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Date Submitted | 2005-04-13 00:00:00 |
Date Available | 2005-05-28 00:00:00 |
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Document Title | Notch Repeater |
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1900A
NOTCHCELL Repeater
System Description
SD-UPA10N-04A(V1.2)
R-TRON Proprietary & Confidential
Page 1
System Description
NOTCHCELL Repeater
Copyright
Copyright of this manual belongs to R-TRON, Inc.
Reproduction, distribution or revision of part or all of contents in this manual in any form without
written permission of R-TRON, Inc. is prohibited.
Registered Trademark
R-TRON
are registered trademarks of R-TRON, lnc.
Other products and company names mentioned here in this manual might be trade marks
or trade names of their respective owners.
RF Repeater
Band Selective Type
Sprint PCS
English
The results of using the information not mentioned in this manual or the risk of
misunderstanding this document remain with the user.
The information in this manual is subject to change due to function enhancement, change
of design, etc. If you want the modified manual or have any question on this manual,
please contact us with information below:
Address : Customer Support Center, Jisan IT Venture Bldg., 2/3F, 1004-9/10, DoksanDong, Gumcheon-Gu, Seoul 153-829 , South Korea
Tel : +82-2-896-4101
Copyright © 2004 R-TRON, Inc. All Rights Reserved
R-TRON Proprietary & Confidential
Page 2
System Description
NOTCHCELL Repeater
Revision History
Version
Date of revision
Reason for revision
V1.0
March.09.2005
First Edition
R-TRON Proprietary & Confidential
Revision Description
Page 3
System Description
NOTCHCELL Repeater
CONTENTS
1. Overview ----------------------------------------------------------------------------------------------------- 5
2. Repeater Design -------------------------------------------------------------------------------------------- 7
2.1 System specification ----------------------------------------------------------------------------------- 7
2.1.1 Environmental conditions ---------------------------------------------------------------------- 7
2.1.2 System features ---------------------------------------------------------------------------------- 7
3. Repeater Configurations --------------------------------------------------------------------------------- 9
3.1 Main Box------------------------------------------------------------------------------------------------ 9
3.2 PSU Box ----------------------------------------------------------------------------------------------- 10
3.3 Sub Unit Overview ----------------------------------------------------------------------------------- 10
3.3.1 UDC(Up-Down Converter unit) with LNA -------------------------------------------------10
3.3.2 MCPA(Multi Carrier Power Amplifier unit) ----------------------------------------------- 11
3.3.3 ARCU(Advanced Repeater Control Unit board) ------------------------------------------ 12
3.3.4 DPX(Duplexer) --------------------------------------------------------------------------------- 12
3.3.5 PSU(Power Supply Unit) --------------------------------------------------------------------- 13
3.3.6 Heat Module ------------------------------------------------------------------------------------ 13
3.3.7 ARIU(Advanced Repeater Interface Unit board) ------------------------------------------ 14
3.3.8 Arrestor ------------------------------------------------------------------------------------------ 14
3.3.9 EMI/EMC Filter -------------------------------------------------------------------------------- 14
4. Block Diagram --------------------------------------------------------------------------------------------- 15
4.1 Downlink signal path -------------------------------------------------------------------------------- 15
4.2 Uplink signal path ------------------------------------------------------------------------------------ 15
4.3 Band Selective Repeater ---------------------------------------------------------------------------- 15
4.4 Repeater Setup ---------------------------------------------------------------------------------------- 16
5. Board and Unit Descriptions --------------------------------------------------------------------------- 16
5.1 MCPA for downlink --------------------------------------------------------------------------------- 16
5.2 PA for uplink ------------------------------------------------------------------------------------------ 17
5.3 UDC for downlink ----------------------------------------------------------------------------------- 18
5.4 UDC for uplink --------------------------------------------------------------------------------------- 20
5.5 ARCU -------------------------------------------------------------------------------------------------- 22
5.6 ARIU --------------------------------------------------------------------------------------------------- 23
5.7 DPX ----------------------------------------------------------------------------------------------------- 24
5.8 Arrester ------------------------------------------------------------------------------------------------- 26
5.9 PSU ----------------------------------------------------------------------------------------------------- 26
5.10 EMI/EMS Filter ------------------------------------------------------------------------------------- 27
5.11 Heater Module --------------------------------------------------------------------------------------- 28
5.12 Connector Ports -------------------------------------------------------------------------------------- 29
5.12.1 Local OMT port ; Main Box ---------------------------------------------------------------- 29
5.12.2 AC IN; Main Box ---------------------------------------------------------------------------- 29
5.12.3 AC IN; PSU Box ----------------------------------------------------------------------------- 30
5.12.4 DC IN 24V; PSU Box ------------------------------------------------------------------------ 30
R-TRON Proprietary & Confidential
Page 4
System Description
NOTCHCELL Repeater
1 Overview
Å Installation of antenna
Feeder Line
Å Installation of Repeater
DC Power Cable
R-TRON NOTCHCELL repeaters are used to fill out uncovered areas in CDMA1900 mobile systems, such as
base station fringe areas, road tunnels, business and industrial buildings, etc.
