SOLiD 850C700PS RDU MODULE(850C/700PS) User Manual 2 2

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Document ID	1087183
Application ID	iX7vOGfdl6horh+bMSbWxA==
Document Description	Users Manual 2 2
Short Term Confidential	No
Permanent Confidential	No
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Document Type	User Manual
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Filesize	152.8kB (1909978 bits)
Date Submitted	2009-03-27 00:00:00
Date Available	2009-03-27 00:00:00
Creation Date	2009-03-16 23:06:10
Producing Software	Acrobat Distiller 7.0.5 (Windows)
Document Lastmod	2009-03-16 23:06:21
Document Title	Microsoft Word - SMDR-NH124 manual_installation & operation_01.doc
Document Creator	PScript5.dll Version 5.2.2
Document Author:	Hong

3) Remote Optic(R OPTIC)
Remote Optic converts optical signals into RF signals and performs vice versa. With an FSK
modem in it, the unit communicates with upper devices.
It also has internal ATT for optical compensation to compensate for optical cable loss, if any.
Figure 4.28 – R OPTIC Outer Look
4) Remote Central Processor Unit (RCPU)
RCPU can monitor and control each module of ROU. This unit receives and analyzes upper
communication data from Remote Optic and reports the unit's own value to upper devices. At
the front of the module, it has LED indicator to show system status, letting you check any
abnormalities at a time. At the same front, it also has communication LED Indicators to show
communication status with upper devices. Through RS-232C Serial Port, the unit enables you to
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check and control device status through PC and laptop. This equipment is indoor use and all the
communication wirings are limited to inside of the building.
Figure 4.29 – RCPU Outer Look
5) Multiplexer
Multiplexer works as a module to combine or distribute multiple signals into one antenna.
This device has a port to combine multiple signals. You need to connect input and output ports
of RDU through a corresponding port.
Figure 4.30 – Multiplexer Outer Look
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6) System Interface Unit(SIU)
SIU distributes power and signals to each module.
4.4.5
Bottom of ROU
1) Functions
Figure 4.31 – ROU Bottom Look
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Item
Description
1. VHF/UHF TX/RX Port
Terminal for TX and RX antenna ports of VHF and UHF
2.Antenna Port
System Antenna Port, N-type female
3. Power Port
AC 120V input port or DC-48V input port
4. Optic Port
Optical input port
5.External Port
Port for external devices
6.GND LUG PORT
Terminal for system ground
Remark
POWER PORT
Power ports are used for power-supplying of -48V DC or 120V AC, and specific power
cable should be applied to each different types of ROU power supply (AC/DC or
DC/DC). Below figure is naming of the power supply by type.
Exteral PORT
External ports are reserved ports for external equipments for future implementation,
and used to monitor the status and control the equipments.
Below figure is naming of the external ports.
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Section5
System Installation & Operation
5.1 BIU Installation
5.2 ODU Installation
5.3 ROU Installation
5.4 OEU Installation
5.5 System Operation and Alarm Status
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This chapter describes how to install each unit and optical cables, along with power cabling
method.
In detail, the chapter describes how to install shelves or enclosuers of each unit, Power Cabling
method and Optic Cabling and RF Interface. Furthermore, by showing power consumption of
modules to be installed in each unit, it presents Power Cabling budget in a simple way. Then, it
describes the quantity of components of modules to be installed in each unit and expansion
method.
5.1
BIU Installation
5.1.1
BIU Shelf Installation
Generally, BIU is inserted into a 19” Standard Rack. As this unit has handles at each side for
easy move. With two fixing holes at each side, you can tightly fix the unit into a 19” rack.
Figure 5.1 – RACK Installation
BIU has the following components:
No.
