Comba Telecom COMFLEX-6Q00 Booster User Manual

Comba Telecom Ltd. Booster Users Manual

Users Manual

USER MANUAL FOR COMFLEX-6Q00 5W         COMFLEX-6Q00 5W COMFLEX SERIES DISTRIBUTED ANTENNA SYSTEM  USER MANUAL COMFLEX-6Q00 5W QE 1-0-1   编  制:  _ _  林怀佳  __ 审  核:   __  曹  松  __  会  签:  ___ 周  明__ _ 标准化:___  许  婷____ 批  准:  _ __付俊涛__ _   京信通信系统(中国)有限公司
USER MANUAL FOR COMFLEX-6Q00 5W          文件历史记录  文件编号 COMFLEX-6Q00 5W QE 文件标题 COMFLEX SERIES DISTRIBUTED ANTENNA SYSTEM MANUAL 文件履历 版本 编制 日期 更改内容(条款) A  林怀佳  2018-06-21 首次发行
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 3      DISTRIBUTED ANTENNA SYSTEM USER MANUAL ComFlex-6Q00 5W QE: 1-0-1            Comba Telecom Inc. ComFlex-6Q00 5W
USER MANUAL FOR COMFLEX-6Q00 5W   The information contained herein is the responsibility of and is approved by the following, to whom all enquiries should be directed in the first instance:  This is an unpublished work the copyright in which vests in Comba International ("Comba"). All rights reserved.  The information contained herein is confidential and the property of Comba and is supplied without liability for errors or  omissions. No part may be reproduced, disclosed or used except as authorised by contract or other written permission. The copyright and the foregoing restriction on reproduction and use extend to all media in which the information may be embodied.
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 3  0.1   CONTENTS  Section Page 0.1 CONTENTS .............................................................................................................................................................. 3 0.2 INDEX TO FIGURES AND TABLES ............................................................................................................................ 4 0.3 HISTORY .................................................................................................................................................................. 6 0.4 GLOSSARY OF TERMS ............................................................................................................................................. 7 0.5 SAFETY NOTICES AND ADMONISHMENTS ............................................................................................................ 8 1 GENERAL INFORMATION ............................................................................................................................ 10 2 EQUIPMENT DESCRIPTION .......................................................................................................................... 12 2.1 SYSTEM DIAGRAM ............................................................................................................................................... 12 2.2 TYPICAL APPLICATION ......................................................................................................................................... 12 2.3 EQUIPMENT CONSTITUTION ............................................................................................................................... 13 2.4 KIT OF PART .......................................................................................................................................................... 14 3 INSTALLATION ............................................................................................................................................ 16 3.1 WARNINGS AND ALERTS ...................................................................................................................................... 16 3.2 SITE PLANNING CONSIDERATIONS ...................................................................................................................... 17 3.3 INSTALLATION PROCEDURES............................................................................................................................... 18 3.4 EQUIPMENT CONNECTORS ................................................................................................................................. 29 3.5 EQUIPMENT CONNECTION ................................................................................................................................... 32 4 COMMISSIONING ....................................................................................................................................... 36 4.1 PRE-COMMISSIONING TASKS .............................................................................................................................. 36 4.2 LED INDICATORS .................................................................................................................................................. 37 4.3 DIGITAL DISPLAY INDICATORS ............................................................................................................................. 37 4.3.1 DIGITAL DISPLAY ON RFU ................................................................................................................................ 37 4.3.2 DIGITAL DISPLAY ON FOU ............................................................................................................................... 38 5 WEB GUI ..................................................................................................................................................... 39 5.1 WEB GUI CONNECTION........................................................................................................................................ 39 5.2 WEB GUI INTRODUCTION .................................................................................................................................... 40 5.2.1 [HOME] ............................................................................................................................................................ 41 5.2.2 [AUTO SETUP].................................................................................................................................................. 44 5.2.3 [FUNCTION] ..................................................................................................................................................... 45 5.3 COMMISSIONING PROCEDURE ........................................................................................................................... 55 6 ALARMS AND TROUBLESHOOTING ............................................................................................................. 62 6.1 ALARMS ................................................................................................................................................................ 62 6.2 TROUBLESHOOTING ............................................................................................................................................ 64 7 APPENDICES ............................................................................................................................................... 66 7.1 APPENDIX A: TOOLS FOR INSTALLATION AND MAINTENANCE ......................................................................... 66 7.2 APPENDIX B: RMA (RETURN MATERIAL AUTHORIZATION) ............................................................................... 67
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 4  0.2  INDEX TO FIGURES AND TABLES Figure 1: Master Unit (MU) ............................................................................................................................................ 10 Figure 2: Remote Unit (RU) ........................................................................................................................................... 11 Figure 3: System Diagram ............................................................................................................................................. 12 Figure 4: Typiccal SISO Application ............................................................................................................................ 12 Figure 5: ComFlex Master Unit ..................................................................................................................................... 19 Figure 6: RF Unit Installation ......................................................................................................................................... 19 Figure 7: FOU Installation .............................................................................................................................................. 20 Figure 8: PSU Installation .............................................................................................................................................. 20 Figure 9: Backup PSU Installation 1 ............................................................................................................................ 21 Figure 10: Mounting Rack .............................................................................................................................................. 22 Figure 11: Angle Iron Installation.................................................................................................................................. 22 Figure 12: MU Installation .............................................................................................................................................. 23 Figure 13: Secure the Enclosure .................................................................................................................................. 23 Figure 14: Finish Installaiton ......................................................................................................................................... 24 Figure 15: Wall Drilling Dimensions of MRU ............................................................................................................. 25 Figure 16:  Install Mounting Rack on the Wall ........................................................................................................... 25 Figure 17: Hang RU onto the Mounting Rack ........................................................................................................... 26 Figure 18: Tighten the Screws at the Bottom of RU ................................................................................................ 26 Figure 19: Tighten Two Hexagon Screws .................................................................................................................. 27 Figure 20: Install PSU on RU ........................................................................................................................................ 27 Figure 21: Wall Drilling Dimensions of PSU .............................................................................................................. 28 Figure 22: Install PSU on the Wall ............................................................................................................................... 28 Figure 23: MU Front Panel Connectors ...................................................................................................................... 29 Figure 24: MU Rear Panel Connectors ....................................................................................................................... 29 Figure 25: 4.3-10 Female Dimension .......................................................................................................................... 30 Figure 26: RU Connectors ............................................................................................................................................. 31 Figure 27: MU Grounding (MU Rear Panel) .............................................................................................................. 32 Figure 28: RU Grounding ............................................................................................................................................... 33 Figure 29: Fiber Optical and RF Port Connection .................................................................................................... 33 Figure 30: MU Power Connection (Rear Panel) ....................................................................................................... 34 Figure 31:  RU Fiber Optical and RF Port Connection ............................................................................................ 34 Figure 32: PSU Power Port Connection ..................................................................................................................... 35 Figure 33:  Pins Allocation for “EXT_ALM” Port for RU .......................................................................................... 35 Figure 34: Pins Allocation for “BTS_ALM” Port......................................................................................................... 36 Figure 35: RFU Digital Display...................................................................................................................................... 