SOLiD 19P85C70L21A Repeater User Manual

SOLiD, Inc. Repeater

Contents

Manual 1

 Confidential & Proprietary                   1/116   SC-DAS SC-DAS Installation and Operation Manual        Document Reference:     Version:  V1.0 Document Status:  Release 1 Issue Date:  April. 11, 2011 Author:  Kyung Eun Han Department:  R&D Division Team 3     Authorizing Manager:       Youngshin Yeo
 Confidential & Proprietary                   2/116   SC-DAS REVISION HISTORY Version  Issue Date  No. of Pages  Initials  Details of Revision Changes V 1.0  April. 11, 2011    Original                                                                          Technical Support SOLiD serial numbers must be available to authorize technical support and/or to establish a return authorization for defective units. The serial numbers are located on the back of the unit, as well as on the box in which they were delivered. Additional support information may be obtained by accessing the SOLiD Tehcnology, Inc. website at www.st.co.kr or send email at sjkim@st.co.kr   This manual is produced by Global Business Division Business Team 1. Printed in Korea.
 Confidential & Proprietary                   3/116   SC-DAS Contents Section1 Safety & Certification Notice..................................................................... 10 Section2 System Overview...................................................................................... 12 2.1 General overview ............................................................................................. 13 2.2 System overview ............................................................................................. 15 Section3 System Specifications............................................................................... 18 3.1 System specifications...................................................................................... 19 3.1.1 Physical Specifications .............................................................................. 19 3.1.2 Optical wavelength and Laser power .......................................................... 20 3.1.3 Environmental specifications...................................................................... 20 3.1.4 Operating Frequencies range ..................................................................... 20 3.1.5 Specifications Per band ............................................................................. 21 Section4 System Configuration and Functions.......................................................... 22 4.1 BIU (BTS Interface Unit).................................................................................. 23 4.1.1 Specifications of BIU ................................................................................. 23 4.1.2 Block diagram of BIU ................................................................................. 24 4.1.3 BIU parts .................................................................................................. 24 4.1.4 Function by unit ........................................................................................ 25 4.1.5 Front/Rear panels of BIU .......................................................................... 29 4.2 ODU (Optic distribution Unit) ........................................................................... 32 4.2.1 Specifications of ODU ............................................................................... 32 4.2.2 Block Diagram of ODU............................................................................... 33 4.2.3 ODU parts................................................................................................. 33 4.2.4 Function by unit ........................................................................................ 34 4.2.5 Front/rear panels of ODU.......................................................................... 35 4.2.6 Interface with BIU ..................................................................................... 37 4.3 OEU (Optic Expansion Unit) ............................................................................. 39 4.3.1 Specifications of OEU................................................................................ 39 4.3.2 Block Diagram of OEU ............................................................................... 40 4.3.3 OEU parts ................................................................................................. 40 4.3.4 Function by unit ........................................................................................ 41 4.3.5 Front/rear panels of OEU .......................................................................... 44 4.4 ROU (Remote Optic Unit) ................................................................................ 45
 Confidential & Proprietary                   4/116   SC-DAS 4.4.1 Specifications of ROU ............................................................................... 45 4.4.2 Block Diagram of ROU............................................................................... 46 4.4.3 ROU parts................................................................................................. 46 4.4.4 Function by unit ........................................................................................ 48 4.4.5 Bottom of ROU ......................................................................................... 50 4.4.6 Top of ROU............................................................................................... 52 Section5 System Installation & Operation................................................................. 53 5.1 BIU Installation ................................................................................................ 54 5.1.1 BIU Shelf Installation ....................................................................................... 54 5.1.2 BIU Power Cabling........................................................................................... 55 5.1.3 RF Interface at BIU ......................................................................................... 58 5.1.4 MDBU insertion ............................................................................................... 62 5.1.5 ODU Interface ................................................................................................. 64 5.1.6 Consumption Power of BIU .............................................................................. 68 5.2 ODU Installation .............................................................................................. 69 5.2.1 ODU Shelf Installation...................................................................................... 69 5.2.2 ODU Power Cabling ......................................................................................... 69 5.2.3 ODU Optic Cabling .......................................................................................... 69 5.2.4 Insert DOU to ODU ......................................................................................... 70 5.2.5 Consumption Power of ODU ............................................................................ 71 5.3 ROU Installation .............................................................................................. 73 5.3.1 ROU Enclosure installation............................................................................... 73 5.3.2 ROU Power Cabling ......................................................................................... 