Common Part
Optional Part
Unit
Description
Remark
Shelf
Including Main Board, 19”,5U
1EA
MCDU
1EA
MCPU
With Ethernet Port and RS-232 Port
1EA
MPSU
Operate -48Vdc Input
1EA
Power Cable
-48Vdc Input with two lug terminal
1EA
MDBU
800PS,800PS+900I+Paging,850C,850C+700P
S, 1900P, AWS-1 MDBU
Up to 4EA
to
be
inserted
Basically, the common part of BIU should have shelves and it should be equipped with MCDU
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to combine and divide TX/RX signals, MPSU to supply devices with power, MCPU to inquire
and control state of each module and Power Cable to supply power from external rectifiers.
In addition, MDBU can be inserted and removed to provide services for desired band (Optional).
5.1.2
BIU Power Cabling
BIU has -48V of input power. This unit should connect DC cable with the Terminal Block seen at
the rear of BIU.
Terminal
Color of cable
Description
-48V
Blue color
GND
Black color
Not Connected
NC
Remark
Before connecting the power terminal, you need to connect "+" terminal of Multi Voltage Meter
probe with the GND terminal and then connect "–" terminal with -48V to see if “-48Vdc” voltage
is measured. After the check, you need to connect the power terminal with the terminal of the
terminal block seen below.
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Note that BIU does not operate if the "+" terminal and the "–" terminal of the -48V power
are not inserted into the accurate polarity.
When you connect -48V power with BIU, use the ON/OFF switch of MPSU located at the front
of BIU to check the power.
Power Switch
LED
Abnormal, Not supply Power -48Vdc
ON
Normal supply power -48Vdc
DC ALM
5.1.3
Description
ON
DC ALM
Normal Status
Failure of output Power
Normal Status
RF Interface at BIU
BIU can be connected with Bi-Directional Amplifier and Base Station Tranceiver.
To connect BIU with BDA, you need to use a duplexer or a circulator to separate TX/RX signals
from each other.
BIU can feed external TX/RX signals from the Back Plane.
Using MDBU separated from each carrier band, BIU can easily expand and interface with bands.
As seen in the table below, MDBU is divided into Single and Dual Bands. The unit can be
connected with two to four carrier signals per band. At the rear, #1~4 marks are seen in order
per MDBU. The following table shows signals to be fed to corresponding ports:
No
Unit naming
Description
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In/out RF Port
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TX
800PS
RX
800PS
Port #1
TX(851~869MHz)
800PS MDBU
RX(806~824MHz)
Single Band
800PS
800PS
Port#2
TX(851~869MHz)
RX(806~824MHz)
850C
Port #3
850C TX(869~894MHz)
RX(824~849MHz)
850C MDBU
Single Band
850C
Port#4
850C TX(869~894MHz)
RX(824~849MHz)
1900P
1900P
TX(1930~1995MHz)
RX(1850~1915MHz)
1900P
1900P
TX(1930~1995MHz)
RX(1850~1915MHz)
1900P
1900P
TX(1930~1995MHz)
RX(1850~1915MHz)
1900P
1900P
TX(1930~1995MHz)
RX(1850~1915MHz)
AWS-1
AWS-1
TX(2110~2155MHz)
RX(1710~1755MHz)
AWS-1
AWS-1
TX(2110~2155MHz)
RX(1710~1755MHz)
AWS-1
AWS-1
TX(2110~2155MHz)
RX(1710~1755MHz)
AWS-1
AWS-1
TX(2110~2155MHz)
RX(1710~1755MHz)
800PS
800PS
TX(851~869MHz)
RX(806~869MHz)
800PS
800PS
TX(851~869MHz)
RX(806~869MHz)
Paging
Paging
TX(929~932MHz)
RX(896~902MHz)
Port#1
Port#2
1900P MDBU
Single Band
Port#3
Port#4
Port#1
Port#2
AWS-1 MDBU
Single Band
Port#3
Port#4
800PS+900I+PA
Dual Band
Port#1
MDBU
800PS:2Port
900I:1Port
Paging:1Port
Port#2
Port#3
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Port#4
900I TX(929~941MHz)
900I RX(896~902MHz)
700PS
700PS
TX(764~776MHz)
RX(794~806MHz)
700PS
700PS
TX(764~776MHz)
RX(794~806MHz)
Port#3
850C TX(869~894MHz)
850C RX(824~849MHz)
Port#4
850C TX(869~894MHz)
850C RX(824~849MHz)
Port#1
Dual Band
850C+700PS
700PS:2Port
Port#2
MDBU
850C:2Port
At the rear of BIU, input and output ports are seen for each MDBU. The name of all the ports
are silk printed as "#1, #2, #3 and #4." Referring to the table above, you need to feed right
signals to input and output ports of corresponding MDBU.
