Unication Co R01VHF VHF REPEATER - FIXED MOUNTED User Manual

Unication Co Ltd VHF REPEATER - FIXED MOUNTED

User Manual

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Document ID3184378
Application IDfJtAgNFKN36+pdoALIfeBQ==
Document DescriptionUser Manual
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeUser Manual
Display FormatAdobe Acrobat PDF - pdf
Filesize435.9kB (5448802 bits)
Date Submitted2016-11-02 00:00:00
Date Available2016-11-02 00:00:00
Creation Date2016-10-03 09:43:46
Document Lastmod2016-10-03 19:09:29
Document TitleUser Manual

Unication Two-Way Radio System
Anytime, Anywhere, Unication is Happy to Serve You.
Please contact us use our Toll Free phone no.:888-657-2963
or leave a message on Unication Website : http://www.unication.com
or http://www.unicationusa.com Thank you.
INDEX
SPECIFICATION
Overview
19
Installation and Setting
21
SAFETY INFORMATION
31
A
SPECIFICATION
General electrical specification
TX01 Unit General Specifications
Function or Feature
Description
Main Function
Modulation of digital signal from CR01 by using exciter and RF power amplification of the
transmitted signal to be transmitted into antenna at 100Watts (maximum power).
Key Components inside
TX01
1. RF exciter,
2. RF PA,
3. PA controller and alarming monitor,
4. TX / RX switch,
Connections to CR01
1. TX Interface cable.
2. TX01 is controlled by CR01, TX01 sends alarms to CR01 for processing via this cable.
3. PS and Fan control cable
4. CR01 controls the TX01 PS. Alarms from TX01 PS and fan sent to CR01 via this cable.
5. 13 MHz Reference oscillator input cable from CR01.
6. 12VDC output cable to supply power the CR01
Transmitter Duty Cycle
100%, continuous transmission at full power
Cooling Method
Integrated variable speed cooling fan on rear face of unit.
Fresh air intake is via vent on front face plate, exhaust is via rear of unit.
Fan speed is a function of the internal PA temperature. CR01 reads the PA temperature
and sends speed adjust commands to TX01 fan. The fan also sends the alarm status if
fan is rotating or not to CR01
RF Isolator
Integrated single stage transmitter Isolator
Power Supply
1. Standard power supply is +48VDC input from battery:
2. Optional power supplies are:
Option 1: 120/240VAC Main input option: 85 to 264 VAC, 47 to 63 Hz (no DC input)
Option 2: +/- 40 to +/- 60VDC, -48VDC nominal (no 120/240 VAC)
Option 3: 120VAC with +/-48 VDC automatic switchover backup during AC mains
power loss. Switch over from AC main to battery is automatic and does not
interrupt operation during loss of AC main power.
3. Indicator signal when TX01 is operating from battery is sent to CR01 via PS & Fan
control cable.
4. 120/VAC Main Power Supply option has power factor correction included
5. The DC Battery Power Supply connects to a dedicated or shared external
battery.Multiple TX01, CR01, multiple TX01’s, CR01’s and 3rd party repeaters can
connect to same battery (at battery terminal directly).
Front Face
1. Air Intake Vent grill
2. AC Power ON / Battery backup LED
3. PA Fault LED
4. Carrying handles on left and right sides
5. Unication logo
01
5. RF power detector,
6. Transmitted signal harmonic filter
7. Power supply
TX01 Unit General Specifications
Function or Feature
Description
Rear Face
1. Power Supply Fan exhaust
2. Earth Ground screw. Capable of supporting 8 gauge wire to earth ground copper bar.
3. 120/240VAC plug standard plug
4. Battery connectors (+ and -) terminal plug for +48VDC or +/-48VDC option
5. Power Supply and Fan Control: DB9 female connector
6. Auxiliary 12VDC/3amp power ouput: Barrel style connector.
7. TX Interface: High density DB 25 Shell, 44 pin connector. Connects to CR01
8. RX Out. SMA connector.
9. Connects to CR01 RX Input for single channel repeater operation.
10. PA fan exhaust. Externally mounted for easy replacement.
11. RF TX Out: Type N.
12. This connector supports two modes of operation:
13. Traditional Repeater
14. Connects to transmitter cavity RF pre-filter and duplexor for traditional dual frequency
repeater operation.
15. Unication Proprietary Single Channel Repeater
16. Connects to RF pre-filter and antenna for Unication proprietary single channel
repeater operation.
17. Reference Input: 13 MHz reference input from CR01.
CR01 Unit General Specifications
Power Supply Input
1. +12VDC, supplied from TX01 rear panel 12VDC power supply output.
Current Drain
4 amp at +12VDC battery voltage input
Temperature
1. Ambient Operating: -30 to +60º C.
2. Storage Temperature: -45 to +85º C.
Humidity
Operating units are subjected to 50°C at 95% Non-condensing.
Vibration
MIL-STD-810E
The device shall be capable of withstanding a 30 to 500 Hz acceleration limited oscillation
with 0.25G rms for 40 minutes on vibration table. After test, the unit shall be fully
functional with no impairments and shall show no signs of physical degradation including
all fastening screws.
Electrostatic discharge
discharge Reference IEC 6100-4-2.: 5KV, 10KV and 15KV on all planes applied to any
point on the R01 unit, including all contacts and connectors.
Altitude
30,000 feet for storage and shipping.
MTBF
Greater than 45,000 hours (5 years), with following assumptions:
1. Ambient temperature = +30°C,
2. 0.1G continuous sinusoidal 30 to 500 Hz vibrations
02
GPS Receiver Specifications
Function or Feature
Description
GPS Receiver Antenna
port
1. Performance: SIRF or equivalent
2. 50 ohm impedance,
3. Provides DC power to power external GPS antenna LNA. The GPS port shall provide
5VDC +/- 10%, 27mA power for the external GPS LNA.
4. Provide 1 Hz time mark output for reference oscillator and timing synchronization.
Alarm Reporting to Console
Alarms and
information reported to
console CR01
1. TX01 Alarms and information include these:
a. TX01 Temperature
b. VSWR
c. Forward power after isolator
d. Reverse power after isolator
e. DC input voltage (at Transmitter DC terminals)
f. Synthesizer
g. Fan rotation
h. PA currents
i. Battery voltage
j. Power supply voltage
k. AC main failure / running on battery backup
l. MSN
m. Hardware revision
2. CR01 Alarms and information
a. CR01 temperature
b. Loss of GPS signal
c. Loss of external time mark signal
d. DSP failures
e. Loss of communications to TX01
f. Receiver alarms including synthesizer
g. Power supply voltage
h. Battery voltage
i. MSN
j. Hardware revision
k. Software revision of DSPs and ARM
l. Intrusion alarm – front door
m.Intrusion alarm – rear door
n. GPIO – telemetry ports
o. ADC port
p. DAC port
q. Serial port
03
RF Specifications
TX01 Transmitter RF specifications
Power Output
VHF/UHF: 10 to 100 watts in steps of 1 watt increments, selectable under CR01
software control.
