MobileAccess 2000 System Installation and Configuration Guide P/N: 709C001xxx REV: A01 Date: January, 2012
Preface Corning MobileAccess 8391 Old Courthouse Road, Suite 300, Vienna, VA 22182 Tel: +1(866)436-9266, +1(703)848-0200 TAC: +1(800)787-1266, Fax: +1(703)848-0280 www.corning.
Preface P r e fa c e © Copyright 2012, MobileAccess. All Rights Reserved. MOBILEACCESS IS A REGISTERED TRADEMARK OF MOBILEACCESS. THIS DOCUMENT CONTAINS OTHER TRADEMARKS, TRADE NAMES AND SERVICE MARKS OF MOBILEACCESS AND OTHER ORGANIZATIONS, ALL OF WHICH ARE THE PROPERTY OF THEIR RESPECTIVE OWNERS.
Preface Returns IN THE EVENT THAT IT IS NECESSARY TO RETURN ANY PRODUCT AGAINST ABOVE WARRANTY, THE FOLLOWING PROCEDURE SHALL BE FOLLOWED: 1. RETURN AUTHORIZATION IS TO BE RECEIVED FROM MOBILEACCESS PRIOR TO RETURNING ANY UNIT. ADVISE MOBILEACCESS OF THE MODEL, SERIAL NUMBER, AND DISCREPANCY. THE UNIT MAY THEN BE FORWARDED TO MOBILEACCESS, TRANSPORTATION PREPAID. DEVICES RETURNED COLLECT OR WITHOUT AUTHORIZATION MAY NOT BE ACCEPTED. 2.
Preface Laser Safety THE LASER APERTURES /OUTPUTS ARE THE GREEN SC/APC BULKHEAD ADAPTERS LOCATED ON THE FRONT PANEL OF THE EQUIPMENT. THE PRODUCT IS CLASS 1/HAZARD LEVEL 1 FIBER OPTIC PORTS OF THE MOBILEACCESS2000 SYSTEM EMIT INVISIBLE LASER RADIATION AT THE 1310/1550 nm WAVELENGTH WINDOW. EXTERNAL OPTICAL POWER IS LESS THAN 10 mW, INTERNAL OPTICAL POWER IS LESS THAN 500 mW. TO AVOID EYE INJURY NEVER LOOK DIRECTLY INTO THE OPTICAL PORTS, PATCHCORDS OR OPTICAL CABLES.
Preface RF Safety WARNING! To comply with FCC RF exposure compliance requirements, antennas used for this product must be fixed mounted on indoor permanent structures, providing a separation distance of at least 20 cm from all persons during normal operation. 1. Each individual antenna used for this transmitter must be installed to provide a minimum separation distance of 20 cm or more from all persons and must not be co-located with any other antenna for meeting RF exposure requirements. 2.
Preface NRTL Safety UL 60950-1 Europe EN 301502, EN 300609, EN 301489, EU Safety EN 60950-1 Laser Safety IEC 60825-1, IEC 60825-2 TRA TRA type approval for UAE Company Certification ISO ISO 9001: 2000 and ISO 13485: 2003 About this Guide and Other Relevant Documentation This user guide describes how to perform the physical installation of the MA2000 systems. The installation procedures of other units (e.g.
Preface DL Downlink RU Remote (Hub )Unit RIU Radio Interface Unit UL Uplink MA2000 Installation and Configuration Guide VIII
Table of Contents Preface ......................................................................................................................................III Policy for Warrantee and Repair ......................................................................................................... III General Warranty....................................................................................................................... III Specific Product Warranty Instructions ...........................
Preface 2.2.2.2 MA1200 Rear Panel .............................................................................................. 19 2.2.3 8 x 4 Combiner................................................................................................................. 19 2.2.3.1 MA 8x4 Combiner Front Panel ............................................................................... 20 2.2.3.2 MA 8x4 Rear Panel ...............................................................................................
