MobileAccess 2000 System Installation and Configuration Guide P/N: 709C001202 REV: 1.
Preface Preface Material MobileAccess Ltd. Vienna, Virginia Tel: +1-703-848-0200 MobileAccess Ltd. Lod, Israel Tel: +972-8-9183888 http://www.MobileAccess.
Preface Preface Material Preface Material © COPYRIGHT 2006, MOBILEACCESS NETWORKS INC. ALL RIGHTS RESERVED. MOBILEACCESSTM 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 Preface Material Policy for Warrantee and Repair MOBILEACCESS TESTS AND INSPECTS ALL ITS PRODUCTS TO VERIFY THEIR QUALITY AND RELIABILITY. MOBILEACCESS USES EVERY REASONABLE PRECAUTION TO ENSURE THAT EACH UNIT MEETS THEIR DECLARED SPECIFICATIONS BEFORE SHIPMENT. CUSTOMERS SHOULD ADVISE THEIR INCOMING INSPECTION, ASSEMBLY, AND TEST PERSONNEL ABOUT THE PRECAUTIONS REQUIRED IN HANDLING AND TESTING OUR PRODUCTS. MANY OF THESE PRECAUTIONS CAN BE FOUND IN THIS MANUAL.
Preface Preface Material Reporting Defects THE UNITS WERE INSPECTED BEFORE SHIPMENT AND FOUND TO BE FREE OF MECHANICAL AND ELECTRICAL DEFECTS. EXAMINE THE UNITS FOR ANY DAMAGE THAT MAY HAVE BEEN CAUSED IN TRANSIT. IF DAMAGE IS DISCOVERED, FILE A CLAIM WITH THE FREIGHT CARRIER IMMEDIATELY. NOTIFY MOBILEACCESS AS SOON AS POSSIBLE.
Preface Preface Material Standards and Certification MobileAccess products have met the approvals of the following certifying organizations: ISO 9001 For US: FCC 47 CFT part 22, 24, 90 For Canada: FDA-CDRH RSS-118, RSS-119, RSS-133….
Preface Preface Material About This Guide This user guide provides all the information necessary to install and configure the MobileAccess 2000 System. Revision History The revision history for this document is shown in Table 1-1. Table 1-1: Revision history Version Date Description 1.0 September 2004 Initial version. 1.1 Oct-04 Text editing 1.2 JAN-05 2000 Lite, Configurations, 4x8 1.3 Jan-05 Max current consumption, laser warnings 1.4 FEB-05 Corrected 2000 configurations 1.
Preface Preface Material List of Acronyms BDA Bi-Directional Amplifier BTS Base Transceiver Station BTSC Base Transceiver Station Conditioner BU Base Unit DL Downlink RU Remote Hub Unit RIU Radio Interface Unit UL Uplink VDC Volts Direct Current MA 2000 Installation and Configuration Guide VIII
Preface Preface Material Table of Contents Preface Material ......................................................................................................................... III Policy for Warrantee and Repair .......................................................................................................IV Laser Safety................................................................................................................................... V Care of Fiber Optic Connectors...........
Preface Preface Material 2.3 MA 2000 Remote Management Elements .................................................................................. 27 2.3.1 MA 410/430 Controller ................................................................................................... 29 2.3.1.1 MA 410/430 Controller Front Panel ...................................................................... 29 2.3.1.2 MA 410/430 Controller Rear Panel .......................................................................
Preface Preface Material 4.3.5.1 Integrated Power Supply model .......................................................................... 53 4.3.5.2 External Power Supplies Model............................................................................ 53 4.3.6 Antenna Connections ..................................................................................................... 53 4.4 2000 Lite Installation and Connections................................................................................
1 Introduction to the MA 2000 System MobileAccess 2000 provides a cost effective solution that enables multi-operator indoor coverage of voice and data wireless services through a single coax antenna infrastructure. MA 2000 provides scalable indoor coverage for enterprises, where support for coverage from additional operators in any band range, for example CELLULAR 800MHz band and GSM 900MHz band, may be added as needed, without changing the infrastructure.
Introduction to the MA 2000 System System Architecture Features and Capabilities 1.1 • Support for all current and future technologies such as TDMA, CDMA, WCDMA and GSM, and services such as PCS/CELLULAR, Paging, iDEN and 802.
Introduction to the MA 2000 System System Architecture • 1.1.3 MA 1200 Add-on – supports a single voice service. It enables a host RU to which it is connected to provide an additional service. • MA 850 – flexible and maintainable wireless transport platform that enables large-scale WiFi deployments and distribution of data services from 802.11a/b/g APs through the same antennas as the voice services.
Introduction to the MA 2000 System System Architecture 1.1.4 System Operation Figure 1-2 shows a basic block diagram of the system operation. On the downlink, the services from the BTS/BDA are transferred via interface to the Base Units. The interface, which may be passive (i.e. Interface Box) or active (RIU), is used to attenuate the RF signals to the required levels, converge them and distribute them to the BUs. The BUs are wideband – they are not service specific.