WLB: 10 to 75 watts in steps of 1 watt increments, selectable under CR01 software
control.
Power Output accuracy
1. VHF/UHF: 10 to 100 watts: +/- 0.6 dB over temperature, AC & DC input voltage, after
PA calibration.
2. WLB: 10 to 75 watts: +/- 0.6 dB over temperature, AC & DC input voltage, after PA
calibration
Power Supply Input
1. Standard: +40 to +60VDC, + 48VDC nominal (no 120/240 VAC)
2. Option 1: AC Main input option: 85 to 264 VAC, 47 to 63 Hz (no DC input)
Option 2: +/- 40 to +/- 60VDC, -48VDC nominal (no 120/240 VAC)
Option 3: 120VAC with +/-48 VDC automatic switchover backup
Frequency bands
(electronic bandwidth)
30 to 88 MHz
136 to 174 MHz
400 to 470 MHz
300 to 400 MHz
450 to 520 MHz
Transmitter noise at
1 MHz from carrier
<-148 dB/Hz
<-148 dB/Hz
<-142 dB/Hz
<-142 dB/Hz
<-142 dB/Hz
Channel Switch time
8.75 ms
TX01 Current Drain
1. Transmit: 10 amp at 48 VDC battery voltage input, at 100 watt TX power, 12VDC
regulated 3 amp current limited auxiliary out, Fan running at maximum speed.
2. PA Standby (Idle): 1 amp at 48 VDC battery voltage input, fan is running at low speed.
CR01 Current Drain
1. 2 amp at 48VDC.
Temperature
1. Ambient Operating: -30 to +60° C.
2. Storage Temperature: -45 to +85°C.
Channel Bandwidths
12.5 kHz and 25 kHz. Selected dynamically via software control from the CR01.
Output Impedance
50 Ohms
Reference Oscillator
Uses external reference oscillator input from CR01 reference module, 50 ohms, 13MHz
TX Intermodulation
Attenuation at antenna
connector
VHF/UHF: > 55 dBc (includes integrated isolator)
WLB: > 40 dBc
Modulation
1. Analog: FM TIA603C
2. Digital: CFSK (DMR, P25 Phase I, etc.).
Modulation limiting
1. +/- 2.5 kHz for 12.5 kHz channel bandwidth
2. +/- 5.0 kHz for 25 kHz channel bandwidth
FM Hum and Noise
1. Better than -40 dB for 12.5kHz channel bandwidth
2. Better than -45 dB for 25kHz channel bandwidth
Isolation requirement
VHF/UHF: 20 dB typical, 18 dB minimum
WLB: no isolator
Single Channel
Repeater Output
TX01 includes a TX/RX switch to switch the TX output to go to the CR01 receiver in order
to provide the Unication proprietary single channel repeater function(”R&R”.
The TX/RX switch must be very fast switching and must not degrade the IMD, spurious
and antenna matching. The RX output is provided on the “RX OUT” port on the rear face
of the TX01. This port is connected to the CR01 RX Input.
04
TX01 Transmitter RF specifications
Conducted spurious
and harmonic
emissions attenuation
at antenna connector
VHF/UHF:
1. Less than -36dBm for below 1 GHz
2. Less than -30dBm for above 1 GHz
WLB: less than -20 dBm
Operating VSWR
1. The PA shall also be used in the future simple M01 mobile with power level set to 50
watts maximum, voltage = 13.8 VCD, without an isolator (simple mobile). In the
mobile application the typical operating VSWR is 3:1. The PA shall tolerate up to a
6:1 VSWR.
The output power shall be reduced gracefully under software control as a function of
VSWR when the VSWR is > 3:1.
Use the TIA specifications, if applicable, for operation when the VSWR > 3:1.
Audio Response
TIA603C
Audio Distortion
<2%
Emission Designators
1. Analog Voice Call, 12.5 KHz channel: 11K0F3E
2. Analog Voice Call, 25kHz channel: 16K0F3E
3. Uni2TDMA voice: 7K8FXE
4. Uni2TDMA data: 7K8FXD
5. Uni2TDMA voice and data: 7K8FXW
6. P25 Phase I voice: 8K2F1E
7. P25 Phase I voice and data: 8K2F1D
Humidity
50º C at 95% Non-condensing.
Vibration
MIL-STD-810E
The device shall be capable of withstanding a 30 to 500 Hz acceleration limited oscillation
with 0.25G rms for 40 minutes on vibration table. After test, the unit shall be fully
functional with no impairments and shall show no signs of physical degradation including
all fastening screws.
Electrostatic discharge
Reference IEC 6100-4-2.: +/- 15KV air, +/8KV contact on all planes applied to any point
on the TX01 unit, including all contacts and connectors.
Altitude
30,000 feet for storage and shipping.
MTBF
Greater than 45,000 hours (5 years), with following assumptions:
1. 100% transmission duty cycle,
2. 100 watts output,
3. Ambient temperature = +30°C,
4. 0.1G continuous sinusoidal 30 to 500 Hz vibrations
TX01 Protection
Thermal, VSWR, power reduction followed by shut off, reset upon return to normal
temperature and VSWR.
1. Power falls back 6 dB on:
a. High Reverse power or
b. PA high temperature
CR01 reads the alarms periodically with period less than or equal to 1 second and
when the alarms start to get into thewarning (“yellow”) level, the CR01 will start to
reduce the PA output power.
05
TX01 Transmitter RF specifications
TX01 Protection
2. TX01 has self-protection in case that CR01 communications is lost or cable
disconnected In this case TX01 will power off.
TX01 will stay in off condition until CR01 communications is restored and instructed to
turn on by CR01.
3. TX01 will self-power off when reference signal is lost.
4. TX01 reports immediately to the CR01 with the fan failure in the event that the fan
stops working.
5. When alarms approach serious level, such as PA temperature or synthesizer lock
problem (i.e., “RED”), the TX01 shall automatically cut power to the RF PA via
hardware method (self protect).
6. If the PA power has been cut off due alarms or via CR01 command, the TX01 digital
interface to CR01 shall continue to be powered up and function so that the CR01 can
continue to communicate to the TX01.