Preface 4.4.2 MA2000-Lite Connections .................................................................................................. 44 5 Upgrading and Configuration Examples ........................................................................45 5.1 Common USA Configurations ...................................................................................................... 46 5.1.1 iDEN/SMR with PCS Add-on .......................................................................................
1 Introduction to the MA2000 System MobileAccess2000 series provides enterprise level indoor coverage, of a wide range of multioperator wireless services over a single broadband infrastructure. Front-end wireless RF services are routed, over optic fibers, to MA2000 series hubs that are securely located in the telecommunication closets at each remote location.
Introduction to the MA2000 System • • • • • • MobileAccess2000 TSX System Architecture MA2000-Lite components can be migrated to MA2000 MRC for increased capacity All active components are located in the communication closet/room Carrier class operation – MA2000 advanced signal handling ensures optimal performance for all services within a multi-operator deployment Local and remote end-to-end monitoring and control through interface to SC-450 controller Conditioning and monitoring of input RF signals at
Introduction to the MA2000 System 1.1 MobileAccess2000 TSX System Architecture MobileAccess2000 TSX System Architecture The MobileAccess2000 TSX/QSX solution is comprised of the following elements. Third-party equipment is sold separately (i.e. cabling, antennas). 1.1.1 Head-End Equipment At the head-end MobileAccess elements provide interface to the wireless service provider’s network, where the signals can be conditioned through an active interface and transported over optic fiber to the remote end.
Introduction to the MA2000 System • MobileAccess2000 TSX System Architecture antenna. Uplink (UL) signals from the antennas are then converted to optical signals before being transmitted back to the BU. Each pre-configured RHU supports up to two services. Add-On Module (AO): The AO is a single service module coupled with an RHU to deliver an additional, third service at a lower incremental cost. The AO receives RF signal from the RHU and amplifies it for transport across the broadband coax.
Introduction to the MA2000 System MobileAccess2000 TSX System Architecture *No. of supported services depends on module: MA2000 Cabinet or MA2000-Lite Figure 1-2. System Architecture Figure 13 shows a basic block diagram of the system operation. On the downlink, services from the BTS/BDA are transferred via interface to the Base Units (BUs). The interface, which may be passive (i.e.
Introduction to the MA2000 System MobileAccess2000 TSX System Architecture Figure 1-3.
Introduction to the MA2000 System MobileAccess2000 TSX System Architecture Figure 15 shows an example of an MA2000-Lite based solution. Four services from two different operators are distributed. The converted optical signal is routed from the BUs directly to the corresponding RUs over optic fiber. Services 1 and 2 are distributed through one of the RUs supported by MA2000-Lite. Services 3 and 4 are distributed through the second RU. The combiner and filter provides interface to the antennas. Figure 1-4.
2 MA2000 System Elements This chapter provides a full, detailed description of each of the system elements and their individual connections.
MA2000 System Elements 2.1 Enclosure Types Enclosure Types This section describes both types of enclosures (Cabinet/Lite) and their external connections. 2.1.1 MA2000 Remote Cabinet Figure 2-1. MA2000 MRC Closed Cabinet View MA2000 Cabinet supports the following functions: • Compactly houses up to five MA2000 RHU and MA1200 modules and the required filters NOTE: The number of modules that can be housed depends on the models, required filtering, etc.
MA2000 System Elements Enclosure Types Open door views The following figure shows an open MA2000 MRC cabinet, integrated power supply model, with four MA2000 RHU modules and four filters. (For clarity, the internal connections are demonstrated separately in Figure 23).
MA2000 System Elements Enclosure Types MA2000-Lite The MA2000-Lite is designed to support up to 8 voice services, in addition to 802.11 data services. MA2000-Lite Connections to RU 2000 front panel PWR Antenna connections LEDs Control To RU 2000 front panel To RU 2000 front panel RS232 antenna connections connector Figure 2-4.