80 5.3.3 Optical Cabling ................................................................................................ 81 5.3.4 GND Terminal Connection................................................................................ 81 5.3.5 Coaxial cable and Antenna Connection............................................................. 82 5.3.6 Information of LED of ROU .............................................................................. 83 5.3.7 Consumption of RDU ....................................................................................... 83 5.4 OEU Installation............................................................................................... 84 5.4.1 OEU Shelf installation...................................................................................... 84 5.4.2 OEU Power Cabling ......................................................................................... 84 5.4.3 OEU Optic Cabling........................................................................................... 86 5.4.4 Insert DOU to OEU.......................................................................................... 87 5.4.5 Consumption Power of OEU............................................................................. 88 Section6 Operation.................................................................................................. 89
 Confidential & Proprietary                   5/116   SC-DAS 6.1 BIU Operation.................................................................................................. 90 6.1.1 BIU ................................................................................................................. 90 6.1.2 TX Operation at BIU ........................................................................................ 90 6.1.3 RX Operation at BIU........................................................................................ 96 6.1.4 Tree window at BIU ......................................................................................... 97 6.1.5 ODU Operation at BIU ..................................................................................... 99 6.2 ROU Operation.............................................................................................. 100 6.2.1 ROU Operation.............................................................................................. 100 6.3 OEU Operation .............................................................................................. 107 6.3.1 OEU Operation .............................................................................................. 107 Section7 Additive functions.................................................................................... 112 7.1 Shutdown function (TX output shutdown)....................................................... 113 7.2 Total Power Limit function (TX Output ALC).................................................. 113 7.3 Output power automatic setting function (TX Output AGC) ............................ 114 7.4 Input power AGC function (TX Input AGC) ..................................................... 114 7.5 Input power limit function (TX Input ALC) ...................................................... 115 7.6 Optical loss compensation ............................................................................. 115
 Confidential & Proprietary                   6/116   SC-DAS Contents of Figure Figure 2.1 – Basic system topology supporting SISO configuration..................... 15 Figure 2.2 – Basic system topology supporting MIMO configuration.................... 16 Figure 2.3 – Expansion system topology supporting SISO configuration .............. 17 Figure 2.4 – Expansion system topology supporting MIMO configuration ............. 17 Figure 4.1 – BIU outer view .............................................................................. 23 Figure 4.2 – BIU block diagram.......................................................................... 24 Figure 4.3 – BIU mounting diagram.................................................................... 24 Figure 4.4 – MDBU Outer Look ......................................................................... 26 Figure 4.5 – MCDU Outer Look......................................................................... 27 Figure 4.6 – MCPU Outer Look ......................................................................... 28 Figure 4.7 – MPSU Outer Look ......................................................................... 29 Figure 4.8 – BIU front panel Outer Look............................................................ 30 Figure 4.9 – Rear panel Outer Look................................................................... 31 Figure 4.10 – ODU Outer Look.......................................................................... 32 Figure 4.11 – ODU block diagram ...................................................................... 33 Figure 4.12 – ODU Inner Look........................................................................... 33 Figure 4.13 – DOU Outer Look.......................................................................... 35 Figure 4.14 – 2Way Divider Outer Look ............................................................. 35 Figure 4.15 – ODU front panel Outer Look ........................................................ 35 Figure 4.16 – ODU Rear panel Outer Look ........................................................ 36 Figure 4.17 – Interface between BIU and ODU .................................................. 37 Figure 4.18 – Interface between BIU and ODU at the back ................................ 37 Figure 4.19 – Interface between BIU and ODU more detail................................. 38
 Confidential & Proprietary                   7/116   SC-DAS Figure 4.20 – OEU Outer Look.......................................................................... 39 Figure 4.21 – OEU block diagram ...................................................................... 40 Figure 4.22 – OEU Inner Look ........................................................................... 40 Figure 4.23 – DOU Outer Look.......................................................................... 41 Figure 4.24 – EWDM Outer Look ....................................................................... 42 Figure 4.25 – ECPU Outer Look........................................................................ 42 Figure 4.26 – ERFM Outer Look........................................................................ 43 Figure 4.27 – EPSU Outer Look ........................................................................ 43 Figure 4.28 – OEU front panel Outer Look......................................................... 44 Figure 4.29 – Rear panel Outer Look................................................................. 44 Figure 4.30 – ROU Outer Look.......................................................................... 45 Figure 4.31 – ROU block diagram ...................................................................... 46 Figure 4.32 – ROU Inner Look........................................................................... 47 Figure 4.33 – PSU Outer Look .......................................................................... 49 Figure 4.34 – ROU Bottom Look ....................................................................... 50 Figure 4.35 – ROU Power Port Look ................................................................. 51 Figure 4.36 – ROU Bottom Look ....................................................................... 52 Figure 5.1 – RACK Installation .......................................................................... 54 Figure 5.2 – Power interface diagrm.................................................................. 55 Figure 5.3 – PSU LED indicator information....................................................... 57 Figure 5.4 – BIU RF interface diagram............................................................... 59 Figure 5.5 – BTS interface directly ................................................................... 60 Figure 5.6 –BDA Interface using Circulator........................................................ 60 Figure 5.7 –BDA Interface using Duplexer ......................................................... 61