A NOTCHCELL repeater receives signals from a base station, amplifies and retransmits the signals to mobile
stations. Also it receives, amplifies and retransmits signals in the opposite direction. Both directions are served
simultaneously.
To be able to receive and transmit signals in both directions, the repeater is connected to a donor antenna
directed towards the base station and to a service antenna directed towards the area to be covered.
Control of the repeaters is performed using a desktop or notebook loaded with the R-TRON OMT, Operation
and Maintenance Terminal, which can communicate with the repeaters either locally or remotely via wireless
R-TRON Proprietary & Confidential
Page 5
System Description
NOTCHCELL Repeater
data modem. Remote operation can be performed either via CDMA net.
To be able to control many R-TRON NOTCHCELL repeaters in common, there is a Sprint EMS center.
R-TRON NOTCHCELL Repeaters work as bi-directional amplifiers.
A repeater receives, amplifies, and retransmits signals downlink and uplink simultaneously, i.e. from the base
station via the repeater to the mobile stations and from the mobile stations via the repeater to the base station.
The repeater can be connected to a donor antenna directed towards the base station, and to a distributor
antenna directed towards the area to be covered. These antennas are connected to the repeater with type-N
connectors.
To prevent instability due to poor antenna isolation, R-TRON has developed NOTCHCELL Repeater. R-TRON
NOTCHCELL Repeaters become clear of having superiority over the other RF repeaters in the world.
The R-TRON NOTCHCELL Repeaters are controlled by powerful microprocessors. Alarm and operational
status LEDs are visible on the bottom of the repeater.
The repeater works with convection cooling without fan.
Operational parameters, such as gain, power levels, alarm condition, Automatic Level Control condition, etc.
are set using a desktop or notebook and R-TRON OMT, which communicate, locally via RS-232C cable, with
the repeater. Remote operation is performed via CDMA net.
R-TRON Proprietary & Confidential
Page 6
System Description
NOTCHCELL Repeater
2 Repeater Design
2.1 System specification
2.1.1 Environmental conditions
Item
Standard
Power supply
Remark
AC110V±20%, 50/60Hz±5%
or +24Vdc battery backup available
- 40 ~ +55 ℃
- 40 ~ +70 ℃
95 %
400 W(Normal),
1200W(Max. In case of the Heater acts at
lower temperature)
100 mm/Hr
NEMA 4x
60m/s
Environmental Conditions
Operating temperature
Storage temperature
Humidity
Consumption power
Rainfall
Water proof
Wind pressure
2.1.2 System features
A. NOTCHCELL repeater
Item
SPEC
Frequency bandwidth
Toward Handset (Down Link)
Toward BTS (Up Link)
Input range (dBm)
Max. Output power
15MHz
1930 ~1945MHz
1850 ~1865MHz
-52 ~ -27dBm(DL),
-67 ~ -42dBm(UL)
DL
43dBm (20W) / Total
UL
28dBm (0.631W) / Total
Gain range (dB)
70 ~ 95dB
Remark
Based on 11 carriers
Based on 11 carriers
Max. gain ±0.5dB
Gain control / Interval (dB)
25dB / 1dB
Maximum Gain
4dB max.