Alarms and information
reported to CR01
1. TX01 Temperature (PA, Driver, & PA), ambient temperature on fan controller,
heatsink, power supply
2. Forward power after isolator
3. Reverse power after isolator
4. PA DC input voltage & current
5. AC & DC input voltage at TX01 AC & DC terminal
6. Synthesizer (LO & modulator)
7. Fan rotation
8. PA driver currents
9. AC main failure / running on battery backup
10. Power supply voltage
11. Battery voltage
12. MSN of all boards.
13. PCB revisions stored in EEPROM
CR01 Receiver RF specifications
Frequency bands
(electronic bandwidth)
30 to 88 MHz
136 to 174 MHz
400 to 470 MHz
300 to 400 MHz
450 to 520 MHz
Conducted termodulation
(TIA603C)
70 dB
78 dB
75 dB
75 dB
75 dB
Conducted Spurious
Rejection (TIA603C)
70 dB
80 dB
75 dB
75 dB
75 dB
Maximum Received
power at receiver port
1. Operates up to : +27 dBm
2. Does not damage receiver for signals up to +30 dBm for 1 minute duration.
RF Input impedance
50 ohms
Temperature
1. Ambient Operating: -30 to +60º C.
2. Storage Temperature: -45 to +85º C.
Channel bandwidths
12.5 kHz and 25 kHz. Selected via PPS software control
06
CR01 Receiver RF specifications
Channel switch time
8.75 ms
Sensitivity
1. Analog, 12.5 kHz bandwidth, at 12dB Sinad: 122 dBm
2. Analog, 25.0 kHz bandwidth, at 12 dB Sinad: 122 dBm
3. Digital (C4FSK): < 5% BER at 122 dBm (12.5kHz bandwidth)
Reference Oscillator
External reference oscillator input from CR01 reference module, 50 ohms, 13MHz, 50
ohms
Adjacent Channel
Selectivity (TIA603C)
VHF/UHF:
12.5 kHz: > 55 dB
25.0 kHz: > 80 dB
Rated Audio (using
basic Speaker mic)
0.5 W
Audio Distortion (using
basic Speaker mic) at
rated audio
< 2%
Audio Response
TIA603C
FM Hum and Noise
12.5 kHz: > 40 dB
25.0 kHz: > 45 dB
Blocking
100 dB
WLB:
12.5 kHz: > 55 dB
25.0 kHz: > 64 dB
Reference Oscillator Module
Frequency
13 MHz, ovenized, low phase noise oscillator
Stability over
temperature and aging,
free-running mode.
1. 1 year aging +/- 0.1 ppm
2. 10 year aging: +/- 0.5 ppm.
Stability over emperature
and aging, locked mode:
locked to GPS or
external 1Hz pulse.
External pulse is locked
to GPS.
1. Over temperature: +/- 0.05 ppm
2. Over temperature and 10 year aging: +/- 0.05 ppm
Output references
Three 13 MHz output references:
1. Low phase noise sinusoidal output for TX01,
2. Low phase noise sinusoidal output for Receiver module,
3. Output for Baseband processor board
Control
Reference oscillator is frequency is adjusted by DSP processor on CPCU using digital
interface
07
Repeater Product Feature List
Function
Details of Function
BR01 BR02 FR01 TR01 SR01 IC01
Power
Output Hardware Operation & Software Configuration
A. Repeater
Protocols
supported for
Repeat and
amplification
Analog voice
Analog voice with CTCSS or CDCSS
(configurable separately between RX & TX)
DTMF followed by Analog Voice
DTMF with CTCSS or CDCSS followed by Analog Voice
2Tone followed by Analog Voice
2Tone with CTCSS or CDCSS followed by Analog Voice
5/6Tone followed by Analog Voice
5/6Tone with CTCSS or CDCSS followed by Analog Voice
MDC1200 control followed by Analog Voice or MDC1200
Data
MDC1200 control with CTCSS or CDCSS followed by
Analog Voice or MDC1200 Data
UDC2400 control followed by DVOA digital voice or data
UDC2400 control with CTCSS or CDCSS followed by
DVOA digital voice or data
Pocsag Transmitter (512, 1200, 2400 bps)
FM P25 Phase 1 control followed by P25 Digital Voice or
P25 Data
Linear P25 Phase 1 control followed by P25 Digital Voice
or P25 Data
DMR control followed by Unication 2400 bps digital voice
(“UniDMR”) or DMR data
MPT1327
P25 phase 2 Linear outbound (with TX02- 100w)
Tetra (with TX02-100W)
Multi-protocol Demodulation and Transmission of above
protocols. This feature is also known as “Simultaneous
detection”
Repeater
Access
Method
Parameters
(RAMP)
Carrier
CTCSS/CDCSS
Carrier and CTCSS/CDCSS
Singletone (in band)
DTMF
MDC1200 Repeater ID
MDC1200 Repeater ID + CTCSS/CDCSS
UniDMR Basestation ID.
P25 NAC
08
Function
Details of Function
BR01 BR02 FR01 TR01 SR01 IC01
Power
Output Hardware Operation & Software Configuration
A. Repeater
Morse Code
Station ID sent periodically during periods of no user
traffic (required by site license)
Transmitter
Modes
Transmitting
Ready to Transmit.
Transmitter fully powered up and can transmit
immediately upon receipt of data from controller
Sleep
Transmitter enters sleep after hang time expires.
Transmitter will exit sleep mode in 10 ms after TX request
from controller
Sleep with periodic IDLE transmission for U3 portable
signal strength information.
After the transmitter enters the sleep mode, the repeater
transmits the P25 IDLE message periodically. The IDLE
message is not transmitted when the R01 is not in Sleep
mode.
OFF
Local and
Remote
connectivity
functions
All functions
are password
protected and
accessed with
console
Remote configuration using PPS,
Remote
connectivity
Methods. All
functions are
password
protected and
accessed with
console.
Ethernet Port A
Urgent alarm automatic reporting and alarm gather,
console communications and other communication needs
shall be done via the following connectivity methods
Software Download to CR01
Ethernet Port B (for redundant linking)
GSM 3G/4G radio
GSM radio connects to R0X’s via Ethernet
option option option
Satellite or Microwave link radio
Satellite or Microwave link radio connects to BR01’s via
Ethernet Port A
Redundant Satellite or Microwave link radio connects to
BR01 via Ethernet Port B.
USB
Local
connectivity
BlueTooth (optional)
Methods (on
CR01 box).
WIFI (optional)
Accessed with
Console
Repeater Type Traditional dual frequency into duplexor
Unication Proprietary single channel repeater using very
fast switching TDMA radio (“R&R”)
09
option option option
Function
Details of Function
BR01 BR02 FR01 TR01 SR01 IC01
Power
Output Configuration via PPS
B. Repeater
Repeater
Access
Method
Parameters
One or more of the above access Methods can be
configured to operate simultaneously.
The ability to support multiple access methods
simultaneously permits a mixture of existing 3rd party
portables to access the repeater.