37 Figure 36: Optical Port No. and Digital Display......................................................................................................... 38 Figure 37: PC IP Address Setting ................................................................................................................................ 39 Figure 38: Input IP Address ........................................................................................................................................... 39 Figure 39: Input User Name and Password............................................................................................................... 40 Figure 40: Web GUI Main Screen ................................................................................................................................ 40 Figure 41: [Devices] Sceen............................................................................................................................................ 41 Figure 42: MU Device - Monitoring Unit...................................................................................................................... 41 Figure 43: MU Device - Optical Unit ............................................................................................................................ 42 Figure 44: MU Device - RF Unit ................................................................................................................................... 42 Figure 45: RU Device ...................................................................................................................................................... 43 Figure 46: RU Device – 2500MHz ............................................................................................................................... 44 Figure 47: [Auto Setup] Screen .................................................................................................................................... 44 Figure 48: Function - Device Info. ................................................................................................................................ 45 Figure 49: Function - Import&Export ........................................................................................................................... 46 Figure 50: Function - Summary .................................................................................................................................... 47 Figure 51: Function - Comm. Setting (SNMP) .......................................................................................................... 47 Figure 52: Function - Comm. Setting (UDP) .............................................................................................................. 48 Figure 53: Function - IP Setting .................................................................................................................................... 48 Figure 54: Function - Scan ............................................................................................................................................ 50
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 5  Figure 55: Function – After Scan.................................................................................................................................. 50 Figure 56: Function - Device Remove......................................................................................................................... 51 Figure 57: Function - New Site Report ........................................................................................................................ 52 Figure 58: Function - PA Reset .................................................................................................................................... 52 Figure 59: Function - Device Reset ............................................................................................................................. 53 Figure 60: Function - Clear History Alarm .................................................................................................................. 53 Figure 61: Function - Firmware..................................................................................................................................... 54 Figure 62: Function – Alarm Log .................................................................................................................................. 54 Figure 63: Function – WebOMT Setting ..................................................................................................................... 55 Figure 64: Commissioning Procedure - Start ............................................................................................................ 55 Figure 65: Commissioning Procedure - Device Scan .............................................................................................. 56 Figure 66: Commissioning Procedure – 2500 TDD working mode setting ......................................................... 56 Figure 67: Commissioning Procedure - Params Setting......................................................................................... 57 Figure 68: Flow to select ................................................................................................................................................ 57 Figure 69: Calibration – 2500 TDD Band Certer Freq ............................................................................................. 58 Figure 70: Commissioning Procedure - Calibration ................................................................................................. 59 Figure 71: Commissioning Procedure – MU Setup .................................................................................................. 60 Figure 72: Commissioning Procedure – RU Setup .................................................................................................. 60             Table 1: MU Components .............................................................................................................................................. 13 Table 2: RU Components............................................................................................................................................... 13 Table 3: Master Unit (MU) KOP .................................................................................................................................... 14 Table 4: Remote Unit (RU) KOP .................................................................................................................................. 15 Table 5: MU Connections............................................................................................................................................... 30 Table 6: RU Connections ............................................................................................................................................... 31 Table 7: Pin Definition of “EXT_ALM” Port for RU ................................................................................................... 35 Table 8: Pin Definition of “BTS_ALM” Port ................................................................................................................ 36 Table 9: MU LED Indications......................................................................................................................................... 37 Table 10: RU LED Indications ....................................................................................................................................... 37 Table 11: RFU Digital Display ....................................................................................................................................... 38 Table 12: FOU Digital Display ....................................................................................................................................... 38 Table 13: Import/Export Parameters ........................................................................................................................... 46 Table 14: MU Alarm List ................................................................................................................................................. 62 Table 15: RU Alarm List ................................................................................................................................................. 63 Table 16: MU Alarms Diagnosis ................................................................................................................................... 64 Table 17: RU Alarms Diagnosis ................................................................................................................................... 65
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 6  0.3  HISTORY  Change No. ENU Details of Change  1 1-0-0 Initial released in Jun 2018. 2 1-0-1 Deleted MIMO related description.
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 7  0.4  GLOSSARY OF TERMS ALC   Automatic Level Control ATT   Attenuation   BDA Bi-direction Amplifier BS   Base Station   BTS   Base Transceiver Station   DL   Downlink   DT  Donor Terminal   FOU Fiber Optical Unit GUI Graphic User Interface ID   Identification LNA   Low Noise Amplifier   MCU   Main Control Unit MT   Mobile Terminal   MTBF   Mean Time Between Failures   MU Master Unit NC   Normally Closed   NF   Noise Figure   NO   Normally Open   OMC   Operation & Maintenance Center   OMT   Operation & Maintenance Terminal   OP Optical Fiber OPEX OperatingExpense PA  Power Amplifier   PIM Passive Inter Modulation PLL   Phase Locked Loop   POI Point of Interconnects PSU   Power Supply Unit   RF  Radio Frequency   RFU  Radio Frequency Unit  RU Remote Unit SMA   Sub-Miniature “A” Connector TX/RX Transmit/Receive UL   Uplink   VAC   Volts Alternating Current   VSWR   Voltage Standing Wave Ratio   WCDMA Wideband Code Division Multiple Access
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 8  0.5   SAFETY NOTICES AND ADMONISHMENTS This  document  contains  safety  notices  in  accordance  with  appropriate  standards.  In  the  interests  of conformity with the territory standards for the country concerned, the equivalent territorial admonishments are also shown.  Any installation, adjustment, maintenance and repair of the equipment must only be carried out by trained, authorized personnel. At all times, personnel must comply with any safety notices and instructions.  Specific hazards are indicated by symbol labels on or near the affected parts of the equipment. The labels conform  to  international  standards,  are  triangular  in  shape,  and  are  coloured  black  on  a  yellow background. An informative text label may accompany the symbol label.  Hazard labeling is supplemented by safety notices in the appropriate equipment manual. These notices contain additional information on the nature of the hazard and may also specify precautions.   Warning: These draw the attention of personnel to hazards that may cause death or injury to the operator or others. Examples of use are cases of high voltage, laser emission, toxic substances, point of high temperature, etc.  The  design  of  the  antenna  installation  needs  to  be  implemented  in  such  a  way  so  as  to  ensure  RF radiation safety levels and non-environmental pollution during operation.  Note:  Antennas,  feeders  and  couplers  are  not  included  in  the  packing  list;  solution  provider  should consider these accessories according to site conditions.  WARNING! Antenna gain should not exceed 12.5 dBi.  WARNING! This is NOT a CONSUMER device. It is designed for installation by FCC LICENSEES and QUALIFIED INSTALLERS. You MUST have an FCC LICENSE or express consent of an FCC Licensee to operate this device. Unauthorized use may result in significant forfeiture penalties, including penalties in excess of $100,000 for each continuing violation.   Note: The  grantee  is  not  responsible  for  any  changes  or  modifications  not  expressly approved by  the party  responsible  for  compliance.  Such  modifications  could  void  the  user’s  authority  to  operate  the equipment.   To  comply  with  FCC  RF  exposure  compliance  requirements,  each  individual  antenna  used  for  this transmitter must be  installed  to  provide  a  separation  distance greater  than  94.562cm or more  from all persons  during  normal  operation  and  must  not  be  co-located  with  any  other  antenna  for  meeting  RF exposure requirements.   Alert: These draw the attention of personnel to hazards that may cause damage to the equipment. An example of use is the case of static electricity hazard.  Caution notices may also be used in the handbook to draw attention to matters that do not constitute a risk  of  causing  damage  to  the  equipment  but  where  there  is  a  possibility  of  seriously  impairing  its performance, e.g. by mishandling or gross maladjustment. Warnings and Cautions within the main text do not incorporate labels and may be in shortened form.
