Inkel JF43E1900CFN03 CDMA Fiber-Fed Repeater System User Manual

INKEL Corporation CDMA Fiber-Fed Repeater System

Contents

User Manual

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Document ID862448
Application IDBru+Zgu7TOKb27Ormw/apA==
Document DescriptionUser Manual
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeUser Manual
Display FormatAdobe Acrobat PDF - pdf
Filesize28.17kB (352089 bits)
Date Submitted2007-10-31 00:00:00
Date Available2007-10-31 00:00:00
Creation Date2007-10-15 16:04:03
Producing SoftwareAcrobat Distiller 7.0.5 (Windows)
Document Lastmod2007-10-15 16:04:03
Document Titleuntitled

1. Overview
Base Station
BTS
Remote
Donor
Figure 1. System Configuration
Optic repeater is a type of BTS sub-systems. It is designed to cover the radioshadowed areas that could be occurred by obstructions among base stations. The
system provides high quality communication at reasonable cost by adopting high
technologies. For example, the system adopted WDM that multiplexes UL and DL
signals onto a single fiber cable, so that the system can be installed at low cost and
maintained with ease.
2. Major Advantages
A. REMOTE
1) It is easy to install and maintain the system, because it is designed as small size, light
weight, and low power consumption.
2) It is reliable by adopting water and moisture resistant structure.
3) Remote control
Operation, maintenance, and repair is easy by using the system that provides alarm
and information on the Gain Control of Remote Cell, output level control, power on/off,
internal temperature monitoring, and problems concerning optic module. Remote
control can be performed by RF modem so that operation and maintenance personal
can use it easily. And it was designed to operate with comprehensive network
management system.
4) Transmission and Receiving with 1 Core Optic Fiber
It use WDM which enables 2 wave-length (Forward: 1550nm, Reverse: 1510nm) to
simultaneously be transmitted and received through 1 Core Optic Fiber
5) Optic AGC (Automatic Gain Control): It is regularly keeping the loss between optic
sections.
6) ALC (Automatic Limit Control): It makes to limit the level of output power less than
the regular level.
B. DONOR
1) It is easy to install and maintain the system, because it is designed as small size, light
weight, and low power consumption.
2) Donor shelf is designed to mount into 19” shelf and also, can be mounted into the
enclosure that is following the IP65 standard.
3) Control
Operation, maintenance, and repair is easy by using the system that provides alarm
and information on the Gain Control of Donor Unit, output level control and problems
concerning optic module. Remote control can be performed by RF modem so that
operation and maintenance personal can use it easily. And it was designed to operate
with comprehensive network management system.
4) Transmission and Receiving with 1 Core Optic Fiber
It use WDM which enables 2 wave-length(Forward:1550nm, Reverse:1510nm) to
simultaneously be transmitted and received through 1 Core Optic Fiber
5) Optic AGC(Automatic Gain Control) : It is regularly keeping the loss between optic
sections.
3. The name and function of each module
A. REMOTE
OPTIC
BATTERY
UL_1
UL_1
DL/UL_0
DL/UL_0
AC_IN
BATTERY
AC_OUT
AC_IN
OPTIC
Figure 2. A plan of Remote
3.1
Interior Module
① Optic
It changes the optic signal (from Donor) into RF signal and RF signal (from Remote)
into optic signal.
② DL_UL Drive
The module changes the level of a signal on DL path into the desired level. It has a
variable attenuator. The antenna output level on DL path is adjustable by the attenuator.
It amplifies the level of a signal on UL0 path.
It amplifies the level of a signal on UL1 path after down-conversion.
③ UL_SAW Drive
It contains saw filters for band selection.
④ Local & Modem Drive
It generates local signals for band selection on UL paths.
It performs FSK modulation and demodulation for communication between Donor
and Remote.
⑤ LPA (30Watts)
It is amplified into high output power for transmitting the Down Link signal to
antenna.
⑥ LNA
It amplifies signals from antenna for achieving good characteristics of noise figure.
⑦ Cavity filter
It deletes useless signals except band that is used for service. DL/UL signals are
already distinguished at part of Antenna.
Regarding Up Link Path, It deletes signals except band that is used for service.
⑧ PSU
It changes the input power (50~88VAC) into DC+27V, DC+15V and DC+7V for
operating each module.
⑨ RSM (Remote Status Monitoring)
It manages the communication of Donor and controls alarm signal and all sorts of
control.
3.2
Other parts
① RF Connector : 7/16 DIN Female