Noise figure
Minimum Gain
8dB max.
In band flatness
2dB max.
Absolute group delay
5㎲ max.
Interface
RS-232 and Modem
VSWR
1:1.5 max.
Impedance
50Ω
RF connector (Antenna Port)
N-Female
Main Box
470*700*370mm
Size (W x H x D)
PSU Box
450*384*265mm
Main Box
Less than 50Kg(95lbs)
Weight
PSU Box
Less than 25Kg(55lbs)
Repeater Features
R-TRON Proprietary & Confidential
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System Description
NOTCHCELL Repeater
B. NOTCHCELL Antenna
SPEC
Item
Donor ANT
Remark
Service ANT
1850 ∼1910 MHz, 1930 ~ 1990 MHz
60MHz, 60MHz
Frequency Range
Band Width
1:1.5 이하
1:1.5 이하
17 dBd ±1 dB
17 dBd ±1 dB
Half-Beam width (H)
20˚±3˚
45˚±5˚
Half-Beam width (V)
20˚±3˚
8˚± 2˚
≥ 45 dB
≥ 13 dB
≥ 45 dB
≥ 13 dB (Upper)
V.S.W.R
Gain
Front-to-back ratio
First-to-side ratio
Impedance
Polarization
≥ 100 dB
ANT Distance (Horizontal) ≥1.5m
50 Ω
50 Ω
Vertical
Vertical
Max Power
200 W
200 W
7/16” DIN-female
7/16” DIN-female
Isolation
RF connector
Size (W*H*D)
Rated Wind Velocity
Weight
Radiator Material
Radome Material
Tilt
@180deg
@180±90deg
310*1500*120 mm
700*1000*150 mm
60 m/sec
60 m/sec
Less than 20 kg(44lbs)
Less than 17 kg(38lbs)
Copper
Copper
Fiberglass
Fiberglass
0˚~ 15˚
0˚~ 15˚
Antenna Features
The repeater is housed in a cast aluminum chassis that is waterproof, class NEMA 4x, for outdoor use. The
chassis has a design suited for outdoor use as well as indoor use.
The chassis consists of a cabinet and a cover joined with hinges. The cabinet contains the repeater circuitry.
Inside the repeater, a number of amplifier boards are individually shielded and located under a metal cover that
can be folded out. These amplifier boards are different types depending on the supported system.
The followings are the Technical Specification of NOTCHCELL Repeater.
CAUTION:
The antenna used for this transmitter must not exceed 20.15dBi and must be installed to provide a minimum separation
distance of 4.09 meters from all persons.
R-TRON Proprietary & Confidential
Page 8
System Description
NOTCHCELL Repeater
3 Repeater Configurations
The repeater system consists largely of the Main Box and PSU Box. The main modules or units of repeater are as
follows:
DPX (Duplexer), MC PA (Multi Carrier Power Amplifier unit), ARCU (Advanced Repeater Control Unit board),
ARIU (Advance Repeater Control Unit board), UDC (Up-Down Converter unit, with LNA), Arrestor, PSU (Power
Supply Unit), Heater Module, EMI/EMC Filter.
3.1 Main Box
The following is the picture of Main box.
ARCU
UDC-DL
UDC-UL
MCPA-UL
DL-MCPA
ARIU
DPX-MS
DPX-BS
Arrestor
Heat Module
Arrestor
Figure 1 Sub units in a band selective repeater (Main Box)
A cabinet for a band selective repeater is equipped with two pair of UDC (with LNA) and PA units, one pair for
downlink (DL) and one pair for uplink (UL). The described cabinet is equipped for bi-directional band selective
operation.