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 9  WARNING!  Use only authorized and approved antennas, cables and/or coupling devices! The use of unapproved antennas, cables or coupling devices could cause damage and may be of violation of FCC regulations. The use of unapproved antennas, cables and/or coupling devices is illegal under FCC regulations and may subject the user to fines.     End of Section
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 10  1  GENERAL INFORMATION The ComFlex-6Q00 Series Distributed Antenna System (hereinafter called “ComFlex”) consists of Master Unit  (MU)  and Remote  Unit  (RU). The  MU  includes the  MU  Chassis,  Power  Supply  Unit  (PSU),  Fiber Optical Unit (FOU) and RF Unit (RFU). With a modular  design, it can support up to 8  independent RF inputs and 8 Remote Units. The Remote Unit is designed with a compact and slim form factor for easy installation;  it  is  an  integrated  design  which  supports  3  bands,  including  600MHz,  WCS  and  TDD 2500MHz bands. The low signal transmission loss of optical fiber is applicable for long distance transmission. ComFlex can support the optical transmission of up to 6.5dBo optical loss, equivalent to 8 miles fiber length.   Main feature:    Industry’s first DAS system with superior PIM performance 4.3-10 RF connectors  Modular Master Unit supports flexible field upgrade and maintenance  Independent gain control for each RF source  High MTBF and low noise design with modular PSU and convection cooling  RF module supports both simplex and duplex  Compact, slim Remote Unit for OPEX saving  Supports multi-operator and mixed mode applications  Optical link auto gain control  Web based GUI for intelligent commissioning and configuration  The figures below show the ComFlex Master and Remote unit enclosure.    Figure 1: Master Unit (MU)
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 11    Figure 2: Remote Unit (RU)     End of Section
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 12  2  EQUIPMENT DESCRIPTION 2.1  SYSTEM DIAGRAM  Figure 3: System Diagram  On  the  DL,  signals  from  the  BTSs  or  BDA  are  converted  into  optical  signals  after  amplification  in  the MU.Then the optical signals are transmitted to the RU via optical fiber. The Optical TX/RX Module of RU converts the DL optical signals into RF signals. After amplification, the signals are transmitted at the MT port to the service antenna.   On the UL, the signals transmitted by the mobile are converted into optical signals, and then via the UL optical fiber, the signals are transmitted to MU, which then converts the optical signals back to RF signals.   2.2  TYPICAL APPLICATION Shown below are the typical SISO applications of MU and RUs.    Figure 4: Typiccal SISO Application
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 13  2.3  EQUIPMENT CONSTITUTION MU consists of the following parts:  Table 1: MU Components Module  Description MU01-RACK Master Unit Chassis includes eight slots for RF Unit, two slots for Fiber Optical Unit, and one slot for Power Supply Unit. MU01-PSU iDAS Master Unit Power Supply Unit (PSU) converts the input voltage into stable DC to supply power for other modules of Master Unit. MU01-FOU Master Unit Fiber Optical Unit (FOU) completes optical signal and RF signal conversion. One FOU has four optical ports, which means each FOU can support up to four RUs. MU01-RFU Master Unit RF Unit completes separation and combination of uplink and downlink signal with independent gain control, supports either simplex or duplex.  RU consists of the following parts:   Table 2: RU Components Module  Description MRU01-6Q00 Medium Power Remote Unit (5W); A compact and slim design which supports 3 bands, including 600MHz, WCS and TDD 2500MHz bands. LRU01-PSU Remote Unit Power Supply Unit (PSU) converts the input AC voltage into stable DC, to supply power for Remote Unit. It can be installed on RU or on wall beside RU.
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 14  2.4  KIT OF PART Table 3: Master Unit (MU) KOP Item  Qty  Image MU Chassis  1  RF Unit (RFU)  1~8  Fiber Optical Unit (FOU)  1~2  Power Supply Unit (PSU)  1  Power Supply Cable (13 Feet 1 inch)  1  Communication Cable  1  Right Angle  Bracket (for MU 19“rack mounting)  1   Left Angle  Bracket (for MU 19“ rack mounting)  1
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 15  Table 4: Remote Unit (RU) KOP Item  Qty  Image Remote Unit  1  RU Power Supply Unit (with1 foot 9 inches. DC cable and 13 feet 1 inch AC cable ) 1  Mounting Rack (for RU wall mounting)  1  Masonry Bolt (set) M8x80  ( for RU concrete wall mounting)  4  Masonry Bolt (set) M8x80  (for PSU concrete wall mounting)  2  Nuts M6x10, Spring Washers Φ6, Plain Washers Φ6 (for PSU mounting on RU) 2 pieces each  Nuts M6x10, Spring Washers Φ6, Plain Washers Φ6 (for RU grounding) 4 pieces each  GND Cable (for RU grounding)  2     End of Section
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 16  3  INSTALLATION 3.1  WARNINGS AND ALERTS Laser   Laser light can cause damage to eyes. Laser light is not visible. Viewing it directly does not cause pain. The iris of the eye will not close when viewing a bright light. Consequently, serious damage to the retina of  the  eye  is  possible.  NEVER  LOOK  INTO  THE  END  OF  A  FIBER  WHICH  MAY  HAVE  A  LASER COUPLED TO IT.    Radio Frequency Energies  There may be situations, particularly for workplace environments near high-powered RF sources, where recommended limits for safe exposure of human beings to RF energy could be exceeded. In such cases, restrictive measures or actions may be necessary to ensure the safe use of RF energy.   High Voltage  The equipment has been designed and constructed to prevent practicable danger, as far as reasonably possible. Any work activity on or near equipment involving installation, operation or maintenance must be free from danger, as far as reasonably possible.   Where there is a risk of damage to electrical systems involving adverse weather, extreme temperatures, wet,  corrosive  or  dirty  conditions,  flammable  or  explosive  atmospheres,  the  system  must  be  suitably installed to prevent danger.   Protective Earthing  Equipment provided for the purpose of protecting individuals from electrical risk must be suitable for the purpose and properly maintained and used.    Handling Precautions  This covers a range of activities including lifting, lowering, pushing, pulling, carrying, moving, holding or restraining  an  object or  person.  It  also  covers  activities  that require  the  use of  force or  effort, such as pulling a lever, or operating power tools.   Electrostatic Discharge (ESD)  Observe standard precautions for handling ESD-sensitive devices. Assume that all solid-state electronic devices  are  ESD-sensitive.  Ensure  the  use  of  a  grounded  wrist strap or equivalent while working  with ESD-sensitive devices. Transport, store, and handle ESD-sensitive devices in static-safe environments.