Up to 12 different CTCSS tone and CDCSS code
combinations. For CTCSS, the SINAD threshold range =
6 to 20 dB
Sequence of four (4) DTMF tone pairs.
Spacing between tone pairs is 300 ms +/- 200 ms.
One inbound SingleTone frequency of duration 500 ms
One MDC1200 Repeater ID.
One UniDMR Basestation ID.
One UDC2400 Repeater ID.
One P25 Network Access Code (“NAC”) IDs.
Hang time of the repeater Transmitter in millisecond
increments
Transmitter
Morse Code
Station ID
parameters
Repeater Station ID
Morse code speed in words per second
Period of transmission (including OFF)
Period of Repeater ID transmission (Off, transmission
rate, 1 to 120 minutes in steps of 1 minute increments).
Signal
Strength
Idle message
(transmitted
when repeater
is in sleep
mode)
Period of transmission: OFF, 1 to 10 seconds in steps of 1
second increments.
Repeater
Parameters
Protocol modes (P25, Uni2TDMA, Analog, automatic
detection combinations, etc.)
NAC
Color code
All TX and RX protocol and parameter settings listed in
section A. This includes the specific protocols,
simultaneous detection and pre-key times.
TX frequency in minimum step size
RX frequency in minimum step size
TX Power level in step of 1 watt from 10 to 100 Watts for
the TX01-100 or TX02-100 units
RX and RX Channel bandwidth: 12.5 v.s. 25 KHz
Color Code for DMR
10
Function
Details of Function
BR01 BR02 FR01 TR01 SR01 IC01
Power
Output Configuration via PPS
B. Repeater
Network
parameters
IP address of authorized console to which the BR01
connects
Network configuration (static IP address of the R01 and
any optional accessory such as GSM radio, satellite radio
etc.)
Ethernet IP and routing parameters for all boxes including
3G/4G GSM radio, satellite radio etc.
Bluetooth link configuration
Set password for repeater access using the console for
configuration, software download and status via Ethernet
access, USB, or WIFI access.
Password is set using USB.
Set password to allow local and remote PC download
Utility access. This password is additional to the repeater
access password which provides an additional level of
security.
This password is additional to the repeater access
password which provides an additional level of security.
PPS password. This password is configured via USB. The
user must enter the PPS password in order for the user to
use the PPS.
Synchronization
of reference
oscillator and
TDMA Options
configured via
PPS
Free running
Repeater
mode
and Repeater
Type
Traditional 2 frequency pair into duplexor
GPS radio (phase 2, optional)
External 1 Hz signal from another BR01 on auxiliary port
(phase 2)
Unication proprietary single channel repeater (no duplexor).
Normal Operational mode
Repeater is put offline. non-functional mode (TX = OFF).
Note the default condition is the repeater is fully
functional, even after a reset.
In this mode the RX and the Ethernet links is still
functional but it only processes over the air commands.
Test Modes:
a. Test modes including: Transmit Test tone for 1 minute
then stop. The frequency of the tone shall be settable
insteps of 1 Hz in the range of 300 to 3000 1 Hz.
b. Transmit BER pattern for field testing. Pattern follows
protocol specifications. Pattern continues for a
programmable period of time up to a maximum of 10
minutes.
c. Receiver BER (sources of BER pattern is from inbound
portable)
11
Function
Details of Function
BR01 BR02 FR01 TR01 SR01 IC01
Power
Output Information and Control accessed with Uni Console
C. Repeater
Control, Alarm
and Status and
Commands
which are
Accessed
Locally or
Remotely with
Uni Console
Fan status (rotating or not rotating)
Current TX Activity Status
TX log of % transmitting over past 1 week.
Current RX Activity Status
RX log of % use over past 1week.(time, ID, message
duration etc.)
RX Busy status
RX signal strength of received signal in dBm
RX average BER for digital messages
TX and RX protocol and parameter settings
TX frequency in Hz
RX frequency in Hz.
TX Power in watts (0 watts = PA serious alarm and PA is
in idle state)
TX activity profile information of duty cycle and RX activity
profile information of duty cycle for the past 72 hour
period.
Read current alarm status reporting (all alarms status can
be viewed).
Read GPS time and location
Alarm history (event, time stamp) for 5000 records stored
in flash
Equipment Information including Software version, MSNs,
Hardware versions.
GPS location and time
Software reset boxes (individually reset (this command
shall not clear the alarm states)
Cabinet front door Intrusion alarm status
Cabinet rear door intrusion alarm status
PA Temperature
CR01 Temperature
PA Alarms (VSWR, currents, synthesizer etc.)
TX01 unit main power loss, unit is operating on battery
backup
CR01 unit main power loss, unit is operating on battery
backup
Loss of communications to TX01 unit
Loss of communications to receiver module
12
Function
Details of Function
BR01 BR02 FR01 TR01 SR01 IC01
Power
Output Information and Control accessed with Uni Console
C. Repeater
Control, Alarm
and Status and
Commands
which are
Accessed
Locally or
Remotely with
Uni Console
Internet cable communications delay – ping command
from console to CR01 unit
Status of Ethernet cable, GSM modem or satellite modem
communications (Functional/Non functional
Built-in-Test
BIT shall be accessible via only the USB port. The BIT
(BIT) Accessed commands include all of the U3 ones plus additional ones
on CR01 box required for the R01. BIT is used for R&D development
and for FCC certification.
Visual LED
LEDs on the CR01 unit.
User Interface
a. LED#1: Power/Battery Backup Alarm (Green, flashing
Definition
Green)
located on
CR01 box
b. LED#2: Alarm (RED)
c. LED#3: TXA in process (Green, flashing Green)
d. LED#4: TXB in process (Green, flashing Green)
e. LED#5: RXA in process (Green, flashing Green)
f. LED#6: RXB in process (Green, flashing Green)
g. LED#7: Ethernet Activity (Green, Amber)
Visual LED
LEDs on the TX01 unit.
User Interface
a. LED#1: AC Power
Definition
located on the b. LED#2: Alarm
TX01
c. LED#3: TX in process
General
purpose IO
from CR01
Auxilliary port
General Purpose I/O is on the CR01 unit rear panel: I/O
list includes (# pin, description):
a. 2 - audio line output
b. 2 - audio line input
c. 2 - DAC out
d. 2 - ADC
e. 2 - Uart serial port
f. 2 - time mark output
g. 2 - time mark input
h. 4 - PCM
i. 6 - general purpose IO
BT Speaker
BT Speaker mic is connected to the CR01 via the front
mic Support
face BT radio. Used for testing during installation &
(on CR01 box) maintenance
13
Function
Details of Function
BR01 BR02 FR01 TR01 SR01 IC01
Power
Output Network Interconnection Operation. These operations are provided by MCPE (FR01)
D. Repeater
RF Cross
Banding of
Conventional
Portables
Portable on one repeater band can send a call to a
portable which is on a different band on a different
Repeater
Protocol
Conversion of
Conventional
Portables
A portable which uses a particular protocol can make a
call to another portable which uses a different protocol
which is on the same repeater.