② Power Cable : Power Feeder 625 JCAT 3R Coaxial Cable
③ Optic Adapter : Sam-Hwa KFBG #16 (Waterproof, UL certified, the quality of the
material SUS)-using SUNFLEX pipe
④ Bracket : The bracket is used for mounting the repeater on the wall.
B. DONOR
- Donor Shelf -
3.3
- Donor Enclosure –
Interior Module
① optic
It changes the optic signal (from Remote) into RF signal and RF signal (from Donor)
into optic signal.
② DL Drive
This module changes the forward signal into optimum level and has attenuation for
setting the input level of optic module. It contains saw filters for band selection.
It contains FSK modem for communication with remote.
③ UL Drive
It amplifies the output signal of optic module for getting optimum level. There is a
function of attenuator for module gain control and setting the gain between optic
sections regularly.
④ Local Drive
This module makes local signal for Reverse diversity path.
It up-converts of UL1 path.
It generates local signals for band selection on DL paths.
⑤ Wireless Modem & control board
They make the signal for communicating the upper systems. The communication is
for receiving and sending the alarm and control signals. Also, the data including the
information of product is communicating with MCU.
⑥ PSU
It changes the input power (110~230VAC) into DC+27V, DC+15, and DC+7V for
operating each module.
⑦ MCU
It has a computer interface. The operator can monitor several kinds of alarms and
control the system by using the connected computer.
3.4
Other parts
① RF connector: N female (Donor enclosure), SMA female (Donor shelf)
② Optic adapter: FC/ APC type
③ Bracket (Enclosure): The bracket is used for mounting the repeater on the wall.
4. How to install the system
Typical Installation Instructions
Checking the contents
Install Repeater inside at convenient location on a wall
Fix repeater body on a wall
Installation exterior antenna & Laying Feeding
Measurement of Receiving Level from Base Station
Connect power supply adapter
Testing
for calling quality
Inspection
Completion
A. Checking the contents
B. Put the repeater at the place where to install it
C. Install Repeater inside at convenient location on a wall
D. Installation exterior antenna & Laying Feeding cables
E. Measurement of receiving level from base station
i.
Connect feeding cable, which has been connected with directional
antenna for base station, with input of spectrum analyzer.
ii.
Set measurement environment of Frequency, Span, BW and Amplitude,
etc of the spectrum analyzer.
iii.
Verify Channel Power value of input signal.
F. Connect to RF Cable
G. Connect power supply adapter
Caution: Should check the input power whether 50~88VAC.(For Remote)
Caution: Should check the input power whether 110~230VAC.(For Donor)
H. Testing for calling qualities
5. User Attention
1) Do not open the case of repeater
2) Do not excessive pressure to Repeater.
3) Please use a rated voltage.
4) The repeater must have been installed considering environmental factor.
6. Troubleshooting
1) The PSU LED
Causes
Action
Power cable of the power supply unit
has not been connected.
Failure of the LED
Check connection of power system
Checking the items of alarm LED
2) The repeater transmits no signal
Causes
Action
Coaxial cable connecting the repeater
Replace coaxial cable or power detector
and measuring system is defective
module
Power
system
of
interior
of
repeater has not been connected.
the Check power connection of module of
interior of the repeater
7. Specifications
7.1 General System Electrical Specifications
Characteristic
Specification
DL: 1930.625 ~ 1989.375MHz
Frequency
UL: 1850.625 ~ 1909.375MHz
Frequency bandwidth
58.75 MHz (DL/UL)
Channel bandwidth and spacing
Applying to CDMA Frequency Assignment
System time delay
5 ㎲_max
Characteristic impedance
50 ohm
7.2 DL Path specifications(Remote)
Remote
Donor
Input power range
-34 ~ -24dBm/total
-3 ~ +7dBm/Total
Gain
61~77dB
-2dB
Gain control step
0.5dB
0.5dB
Maximum output power
43dBm/total
+5dBm/Total
Output VSWR
1.5:1
1.5:1
Ripple
3dB max
2dB max
Remote
Donor
Input Power
-55 dBm max
0dBm max
Gain
+55dB
-25 ~ 0dB
Input VSWR
1.5:1
0.5dB
OIP3
25dBm max
1.5:1
Ripple
3dB max
25dBm max
Remote
Donor
Output/Input connector
7/16 DIN Female
N Female
Input AC power
50~88VAC
110~230VAC
Dimensions (W*H*D)
13.8*31.5*10.6(inch)
482.6*266*400(mm)
Weight
79lbs Max
36lbs max
7.3 UL Path specifications
7.4 Mechanical Specifications
WARNING
Any changes or modifications not expressly approved by the manufacturer could void
the user’s authority to operate the equipment.

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FCC ID Filing: P87JF43E1900CFN03

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