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 17  3.2  SITE PLANNING CONSIDERATIONS 3.2.1  SITE PLANNING Site Considerations  The  MU  is  designed  to  be  located  indoors  to  facilitate  coupling  of  BTS  signals  and  power  supply connections. The input range of MU RF unit is 10~30 dBm.   The site consideration for RU is listed below:   The  distance  between  the  service  antenna  of  RU  and  coverage  area  should  satisfy  line  of  sight requirements for maximum coverage area.  The maximum fiber length is 8 miles, with a maximum path loss of 6.5dBo.  The system delay of the optical system must be taken into consideration when there are neighboring BTS sites overlapping in coverage.   Installation Location  Mounting surface shall be capable of supporting the weight of the equipment.  In order to avoid electromagnetic interference, a proper mounting location must be selected to minimize interference from electromagnetic sources such as large electrical equipment.   Environmental  Humidity  has  an  adverse  effect  on  the  reliability  of  the  equipment.  It  is  recommended  to  install  the equipment in locations having stable temperature and unrestricted air-flow.   The installation location for the system should be well ventilated. The equipment has been designed to operate at the temperature range and humidity level as stated in the product specifications.   Powering   The  power  supply  unit  (PSU)  provides  power  to  all  modules  within  the  equipment.  Depending  on  the product  variant,  it  is recommended  that the  PSU  operates  on a dedicated  AC  circuit breaker or  fused circuit.   Grounding Requirement  Verify that the equipment has been well grounded. This includes antennas and all cables connected to the system. Ensure lightning protection for the antennas is properly grounded.    Cable Routing  Depending on equipment configuration, a  variety of types of cables are connected to the MU and  RU: coaxial  cables,  optical  fibers,  power  cable,  communication  cable,  and  commissioning  cable.  Where applicable, ensure cables are properly routed and secured so that they are not damaged.
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 18  Manual Handling  During  transportation  and  installation,  take  necessary  handling  precautions  to  avoid  potential  physical injury to the installation personnel and the equipment.   3.2.2  SYSTEM INSTALLATION CHECKLIST  Working space available for installation and maintenance for each mounting arrangement. Ensure unrestricted airflow.  Ensure earthing point is within reach of the ground wire. (2m; 6 ft. 10 in.).  Ensure a power source is within reach of the power cord and the power source has sufficient capacity.  Where appropriate, ensure unused RF connectors are terminated.  Where appropriate, ensure unused optical fiber connectors are protected.  Do not locate the equipment near large transformers or motors that may cause electromagnetic interference.  Reduce signal loss in feeder cable by minimizing the length and number of RF connections.  Ensure the equipment will be operated within the stated environment (refer to datasheet).  Where needed, couple BTS RF signal with a coupler to prevent damaging the equipment.  Where appropriate, confirm available of suitably terminated grade of RF and optical fiber.   Observe handling of all cables to prevent damage.   3.3  INSTALLATION PROCEDURES 3.3.1  GOODS INWARDS INSPECTION ComFlex  was  factory  tested,  inspected, packed, and  delivered  to  the carrier  with  utmost care.  Do  not accept  shipment  from  carrier  which  shows  damage  or  shortage  until  the  carrier’s  agent  endorses  a statement of the irregularity on the face of the carrier’s receipt. Without documentary evidence, a claim cannot be processed.  Open  and  check  each  package  against  the  packing  list.  For  any  shortage,  contact  Comba  Telecom Systems. Do not remove items from packing materials until installation.    3.3.2  TOOLS See Appendix A for a full list of tools required for installation and maintenance.   3.3.3  PREPARATION Optical Fiber:
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 19    Fiber optic cables require proper handling. Do not stretch, puncture, or crush the fiber cable(s) with staples, heavy equipment, doors, etc.   Always maintain the minimum bending radius specified by the cable manufacturer. The minimum bend radius is usually 10 times the cable’s outer diameter. In the case of single optical fiber that is not in a cable, the minimum bending radius to be observed is 3cm. (1.2”)    3.3.4  MU ASSEMBLING  ComFlex  Master  Unit  consists  of  4  parts:  Chassis,  RFU,  FOU  and  PSU.  All  the  units  are  packed separately. Follow the steps below to assemble.   Figure 5: ComFlex Master Unit  Step1: RF Unit installation: Remove RFU slot cover plate on Chassis, insert RFU and fasten the screws. (Each Unit can be installed in any one of eight RFU slots)   Figure 6: RF Unit Installation
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 20  Step2: FOU installation: Remove  FOU slot cover plate  on Chassis, insert FOU and fasten the screws. (Each Unit can be installed in either one of two FOU slots)    Figure 7: FOU Installation  Step3: PSU installation: Remove PSU slot cover plate on the right side of Chassis, insert PSU and fasten the screws.   Figure 8: PSU Installation
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 21  Step4: Backup PSU installation (Optional): 1) install 2 M4 x 10 bolt kits in the back of MU; 2) hang the backup PSU on the bolts, then use another 4 M4 x 10 bolts kits to fasten the PSU; 3) .Fix cable clip, connect output cable and ground cable to MU.   Figure 9: Backup PSU Installation 1  备份电源与机箱地连接备份电源输出与MU连接 Figure 10: Backup PSU Installation 2   3.3.5  MU IN 19” RACK MOUNTING MU is an indoor type device; the installation procedures are shown as below:  Step  1: Install right angle bracket and left angle bracket on back of the mounting rack. (Rack nuts and screws are not provided.) Use rack nuts and screws as recommended by rack manufacturer.       2 M4 x 10 Bolts 4 M4 x 10 Bolts Ground Cable  PSU Output
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 22   Figure 10: Mounting Rack    Figure 11: Angle Iron Installation
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 23  Step2: Slide the MU on to the angle brackets and confirm it is level.   Figure 12: MU Installation  Step 3: Attach the MU onto the rack with the recommended rack screws.   Figure 13: Secure the Enclosure
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 24  Step 4: Finish installation.   Figure 14: Finish Installaiton   3.3.6  RU WALL MOUNTING RU wall mounting steps are shown below.  Step 1: Select the wall mount location according to the following criteria:    General surroundings   If mounting on dry wall, 0.75 In (min) plywood backboard is required to support the weight of the equipment.   Ventilated and easy-to-reach area (for maintenance and on-site inspection)   Proximity to DAS antenna in order to minimize cable loss  Step 2: Measure and mark the locations of 4 holes on the wall. Refer to below figure for the wall drilling dimensions of MRU. Use a Φ10 drill bit for masonry bolts.