 Confidential & Proprietary                   8/116   SC-DAS Figure 5.8 –MDBU LED indicator information..................................................... 63 Figure 5.9 –Interface port between BIU and ODU .............................................. 64 Figure 5.10 –Cabling interface diagram between BIU and ODU ........................... 66 Figure 5.11 – Optical cable of SC/ACP Type .................................................... 70 Figure 5.12 – ODU outlook according to inserted DOUs..................................... 70 Figure 5.13 – Dimension used to install ROU on the WALL................................. 73 Figure 5.14 – ROU installation procedure side by side........................................ 74 Figure 5.15 – ROU installation diagram side by side ........................................... 75 Figure 5.16 – ROU installation procedure for 2layer ........................................... 75 Figure 5.17 – ROU installation diagram for 2layer............................................... 76 Figure 5.18 – ROU installation procedure for vertical rack ................................. 77 Figure 5.19 – ROU installation diagram for vertical rack ..................................... 78 Figure 5.20 – ROU installation procedure for horizontal rack .............................. 79 Figure 5.21 – ROU installation diagram for horizontal rack ................................. 79 Figure 5.22 – ROU Power Port Look ................................................................. 80 Figure 5.23 – ROU optical Port Look................................................................. 81 Figure 5.24 – ROU GND Port Look.................................................................... 82 Figure 5.25 – ROU LED indicator information .................................................... 83 Figure 5.26 – OEU Power interface diagram ...................................................... 85 Figure 5.27 – Optical cable of SC/ACP Type .................................................... 86 Figure 5.28 – OEU outlook according to inserted DOU....................................... 87 Figure 6.1 – SC-DAS Link budget for BIU ......................................................... 90 Figure 6.2 –Inserted MDBU information at BIU .................................................. 92 Figure 6.3 –MDBU menu information at BIU....................................................... 92
 Confidential & Proprietary                   9/116   SC-DAS Figure 6.4 –MDBU naming information at BIU .................................................... 95 Figure 6.5 –MDBU naming information at the tree.............................................. 95 Figure 6.6 –MDBU Module Failure information at BIU......................................... 95 Figure 6.7 –Configuration of BIU-ODU-ROU for basic topology ......................... 97 Figure 6.8 –Configuration of BIU-ODU-ROU for expansion topology .................. 98 Figure 6.9 –Inserted DOU information at BIU..................................................... 99 Figure 6.10 –ODU Menu information.................................................................. 99 Figure 6.11 –SC-DAS Link budget for ROU ..................................................... 100 Figure 6.12 –Optical information at ROU ......................................................... 103 Figure 6.12 –Inserted ROU information at ROU ............................................... 105 Figure 6.13 –ROU Menu information................................................................ 105 Figure 6.14 –ROU softkey information............................................................. 106 Figure 6.15 –SC-DAS Link Budget for OEU..................................................... 107 Figure 6.16 –OEU Optical information ............................................................. 109 Figure 7.1 –Shutdown logic diagram ................................................................ 113 Figure 7.2 –Optical loss information ................................................................ 116
 Confidential & Proprietary                   10/116   SC-DAS  Section1                                 Safety & Certification Notice
 Confidential & Proprietary                   11/116   SC-DAS  “Only  qualified  personnel  are  allowed  to  handle  this  unit.  Read and obey all the warning labels attached in this user manual”      Any personnel involved in installation, operation or service of the SOLiD Technology repeaters must understand and obey the following:  -  Obey all  general  and  regional  installation and  safety regulations  relating to  work  on  high  voltage installations, as well as regulations covering correct use of tools and personal protective equipment.  -  The  power  supply  unit  in  repeaters  contains  dangerous  voltage  level,  which  can  cause  electric shock. Switch the mains off prior to any work in such a repeater. Any local regulations are to be followed when servicing repeaters.  -  The  repeater  cover  should  be  (door)  securely  fastened  in  open position, e.g. by tying it up, at outdoor work in order to prevent door from slamming due to wind causing bodily harm or damage.  -  Use  this  unit  only  for  the  purpose  specified  by  the  manufacturer.  Do  not  carry  out  any modifications or fit any spare parts which are not sold or recommended by the manufacturer. This could cause fires, electric shock or other injuries.    -  Any  repeater,  including  this  repeater,  will  generate  radio  signals  and  thereby  give  rise  to electromagnetic  fields  that  may  be  hazardous  to  the  health  of  any  person  who  is  extensively exposed to the signals at the immediate proximity of the repeater and the repeater antennas.    - Due to power dissipation, repeater may reach a very high temperature. Do not operate this unit on or close to flammable materials.    - Do not use any solvents, chemicals, or cleaning solutions containing alcohol, ammonia, or abrasives.  - Certification   z FCC: This equipment complies with the applicable sections of Title 47 CFR Parts 15,22,24 and 90  z UL/CUL:  This  equipment  complies  with  UL  and  CUL  1950-1  Standard for safety for information technology equipment,including electrical business equipment  z FDA/CDRH:  This  equipment  uses  a  Class  1  LASER  according  to  FDA/CDRH  Rules.This product conforms to all applicable standards of 21 CFR Chapter 1, Subchaper J, Part 1040  -For PLUGGABLE EQUIPMENT, the socket-outlet shall be installed near the equipment and shall be easily accessible.