Portable on one repeater band can receive a call from a
portable which is on a different band which is on a
different Repeater
A portable which uses a particular protocol can receive a
call from another portable which uses a different protocol
which is on the same repeater.
A portable which uses a particular protocol can make a
call to another portable which uses a different protocol
which is on a different repeater.
A portable which uses a particular protoco l can receive a
call from another portable which uses a different protocol
which is on a different repeater
PSTN
A portable can place a call to a PSTN number. MCPE
Interconnection provides data base of approved numbers
Note: MCPE
has
PSTN interface A portable can receive a call from a PSTN number.
card.
A portable can place a call to a 3G/4G GSM number.
GSM
Interconnection MCPE provides data base of approved numbers.
Note: MCPE
routes the traffic
to/from the
3G/4G interface
radio via
Ethernet
connection.
A portable can receive a call to a 3G/4G GSM number.
MCPE provides data base of approved numbers.
Satellite or
A portable can place a call to a telephone number via a
Microwave link satellite radio box. MCPE contains the data base of
Radio
approved numbers.
Interconnection
A portable can receive a call from a telephone number via
Note: MCPE
routes the traffic the satellite radio box.
to/from the
3G/4G interface
radio via
Ethernet
connection.
14
Function
Details of Function
BR01 BR02 FR01 TR01 SR01 IC01
Power
OutputPC Console Functions
E. Remote
Software
Download
Software download to processors from Console.
Control, Alarm View and reset PA & CR01 alarms (Provided by CR01)
& Status GUI
View and reset MCPE alarms
View and reset CM01 alarms
View and reset SM01 alarms
View and reset RXS01 alarms
View PA & CR01 Status
View MCPE status
View LED status
View software and h/w versions, MSN etc for all products
connected on the network.
Products include the TX01, CR01 etc.
View and/or set general purpose I/O status
Configuration
Read and set repeater Access parameters
Read and set Transmitter Morse code Station ID
parameters
Read and set PPS parameters
Read and set data base in MCPE (crossbanding, protocol
conversion matrix, authorized telephone numbers etc.)
Read and set database in CM01
Set the 13 MHz reference (Transmitter Frequency )
Read and set network Network parameters and routing
configuration
15
Hardware specification for each standard accessory
Iten
Description
Notes
Power cord (option)
120/220VAC power cord (customized for each region).
Standard 2 meter length
Battery backup cable
8 gauge wire with screw lugs Connects directly to battery
terminals or distribution bar
Standard 3 meter length.
TX01 rear support bars
Metal support bar to prevent the TX01 unit rear end from
tilting down due to weight.
Connects between rear of
TX01 to standard 19”
cabinet, two bars supplied,
for left and right sides
RX01 rear support bars
Metal support bar to prevent the CR01 unit rear end from
tilting down due to weight.
Connects between rear of
RX01 to standard 19”
cabinet, two bars supplied,
for left and right sides.
Earth ground cable
8 gauge, multi-strand wire with screw lugs, Length: 60 cm
standard length Color of insulation: Green
One earth ground cable
supplied for every unit, one
for TX01, one for CR01.
Hardware specification for each optional accessory
Iten
Description
Notes
GPS antenna Roof mount 3rd party GPS antennas with integral LNA housed in a
accessories
radome.
The CR01 unit supplies the necessary DC power to power
the antenna LNA.
The 3rd party GPS antennas/LNA suitable for external wide
temperature range -40 to +85C roof top, complete with
mounting kit.
3rd party antenna vendor
qualified by Unication:
Roof top antenna:
Symmetricom, model
58532A GPS L1 Reference
Antenna
Coax cable connection to CR01 using LMR400 coax with
Type N connector In order to minimize customer service
overhead, only one brand shall be supplied by Unication for
roof top and another one for mobile applications.
GPS Magnetic mount
accessory
Magnetic mount GPS antenna with integral LNA housed in a 3rd party antenna vendor
qualified by Unication:
radome.
Candidate vendor: Inpaq,
The CR01 unit supplies the necessary DC power to power
GPS03B.
the antenna LNA.
The 3rd party GPS antennas/LNA suitable for external wide
temperature range -40 to +85C roof top, complete with
mounting kit.
Coax cable connection to CR01 using LMR400 coax with
Type N connector. Can use thinner RG-58U coax if length is
less than 5 meters.
BT Speaker Mic
Unication BT Speaker mic
Use Uni BT speaker mic
Power cord
120/220VAC power cord (customized for each region).
Battery backup cable
1. gauge wire
2. connected directly to battery terminals or distribution bar
Battery sensor and cable
Battery backup temperature sensor & cable
Room temperature sensor
Ambient room temperature sensor & cable
16
Iten
Description
Notes
Hardware specification for each optional accessory
Earth Quake kit
Kit for cabinet top and bottom kits.
TX01 rear anchors
Anchors to prevent the TX01 from bending down.
RX01 rear anchors
Anchors to prevent the CR01 from bending down.
1:4 Receiver distributor
1. LNA and filter used to supply RX signal for up to 4 CR01
receivers.
Installed after duplexor.
2. Designed and manufactured by Unication.
Time mark cable
Wired used to daisy chain the time mark sign.
Custom cable provide by
Unication
Duplexor
1. Low Band
3rd party, qualified by
Unication, tuned to
frequency by vendor.
2. VHF
3. UHF
4. 700/800
Cabinet
Standard 19” inch wide rack mount cabinet Heights
available:
3rd party. Suppliers
qualified by Unication in
1. 36”
4. 70”
each country.
2. 48”
5. 72”
3. 60”
Duplexor , Combiner and
pre-filter cables
N Type Male to N Type Male, 24”, LMR400 coax
3rd party.
Earth Ground bar
Earth ground metal strip, made of solid copper, vertical
orientation, has threaded holes for connecting earth ground
cables to repeater boxes, mounted on inside of standard
19” cabinet
Different lengths for each
cabinet height.
2:1 Combiner
1. Used to combine two transmitters into one output.
3rd party.
2. Bandwidth, loss and frequency center specified by site
design. Pretuned by vendor.
Suppliers qualified by
Unication in each country.
Standard LMR400
specifications
3. Power handling capacity: 100 watts continuous per
channel
4. Pretuned by vendor.
4:1 Combiner
1. Used to combine two transmitters into one output.
3rd party.