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 25  23.62 in.6.65 in.(169mm)(600mm) Figure 15: Wall Drilling Dimensions of MRU  Step 3: Attach the mounting rack on a wall. If a concrete wall, use the 2 M8×80 masonry bolts. (Bolts are provided; lag bolts or screws are not provided for plywood mounting)        Figure 16:  Install Mounting Rack on the Wall     Two M8×80 masonry bolt
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 26  Step 4: Ensure the antenna and other connectors are facing down, hang RU onto semicircle slot of mounting rack.      Figure 17: Hang RU onto the Mounting Rack  Step 5: Tighten the bottom two M8×80 masonry bolts on RU.      Figure 18: Tighten the Screws at the Bottom of RU               Two M8×80 masonry bolt
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 27  Step 6: Tighten M6×20 hexagon screws on the left and right sides of RU to fasten it with mounting rack.       Figure 19: Tighten Two Hexagon Screws   3.3.7  PSU INSTALLATION RU  Power  Supply  Unit  should  be  installed  after  the  RU  is  mounted.  RU  Power  Supply  Unit  can  be installed in two ways – attached to RU or mounted on wall.  PSU attached to RU  Attach the PSU on the right of the RU with two M6×10 hexagon screws (screws are provided).    Figure 20: Install PSU on RU     M6×20 hexagon screws
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 28  PSU mounted on wall  Step 1: Measure and mark the locations of 2 holes on the wall close to RU. Use Φ10 drill head.  (NOTE: DC cable is 1 foot 9 inches; AC cable is 13 feet 1 inch)  14.96 in.4.37 in.(111mm)(380mm) Figure 21: Wall Drilling Dimensions of PSU  Step 2: Attach the PSU on the wall with two M8×80 hexagon screws (Screws are provided)   Figure 22: Install PSU on the Wall   3.3.8  DRIP-LOOP Comba recommends that every horizontal cable entry to the equipment forms a 'U' before it’s entry to the equipment. Any accumulated water on the cable will drip down at the bottom of the loop and will not climb up to the equipment.
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 29  3.4  EQUIPMENT CONNECTORS The figures below present the connectors of ComFlex MU.   Figure 23: MU Front Panel Connectors   Figure 24: MU Rear Panel Connectors
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 30  Table 5: MU Connections Identifier Functional Description 1. OP1~OP4 SC/APC optical fiber access port 2. LED indicator LED indicator. See Chapter 4 for the description of each indicator.  3. BTS_ALM DB9-F connector for BTS alarm. 4. OMT RJ45 connector connects PC with equipment for local and remote monitoring. 5. LAN Reserved RJ45 port for remote monitoring. 6. TX/RX RF access port, 4.3-10 connectors. 7. RX RF access port, 4.3-10 connectors. 8.   Digital display tube. See chapter 4 for the detailed description. 9.    Grounding connector. 10. FOU Expansion FOU communication connector 11. POI  POI  communication connector 12. AUX  Expansion unit communication connector 13. MODEM  Optional modem unit communication connector 14. 28V+ GND  Expansion FOU and RFU external power supply 15. EXT_PSU  Redundant PSU power supply connector 16. LI_BAT  Optional Li-Battery unit power supply connector 17. /   18. UL1,DL1; UL2,DL2  Reserved for RF interface of extended FOU 19.    Grounding connector for rack 20. Power Supply   Main PSU AC/DC output port 21. LI_BAT  Power supply connector of  optional Li-Battery unit 22. MODEM/MODEM       ANT  Communication connector /  Antenna port of optional moedem unit 23. AC100~240V 50Hz/60Hz  Redundant PSU AC/DC output port  *4.3-10 Female Dimension is shown in figure below.                      Figure 25: 4.3-10 Female Dimension
USER MANUAL FOR COMFLEX-6Q00 5W ENU STATUS: 1-0-1  Copyright - refer to title page  Page 31   OP EXT_ALM RS-485 LAN DC 28VOPALM RUNPWRTESTTX_EXTRX_EXTANT Figure 26: RU Connectors  Table 6: RU Connections Identifier Functional Description ANT 4.3-10 connector, antenna system connection port OP  SC/APC optical fiber access port EXT_ALM External alarm port. It provides an alarm report interface for other devices to report their alarms to CMS.  RS-485 Reserved. LAN Reserved.  DC28V Power supply interface, conntects with Power Supply Unit. TEST QMA female connector, downlink output power test port.
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 32      3.5  EQUIPMENT CONNECTION  3.5.1  GROUNDING CONNECTION    3.5.2  MU GROUNDING CONNECTION Step 1: Connect the GND cable to the GND connector and the building EARTH. Recommended GND cable size is # 12 AWG.  Step 2: Ensure the GND cable is connected to building GND.  Backup PSU Grounding ConnectorMU Rack Grounding Connector Figure 27: MU Grounding (MU Rear Panel)   3.5.3  RU GROUNDING CONNECTION Step  1: Connect one side of the  supplied  copper wire  GND  cable to right side of  RU with  two  M6×10 hexagon Screws (screws are provided). Connect the other side of the supplied copper wire GND cable to the building EARTH with two M6 screws (screws are not provided).  Step 2: Connect one side of the supplied copper wire GND cable to RU with two M6×10 hexagon Screws (screws  are  provided).  Connect  the  other  side  of  the  supplied  copper  wire  GND  cable  to  the  building EARTH with two M6 screws (screws are not provided).  Note: There are two GND ports on both sides of PSU, users can use one of them according to real situation.  Step 3: Ensure all GND cables are well grounded to building GND. WARNING! This unit must always be grounded. Consult an appropriate electrical inspection authority or an electrician if you are uncertain that suitable grounding is available.   Do not connect power before grounding.