 Confidential & Proprietary                   12/116   SC-DAS  Section2                                        System Overview            2.1 General overview 2.2 System overview
 Confidential & Proprietary                   13/116   SC-DAS 2.1 General overview SC-DAS is a coverage system for in-building services delivering voice and data in high quality and for seamlessly. As a distributed antenna system, it provides analog and digital  phone  systems  that  are  served  in multiple bands through one antenna. The system covers general public institutions and private facilities. z Shopping malls z Hotels z Campus areas z Airports z Clinics z Subways z Multi-use stadiums, convention centers, etc.  The  system  helps  improve  in-building  radio  environments  in  poor  condition  and  make  better  poor RSSI  and  Ec/Io.  By  providing  communication  services  at  every  corner  of  buildings,  the  system enables users to make a call at any site of buildings.   The system uses both analog (AMPS) and digital (TDMA, CDMA and WCDMA) methods. The SC-DAS system supports communication standards and public interface protocols in worldwide use. z Frequencies: VHF,UHF, 700MHz, 800MHz,850MHz 900MHz,1900MHz,2100MHz, etc.   z Voice protocols: AMPS,TDMA, CDMA,GSM,IDEN, etc. z Data protocols: EDGE,GPRS,WCDMA,CDMA2000,Paging,LTE, etc.  SC-DAS is in modular structure per frequency. To provide desired  frequency  in a  building, all  you need to do is to insert a corresponding frequency module into each unit. As it delivers multiple signals with one optical strand cable, the system, in one-body type, does  not  require  additional  facilities whenever new frequency is added. The system is featured with the following: z Flexibiltiy & Scalabiltiy  Support fiber-optic ports up to 32 or 60(using OEU)  Clustering multiple-buildings (campus) as one coverage z  Modular structures  Modular frequency upgrade  Plug-in type module   z Multi-Band, Single operator
 Confidential & Proprietary                   14/116   SC-DAS  Signals with a plurality of service provider transmit simultaneously      Support multi-operator in a band(Max 2operator)   z Low OPEX / CAPEX  Compact design    Upgradable design    Easy installation and maintenance  Adopt auto ID scheme SC-DAS platform will  serve  two primary segments; the  first will be as a carrier deployed coverage enhancement  product for  their  frequencies only  and the  second is as  a low cost  public  safety and single carrier combination product.
 Confidential & Proprietary                   15/116   SC-DAS  2.2 System overview SC-DAS is composed of devices given below. Basically, the system consists of BIU (BTS Interfcace Unit), ODU (Optic distribution Unit) and ROU (Remote Optic Unit). For addition of more ROUs, it has OEU (Optic Expansion Unit). BIU  has  two  layer  which  supports  both  SISO  and  MIMO  configuration  using  separate  optical  fiber cable. Fig2.1 shows basic system topology for SISO  Figure 2.1 – Basic system topology supporting SISO configuration
 Confidential & Proprietary                   16/116   SC-DAS Figure 2.2 – Basic system topology supporting MIMO configuration As  shown  at  Fig2.1  and  2.2,  one  optical cable  needs  for  SISO  configuration  but  two  optical  cable needs for MIMO cofiguration when it connected with ROU. A site requirement for a SISO application even though more optical cable needs, we can expand more ROUs using MIMO slot up to 64 ROUs   Without addtive BIU for expanding MIMO, it supports both SISO and MIMO configuration usign one BIU. For configuration of MIMO, it needs ODUs for MIMO path only.
 Confidential & Proprietary                   17/116   SC-DAS  To reduce number of optical cables between building or support campus cluster application, we can utilize the OEU(Optical Expansion Unit) Fig 2.3 shows expansion system topology supporting SISO configuration using OEU  Figure 2.3 – Expansion system topology supporting SISO configuration  Figure 2.4 – Expansion system topology supporting MIMO configuration
 Confidential & Proprietary                   18/116   SC-DAS Fig 2.4 shows expansion system topology supporting MIMO configuration using OEU Section3                                       System Specifications            3.1 System specifications 3.1.1 Physical Specifications 3.1.2 Optic wavelength and Laser power 3.1.3 Environmental specifications 3.1.4 Operating Frequencies range 3.1.5 Specifications Per band