R-TRON Proprietary & Confidential
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System Description
NOTCHCELL Repeater
3.2 PSU Box
Heat Module
EMI/EMC
EMI/EMC
PSU
Figure 2 PSU Box
3.3 Sub Unit Overview
Functionally, repeaters are built up with several sub units. The sub units of main repeater are as follows:
Band selective repeaters can handle multi-carriers over a wide band. The bandwidth is adjustable. A band
selective repeater requires two UDC (with LNA) units and two PA units in the repeater.
One pair of UDC (with LNA)/PA units is for uplink signaling and one pair is for downlink signaling.
3.3.1 UDC (Up-Down Converter unit) with LNA
Figure 3 UDC-UL
R-TRON Proprietary & Confidential
Figure 4 UDC -DL
Page 10
System Description
NOTCHCELL Repeater
UDC converts (Down) a signal received from LNA and gets rid of signal which is out of the bandwidth range,
then converts (Up) again into the original frequency range and controls ‘Path Gain’.
3.3.2 MCPA (Multi Carrier Power Amplifier unit)
Figure 5 MCPA -UL
Figure 6 MCPA -DL
CDMA repeaters can be equipped with two MCPA that boosts the output gain with typically 35~40dB. PA (Power
Amplifier) amplifies RF signal received from UDC (Downlink) up to 50 dB and its Maximum RF Output is 45 dBm
in terms of CDMA SFA standards.
R-TRON Proprietary & Confidential
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System Description
NOTCHCELL Repeater
3.3.3 ARCU (Advanced Repeater Control Unit board)
Figure 7 ARCU
The ARCU board is the control unit of the repeater. The ARCU board is used to supervise and control operational
parameters such as gain control, ALC handling, etc. The ARCU takes care of alarms and the event log, password
and logon, and many other procedures.
3.3.4 DPX (Duplexer)
Figure 8 DPX-BS
Figure 9 DPX-MS
The Duplexers are located in the lower part of the repeater cabinet. MS and BS duplexers are identical.
R-TRON Proprietary & Confidential
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System Description
NOTCHCELL Repeater
3.3.5 PSU (Power Supply Unit)
Figure 10 PSU
PSU receives AC 110V (Voltage) from outside and provides DC Power to each unit. In case AC Power shuts
down, PSU supplies power to each unit using battery box (+24v) which is connected to ‘BATT IN’ locating under
main repeater body. In case AC power is restored, the battery, connected to outside, is converted into being
charge with electricity automatically. (Battery Box is optional)
3.3.6 Heat Module
Figure 11 Heat Module
It installed to maintain stable characteristic of the repeater in cabinet inside in the low temperature. The having
fever heat capacity is a maximum 400Watt.
R-TRON Proprietary & Confidential
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System Description
NOTCHCELL Repeater
3.3.7 ARIU (Advance Repeater Interface Unit board)
Figure 12 ARIU
BTS sends the alarms of Notch repeater and the operator can check and control.
3.3.8 Arrestor
Figure 13 Arrestor
Arrester uses a semiconductor varistor to protect equipment from lightning.
3.3.9 EMI/EMC Filter
Figure 14 EMI/EMC Filter
It use to prevent the noise ingredient is radiated with the spurious to happen to the outside in the repeater.
R-TRON Proprietary & Confidential
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System Description
NOTCHCELL Repeater
4 Block Diagram
The main signal paths are described in general in the next section and detailed under each block diagram.
4.1 Downlink signal path
The downlink signal path, i.e. from the base station through the repeater to the mobile station, is described for
NOTCHCELL repeater under the block diagrams on the following pages.
4.2 Uplink signal path
The uplink signal path, i.e. from the mobile station through the repeater to the base station, is identical to the
downlink path but the other way round. Only some levels and component values differ.