Introduction to the MA 2000 System Application Example 1.2 Application Example Figure 1-3 shows an example of an MA 2000 Cabinet based solution. Five services from two different operators are distributed, where services from Operator A conflict with those from Operator B. The converted optical signal is routed from the BUs directly to the corresponding RUs in each Cabinet over optic fiber. Each BU supports connections to 8 RUs. Additional BUs are required for connection to more RUs.
Introduction to the MA 2000 System MA 2000 Element Models 1.
Introduction to the MA 2000 System MA 2000 Element Models MobileAccess 1200 RHUs 1200-PCS-AO-CB - Add-on RHU - PCS service for cabinet 1200-UMTS-AO-CB - Add-on RHU - UMTS service for cabinet 1200-PCS-AO-LT - Add-on RHU - PCS service for Lite 1200-UMTS-AO-LT - Add-on RHU - UMTS service for Lite * NOTE: An accessory kit must be ordered for each new RU 2000, where the number of accessory kits are equal the number of RUs (i.e. three accessory kits for three RUs).
Introduction to the MA 2000 System MA 2000 Element Models Table 1-7: MobileAccess™ RIU MobileAccess Radio Interface Unit (RIU) RIU-IM Radio Interface Unit RIU-BTSC-CELL BTS Conditioner for Cellular RIU-BTSC-IDEN BTS Conditioner for iDEN RIU-BTSC-PCS BTS Conditioner for PCS RIU-BTSC-SMR BTS Conditioner for SMR-Paging RIU-BTSC-GSM BTS Conditioner for GSM 900MHz RIU-BTSC-GSM-O BTS Conditioner for GSM 900MHz for Orange RIU-BTSC-DCS BTS Conditioner for DCS 1800MHz RIU-BTSC-UMTS BTS Conditioner
2 MA 2000 System Elements This chapter provides a full, detailed description of each of the system elements and their individual connections. The element descriptions are organized in three sections: 2.1 • Head end - BTS/BDA Side Elements • Remote Location Elements • Setup and Management Elements BTS/BDA Side Elements The following MobileAccess 2000 system elements are installed on the BTS/BDA side: NOTE These elements are common to both MA 1000 and MA 2000 systems. 2.1.
MA 2000 System Elements BTS/BDA Side Elements RIUs provide interface to each BTS/BDA through internally installed sub-modules corresponding to the RF signal source (BTS or BDA) and the service band. Two main types of sub-modules are available: • BTSC (BTS Conditioner) - BTS service specific modules • BDAC (BDA Conditioner) – BDA service specific modules Two types of RIUs are available: 2.1.1.
MA 2000 System Elements BTS/BDA Side Elements RIU Chassis Front Panel The RIU front panel contains the indicators for each of the sub-modules (BTSC/BDAC) installed in the device and for the power supply. In addition, the front panel contains Expansion connectors for interface to additional BUs (if interface to more than four 8-port BUs is required). Power Supply BTS/BDA Conditioners Expansion connectors - for connecting additional BUs Figure 2-2. RIU Front Panel Table 2-1.
MA 2000 System Elements BTS/BDA Side Elements RIU Rear Panel The rear-panel contains connections to the BTS/BDA devices, BUs, Controller and Power. BU connections; one UL and one DL connection for every group of four ports (single OPTM) on the BU. BTS/BDA simplex BTS/BDA duplex connections Figure 2-3. RIU Rear Panel showing the RF Connection Power MA Controller connection Table 2.
MA 2000 System Elements BTS/BDA Side Elements 2.1.1.2 RIU Lite Figure 2-4. RIU Lite – Support for Three Services MA RIU Lite is factory defined with the required services.
MA 2000 System Elements BTS/BDA Side Elements Table 2-22. RIU Front Panel LEDs LED Description PWR ON – input power is within the required range RUN A set of LEDs is provided for each service supported by the RIU. Green Flashing – corresponding BDAC module is operational DL Overload Red – DL RF input is disconnected due to: Input power exceeding maximum allowed level Software setting Red Flashing: DL RF output exceeds the maximum allowed value.
MA 2000 System Elements BTS/BDA Side Elements 2.1.2 MA Base Unit The BU (Base Unit) is a wideband device that performs RF to optical (and vice versa) conversion of the signal on the BTS/BDA side. The BU interfaces to the RIU (or to passive BTS/BDA interface) and the optic fiber. Two models of MA BUs are available: • Four-port unit – supports optic connections to four RUs • Eight-port unit – supports optic connections to eight RUs About OPTMs: Each 4-port unit is referred to as OPTM.
MA 2000 System Elements BTS/BDA Side Elements Table 2-3. MA BU Front Panel Indicators LED Description PWR Power input detected for the corresponding unit. 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.
MA 2000 System Elements MA Remote Location Elements 2.2 MA Remote Location Elements Service specific units located at each remote location convert the RF signals to optics and route them to the coax antenna infrastructure. In addition, 802.11 data services may be added for distribution at each remote location. The units are either housed in, or externally connected to, a device or ‘enclosure’ that converges the data and voice services and provides the common interface to the antennas.