2. Bandwidth, loss and frequency center specified by site
design. Pretuned by vendor.
Suppliers qualified by
Unication in each country.
3. Power handling capacity: 100 watts continuous per
channel
4. Pretuned by vendor.
GSM radio
3G/4G GSM radio, interface via Ethernet
Monthly service paid by
customer.
BR01 function is only for
alarm and PPS configuration.
User voice and data requires
MCPE.
17
Iten
Description
Notes
Hardware specification for each optional accessory
Satellite/Microwave link
radio
Iridium satellite radio kit (radio, antenna, coax, power
supply), Microwave Link radio Ethernet interface
Monthly service paid by
customer.
BR01 function is only for
alarm and PPS
configuration.
User voice and data
requires MCPE.
4 Wire PSTN Interface
Ethernet to 4 wire interface unit and associated application
software in MCPE
Available on MCPE (not
BR01)
Internet switch
1. To support networking of multiple BR01’s, MCPE, 3G/4G
GSM phone, satellite radio, etc. an industrial grade, rack
mounted, internet switch is required. In order to minimize
customer service overhead, limited number of brands
shall be qualified by Unication.
3rd party.
Suppliers qualified by
Unication in each country.
2. Battery backup is necessary and accomplished with a 3rd
party UPS
Transmitter pre-filter
1. Cavity filter to eliminate transmitter noise. Transmitter
noise causes the receiver to de-sense.
2. Bandwidth, loss and frequency center specified by site
design. Pre-tuned by vendor.
3rd party.
Suppliers qualified by
Unication in each country.
3. Power handling capacity: 100 watts continuous per
channel
4. Pretuned by vendor.
Receiver pre-filter
1. Cavity filter to reject nearby high power interferers
caused by nearby high power transmitters.
2. Bandwidth, loss and frequency center specified by site
design. Pre-tuned by vendor.
3. Power handling capacity: 100 watts continuous per
channel
18
3rd party.
Suppliers qualified by
Unication in each country.
B
Overview
CR 01
1. Bluttooth (Option)
2. AC/BAT Power
3. ALARM
4. TXA
5. TXB
10
6. RXA
7. RXB
8. Ethernet
9. USB
12
14
16
11
18
19
13
15
10. Ground screw
11. CR01 12VDC Power Input
12. GPS (Option)
13. Reference Out
14. Rx Connector
15. PA Fan Control
17
16. Accessory Connector
17. PA Control
18. Ethernet Port A
19. Ethernet Port B
19
TX 01
A. AC/BAT Power
B. Transmitting
C. PA Alarm
D. AC Input
E. Power Supply Fan
F. PA Fan Control
G. Reference Input
H. PA Control
I. CR01 12VDC Power
J. PA Fan Control
K. Tx Connector
L. Uni Scr (R&R) Rx Out (Option)
M. Ground Screw
20
C
Installation and Setting
1. Installation
This document briefly describes the cable and coax connections
for the standard BR01 Repeater Unit.
PEASE READ SAFETY INFORMATION IN PART D BEFORE INSTALL THE BR01
REPEATER.
1.1: BR01 front and rear panels
The below image shows the front and rear panel of the BR01
repeater with no cables installed. The BR01 has been designed to be
rack mounted into a standard 19 inch wide equipment rack.
Figure 1: BR01 Front Panel
Figure 2: BR01 Rear Panel
21
1.2: BR01 Cable and Coax Connections
The following sections document the cable and coaxial connections
that are required to be completed for the BR01 repeater to be
operational. This includes interconnect, Grounding/Earthing, RF and
AC power.
1.2.1: Install the PS/Fan interconnect cable
Connect the PS/Fan cable between the CR01 ‘PS/Fan Control’
to the TX01 ‘PS/Fan Control’ connections.
Figure 3: BR01 with PS/FAN Control Cable Installed
PS/FAN
Control
Cable
1.2.2: Install the 13MHz Reference Coax Cable
Connect the 13MHz reference coax between the CR01 ‘Ref Out’
SMA connector and the TX01 ‘Ref In’ SMA connector. Please
remember to use a SMA torque wrench so as not to over
tighten the connections.
Figure 4: BR01 with Reference Coax Installed
13 MHz
Reference
Coax
22
1.2.3: Install the PA Control Cable (DB44)
Connect the PA Control Cable (DB44) between the CR01 ‘PA
Control’ and TX01 ‘PA Control’ connections.
Figure 5: BR01 with PA Control Cable Installed
PA
Control
Cable
1.2.4: Install the CR01 12Vdc Power cable
Connect the CR01 12Vdc power cable between the TX01 ‘12V
DC Output’ and CR01 ‘+12V DC” Input connectors
Figure 6: BR01 with CR01 12V DC Power Cable Installed
CR01
12V DC
Cable
23
1.2.5: Install the BR01 Equipment Grounding (Earth)
Install acceptable equipment grounding/earth cables to both
the TX01 and CR01 screw terminal connections in accordance
with approved equipment grounding standards.
Figure 7: BR01 with two equipment ground connections attached.
CR01 Ground / Earth
Connection
TX01 Ground / Earth
Connection
1.2.6: Install RX and TX RF Coax Cables
Connect the receiver antenna coax cable into the CR01 ‘RX In’
N-Type RF connector.
Connect the Transmitter antenna coax cable into the TX01 ‘TX
Out’ N-Type RF Connector.
Note: Please make sure the N-type 50 ohm termination is
connected to the TX01 ‘UNI SCR RX Out (R&R) ‘ N-Type RF
Connector.
Figure 8: BR01 with RX and TX Coax Cables Installed
RX
Connector
TX
Connector
24
UNI SCR (R&R)
Connector with 50 ohm
termination installed
1.2.7: Install the AC Power Cable into TX01
Insert AC power cable into the TX01 ‘120/240V AC’ connector.
Figure 9: BR01 AC Power Cable Installed
AC Power
Cable
25
2. Software Configuration
Please follow steps below to setup the BR01:
Step 1: Power on the CR01 and TX01.
Step 2: Connect the USB cable from the PC with PPS to the front USB
port of the CR01.
Step 3: Start the BR01 PPS.
26
Step 4: Select “Create New Repeater Profile” and “New”.
Step 5: Enter a “Repeater Name” and select “Protocol”. Click “Next”.
27
Step 6: Enter repeater RX and TX frequencies and click “Next”.
Step 7: Set the “Advanced Settings” if needed and click “Next”.
28
Step 8: Set the “Access Code Setting” and click “Next”.
Step 9: Enter the “Repeater ID”; set the parameters and click “Save”.
29
Step 10: Click “Yes” to program the repeater.
Step 11: Click “Connect” to confirm the setting and programming.