MA2000 System Elements Enclosure Types The following table describes the front panel LEDs. 2.1.1.1 LEDs Description Run Module is operating properly. Power Green – required power is supplied. Enclosure Internal Elements The MA2000-Lite enclosure includes: • 8x4 Combiner (see section 2.2.3 for description) • Digital Card unit (see 2.1.2.2). • Filters and Combiners (see 2.1.2.3). Rear tab Filters and combiners Digital module 8x4 Combiner Front tabs Figure 2-5.
MA2000 System Elements 2.1.1.2 Enclosure Types Digital Card Unit NOTE: This unit is internal to the MA2000-Lite system. The Digital unit enables antenna monitoring. It is connected to the 8x4 Combiner and to each of Remote Units. Digital Unit Front Panel The front panel of the unit contains the power connector. PWR Figure 2-6. Digital Front Panel The following table describes the front panel connectors. Connector Description PWR 20 to 48VDC.
MA2000 System Elements • Enclosure Types Integrated power supply – fed from an external AC power source. The MA2000 RHU an MA1200 Add-on modules are internally connected to the power supply. This model includes a battery connection as well. Open door view The following figure shows an open TSX cabinet with one MA2000 RHU and one MA1200 module and four filters. (For clarity, the internal connections are demonstrated separately in Figure 23).
MA2000 System Elements MA2000 Remote Location Units 2.1.2 2.2 MA2000 Remote Location Units Service specific units located at each remote location convert the optical signals received from the Base Units to RF signals and route them to the coax antenna infrastructure. NOTE: The voice services are converged by an 8x4 Combiner unit that is installed in the Cabinet enclosure and the Lite module.
MA2000 System Elements 2.2.1.1 MA2000 Remote Location Units MA2000 RU Front Panel The MA2000 RU front panel contains the fiber optic connections to the BU, four coax connections to the antennas, power connections and status indicators. MA service connecto RF ports 1 to 4 LEDs Fiber optic BU Power connector connections Figure 2-9. MA2000 RU Front Panel Table 2-1.
MA2000 System Elements 2.2.1.2 MA2000 Remote Location Units MA2000 RU Rear Panel The MA2000 RU rear panel provides the control, RF interface and optic interface ports that enable connecting to an MA1200 Add-On unit. Figure 2-10. MA2000 RU Rear Table 2-2. MA2000 RU Rear Panel Connectors Add-on control Transmits the control signals from MA1200 Add-On module to the MA2000 RU module. The Add-on Control port is connected to the MA1200 Add-On From port.
MA2000 System Elements 2.2.3 MA2000 Remote Location Units MA1200 Add-on The MobileAccess1200 Add-On module is used to provide support for an additional service to an MA 2000 RU. The host MA2000 RU and the MA1200 Add-On are interconnected and either housed in a MA2000 Cabinet or connected externally to a MA2000-Lite ‘enclosure’.
MA2000 System Elements 2.2.3.2 MA2000 Remote Location Units MA1200 Rear Panel The MA1200 rear panel contains the control connectors and the RF connections to the MA2000 RU and MA850/MA860. High Band DL UL Figure 2-12. MA1200 Rear Panel Table 2-5. MA1200 Rear Panel Connectors 2.2.4 Add-on Control Transmits the control signals between the MA1200 module and the MA850/MA860 and MA2000 RU modules. From – receives control signals from the MA2000 RU. Connected to the MA2000 RU Add-on Control connector.
MA2000 System Elements 2.2.4.1 MA2000 Remote Location Units MA 8x4 Combiner Front Panel The front panel of the unit contains the four antenna interface ports, LEDs and control port. Setup connection Antenna ports 1-4 LEDs Figure 2-13. 8x4 Combiner Front Panel The following table describes the front panel connectors. Connector Ant-1 to Ant-4 (N-type) Setup 2.2.4.
MA2000 System Elements 2.3 MA Base Unit MA Base Unit The BU (Base Unit) is a wideband device that performs the conversion between the BTS/BDA (passive or active) interface RF signal and the remote units’ optic signal. Base Unit capabilities • • • • • 2.3.