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 33        Figure 28: RU Grounding   3.5.4  MU CONNECTIONS Step1: Connect the MU OP (optical) port to one of the RU OP port. (NOTE: requires Single Mode fiber with SC/APC connectors; MAXIMUM OPTICAL LOSS = 6.5dBo)  Step  2: For duplex application, connect the MU RFU TX/RX port to the RF Source (BTS or BDA) using 50Ohm  coaxial  cable.  For  simplex  application,  connect  the  MU  RFU  TX/RX  port  to  the  RF  Source downlink, and then connect MU RFU RX port with RF Source uplink. (NOTE: Coaxial cable must be mini-DIN Male on the MU side)    Figure 29: Fiber Optical and RF Port Connection
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 34      Step 3: Connect the power cable to the power supply port (100-240VAC, 1Amp maximum).    Figure 30: MU Power Connection (Rear Panel)   3.5.5  RU CONNECTION  Step 1: Connect the RU OP (optic) port to one of the OP port located on MU FOU front panel.  Step 2: Connect ANT port to a broadband antenna using 50Ohm coaxial cabel. Note: coaxial cable must be mini-Din male on the RU side, antenna shoule be 50Ohm.   Step 3: Connect DC 28V port to RU Power Supply Unit DC 28V port.  Step 4: Connect power cable on PSU with the public power grid (110~220VAC, 6A maximum).  ANTRX_EXTTX_EXTTESTPWRRUNALMOPDC 28VLANRS-485EXT_ALMOP Figure 31:  RU Fiber Optical and RF Port Connection
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 35       DC 28VAC 100V-240V50Hz/60Hz Figure 32: PSU Power Port Connection   3.5.6  RU EXTERNAL ALARM CONNECTION  For RU, this is a 4-pin connector. The following figure and table show the pin allocation and definition. Pin numbering are shown looking-into the connector on the enclosure.   Figure 33:  Pins Allocation for “EXT_ALM” Port for RU  Table 7: Pin Definition of “EXT_ALM” Port for RU Pin number  1  2  3  4 Alarm definition  EXT. Alarm 1  GND  EXT. Alarm 2 GND  Note: Users need to configure Ext Alm 1~2 on WEB GUI to realize External Alarm (Refer to Chapter 5).    3.5.7  MU BTS ALARM CONNECTION The equipment alarms can be signaled to the BTS via voltage-free relay contacts. The voltage-free relay connections  are connected to  the DB-9 port “BTS_ALAM” located on the  MU. The  following figure and table show the pin allocation and definition.
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 36      124356798BTS_OPENBTS_CLOSEBTS_ COM Figure 34: Pins Allocation for “BTS_ALM” Port  Table 8: Pin Definition of “BTS_ALM” Port Pin Number Definition  Description 1  BTS_OPEN  Connects to the open terminal of the voltage free relay. 2  BTS_COM   Connects to the common terminal of the voltage free relay. 3  BTS_CLOSE  Connects to the close terminal of the voltage free relay. 4 ~ 9  NC  Reserved.   3.5.8  CONNECT TO PC The local commissioning and management for MU and RU is achieved through connecting to the WEB base GUI.  Connect MU to PC  Connect  MU  “OMT” port  (RJ45)  to  the  RJ45  port  of  PC  with  supplied  Ethernet  cable  to  achieve  local monitoring and management.  End of Section 4  COMMISSIONING 4.1  PRE-COMMISSIONING TASKS After equipment installation, perform the following steps before equipment powering and commissioning, check that the expected voltage, current, and power levels do not violate any ratings. Double check all connections including ground before applying power. Do not manipulate circuits or make changes when power is applied:   Visually inspect the power connection within the equipment. Ensure that all cables are correctly and securely connected, including power cables, grounding wires, RF cables and optical cables.   Check grounding connection and verify that the ground resistance is less than 5Ω.  Connect the equipment to the PC.   Power on MU and RU.  Monitor the  initialization  of the MU and RU  though the LEDs on the panel. Refer to detailed  LEDs information in the next section.
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 37      4.2   LED INDICATORS Diagnostic LEDs are located on the MU front panel and RU bottorm panel; each indicates the status of a particular function:  Table 9: MU LED Indications LED Indicator  Normal Status  Indication PWR  Steady green Power indicator. If LED is off, it indicates the system has no power.  RUN  Flashing green (1 time/sec) MU operation indicator. After initialization (1~2 minutes), the LED should flash at once per sec. (When upgrade firmware, LED will flash rapidly)  ALM  OFF  Alarm indicator. If LED is RED, there is an alarm. OP  Steady green Located on Fiber Optical Unit (FOU), it is an indicator for receive optical power. If LED is off, it indicates the receiving optical power is less than -10dBm.  Table 10: RU LED Indications LED Indicator  Normal Status  Indication PWR  Steady green Power indicator. If LED is off, it indicates the system has no power. RUN  Flashing green (1 time/sec) RU operation indicator. After initialization (1~2 minutes), the LED will flash once per sec. (When upgrade firmware, LED will flash rapidly) ALM  OFF  Alarm indicator. If LED is RED, there is an alarm. OP  Steady green Located on Fiber Optical Unit (FOU), it is an indicator of Receiving optical power. If LED is off, it indicates the receiving optical power is less than -10dBm.   4.3  DIGITAL DISPLAY INDICATORS 4.3.1  DIGITAL DISPLAY ON RFU The digital display tube on RFU shows the DL input power. The range of DL input power shown on the display tube is from -19 to 33 (dBm), when DL input power is lower than -19dBm, it will show L, when DL input power is higher than 33, it will display H.    Figure 35: RFU Digital Display
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 38      Table 11: RFU Digital Display  Figure  DL Input Power Level L  < -19dBm -19~33  -19~33dBm H  >  33dBm   4.3.2  DIGITAL DISPLAY ON FOU The digital display tube on optical module has two digits.   The first digit will display A, b, C and d which presents the No. of optical port. Refer to below figure for the relationship.  The second digit will display the optical loss of each port. See the following table for the relationship of figure and optical loss.   Figure 36: Optical Port No. and Digital Display  Table 12: FOU Digital Display  Figure  Optical Loss 0~9  0~9dBo H  >  9dBo    End of Section
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-0  Copyright - refer to title page  Page 39  5  WEB GUI ComFlex  can  be  monitored  and  controlled  by  WEB  GUI,  follow  below  contents  to  achive  system parameter setting and commissioning.   5.1  WEB GUI CONNECTION Step  1: Connect MU OMT  port to  PC  RJ45 port with the  supplied Ethernet cable  to set up a physical connection.  Step  2: Go to laptop Control Panel\Network and Internet\Local Area Connection. Right click it and click Properties. Then follow the steps shown in figure below.    Figure 37: PC IP Address Setting  Step 3: Open browser (browser IE7.0, IE8.0, Chrome or Firefox, suggest disply resolution is 1024×768), input Web GUI IP address: 192.168.8.101, click [Enter].   Figure 38: Input IP Address  Step 4: Input User Name: admin; Password (default password: admin). Click [Log in].
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 40       Figure 39: Input User Name and Password   5.2  WEB GUI INTRODUCTION After login, the Web GUI main screen will appear.   Figure 40: Web GUI Main Screen  On Comba Web GUI Home page, there are three Menu bars: [Home], [Auto Setup] and [Function].