 Confidential & Proprietary                   19/116   SC-DAS 3.1 System specifications 3.1.1 Physical Specifications Parameter  BIU  ODU  OEU  MRU  ARU RF Connectors  4 SMA pairs(TX,RX) per MDBU  2 SMA  - 1 N-type 2SMA :optical 2SMA :RF 2SMA :optical 2SMA :RF External  Alarm connector (Dry contacts) TB: 4pcs for output TB: 3pcs for input  -  -  -  - Serial  Interface connector  1 USB(B) type      1 USB(B) type  1 USB(B) type  1 USB(B) type Fiber connector  -  8pcs,  SC/APC  for ROU 1 SC/APC for ODU 8 SC/APC for ROU  1 SC/APC for ODU  - LED Alarm and Status Indicator MDBU Status z Power status z ALM status MCPU   z Power status z TX Comm   z RX Comm z ALM status MPSU z Power status z DC ALM status DOU1 Status z LD status z PD1/2/3/4 status DOU2 Status z LD status z PD1/2/3/4 status EWDM Status z LD status z PD status DOU1 Status z LD status z PD1/2/3/4 status DOU2 Status z LD status z PD1/2/3/4 status System status z Power status z TX1 Comm   z RX1 Comm z TX2 Comm   z RX2 Comm z ALM status System status z Power status z TX Comm   z RX Comm z ALM status z Opt status System status z Power status z TX Comm   z RX Comm z ALM status  AC Power  -  -   Normal  Range:  120VAC 50/60Hz Operating range 108~132VAC,50/60Hz Same left side DC Power Normal  range:  -48 VDC Operating range: -40.8 ~ -57.6VDC Be provided by BIU  Normal: -48 VDC Operating range: -40.8 ~ -57.6VDC Same to left side Power   consumption SISO Mode : 162W (Including  SISO  ODU 4EA) MIMO Mode : 315W (Including  SISO  ODU 4EA+MIMO ODU 4EA)  28W (Including DOU2EA)40W (Including DOU2EA)  50W for dual band  40W for dual band Enclosure Dimensions 482.6(19”)  x 221.5(5U) x 450 482.6(19”)  x 43.6(1U) x 450 482.6(19”)     x 88.1(2U) x 450  300 x 200 x 258  300 x 200 x 258 Weight[Full Load]  26.2Kg  6Kg  9.6Kg  6.6Kg  6.8Kg
 Confidential & Proprietary                   20/116   SC-DAS 3.1.2 Optical wavelength and Laser power Parameter  ODU  OEU  ROU Optical Wavelength TX: 1310nm RX: 1550nm West optic TX: 1550nm,    RX: 1310nm East optic TX: 1310nm,    RX: 1550nm TX: 1550nm RX: 1310nm Output power  1.5dBm±1dBm to ROU,OEU 1dBm±1dBm to ROU 7dBm±1dBm to ODU 7dBm±1dBm to ODU Return loss  <45dB  <45dB  <45dB  3.1.3 Environmental specifications Parameter  BIU, ODU, OEU  ROU/AOR Operating Temperature  -10    to    +50°C  -10 to +50°C Operating Humidity, non condensing  -  5% to 90%  3.1.4 Operating Frequencies range Frequency range Standard    Unit naming  Description TX(MHz)  RX(MHz) iDEN  700PS  Public safety  764 to 776  794 to 806 iDEN  800PS  Public safety  851 to 869  806 to 824 Cellular  850C  Cellular  869 to 894  824 to 849 iDEN  900I  SMR  929 to 940  896 to 902 Paging  900 PA  Paging  929 to 930  896 to 902 PCS  1900P  PCS  1930 to 1995  1850 to 1915 AWS-1  AWS-1  AWS-1  2110 to 2155  1710 to 1755 -  VHF  Public safety  136 to 174  136 to 174 -  Public safety(Band1) 396 to 450 450 to 512 396 to 450 450 to 512  UHF Public safety(Band2) 380 to 434 434 to 496 380 to 434 434 to 496 LTE  700LTE  Long Term Evolution  728 to 756 698 to 716 777 to 787
 Confidential & Proprietary                   21/116   SC-DAS 3.1.5 Specifications Per band SC-DAS has a lot of band combination as application and different  output  power  even though same band uses. TableXX shows Output power level as follow band combination 1) Output power level  Band Combinations MRU  ARU 700PS  700LTE 800PS/I 850C 900I 1900P AWS  VHF  UHF1900P+850C  700LTE+AWS -  24dBm  -  24dBm -  28dBm 28dBm 1900P+AWS  -  -  -  -  -  -  30dBm 30dBm 1900P  900I+800I  -  -  25dBm  -  25dBm 30dBm - 1900P  -  -  -  -  -  -  30dBm - 1900P+850C  700PS+800PS 21dBm  -  21dBm  21dBm -  30dBm - 700PS+800PS  900I+800I  21dBm  -  21dBm    21dBm -  - 24dBm  24dBm2) General Specifications  Parameter  Specifications  Remark TX  25dB/step 1dB  ROU Gain Control range RX  20dB/step 1dB  BIU TX input power  -20dBm~+10dBm   Spurious Emission  < -13dBm   Optical Link AGC  >10dB   VSWR  1.8:1   Pass-band Ripple  4dBp-p   Max optical Loss  5dBo   Optical wavelength  1310nm/1550nm with WDM   RX output power  0dBm   RX input power  -50dBm Max   Noise Figure  < 8dB Excluding  700PS, 800PS
 Confidential & Proprietary                   22/116   SC-DAS  Section4                               System Configuration and Functions            4.1 BIU (BTS Interface Unit)  4.2 ODU (Optic distribution Unit)  4.3 OEU (Optic Expansion Unit  4.4 ROU (Remote Optic Unit)