MA2000 System Elements MA Base Unit LED Description PWR Power input detected for the corresponding unit. 20 to 48VDC LSR ON - laser circuitry for the corresponding element (group of four ports) is functioning correctly. Link 1-4, 5-8 ON - the optical link to/from the connected remote functions within the specifications in both directions. Blinking - optical power from remote is lower than required 2.3.2.
3 Installation Guidelines 3.1 Infrastructure Preparation This following installation rules are based on the assumption that site survey and installation planning (including power requirements) have been completed. 3.2 Installation Requirements The infrastructure preparation consists of two main phases: A. Floor Planning: Planning the distribution of the antennas on each floor to provide the required coverage. B.
Installation Guidelines 3.3.2 RF Rules Use coax RG223, 50ohm, male-to-male N-type for RF connections from the BUs to the BTS/RBS and to the RIU. When using the MobileAccess system in an environment in which other indoor coverage systems are installed, it is recommended (where possible) that the antennas are placed at least two meters apart When bending coax cables, verify that the bending radius does not exceed the coax specifications.
Installation Guidelines 3.4 Fiber Optic Rules Fiber Optic Rules • Either single mode or multimode fiber can be used with MobileAccess2000M products, while MobileAccess2000 products can only be used with single mode fiber. • Only Multimode fiber, 50/125 or 62.5/125um complying with ANSI/TIA/EIA-568-B series, EN50173-1 or ISO/IEC 11801 can be used. The fiber length can be up to 300 meters assuming the following qualifications: § All fiber in a given length of fiber must be of the same core diameter.
Installation Guidelines Power Consumption, Connections and Power Supplies 3.5 Power Consumption, Connections and Power Supplies 3.5.1 Power Safety Instructions SAFETY WARNINGS • 3.5.2 When installing or selecting the power supplies: • Be sure to disconnect all power sources before servicing. • SC-450 Controller lithium type battery should only be replaced by MobileAccess service personnel. Risk of exploding if battery is replaced by an incorrect type.
Installation Guidelines 3.5.4 Installation Conventions • The following system elements require external fuse protection: RIUs, BUs, and SC450 Controllers. • Referring to Table 3-1, calculate the required fuse protection. • Example: a set of three elements consisting of a BU, RIU and SC-450 controller requires a 2A circuit breaker. Types of Power Supplies MobileAccess supplies various power supplies that can be installed in a rack or mounted on a wall, depending on your configuration. 3.
Installation Guidelines Installation Conventions The following figure illustrates fiber optic routing to Remote Cabinets. Figure 3-1. Illustration of Fiber Optic Routing • For remote power supply configuration - cable bundles are routed from the main communication room and individual wire pairs are terminated into the power feed of individual units. By providing power from a single distribution point, maintenance can be reduced and UPS backup can be easily provided.
4 System Installation This chapter describes how the communication room and cabinet are installed. The individual system elements and connections are described in the Chapter 2. NOTE: Be sure to read the installation requirements (see 3.2) and Power Consumption related instructions (see 3.3.3) before proceeding with the actual connections. 4.1 Pre-installation Instructions In order to describe the installation process clearly, it will be described as consisting of two logical parts: A.
System Installation 3 Communication Room Installation RF connections BTS/BDA connections. 4. RF connections to the Base Units. 5. Connecting the SC-450 control connections to the units 6. Connecting DC power to the units 4.2.1 Rack Installation General Instructions NOTE: Usually, each operator installs the equipment that supports their services in a separate rack.
System Installation Communication Room Installation The following figure shows a typical installation for a two field design. Figure 4-1: Recommended Order in the Communication Room Rack 4.2.2 Rack Installation Safety Instructions Review the following guidelines to help ensure your safety and protect the equipment from damage during the installation. • Only trained and qualified personnel should be allowed to install or replace this equipment.
