probably complains because this is not an official Microsoft Windows driver, click in
“Continue Anyway”
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5. After having installed the CDC-RS232 Fiplex driver, run pFOMS Software.
Click “Connect”.
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Click “Choose”
Select The Serial Com port that just appeared on your PC. Remember that the BDA driver
installs itself as a generic Com Port so if properly installed, you should have a new comport not
present before connecting the Repeater.
Click “Continue”.
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Choose Flow Control “None”.
Click “Accept”.
This window will be active while Repeater is establishing connection with pFOMS.
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5. Overview
General Tabsheet
This tab sheet displays general information from repeater.
First eight fields at the upper left corner of the window displays identity information of the
repeater, this information is stored at repeater’s firmware.
Modem information is displayed at the bottom left corner, these read/write fields allow user to set
up wireless connection via modem when available.
Device Information: four fields at the upper right of the window displays static nominal value of
the repeater, this information is shown by pFOMS after detecting repeater model.
Gain: these fields allow user to know actual manual attenuation, AGC, and effective gain of
repeater, this is dynamic information, constantly and automatically being updated by pFOMS.
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Status tab sheet
This tab sheet shows configurable parameters of the repeater:
Filters: active filters will appear in green, not installed filters in gray and filters with
communication errors will be purple.
Band selective programmable filters shows Start / Stop channel and Start / Stop frequency.
Channel selective programmable filters will only show Start channel, in this case the meaning for
start channel is filter center BW channel.
Band selective fixed filters will show start frequency or channel and the meaning is center BW
frequency or channel.
Manual attenuation: shows the status of uplink and downlink attenuation.
PA: shows power amplifiers operative status. Some repeater may not have this feature.
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Configuration
In order to setup operative parameters of the repeater such as manual attenuation UL and/or DL,
filters and PA, user must click “Edit” button of Status tab sheet.
Now user is free to change configurable values.
Once configured operational parameters click “Accept”, after a few seconds changes will be
displayed (once pFOMS refresh the window), with updated information.