For each port, TX signals and RX signals are separated from each other. You don't have to
terminate unused ports unless you want to.
BIU interface with Base station Transceiver
Basically, BIU has different TX and RX ports, and so, you have only to connect input
and output ports.
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Through spectrum, you need to check signals sent from BTS TX. If the signals exceed
input range (-20dBm~+10dBm), you can connect an attenuator ahead of the input port
to put the signals in the input range.
BIU interface with Bi-Directional Amplifier
Basically, BIU is in Simplexer type; when you use BDA, you need to separate BDA
signals from TX and RX type.
Using a duplexer or a circulator, you can separate TX/RX signals of an external device
from each other.
Figure 5.2 – 800PS BDA Interface using Circulator
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Figure 5.3 – 800PS BDA Interface using Duplexer
BIU interfaces with BDA in either of the methods above. In this case, you need to
check TX input range as well.
Given the TX input range (-20dBm~+10dBm/Total per port), make sure to see if the
value is in the input range, using Spectrum Analyzer, when you connect input ports.
5.1.4
MDBU insertion
MDBU is designed to let a MDBU inserted into any slot.
BIU can be equipped with a total of four MDBUs. If only one MDBU is inserted into a
slot with the other slots reserved, you need to insert BLANK cards into the other slots.
If you do not terminate input and output ports of MCDU, which combines TX signals and
divides RX signals, it will cause loss and generation of spurious signals at the other party's band.
Given this, make sure to insert MDBU BLANK into slots of MDBU.
When MDBU is inserted into BIU, LED at the front panel will show the following information:
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LED
Description
Power is not supplied.
ON
Power is supplied.
Normal Operation
ALM
Abnormal Operation
MONITOR SMA port seen at the front panel of MDBU enables you to check current
level of TX input and RX output signals in current service without affecting main signals.
TX MON is -20dB compared with TX Input power and RX MON is -20dB as well
compared with RX Output power.
5.1.5
ODU Interface
BIU supports up to four ODUs. At the rear of BIU, eight RF input and output ports for
ODU and four power ports for power supply and communication are provided. At BIU,
you can check installation information of ODU.
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At the rear part of ODU, the number of RF Ports and Signal Ports are printed in order.
Therefore, you need to be careful in case of expansion of ODU.
RF Port
ODU Numbering
Signal Port
TX
RX
ODU 1
#1
ODU-1
ODU 2
#2
ODU-2
ODU 3
#3
ODU-3
ODU 4
#4
ODU-4
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If ODU is not connected in the right order, related devices may fail to communicate with
each other or the unit may read wrong information. Given this, you need to connect the unit with
accurate RF Port and Signal Port in a corresponding number.
For unused RF Ports for ODU expansion, make sure to terminate them using SMA Term.
When you put ODU on the top of BIU, it is recommended to install the unit at least 1U
apart from BIU. Heat from BIU climbes up to reach ODU.
5.1.6
Consumption Power of BIU
The table below shows power consumption of BIU:
Part
Unit
Consumption Power
Remark
Shelf
Common Part
MCDU
7.5 W
MCPU
MPSU
MDBU
MDBU 800PS
12W
MDBU 800PS+900I+Paging
20W
MDBU 850C
12W
MDBU 850C+700PS
19W
MDBU 1900P
20W
MDBU AWS-1
12W
BIU supplies power for ODU. Therefore, when you want to calculate total power consumption of
BIU, you need to add power consumption of ODU to the total value.
Power consumption of ODU is given in the later paragraph describing ODU.
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