System Installation 4.2.3 Communication Room Installation BU Connections This section describes the installation for the Base Units with the RF signal supplied from an MA RIU Lite. If an RIU system is installed, refer to the RIU Installation and Configuration Guide for detailed instructions on the RIU connections. NOTE: It is assumed that the patch panel cabinet (SC/APC adaptors) for fiber optic cable connections is installed in the rack near the BUs. To connect the BU 1.
System Installation 4.3 Remote Cabinet Installation Remote Cabinet Installation Mount and install the Remote Cabinet (RC) in one of the following configurations: • • Wallmount - on the wall in the communication room Rackmount – in a 19” rack in the communication room allocated to that area (sometimes referred to as a secondary communication room).
System Installation Remote Cabinet Installation The wall installation MA2000 Remote Cabinet is supplied with a plate that is to be mounted on the wall and a bracket that is assembled on the rear of the MA2000 system. Mounting Bracket Opening through which connected optic fibers are routed Plate to be mounted on the wall Location of anchors Holes for plate to bracket assembly Rear panel bracket Underside opening through which power connections are routed Figure 4-5.
System Installation Remote Cabinet Installation Mount the MA2000 MRC on the wall as follows: ATTENTION: The following instructions apply to an installation on a concrete wall. For any other type of wall, contact MobileAccess. NOTE: For installations that include an MA850/MA860 system, refer to the MobileAccess850/860 Installation and Configuration Guide. 1. For integrated power supply configurations only (for other configuration grounding is optional), connect the cabinet GND according to section 4.3.2.
System Installation 4.3.2 Remote Cabinet Installation MRC Grounding - Integrated PS Wall Mount Model NOTE: This procedure is only necessary for wall mount integrated power supply configuration (for other configurations this procedure is optional). The Ground screw is located at the rear of the unit.
System Installation 4.3.3 Remote Cabinet Installation MRC 2000 Rack Mount Installation NOTE: The cabinet requires a clearance of 10 cm above the unit. If a heating source is installed beneath the MRC, a buffer must be placed between the cabinet and the surface. The following figure provides the dimensions for the MA2000 Rack Model. Figure 4-8.
System Installation Remote Cabinet Installation The MA2000 MRC Rack Mount model is supplied with the required brackets already assembled to the sides of the cabinet as illustrated in the Figure 49 . MA2000 MRC Rack Model. Simply, mount the MA2000 MRC in the rack and secure with the supplied screws. Rack brackets Figure 4-9 .
System Installation 4.3.4 Remote Cabinet Installation Fiber Optic Connections NOTE: Keep in mind the rules for handling and connecting F/O cables. The F/O cables will be connected to the associated BU in the communication room at a later phase. 1. Install splice box near Remote Cabinet. 2. Connect fiber optic cable to splice box and the SC/APC pigtails to each RU 2000 module. 3.
System Installation 4.3.5 Remote Cabinet Installation Power Connections The power connections vary depending on whether the configuration is for an integrated power supply or for external power supplies. 4.3.5.1 Integrated Power Supply model • Connect the AC power connector to the connector on the internal plate as illustrated below. The power source may be: 230 VAC, 115 VAC (an AC/DC converter is built into the chassis). • You may also connect a backup battery of 48V to the battery connector.
System Installation 4.4 MA2000-Lite Installation and Connections MA2000-Lite Installation and Connections MA2000-Lite is designed as a wall-mount installation – usually located in the communication shaft of the corresponding floor. The remote units are mounted externally to the MA2000-Lite device and their antenna outputs are connected to either side of the MA2000-Lite device. The combined outputs are then connected to the antennas in the covered area.
System Installation MA2000-Lite Installation and Connections The following figure shows the RIU Lite mechanical drawing Figure 4-13.
System Installation 4.4.1 MA2000-Lite Installation and Connections Mounting MA2000-Lite In order to mount MA2000-Lite on the wall, the cover is first removed, the tray and all installed elements are secured to the wall and the top cover assembled again. 1. Remove the top cover by pulling it towards the rear bracket and lifting it over the front brackets. The tray and all its assembled components are displayed. The installed filters vary depending on the RU models in the installation.