 Confidential & Proprietary                   23/116   SC-DAS 4.1 BIU (BTS Interface Unit) BIU is provided signals from BTS or BDA through coaxial cable and transmit it to four ODUs (Optic  Distribution  Unit).and  This  unit  separates  RX  signals  given  from  ODUs  from  each other per frequency band.    Figure 4.1 – BIU outer view  4.1.1 Specifications of BIU   Item  Spec.  Remark Size  482.6(19”) x 221.5(5U) x 450  mm Weight  26 Kg Power consumption SISO Mode : 168 W(Including SISO ODU 4EA)MIMO Mode : 315W(Including SISO ODU 4EA+MIMO ODU 4EA) Full Load
 Confidential & Proprietary                   24/116   SC-DAS 4.1.2 Block diagram of BIU  Figure 4.2 – BIU block diagram  4.1.3 BIU parts  Figure 4.3 – BIU mounting diagram  No.  Unit  Description  Remark
 Confidential & Proprietary                   25/116   SC-DAS 1  MDBU Main Drive BTS Unit Amplify & adjust downlink RF signal Amplify & adjust uplink RF signal Max 4EA 2  MCDU Main Com/Div Unit Combine 3EA downlink signal and divide 4EA signal to ODU Combine 4EA uplink signal and divide 3EA signal to MDBU Support VHF/UHF interface port  3  MCPU Main Central Processor Unit Control and monitoring system status Control and monitoring with USB(B) Have an access to upper-level network through GSM or Ethernet  4  MPSU  Main Power Supply Unit Input power: DC -48V, Output power: 9V, 6V   5  M/B Mother Board Provide signal interface and power for each unit Provide four ports for dry contact output Provide three ports for input   Provide two Aux ports for future usage  6  Shelf  19 inch, 5U    4.1.4 Function by unit 1) Main Drive BTS Unit (MDBU) MDBU delivers TX signals of BTS or BDA to related devices and then  delivers  RX  signals  of  the devices  to  BTS  or  BDA.  This  unit  can  monitor  TX  input  level.  Using  input  AGC  function,  it automatically adjusts input ATT according to input power. It also has ATT to adjust RX gain. MDBU is varied per frequency band including the following:
 Confidential & Proprietary                   26/116   SC-DAS   In/out RF Port No  Unit naming  Description TX  RX 1  1900P+850C  Dual Band  4 Port  4 Port 2  700LTE+AWS-1  Dual Band  4 Port  4 Port 3  1900P  Single Band  2 Port  2 Port 4  1900P+AWS-1  Dual Band  4 Port  4 Port 5  700PS+800PS  Dual Band  4 Port  4 Port 6  900I+800I  Dual Band  4 Port  4 Port 7  900I  Dual Band  2 Port  2 Port     Figure 4.4 – MDBU Outer Look  2) Main Com/Div Unit (MCDU) MCDU  combines  TX  signals  that  are  delivered  from  MDBU  per  frequency  band  and  delivers  the signals to four ODUs. It also combines RX signals from up to four ODUs and sends them to up to four MDBUs.The unit has a port to interface with VHF&UHF signals. It has ATT for input monitoring and input control. The unit has reserved port for future usage such as LMU interface, additive MDBU interface and so on
 Confidential & Proprietary                   27/116   SC-DAS    Figure 4.5 – MCDU Outer Look  VHF+UHF    frequency band including the following:  In/out RF Port No  Unit naming  Description TX  RX 1  VHF+UHF  Dual Band  1 Port  1 Port  3) Main Central Processor Unit (MCPU) MCPU can inquire and control state of modules that are installed in BIU. This  unit  can inquire  and  control  state  of  four  ODUs  in  total.  Through  communication,  it  also  can inquire and control ROU that is connected with lower parts. In addition, the unit has USB(B) port for local monitoring so that it can inquire and control state of devices through PC. On the front panel, it has communication LED indicator to check communication state with ROU. It also has ALM LED indicator to show whether a device gets faulty. For access to upper network, it has a port to insert Ethernet port and GSM modem in it.
 Confidential & Proprietary                   28/116   SC-DAS           Figure 4.6 – MCPU Outer Look In the Main Central Processor Unit, a lithium battery is installed for RTC (Real Time Control) function.   CAUTION RISK OF EXPLOSION IF BATTERY IS REPLACED BY AN INCORRECT TYPE DIPOSE OF USED BATTERIES ACCORDING TO THE INSTRUCTIONS [INSTRUCTION] The equipment and accessories including inner lithium battery are to be disposed of safely after the life  span of  them  and  national  regulation must  be observed.  Do not  attempt to  replace the  lithium battery unless service personnel confirmation has first been obtained, to avoid any risk of explosion.