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 41      5.2.1   [HOME] The [Home] page shows the actual connection diagram of MU and RU.    Figure 41: [Devices] Sceen  MU Main Management Screen   Figure 42: MU Device - Monitoring Unit Click here for MU main management page Click here for RU main management page Click here for RFU main management page Click here for FOU main management page This part shows MU alarm status  Click here to enable/disable alarm
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 42      Optical Unit Management Screen   Figure 43: MU Device - Optical Unit  Note: MU transmit optical power is -4~-2dBm. RF Unit Management Screen   Figure 44: MU Device - RF Unit FOU port number Optical loss between MU and RU, the value is over 16dB when MU and RU are not connected well  Optical power alarm. Alarm is triggered when optical power is less than -10dBm. Indicator will turn from green to red. Click here to enable/disable optical RX/TX alarm Slot number Band and Remark information RF parameter  Commissioning status Downlink input power overdrive alarm Click here to ON/OFF RF switch and modify attenuator
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 43      Remote Unit Management Screen  Click RU photo, users can visit RU directly. Make sure two steps are done before visit RU:   RU and MU are connected by optical fiber.  RU device scanning is done. Note: Go to  [Commissioning] page or [Management] page for device scanning.   Figure 45: RU Device  NOTE: There are three statuses for PA Service: Normal, Recovery and Shutdown. If PA output power or reflected power exceeds the threshold (39dBm for MRU), software will trigger Recovery:    It will reset PA and then re-detect the PA output power and reflected power, if they are normal, the PA Service Status will turn to Normal, if PA output power or reflected power is still over the threshold, PA Service Status will turn to Recovery again.  If PA output power or reflected power is still over the threshold after  six  times of PA Recovery, PA Service status will be Shutdown which will need to be reset manually. Reset at Management > PA Reset.  Click on a specific band on the left side of RU Device page, the corresponding band information will show.  RU common information table Band information Select band to check relative band information
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 44       Figure 46: RU Device – 2500MHz   5.2.2  [AUTO SETUP] A work  flow of the commissioning process is shown on [Auto Setup] page. Click the [Start] button, the software will guide you through the commissioning step by step. For details, please refer to chapter 5.3.   Figure 47: [Auto Setup] Screen  Select 2500MHz band  2500MHz RF parameter setting table  2500MHz alarm information and configuration table
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 45      5.2.3  [FUNCTION] Other parameters can be configured on [Function] page.  There  are  fifteen  function  bars  list  in  the  left  side  of  the  [Mangement]  page.  Below  figures  are  the introduction of each function bar.   Devic Info.   Figure 48: Function - Device Info.  Note: Users can input maximum 30 bytes characters in Device Info.
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 46       Import&Export   Figure 49: Function - Import&Export  Below table list the parameters that can be import/export:  Table 13: Import/Export Parameters Device  Paremeter  Device  Parameter MU Alarm Enable RU Alarm Enable ATT value  ATT value RF Switch  RF Switch SNMP parameter  Over temperature alarm threshold   DL over output power threshold   External Alarm level  Import and Export can help users quickly configure MU and RU parameters. For example, if one MU/RU finished configuration, users can export its parameters and save as a file in PC, and then import this file to other MU/RU to fast finish the MU/RU parameter setting.
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 47       Summary   Figure 50: Function - Summary   Comm. Setting    Figure 51: Function - Comm. Setting (SNMP)
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 48       Figure 52: Function - Comm. Setting (UDP)   IP Setting   Figure 53: Function - IP Setting
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 49      Note: For remote monitoring, the IP Address must be set correctly according to the location IP of remote connection.  If  there  is more  than  one  equipment is  connected  to  the  public network  through  the  same router, the router’s local IP CANNOT be set as 192.168.8.*.   License
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 50       Scan   Figure 54: Function - Scan   Figure 55: Function – After Scan
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 51       Device Remove   Figure 56: Function - Device Remove   Note: If the RU has been scanned and identified by MU, to remove the RU from the system,users must remove this RU on this [Remove] page, otherwise, RU will still be shown on the Home page and will trigger optical alarm.
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 52       New Site Report   Figure 57: Function - New Site Report   PA Reset   Figure 58: Function - PA Reset  Note: PA will be turned off by software when PA output power or (VSWR) reflected power is exceed the threshold. Users need to reset PA after debugging.
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 53       Device Reset   Figure 59: Function - Device Reset  Note: Device Reset process will last about 2~4 minutes. For MU monitor reset, users need to  re-login WEB GUI.   Clear History Alarm   Figure 60: Function - Clear History Alarm
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 54       Firmware  There are three  functions  on  the  [Firmware] bar: [Monitoring  Upgrade], [Swap] and  [Module  Upgrade]. [Monitoring Upgrade] is used to upgrade software.  [Swap] is  to replace current firmware version to  the previous one. [Module Upgrade] is used to upgrade module software.   Figure 61: Function - Firmware   Alarm Log   Figure 62: Function – Alarm Log Master unit software upgrade Master Unit software swap Slaver Unit software upgrade
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 55        WebOMT Setting   Figure 63: Function – WebOMT Setting   5.3  COMMISSIONING PROCEDURE To complete the installation and commissioning, users need to follow the steps below.   Step 1: Click Menu bar [Auto Setup] on home page, a work flow will show up.   Figure 64: Commissioning Procedure - Start
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 56      Step 2: Click   to start RU device scan, this step will take about 1 minute.   Figure 65: Commissioning Procedure - Device Scan  Step 3 Go to [Home] page, click RU, config the Working Mode of 2500 TDD to DL Normal Open.   Figure 66: Commissioning Procedure – 2500 TDD working mode setting  Step  4 Repeat Step 1 & 2, click   to enter to Params Setting page. Click , users can set the device information and system time.
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 57       Figure 67: Commissioning Procedure - Params Setting  Dev Info mainly used to record device location and Date/Time provid a time reference. Mouse clicks the Config Value of Date/Time to auto receive the computer time.  Step  5:  Click   to  enter to  the  page  to select folw  to  continue. There  are  three  flows  to select: Calibration, Setup and Finish.   Figure 68: Flow to select
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 58      Note: Calibration is to adjust MU and RU gain to make sure system gain is normal, if the band have been calibrated,  users  can  click   to  skip  the  process;  if  the  band  never  been  calibrated,  users  click  in the step of Calibration, software can still procede to the next step of MU and RU setup, but the system gain will be a little deviation with normal valuer, so the final output power will be not same with the target DL output power.   NOTE: Make sure all the ANT  ports  of RUs are  connected  with dummy  load or  antenna  system before proceeding to step 6.  Step 6:  Select Calibration, shown as Figure 70, set the right synchronous carrier center frequency point for 2500 TDD in the poped out window, minimum scale is 100KHz, then select “Automatic Calibration” or “Manual Calibration”.   Figure 69: Calibration – 2500 TDD Band Certer Freq
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 59      Step 7: Click "Calibrate” and click “OK” to start the Calibratiion procedure, Figure 71.    Figure 70: Commissioning Procedure - Calibration   Automatic calibration no needs to select frequency band, the  system  will calibration all  the band automatically.  If  users  choose  Manual  calibration,  then  go  to  next  page  to  select  frequency  band  to calibrate.  Note:  Make  sure  the  ANT  port  of  RU  is  connected  with  dummy  load  or  antennas  before  Calibration.    Several RU can be calibrated simultaneously.