System Installation 4.4.2 MA2000-Lite Installation and Connections MA2000-Lite Connections This section describes the MA2000-Lite enclosure and its' external connections. Connections to MA2000 RU front panel RS232 and antenna connectors (2) Power (1) To Antennas Control LEDs (3) To MA2000 RU front panel antenna connections (4) To MA2000 RU front panel RS232 connector NOTE: It is not required to perform the following procedures in any particular order. 1.
5 Upgrading and Configuration Examples MobileAccess2000 provides an entry level cost effective solution for current services and support for future services from the same or different operators. Support for additional bands is implemented by an RU module and RU specific hardware designed to prevent interference with other existing bands in the coverage area. For support for additional services, connect the corresponding RU and hardware (Cavity Filter, Duplexer, etc.
Upgrading and Configuration Examples 5.1 Common USA Configurations 5.1.1 iDEN/SMR with PCS Add-on Common USA Configurations iDEN and SMR coverage is implemented by one remote unit. This type of configuration was designed to meet Nextel’s existing needs. MA1200 add-on module for PCS support can be integrated into the solution at any time in order to meet future needs. The following figure describes the port connections between the remote units, add-on, and 8x4 Combiner. Figure 5-1.
Upgrading and Configuration Examples 5.1.2 Common USA Configurations Cell/PCS For infrastructures supporting a single Cell band and PCS, connect the RU according to the following figure. Cavity Cell DL RHU 2000 P1 CELL/PCS Tx P2 P3 Cavity Com Cell Duplexer N.C. 8x4 P1 Rx P4 8x4 P5 Figure 5-2. Single Cell/PCS Connections For infrastructures supporting two Cell bands and a PCS band, connect the second Cell/PCS services RU according to the following figure.
Upgrading and Configuration Examples 5.1.3 Common USA Configurations Cell/PCSH The following figure provides a description of how to connect up to three Cell/PCSH services. Note: In cases requiring more than one RHU, connect the additional units according to 2nd and 3rd RHU configuration. 5.1.3.1 Cell/PCSH and LTE 700 The following figure shows the connections for a configuration consisting of a 700 LTE Add-On unit with external filter and Cell/PCSh RHU.
Upgrading and Configuration Examples 5.2 AWS Add-On AWS Add-On The following figure shows the duplexer and 8x4 combiner connections for configurations with an AWS Add-On unit. 5.3 Public Safety 700/800 NOTE: Both the MA2000 Public Safety 700/800 RHU and the corresponding filter unit are installed EXTERNALLY on the Cabinet.
Upgrading and Configuration Examples 5.4 Typical International Configurations Typical International Configurations MA2000-Lite supports Cell/DCS and DCS. UMTS support can be added through MA1200 Add-On. 5.4.1 Typical Asian Configuration: Cell/DCS+ UMTS Figure 5-5. Cell/DCS and UMTS Configuration 5.4.2 Typical European & Middle East Configuration: EGSM/DCS + UMTS Configuration Figure 5-6. Typical European & Middle East Configuration 5.4.
Upgrading and Configuration Examples MA2000-Lite Cell/DCS and GSM/DCS Config for Telstra RHU 2000 Cavity iDEN DL BPF P1 iDEN P2 to 8x4 P6 P3 to 8x4 P2 P4 5-7. iDEN Configuration 5.