4.3 Band Selective Repeater
Main Box
PA / DL
U D C / DL
ATT 1
LNA / DL
ATT 2
Distributor
ANT
Donor
ANT
12 V
--20 dB
Directional Coupler
DL -30dB Test Port
27 V
12 V
Arrester
Duplexer
/BS
RCU
Wireless
Modem
(Option)
Arrester
Duplexer
/ MS
Controller
UL-30dB Test Port
12 V
12 V
27 V
12 V
12 V
BTS
Repeater State LED
ATT 2
Bluetooth
(Option)
RS-232C
ATT 1
LNA / UL
UDC / UL
PA / UL
External Alarm
: Data
: Power
AC
Input
EMI/EMC
FILTER
PSU
Battery Box
(24V, Option)
PSU Box
Figure 15 Block Diagram of Band Selective Repeater
Figure 15 shows a block diagram of a band selective repeater. This diagram is applicable to repeaters for CDMA
systems.
R-TRON Proprietary & Confidential
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System Description
NOTCHCELL Repeater
4.4 Repeater Setup
The repeater parameters can be set locally by means of a desktop or notebook running OMT. The PC is
connected to the ARCU via the RS-232 PC port.
* Option (Bluetooth Adapter): When it is used, it enables wireless integration
5 Board and Unit Descriptions
5.1 MCPA for downlink
P re A M P
D r iv e A M P
M a in A M P
D e la y L in e
Ou tp ut
In p u t
1 s t lo o p
IN D E T .
IN
2 n d lo o p
A T T
PL O
Controller
Interface
E rro r A M P
DE MO D
Delay
Line
Vector
Sa mpl in g
Modulator
Po rt
1 st
Lo op
P wr
Figure 16 Block diagram of Power Amplifier unit for downlink
MCPA amplifies RF signal received from UDC (Downlink) up to 50 dB and its Maximum RF input is 42 dBm in
terms of CDMA SFA standards.
Connection
Port
Connected to
RF IN
RF OUT on the UDC-DL board.
RF OUT
DL on the DPX-MS duplex filter.
CON
On the ARCU board
CON
27V port on the PSU unit
Specification
Item
Specification
Frequency
1930MHz~1945MHz
Bandwidth
15MHz
Gain
50±0.5dB
Output Power
45dBm (32W)
I/O Port
1: GND
2: Over Power Alarm
Normal: Low
3: VSWR Alarm
5: Over Temp
Fail: High
6: PA On/Off
7: Cable Open
R-TRON Proprietary & Confidential
Remarks
Page 16
System Description
NOTCHCELL Repeater
8: Transmit Power Monitor
9: Reflect Power Monitor
Mute Function
5V⇒ Off, 0V⇒On
Power Detector
0.1 ~ 5V
Voltage
DC 27V
RF connector
Type-SMA, female
5.2 PA for uplink
Figure 17 Block diagram of Power Amplifier unit for uplink
PA (Power Amplifier) amplifies RF signal received from UDC (Downlink) up to 40dB and its Maximum RFOutput
is 30dBm in terms of CDMA SFA standards.
Connection
Port
Connected to
RF IN
RF OUT on the UDC-UL board.
RF OUT
UL on the DPX-BS duplex filter.
CON
On the ARCU board.
CON
+27V on the PSU unit.
Specification
Item
Specification
Remarks
Frequency
1850MHz ~1865MHz
Bandwidth
15MHz
Gain
40±0.5dB
Output Power
30 dBm
I/O Port
1: GND
2: Over Power Alarm
Normal: Low
3: VSWR Alarm
5: Over Temp
Fail: High
6: PA On/Off
7: Cable Open
8: Transmit Power Monitor
9: Reflect Power Monitor
R-TRON Proprietary & Confidential
Page 17
System Description
NOTCHCELL Repeater
Mute Function
5V⇒ Off, 0V(On
Power Detector
0.1 ~ 5V
Voltage
DC 27V
RF connector
Type-SMA, female
5.3 UDC for downlink
Figure 18 Block diagram of Up-Down converter unit for downlink
The above product is Un-Down Converter for Downlink and it is composed of three parts (Down Converter, IF
and Up Converter)
Down Converter
Down Converter consists of RF level detector, BPF, Digital Atten, AMP and Analog Atten, Mixer. RF level
detector converts RF signal into DC, which is able to detect signal level. The first BPF removes signal out of
required bandwidth among the inputted signal from LNA and AMP compensates the loss from the first BPF.