 Confidential & Proprietary                   29/116   SC-DAS    4) Main Power Supply Unit (MPSU) MPSU receives -48V of input and outputs +6V and +9V of DC power. On the front panel, this unit has an output test port and it also has DC ALM LED Indicator to show whether output gets faulty.     Figure 4.7 – MPSU Outer Look  4.1.5 Front/Rear panels of BIU 1) Front panel
 Confidential & Proprietary                   30/116   SC-DAS  Figure 4.8 – BIU front panel Outer Look  Item  Description 1. Alarm LED & Reset  Communication state with devices, alarm status of the system and  reset switch 2. DEBUG (USB B) USB port for communication and diagnosis of devices through PC/laptop This equipment is indoor use and all the communication wirings are limited to inside of the building 3. NMS(Ethernet port)  Ethernet port for upper network The supporting network mode is UDP protocol 4. MDBU LED  LED to show whether MDBU is installed and gets faulty 5. RF Monitor Port  20dB Coupling compared with TX Input Level 20dB Coupling compared with RX Output Level   6. Pwr Test Port & ALM Output DC power test port and ALM LED to show abnormal state, if any 7. Power switch  Power ON/OFF switch
 Confidential & Proprietary                   31/116   SC-DAS  2) Rear panel  Figure 4.9 – Rear panel Outer Look  Item  Description 1. DC Input Port  Input terminal for DC -48V 2. External ALM Port  Input/output terminal for dry contact 3. GND Port  System ground terminal 4. AUX I/O Port  Reserved Port for future uses 5. MIMO ODU I/O Port  RF signal interface terminal for ODU 6. MIMO ODU signal Port  Power and signal interface terminal for ODU 7. MIMO BTS/BDA I/O Port  Input/output interface terminal of BTS/BDA 8. V/UHF I/O Port  RF signal interface terminal of VHF&UHF 9. SISO ODU I/O Port  RF signal interface terminal for ODU 10. SISO ODU signal Port  Power and signal interface terminal for ODU 11. SISO BTS/BDA I/O Port  Input/output interface terminal of BTS/BDA
 Confidential & Proprietary                   32/116   SC-DAS  4.2 ODU (Optic distribution Unit) ODU  receives  TX  RF  signals  from  upper  BIU  and  converts  them  into  optical  signals.  The  optical signals are sent to ROU through optical cables. This unit converts optical signals from ROU into RF signals and sends the converted signals to BIU.   For each shelf of the ODU, up to two DOUs (Donor Optic Unit) can be installed in it. One  DOU  is  supported  with  four  optical  ports.  Therefore,  one  ODU  can  be  connected  with  eight ROUs.   Up to four ODUs can be connected with BIU each SISO and MIMO path   Figure 4.10 – ODU Outer Look  4.2.1 Specifications of ODU Item  Spec.  Remark Size  482.6(19”) x 43.6(1U) x 450  Mm Weight  6 Kg Power consumption  27 W  Full Load
 Confidential & Proprietary                   33/116   SC-DAS 4.2.2 Block Diagram of ODU   Figure 4.11 – ODU block diagram   4.2.3 ODU parts   Figure 4.12 – ODU Inner Look
 Confidential & Proprietary                   34/116   SC-DAS No.  Unit  Description  Remark 1  DOU Donor Optic Unit Convert TX RF signals into optical signals; Convert RX optical signals into RF signals; Provide up to four optical ports per DOU Max 2ea 2  2W 2Way Divider Divide TX RF signals into two; Combine two RX RF signals into one  3  DU  Distribution Unit Distribute power and signals to DOU  4  Shelf  19”  rack, 1U     5  Accessories  25PIN DSUB, Male to female 1pcs RF Coaxial Cable Assembly 2pcs   4.2.4 Function by unit 1) Donor Optic Unit (DOU) DOU operates electronic-optical conversion of TX signals and operates optical-electronic conversion of RX signals. With  an  optic  splitter  in  it,  this  unit  divides  optical  signals  from  Laser  Diode  into  four  and  then distributes them to each optical port. With a total of four Photo Diodes in RX, DOU makes optical-electronic conversion of signals received from each optical port. In addition, the unit is equipped with ATT for optical compensation made in case of optical cable loss. With internal WDM, it uses only one optical cable to be connected with ROU With internal FSK modem, it can be operated automatical ID allocation.