6 Appendix : System Specifications RF Parameters RF Frequency Range Services Frequency Range Uplink Downlink CELL 824-849 869-894 iDEN 806-824 851-869 GSM 890-915 935-960 E-GSM 880-915 925-960 Telstra 850M 824-849 869-890 SMR 896-902 929-941 DCS 1710-1785 1805-1880 PCS 1850-1910 1930-1990 G-PCS 1850-1915 1930-1995 UMTS 2100 1920-1980 2110-2170 MA2000 Installation and Configuration Guide 52
Appendix : System Specifications RF Parameters Low Band RF Parameters Low Band RU 2000 CELL TDMA/CDMA/WCDMA D U SMR 800 D U iDEN 800 Sprint D U GSM/ EGSM D U D 12 9 6 3 1 12 0 14 11 8 5 3 14 0 SMR 900 U IDEN 900 Sprint D U Max output PWR per antenna port 1 (comp) 2 carriers 4 carriers 8 carriers 12 carriers Mean Gain(dB)* Pin (dBm)* 16 13 10 7 5 16 0 7 14 11 8 5 3 14 0 7 10 7 4 1 -1 10 0 7 7 7 10 7 4 1 -1 10 0 7 Input IP3 (dBm) AGC OFF Min -5 -5 -5 -5 -5 -5 Input IP3 (dB
Appendix : System Specifications RF Parameters High Band *Factory set mean gain BU-RHU without RIU. May be field adjusted using system controller.
Appendix : System Specifications RF Parameters RF Parameters MA1200 Add-on MA1200 ADD-ON G-PCS CDMA/WCDMA D U G-PCS GSM/TDMA D U UMTS*** D U Max output PWR per antenna port 1 (comp) 2 carriers 4 carriers 8 carriers 12 carriers Mean Gain(dB)* Pin (dBm)* 20 17 14 11 9 20 0 3 Input IP3 (dBm) AGC OFF Min -7 Input IP3 (dBm) AGC ON Min 3 21 18 15 12 10 20 1 3 21 18 15 12 10 21 0 -7 -7 3 SFDR** (dB) 66 64 66 Max Intermod Distortion (dBm) -13 -13 *** Max Nf (dB) Gain Flatn.
Appendix : System Specifications System Specs System Specs Fiber Optic Specifications Optical output power <3.0mW Max. Optical budget 2 dB for fiber + 1 dB for connectors (assumed) = 3 dB total Optical loss per mated-pair connectors 0.
Appendix : System Specifications Specifications of Units Specifications of Units 6.1.1 MA 2000 MRC Remote Hub Supported Units RF antenna connections Input power Local powering Remote powering Power consumption Physical Mounting : A total of up to five Remote Units (one being a MA 1200 Add-on module) (not including MA 850/860 which is installed externally) : Four N-type female antenna connections : 230 VAC, 115 VAC (an AC/DC converter is built into the chassis).
Appendix : System Specifications 6.1.
Appendix : System Specifications 1200-PCS-AO-CB 1200-G-PCS-AO-CB 1200-UMTSE-AO-CB 1200-PCS-AO-LT 1200-UMTSE-AO-LT Add-on Add-on Add-on Add-on Add-on Ordering Information RHU RHU RHU RHU RHU - PCS service for cabinet supporting a PCS w/G-block for 2000 cabinet - UMTS service for cabinet - PCS service for Lite - UMTS service for Lite MobileAccess Universal Base Units WB-B8U WB-B4U Wide Band Base 8 Unit supporting 8 RHUs Wide Band Base 4 Unit supporting 4 RHUs Network Controller SC-450 Network Control
Appendix : System Specifications Ordering Information MobileAccess Radio Interface Unit (RIU) RIU-IM RIU-BTSC-CELL RIU-BTSC-IDEN RIU-BTSC-PCS RIU-BTSC-G-PCS RIU-BTSC-SMR RIU-BTSC-GSM RIU-BTSC-E-GSM RIU-BTSC-DCS RIU-BTSC-UMTS RIU-BDAC-CELL RIU-BDAC-IDEN RIU-BDAC-PCS RIU-BDAC-G-PCS RIU-BDAC-SMR RIU-L-IDEN-SMR-G-PCS1 Radio Interface Unit BTS Conditioner for Cellular BTS Conditioner for iDEN BTS Conditioner for PCS BTS Conditioner for PCS w/ G-Block support BTS Conditioner for SMR-Paging BTS Conditioner for
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