Digital Atten, which is connected to Controller, operates to control Path Gain. Analog Atten is used for minute
control of Path Gain. Mixer converts RF into IF (IF-70MHz)
IF
IF is composed of Filter (LPF and SAW) and AMP. LPF removes spurious signal which is higher passing band
and SAW Filter gets rid of unwanted signal which is out of required bandwidth. AMP compensates loss which
occurs when signal passing through Filter.
Up Converter
Up Converter consists of Mixer, AMP, BPF, Digital Atten, Analog Atten and RF level detector. Mixer is used to
convert IF (70 MHz) to Down Link Path RF Frequency. BPF is to remove signal out of service range. Digital
Atten operates connected to controller to control Path Gain.
R-TRON Proprietary & Confidential
Page 18
System Description
NOTCHCELL Repeater
LNA
Figure 19 Block diagram of Low Noise Amplifier unit for downlink.
This product is a low noise amplifier used for NOTCHCELL downlink. It is generally composed of RF block
and Fault block (Alarm circuit).
RF block has approximately 30dB gain at CDMA1900 through 3-stage amplification, and its noise index is
0.9dB. Fault block is a circuit that detects current flowing in each TR of RF block.
Fault circuit detects current flowing in 1st stage TR and 2nd & 3rd stage TRs. If TR current is less or more than
set value due to the change of LNA environment, it generates TTL signal (5V).
Connection
Port
Connected to
RF IN
DL on the DPX-MS.
RF OUT
RF IN on the PA-DL unit.
CON
On the ARCU board
CON
On the PSU unit.
Specification
Item
Specification
Frequency
1930MHz ~1945MHz
Bandwidth
15MHz
Gain
24~49dB±0.5dB
Voltage
DC 12V
RF connector
Type-SMA, female
R-TRON Proprietary & Confidential
Remarks
Att. : 25dB
Page 19
System Description
NOTCHCELL Repeater
5.4 UDC for uplink
Figure 20 Block diagram of Up-Down converter unit for uplink
The above product is Down Converter for Uplink and it is composed of three parts (Down Converter, IF and Up
Converter)
Down Converter
Down Converter consists of RF level detector, BPF, Digital Atten, AMP and Analog Atten, Mixer. RF level
detector converts RF signal into DC, which is able to detect signal level. The first BPF removes signal out of
required bandwidth among the inputted signal from LNA and AMP compensates the loss from the first BPF.
Digital Atten, which is connected to Controller, operates to control Path Gain. Analog Atten is used for minute
control of Path Gain. Mixer converts RF into IF (IF-70MHz)
IF
IF is composed of Filter (LPF and SAW) and AMP. LPF removes Spurious signal which is higher passing band
and SAW Filter gets rid of unwanted signal which is out of required bandwidth. AMP compensates loss which
occurs when signal passing through Filter.
Up Converter
Up Converter consists of Mixer, AMP, BPF, Digital Atten, Analog Atten and RF level detector. Mixer is used to
convert IF (70 MHz) to Down Link Path RF Frequency. BPF is to remove signal out of service range. Digital
Atten operates connected to controller to control Path Gain.
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Page 20
System Description
NOTCHCELL Repeater
LNA
Figure 21 Block diagram of Low Noise Amplifier unit for downlink.
This product is a low noise amplifier used for NOTCHCELL downlink. It is generally composed of RF block
and Fault block (Alarm circuit). RF block has approximately 30dB gain at CDMA1900 through 3-stage
amplification, and its noise index is 0.9dB. Fault block is a circuit that detects current flowing in each TR of RF
block. Fault circuit detects current flowing in 1st stage TR and 2nd & 3rd stage TRs. If TR current is less or more
than set value due to the change of LNA environment, it generates TTL signal (5V).