30
D
SAFETY INFORMATION
Product Maintenance Philosophy
Due to the high percentage of surface-mount components and multi-layer
circuit boards, the maintenance philosophy for this product is one of
Field Replaceable Unit (FRU) substitution. The station is comprised of
self-contained modules (FRUs) which, when determined to be faulty, may
be quickly and easily replaced with a known good module to bring the
equipment back to normal operation. The faulty module must then be
shipped to the Unication System Support Center for further
troubleshooting and repair to the component level.
Scope of Manual
This manual is intended for use by experienced technicians familiar with
similar types of equipment. In keeping with the maintenance philosophy
of Field Replaceable Units (FRU), this manual contains functional
information sufficient to give service personnel an operational
understanding of all FRU modules, allowing faulty FRU modules to be
identified and replaced with known good FRU replacements.
The information in this manual is current as of the printing date. Changes
which occur after the printing date are incorporated by Instruction are
added to the manuals as the engineering changes are incorporated into
the equipment.
GENERAL SAFETY INFORMATION
The following general safety precautions must be observed during all
phases of operation, service, and repair of the equipment described in
this manual.
The safety precautions listed below represent warnings of certain
dangers of which we are aware. One must follow these warnings and all
other safety precautions necessary for the safe operation of the
equipment in your operating environment.
31
General Safety Precautions
Read and follow all warning notices and instructions marked on the
product or included in this manual before installing, servicing or
operating the equipment. Retain these safety instructions for future
reference Also, all applicable safety procedures, such as Occupational,
Safety and Health Administration (OSHA) requirements, National
Electrical Code (NEC) requirements, local code requirements, safe
working practices, and good judgment must be used by personnel.
Refer to appropriate section of the product service manual for
additional pertinent safety information.
Because of danger of introducing additional hazards, do not install
substitute parts or perform any unauthorized modifications of
equipment.
Identity maintenance actions that require two people to perform the
repair.
Two people are required when:
A repair has the risk of injury that would require one person to perform
first aid or call for emergency support. An example would be work
around high voltage sources. A second person may be required to
remove power and call for emergency aid if an accident occurs to the
first person.
Note: Use the National Institute of Occupational Safety and Health
(NIOSH) lifting equation to determine whether one or two person is
required when a system component must be removed and replaced in
its rack.
If troubleshooting the equipment while power is applied, be aware of
the live circuits.
DO NOT operate the transmitter of any radio unless all RF connectors
are secure and all connectors are properly terminated.
32
All equipment must be properly grounded in accordance with
Unication Standards and Guideline for Radio Sites and specified
installation instructions for safe operation.
Slots and openings in the cabinet are provided for ventilation.
To ensure reliable operation of the product and to protect from
overheating,
these slots and openings must not be blocked or covered.
Only a qualified technician familiar with similar electronic equipment
should service equipment.
Some equipment components can become extremely hot during
operation. Turn off all power to the equipment and wait until
sufficiently cool before touching.
33
FCC Statement
This device complies with Part 15 of the FCC Rules. Operation is subject
to the following two conditions:
(1) the device may not cause harmful interference, and
(2) this device must accept any interference received, including
interference that may cause undesired operation.
Note: Unication Co., Ltd is not responsible for any changes or
modifications not expressly approved by the party responsible for
Compliance. Such modifications could void the user’s authority to
operate the equipment.
Note: This equipment has been tested and found to comply with the
limits for a Class B digital device, pursuant to part 15 of the FCC Rules.
These limits are designed to provide reasonable protection against
harmful interference in a residential installation. This equipment
generates uses and can radiate radio frequency energy and, if not
installed and used in accordance with the instructions, may cause
harmful interference to radio communications. However, there is no
guarantee that interference will not occur in a particular installation. If
this equipment does cause harmful interference to radio or television
reception, which can be determined by turning the equipment off and
on, the user is encouraged to try to correct the interference by one or
more of the following measures:
● Reorient or relocate the receiving antenna.
● Increase the separation between the equipment and receiver.
● Connect the equipment into an outlet on a circuit different from that
to which the receiver is connected.
● Consult the dealer or an experienced radio/TV technician for help.
34
IC RSS warning
This device complies with Industry Canada licence-exempt RSS
standard (s). Operation is subject to the following two conditions:
(1) this device may not cause interference, and
(2) this device must accept any interference, including interference that
may cause undesired operation of the device.
Le présent appareil est conforme aux CNR d'Industrie Canada
applicables aux appareils radio exempts de licence. L'exploitation est
autorisée aux deux conditions suivantes: (1) l'appareil ne doit pas
produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout
brouillage radioélectrique subi, même si le brouillage est susceptible
d'en compromettre le fonctionnement.
Under Industry Canada regulations, this radio transmitter may only
operate using an antenna of a type and maximum (or lesser) gain
approved for the transmitter by Industry Canada. To reduce potential
radio interference to other users, the antenna type and its gain should
be so chosen that, the equivalent isotropically radiated power (e.i.r.p.) is
not more than that necessary for successful communication.
Conformément à la réglementation d'Industrie Canada, le présent
émetteur radio peut fonctionner avec une antenne d'un type et d'un gain
maximal (ou inférieur) approuvé pour l'émetteur par Industrie Canada.
Dans le but de réduire les risques de brouillage radioélectrique à
l'intention des autres utilisateurs, il faut choisir le type d'antenne et son
gain de sorte que la puissance isotrope rayonnée équivalente (p.i.r.e.) ne
dépasse pas l'intensité nécessaire à l'établissement d'une
communication satisfaisante.
35
Human Exposure Compliance
This equipment is designed to generate and radiate radio frequency
(RF) energy by means of an external antenna. When terminated into a
non-radiating RF load, the base station equipment is certified to comply
with Federal Communications Commission (FCC) regulations
pertaining to human exposure to RF radiation in accordance with the
FCC Rules Part 1 section 1.1310 as published in title 47 code of federal
regulations and procedures established in TIA/EIA TSB92, Report On
EME Evaluation for RF Cabinet Emissions Under FCC MPE Guidelines.
Compliance to FCC regulations of the final installation should be
assessed and take into account site specific characteristics such as
type and location of antennas, as well as site accessibility of
occupational personnel (controlled environment) and the general public
(uncontrolled environment). This equipment should only be installed
and maintained by trained technicians. Licensees of the FCC using this
equipment are responsible for insuring that its installation and
operation comply with FCC regulations Part 1 Section 1.1310 as
published in title 47 code of federal regulations.
Whether a given installation meets FCC limits for human exposure to
radio frequency radiation may depend not only on this equipment but
also on whether the environments being assessed are being affected
by radio frequency fields from other equipment, the effects of which
may add to the level of exposure. Accordingly the overall exposure may
be affected by radio frequency generating facilities that exist at the time
the licensee's equipment is being installed or even by equipment
installed later. Therefore, the effects of any such facilities must be
considered in site selection and in determining whether a particular
installation meets the FCC requirements.