 Confidential & Proprietary                   35/116   SC-DAS  Figure 4.13 – DOU Outer Look 2) 2Way Divider (2W) 2W  is  equipped  with  two  2-way  splitters  in  a  one-module  form  and  the  splitters  work  for  TX/RX signals, respectively. Designed in broadband type, the divider combines and divides signals from/to BIU  Figure 4.14 – 2Way Divider Outer Look  4.2.5 Front/rear panels of ODU 1) Front panel  Figure 4.15 – ODU front panel Outer Look
 Confidential & Proprietary                   36/116   SC-DAS  Item  Description 1,2  LED indicator to check DOU module state to see if it is abnormal  2) Rear panel  Figure 4.16 – ODU Rear panel Outer Look  Item  Description 1. Optic Port  SC/APC optical connector terminal; use one optical cable per ROU. 2. DC I/O Port  Terminal to deliver power and state values   3. RX RF Port  RX RF signal interface terminal 4. TX RF Port  TX RF signal interface terminal
 Confidential & Proprietary                   37/116   SC-DAS 4.2.6 Interface with BIU     SISO Configuration                           MIMO Configuration Figure 4.17 – Interface between BIU and ODU  For SISO configuration, up to four ODUs can be stacked. above the top of BIU For MIMO configuaration, up to eight ODUs can be stacked above/below BIU In this case, it is recommended to stack the units at least 1U of an interval between BIU, for heat from BIU may climb up to ODU, which may cause degration of equipment  Figure 4.18 – Interface between BIU and ODU at the back
 Confidential & Proprietary                   38/116   SC-DAS As seen in the figure below, connect the coaxial cable for TX and another coaxial cable for RX with corresponding ports at the rear of BIU. For power supply and communication, connect 25Pin D-Sub Connector cable with a corresponding port.  Figure 4.19 – Interface between BIU and ODU more detail
 Confidential & Proprietary                   39/116   SC-DAS  4.3 OEU (Optic Expansion Unit) OEU  is  mainly  used  to  remotely  deliver  signals  for  Campus  clusters.  At  the  upper  part,  this  unit combines  with  ODU  and  receives  TX  optical  signals  to  convert  them  into  RF  signals.  Then,  it regenerates the signals to secure SNR and converts them into optical signals. The signals are sent to ROU through optical cables. When it receives RX optical signals from ROU, the unit converts them into RF signals to regenerate the signals and then converts them into optical signals to send them to ODU. In OEU, one shelf can be equipped with up to two DOUs. The DOU is the same as the module used for ODU. Up to four OEUs can be connected with ODU.   Figure 4.20 – OEU Outer Look 4.3.1 Specifications of OEU Item  Spec.  Remark Size  482.6(19”) x 88.1(2U) x 450  mm Weight   9.5 Kg Power consumption  40 W  Full Load
 Confidential & Proprietary                   40/116   SC-DAS 4.3.2 Block Diagram of OEU  Figure 4.21 – OEU block diagram  4.3.3 OEU parts  Figure 4.22 – OEU Inner Look
 Confidential & Proprietary                   41/116   SC-DAS No.  Unit  Description  Remark 1  DOU Donor Optic Unit Convert TX RF signals into optical signals; Convert RX optical signals into RF signals; Provide up to four optical ports per DOU Max 2ea 2  EWDM Expansion Wavelength Division Multiplexer Convert TX optical signals into RF signals; Convert RX RF signals into optical signals; Compensate for optical cable loss with ODU  3  ECPU Expansion Central Processor Unit Control and monitoring system status Control and monitoring with RS232 Relay state values of ROU to BIU  4  EPSU  Expansion Power Supply Unit Input power: DC -48V, Output power: 9V, 6V  5  ERFM Expansion Radio Frequency Module Regenerate TX signals and transmit FSK modem signals; Regenerate RX signals and receive FSK modem signals  6  Shelf  19”  rack, 2U      4.3.4 Function by unit 1) Donor Optic Unit (DOU) DOU is the same as the module used for ODU.  Figure 4.23 – DOU Outer Look
 Confidential & Proprietary                   42/116   SC-DAS  2) Expansion Wavelength Division Multiplexer(EWDM) EWDM  module  makes  optical-electronic  conversion  of  TX  signals  and  makes  electronic-optical conversion of RX signals. With an FSK modem in it, this multiplexer communicates with BIU. It also has ATT for optical compensation to compensate for optical cable loss between ODUs. Furthermore, it has internal WDM, and so, it needs only one optical cable to work with ROU.  Figure 4.24 – EWDM Outer Look 3) Expansion Central Processor Unit(ECPU) ECPU can inquire and control state of modules to be installed into OEU. This unit communicates with upper BIU while communicating with lower ROU. It also acts as communication bridge between BIU and ROU. In  addition,  the  unit  has  USB  port  for  local  communication,  which  enables  inquiry  and  control  of devices thorugh PC. At the front panel, communication LED indicator indicates communication state with upper BIU and lower ROU. It also has ALM LED indicator to show if a device gets faulty.  Figure 4.25 – ECPU Outer Look 4) Expansion Radio Frequency Module(ERFM) ERFM reconstructs Signal to Noise degraded by optical modules.
 Confidential & Proprietary                   43/116   SC-DAS  Figure 4.26 – ERFM Outer Look  5) Expansion Power Supply Unit(EPSU) As DC/DC Converter, EPSU receives -48V of input and provides +9V and +6V of DC power required for OEU.  Figure 4.27 – EPSU Outer Look
 Confidential & Proprietary                   44/116   SC-DAS 4.3.5 Front/rear panels of OEU 1) Front panel  Figure 4.28 – OEU front panel Outer Look  Item  Description 1.EWDM LED  LED indicator to check EWDM state to see if it is abnormal 2.DOU LED  LED indicator to check DOU module state to see if it is abnormal 3.System LED and Reset  Communication state with devices, alarm status of the system and  reset switch 4. NMS(USB Port) USB port for communication and diagnosis of devices through PC/laptop. This equipment is indoor use and all the communication wirings are limited to inside of the building  2) Rear panel  Figure 4.29 – Rear panel Outer Look  Item  Description 1. GND Port  Terminal for system ground 2. DC Input Port  Input terminal for DC -48V 3.power switch  Power ON/OFF switch 4. To/From ODU Optic Port  SC/APC optical connector terminal 5. To/From ROU Optic Port  SC/APC optical connector terminal; use one optical cable per ROU.

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