Connection
Port
Connected to
RF IN
UL on the DPX-MS.
RF OUT
RF IN on the PA-UL unit.
CON
On the ARCU board
CON
On the PSU unit.
Specification
Item
Specification
Frequency
1850MHz ~ 1865MHz
Bandwidth
15MHz
Gain
34~59dB±0.5dB
Voltage
DC 12V
RF connector
Type-SMA, female
R-TRON Proprietary & Confidential
Remarks
Att. : 25dB
Page 21
System Description
NOTCHCELL Repeater
5.5 ARCU
Figure 22 Block diagram of ARCU
The ARCU board is the central board in the repeater, located in the repeater cabinet.
The ARCU board contains a microprocessor, main memory, flash memory for the ARCU software, NVRAM
memory for parameters and the event log , ports for local and remote communication, battery powered real-time
clock, etc.
The ARCU board is used to supervise and control operational parameters such as gain control, ALC handling, etc.
The ARCU takes care of alarms and the event log, password and logon, and many other procedures.
The real-time clock on the ARCU board is used for alarm and for the event log.
Connection
Port
Connected to
J1
On the PSU board.
J2
On the PA-DL unit.
J3
On the PA-UL unit
J4
On the UDC-UL, UDC-DL unit
J5, J5-1
On the UDC-UL unit
J6, J6-1
On the UDC-DL unit
J7
On the door
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Page 22
System Description
NOTCHCELL Repeater
J7-1
Not used
J9, J9-1
On the W/M (Wireless Modem)
J11
On the PSU board
J12
RS-232 (Local OMT) on the bottom of repeater
J13
Consol for microprocessor.
J16
LAN for microprocessor
J21
Not used
5.6 ARIU
Figure 23 Block diagram of ARIU
ARIU Module does to do WNMS interconnection function through ARCU and Wireless Modem (Expedite C201).
Specification
Item
Specification
Power Requirements
DC 4.2V, DC3.3V
Regulator
MIC29502BU
RS232 Converter
MAX3233
R-TRON Proprietary & Confidential
Remarks
Page 23
System Description
NOTCHCELL Repeater
5.7 DPX
Figure 24 Block diagram of DPX
The Duplexers are located in the lower part of the repeater cabinet. MS and BS duplexers are identical.
Connection
DPX-MS
Port
Connected to
ANT
Distributor ANT on the bottom of repeater
DL
RF OUT on the PA-DL unit
UL
RF IN on the UDC (with LNA)-UL unit
MON
MON on the bottom of repeater or other Units
DPX-BS
Port `
Connected to
ANT
DONOR ANT on the bottom of repeater
DL
RF IN on the UDC-DL unit
UL
RF OUT on the PA-UL unit
MON
MON on the bottom of repeater or ANT on the wireless Modem Unit
Specification
DPX-MS, DPX-BS
Item
Specification
Frequency
DL: 1930.625MHz~1944.375MHz
Remarks
UL: 1850.625MHz~1864.375 MHz
Bandwidth
13.75 MHz
Insertion loss
1.2dB
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Page 24
System Description
Flatness
Separation
NOTCHCELL Repeater
1.0dB
between
DL/UL 100dB
frequency
RF connector
Type-SMA, female
Coupling value
Coupling: 20dB, 30dB, 40dB±2dB,
Monitoring: 30dB±2dB
VSWR
1:1.3
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Page 25
System Description
NOTCHCELL Repeater
5.8 Arrestor
Figure 25 Block diagram of Arrestor
Arrester uses a semiconductor varistor to protect equipment from lightning
Specification
Item
Specification
Frequency
1800MHz~2000MHz
Bandwidth
200MHz
Insertion loss
0.2dB
VSWR
1:1.2
Surge current
1.2 x 50㎲ , 6 kV / 3 kA
RF connector
Type-N, female
Remarks
5.9 PSU
Figure 26 Block diagram of PSU
PSU receives and converts input power (AC 110V) into DC +27V or +12V. In case PSU is connected to outside
Battery, it provides automatic power back-up function when AC power input is shut off. When power level of a
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System Description
NOTCHCELL Repeater
storage battery is lower than +21V (±1.0V), battery input power is shut down to protect battery and it is how to
Prevent the storage batter from the over-discharge.