FCC OET Bulletin 65 provides materials to assist in making
determinations if a given facility is compliant with the human exposure
to RF radiation limits.
36
Determining the compliance of transmitter sites of various complexities
may be accomplished by means of computational methods. For more
complex sites direct measurement of the power density may be more
expedient. Additional information on the topic of electromagnetic
exposure is contained in the Unication Standards and Guideline for
Communications Sites publication.
Persons responsible for installation of this equipment are urged to consult
the listed reference material to assist in determining whether a given
installation complies with the applicable limits.
In general the following guidelines should be observed when working in
or around radio transmitter sites:
All personnel should have electromagnetic energy awareness training
All personnel entering the site must be authorized
Obey all posted signs
Assume all antennas are active
Before working on antennas, notify owners and disable appropriate
transmitters
Maintain minimum 5.89 meter (19.3 feet) clearance from all antennas
Do not stop in front of antennas
Use personal RF monitors while working near antennas
Never operate transmitters without shields during normal operation
Do not operate base station antennas in equipment rooms
For installations outside of the U.S., consult with the applicable
governing body and standards for RF energy human exposure
requirements and take the necessary steps for compliance with local
regulations.
37
Conformité concernant l’exposition de l’homme
Cet équipement est conçu pour générer et émettre l’énergie de la
radiofréquence (RF) au moyen d’une antenne extérieure. Après s’être
terminé à un charge de RF non-émettant, l’équipement de la station de
base est certifié qu’il se conforme aux règlements de la Commission de
Communication Fédérale (FCC) appartenant à l’exposition de l’homme aux
radiations de RF, conformément à l’article 1.1310 de la première partie des
règles FCC publiés dans le titre 47 du code des règlements fédéraux ainsi
que les procédures établies dans TIA/EIA TSB92, le Rapport d’EME
Évaluation pour Émissions de Cabinets de RF Sous Indications FCC MPE.
La conformité aux règlements FCC de l’installation finale doit être estimé,
tenant compte des caractéristiques spécifique du site comme le type et la
localisation des antennes, ainsi que l’accessibilité du site du personnel du
travail (environnement contrôlé) et le public général (environnement
incontrôlé). Cet équipement doit seulement être installé et maintenu par
des techniciens entraînés. Détenteur d’autorisation de FCC qui utilise cet
équipement est responsable d’assurer que son installation et opération se
conforment à l’article 1.1310 de la première partie des règles FCC publiés
dans le titre 47 du code des règlements fédéraux.
Qu’une installation donnée satisfasse ou non les limites de FCC pour
l’exposition de l’homme à la radiation de radiofréquence dépendrait non
seulement de cet équipement, mais aussi des environnements déjà
estimés influencés ou non par des champs de radiofréquence d’autres
équipements. Les effets de ces autres équipements augmenterait le niveau
d’exposition. En conséquence, l’exposition totale serait influencée par des
installations générant la radiofréquence qui existent au moment où
l’équipement du détenteur d’autorisation est en train d’être installé ou
même par des équipements installés plus tard. Par conséquent, les effets
de toutes ces telles installations doivent être considérés pour la sélection
du site et pour déterminer si une installation particulière se conforme aux
exigences de FCC.
Le bulletin 65 de FCC OET offre des matériels pour aider à déterminer si
une installation donnée se conforme aux limites de l’exposition de
38
l’homme à la radiation de RF. La détermination de la conformité des sites
d’émetteurs des complexités variées serait accomplie au moyen des
méthodes sur ordinateur. Pour des sites plus complexes, le mesurage
direct de la densité de pouvoir serait plus opportun. Des informations
supplémentaires au sujet de l’exposition électromagnétique sont
contenues dans le Standard Unication ainsi que les Indications pour la
publication des Sites de Communications. On conseille vivement aux
personnes responsables de l’installation de cet équipement de consulter le
matériel de référence en liste pour déterminer si une installation donnée se
conforme aux limites en application.
En général, les indications ci-dessous doivent être observées pendant le
travail dans ou près des sites d’émetteur de radio :
Tout le personnel doit être formé à la connaissance de l’énergie
électromagnétique
Tout le personnel entrant dans le site doit être autorisé
Respecter toutes les marques affichées
Assumer que toutes les antennes sont actives
Avant travailler sur les antennes, notifier les propriétaires et immobiliser
les émetteurs appropriés
Garder au minimum 5.89 mètres ( 19.3 pieds) d’espace de toutes les
antennes
Ne pas s’arrêter devant les antennes
Utiliser les moniteurs de RF personnels pendant le travail près des
antennes
Jamais opérer les émetteurs sans protection pendant l’opération normale
Ne pas opérer les antennes de la station de base dans les cabinets
d’équipement
Pour l’installation hors des Etats-Unis, consulter l’établissement
administratif en vigueur ainsi que les standards pour les exigences de
l’exposition de l’homme à l’énergie RF, et prendre des mesures pour se
conformer aux règlements locaux.
39
References
1.TIA /EIA TSB92 Report On EME Evaluation for RF Cabinet Emissions
under FCC MPE Guidelines, Global Engineering Documents:
http:/globalihs.com/
2.FCC OET Bulletin 65 Evaluating Compliance with FCC Guidelines for
Human Exposure to Radio frequency Electro- magnetic Fields
http://www.foc.govloet/rtsadetyl .
3.Unication standards and Guideline for Communications Sites.
4.IEEE Recommended Practice for the Measure of Potentially Hazadous
Electromagnetic Fields- RF and Micro- wave, IEEE Std C95.3-1991,
Publication Sales, 445 Hoes Lane, PO, Box 1331, Piscattaway, NJ
08855- 1331
5.IEEE Standard for Safety Levels with Respect to Human Exposure to
Radio Frequency Electromagnetic Fields, 3 kHz to 300 GHz,
IEEEC95.1-1991, Publication Sales, 445Hoes Lane, PO Box 1331,
Piscattaway, NJ 08855-1331
40
Corporate Headquarter:
Unication Co., Ltd.
Address: 5F, No.6, Wu-Kung 5Rd.,
Hsinchuang City., New Taipei, Taiwan.
+886-2-22999678
salesenquiry@uni.com.tw
www.uni.com.tw
Unication Dallas
1901 E,Lamar Blvd,
Arlington TX, 76006
sales@unication.com
+1-817-303-9320
Unication Canada
3999 Henning Dr.,Unit
402, Burnaby BC,V5C 6P9
sales@unication.com
+1-604-205-7450
US-BR01-20160323-V0.01
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