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 60      Step 8: After Calibration is finished, go to MU Setup as in Figure 72, then RU Setup shown in Figure 73   Figure 71: Commissioning Procedure – MU Setup  Note: RU Setup includes “Remark”, “RF Switch”, “DL Input Power”.   Figure 72: Commissioning Procedure – RU Setup  Note: RU Setup includes “RF Switch”, “Target DL P_out”  Step 9: Back to [Home] page, set all 2500 TDD channel Working Mode to “Normal”, and set the right TD-LTE “DL/UL Slot Configuration” and “Special Subframe Configuration”, as in Figure 67.
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 61      Note: As the system calibration process is calibrated for single channel, so if there is more than one same band input, because of  the power superposition, the band total output power will higer than target DL output power after the calibration is complete.  The calibration work is mainly to set device to reach it’s theoretical gain, so when there are two or more same bands access into  and  they have the same input power level, each  channel  will  reach  it’s  rated power, so the total output power will be (input A+gain) + (inputB+gain)+…+(inputN+gain). For example, if there are two 1900MHz bands acess to MU, each has 10dBm input power, the total output power of RU 1900MHz will be 30dBm+30dBm=33dBm.  Refer to the method below for the gain adjustment: Suppose a band  with  N  independent  inputs, each  input  signal  power  are  all  X dBm.  Apparently,  there exists the following relationship between input and output after finished auto communication on WEB GUI: X dBm + Gain = 30dBm, then the total output power for N channels access is X dBm + Gain + 10*Log(N) = 30 + 10*Log(N), so Users need to set 10*Log(N) RFU ATT on WEB GUI for each channel.     End of Section
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 62      6  ALARMS AND TROUBLESHOOTING 6.1  ALARMS Table 14: MU Alarm List Alarm List  Alarm Condition Over-Temperature Alarm   Alarm when equipment temperature is higher than the threshold, otherwise normal;   Alarm judgment period: 3 minutes by default;   Alarm threshold : 80℃ by default. Optical Tx Alarm   Alarm when Optical Transmiting power is lower than the threshold, otherwise normal;   Alarm judgment period: 3 minutes by default;   Alarm threshold: -7dBm by default. Optical Rx Alarm   Alarm when Optical received power is lower than the threshold, otherwise normal;   Alarm judgment period: 3 minutes by default;   Alarm threshold: -10dBm by default. DL Input Power Overload Alarm   Alarm when DL input power is higher than the threshold, otherwise normal;   Alarm judgment period: 3 minutes by default;   Alarm threshold: 32dBm by default.
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 63      Table 15: RU Alarm List Alarm List  Alarm Condition External Alarm   Alarm status when the external terminals have different H/L level with alarm level, otherwise normal;   Alarm period: 10s by default. Over-Temperature Alarm   Alarm when equipment temperature is higher than the threshold, otherwise normal;   Alarm judgment period: 3 minutes by default;   Alarm threshold : 80℃ by default. Optical Tx Alarm   Alarm When optical transmiting power is lower than the threshold, otherwise normal;   Alarm judgment period: 3 minutes by default;   Alarm threshold: 0dBm by default. Optical Rx Alarm   Alarm When optical receiving power is lower than the threshold, otherwise normal;   Alarm judgment period: 3 minutes by default;   Alarm threshold: -14dBm by default. PA Alarm   Alarm when any one of the PA Current Alarm,PA Over-temperature Alarm, PA DL output power overload Alarm, Reflection Power Alarm happens, otherwise normal;   Alarm judgment period: 3 minutes by default. DL Output Overload Alarm   Alarm when the DL output power is higher than the threshold, otherwise normal;   Alarm judgment period: 3 minutes by default;   Alarm threshold: 39dBm for MRU. Shutdown Alarm    Alarm when the PA status is off, otherwise normal;   Alarm judgment period: 10s by default. LNA Alarm    Alarm when LNA have problems, otherwise normal;   Alarm judgment period: 3 minutes by default.
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 64      6.2  TROUBLESHOOTING Following installation and commissioning, occasional operation tasks to handle alarms may be required:   Table 16: MU Alarms Diagnosis Alarm condition  Diagnosis Over- Temperature alarm   Check temperature on WEB GUI   If device temperature is over threshold, make sure environment temperature is within the envireonment temperature range that MU supported (0~40℃). Apply climatic protection to the system under severe environment. Optical TX Alarm   Test MU transmit optical power    Replace FOU if transmit optical power is less than -7dBm Optical RX Alarm   Clean optical cable connector with pure alcohol first , reconnect and see if alarm disappears   Use Optical Power Meter to test received optical power   If received optical power is lower than -10dBm, test whether RU transmit optical power is normal (3~5dBm)   Check if optical loss of fiber link is higher than 6.5dBo DL Input Power Overload Alarm  Test DL  input power of  MU, if  it  is  higher than  +32dBm,  by decreasing  source output power or adding an external attenuator with proper attenuating value.
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 65      Table 17: RU Alarms Diagnosis Alarm condition  Diagnosis External Alarm   Check to make sure if the external device connected is working normally Over- Temperature alarm   Check device temperature on WEB GUI   If device temperature e is over threshold, make sure environment temperature is within the envireonment temperature range that RU supported (-20~50℃). Apply climatic protection to the system under severe environment. Optical TX Alarm   Test RU transmit optical power    Replace FOU if transit optical power is less than 0dBm Optical RX Alarm   Clean optical cable connector with pure alcohol first, reconnect and see if alarm disappears   Use Optical Power Meter to test received optical power   If received optical power is lower than -14dBm, test whether MU transmit optical power is normal (-4~-2dBm)   Check if optical loss of fiber link is higher than 6.5dBo DL PA alarms    Check PA Service Status on WEB GUI RU page,    If it is [Recovery], reset PA on WEB GUI Management page, then read RU output power: If output power is exceed threshold, need to reduce gain or input power; if output power is normall, check whether antenna port VSWR is too high.   If it is [Shutdown], Refer to PA Shutdown Alram DL Output Power Overload Alarm   Check if output power is exceed the threshold (39dBm for MRU)   Decrease the gain to reduce the output power PA Shutdown Alarm   Make Sure the environment temperature is -20~50℃   Reset PA, if PA service status turns to [Recovery], and then refer to DL PA Alarms. If PA still shutdown, the PA module maybe damaged, please contact with Comba to replace the RU. LNA Alarm  Uplink LNA modual damaged, please contact with Comba to replace the RU.   End of Section
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 66      7  APPENDICES  7.1   APPENDIX A: TOOLS FOR INSTALLATION AND MAINTENANCE The following tools (not included in package) are required for installation or routine maintenance:     Power Drill (for wall mount)   Adjustable Wrench (0.31 inch~0.79 inch)    Philips Screwdriver   Allen wrench (M6)   Signal generator support output power 10dB.   Site Master
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 67      7.2  APPENDIX B: RMA (RETURN MATERIAL AUTHORIZATION)   End of Section  End of Document  FOR NAM OFFICE EMAIL, PLEASE INSERT: support.us@comba-telecom.com
USER MANUAL FOR COMFLEX-6Q00 5W  ENU STATUS: 1-0-1  Copyright - refer to title page  Page 68

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