The output power, as converting into AC_IN/Battery of Battery/AC_IN, operates in a proper way and supply the
stable power until the over-discharge function works.
Specification
Item
Input
Voltage
AC / DC
Output
27V
AC110v ±20%
12V
Output Voltage Variation Ratio:
50/60Hz ±5%
less than ±2%
Current
15A
Efficiency
More than 80%
Power factor
More than 90%
7A
AC fail
Alarm
DC fail
Normal: Low, Abnormal: High
Battery fail
5.10 EMI/EMC Filter
Figure 27 Block diagram of EMI/EMC Filter
EMI/EMC Filter in all entrances of PSU Box prevents that various spurious and consecutiveness noise
ingredients that happen in Repeater are radiated to outside.
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System Description
NOTCHCELL Repeater
It should be as most as possible near with power input/output port, and Wires do so that to do not become
overlap each other.
Also, must do so that high frequency resistance may minimize in grounding paper as possible when do
mounting to Repeater.
When fix EMI/EMC Filter to metal case for this, after improving electricity conductibility removing coats of paint
of contact part, do to ground in the nearest distance coming ground connection terminal.
In case of use continuously exceeding rating current or use exceeding operating temperature, its performance
and reliability are fallen.
Specification
Item
Specification
Rated Voltage
250V AC/DC
Rated Current
20A
Rated Frequency
50/60Hz
Leakage Current
0.75Ma max. at 250V AC 50/60Hz
Insulation Resistance
200MΩ min. AT 500V DC
Test Voltage
AC 2000V between line to earth for 1 minute
Operating Temperature
-25℃ ~ +85℃
Remarks
5.11 Heater Module
Figure 28 Block diagram of Heater Module
Heater Module attached inside Main Box and PSU Box for normal action of equipment in limit low temperature
state because Repeater's operating temperature condition is '- 40 to -55℃'.
Specification
Item
Specification
Input Power
AC100V +/-20% 50/60Hz +/-5%
Current
5A max.
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Remarks
Page 28
System Description
Heater Operating Temperature
NOTCHCELL Repeater
Act: Board temperature below +15℃±5
Stem by: Board temperature Higher than +20℃
Heating Power
400watt
Size
285 ×157 × 55
5.12 Connection Ports
5.12.1 Local OMT port ; Main Box
PC port RS-232 is a LOCAL OMT port used for local PC communication. The connector is found to the bottom
of the cabinet. LOCAL OMT is a 3-pole MS connector.
Figure 29 LOCAL OMT - PC connector pinning
A: Data from repeater to OMT
B: Data from OMT to repeater
C: GND
5.12.2 AC IN ; Main Box
MS20-3P, Male
PE
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System Description
NOTCHCELL Repeater
5.12.3 AC IN ; PSU Box
MS22-2, Male
PE
5.12.4 DC IN 24V ; PSU Box
*Use at DC power (or Battery) connection necessity by Backup in case of is shut off AC.
MS24-12, Male
Not used
Not used
Not used
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Page 30
System Description
NOTCHCELL Repeater
NOTCHCELL Repeater System Description
Copyright © 2004 R-TRON, Inc.
All Rights Reserved
Copyright of this manual belongs to R-TRON, Inc.
Reproduction, distribution or revision of part or all of contents in this
manual in any form without written permission of R-TRON, Inc. is
prohibited.
The information in this manual is subject to change for the reason of
function improvement, design alteration, etc. without any prior notification.
R-TRON Proprietary & Confidential
Page 31
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