MA 2000 System Elements MA Remote Location Elements RU 2000 Front Panel The RU 2000 front panel contains the fiber optic connections to the BU, four coax connections to the antennas, power connections and status indicators. MA service onne to LEDs Fiber optic BU connections Power connector RF ports 1 to 4 Figure 2-9. RU 2000 Front Panel Table 2-5.
MA 2000 System Elements MA Remote Location Elements 2.2.2 MA 1200 Add-on The MobileAccess 1200 Add-on module is used to provide support for an additional service to an MA 2000 RU. The host MA RU and the MA 1200 add-on are interconnected and either housed in a MA 2000 Cabinet or connected externally to a MA 2000 Lite ‘enclosure’.
MA 2000 System Elements MA Remote Location Elements MA 1200 Rear Panel The RU 1200 rear panel contains the control connectors and the RF connections to the RU 2000 and MA 850. High Band DL UL Figure 2-12. RU 1200 Rear Panel Table 2-8. RU 1200 Rear Panel Connectors Add-on Control Transmits the control signals between the MA 1200 module and the MA 850 and RU 2000 modules. From – receives control signals from the RU 2000. Connected to the RU 2000 Add-on Control connector.
MA 2000 System Elements MA Remote Location Elements MobileAccess 850 provides a secure and centralized connection for 802.11a/b/g Access Points. It significantly expands 802.11a/b/g coverage and enables distributing data and voice services over the same coax and antenna infrastructure used by MA 2000 system. MA 850 is installed externally to the MA 2000 Cabinet and the MA 2000 Lite ‘enclosure’. MA 850 provides the following functions: • Converges services from 802.
MA 2000 System Elements MA Remote Location Elements MA 850 Rear Panel The MA 850 rear panel contains the connections to the APs, the Ethernet port for remote configuration and the connection to the MA 1200 add-on control (if an MA 1200 add-on unit is installed) Ethernet Port Control connection to MA 2000 antenna 802.11 b/g APs connections 802.11 a APs connections Figure 2-15. MobileAccess 850 Rear View Table 2-10. MA 850 Rear Panel Connections Rear Panel Description 802.
MA 2000 System Elements MA Remote Location Elements 2.2.4 MA 2000 Remote Cabinet Figure 2-16. RC 2000 Closed Cabinet View The MA 2000 Remote Cabinet provides support for up to 20 multi-operator services through a single coax antenna infrastructure. MA 2000 Cabinet provides the following functions: • Compactly houses up to a total of five RU 2000 and MA 1200 modules and the required filters NOTE: The number of modules depends on the models, required filtering, etc.
MA 2000 System Elements MA Remote Location Elements Open door views The following figure shows an open RC 2000 cabinet, integrated power supply model, with four RU 2000 modules and four filters. (For clarity, the internal connections are not included).
MA 2000 System Elements MA Remote Location Elements 2.2.5 MA 2000 2000 Lite MA 2000 Lite (filter and combiner enclosure) RU 2000 Antenna connections RU 2000 Figure 2-19. 2000 Lite System The 2000 Lite is designed to support up to 8 voice services, in addition to 802.11 data services.
MA 2000 System Elements MA Remote Location Elements 2.2.6 8 x 4 Combiner NOTE: This unit is internal to the MA 2000 system – both Cabinet and Lite models. This unit is installed in the MA 2000 system Cabinet and MA 2000 Lite and Lite enclosures. The 8x4 Combiner unit combines the antenna interface ports the RUs and provides a common interface to the coax antenna infrastructure.
MA 2000 System Elements MA 2000 Remote Management Elements The rear panel of the unit contains four low-band and four high-band ports as well as the control port. Figure 2-21. 8x4 Combiner Rear Panel The following table describes the rear panel connectors. NOTE: Connector on rear panel is for future option. 2.3 SMA Connectors Description Low Band Four connectors for the low-band outputs of the corresponding remote unit. Refer to Chapter 6 for the exact connections relevant to each configuration.
MA 2000 System Elements MA 2000 Remote Management Elements • MCT – a Java based GUI application provided with both controllers. The MCT is used after the installation procedure to adjust MobileAccess devices according to the installation site characteristics in order to optimize coverage for the site. The application is installed and ran from a computer that is connected either locally or via remote dial-up modem to the controller site to be adjusted or monitored.
MA 2000 System Elements MA 2000 Remote Management Elements 2.3.1 MA 410/430 Controller MobileAccess provides two controller models: MA 410 and MA 430. The controllers enable monitoring all directly connected devices, such as BUs and RIUs, as well as all the RUs and antennas corresponding to each BU. In addition, MA 410 and 430 controllers may be interconnected in a Slave/Master configuration that can be monitored through a single connection.
MA 2000 System Elements MA 2000 Remote Management Elements Table 2. MA 410/430 Front Panel Connectors Connector Description RS232 Connector Used for setup and RS232 monitoring. Network MA 430 only - Ethernet TCP/IP connection to network. For MA 430 front panel, this connector is used for setting up the network parameters (IP Address, community names, etc.). Table 2. MA 410/430 LED Indicators LED Description Network connection. For MA 430 only Active LED – Blinks during TCP/IP communication.
MA 2000 System Elements MA 2000 Remote Management Elements 2.3.1.2 MA 410/430 Controller Rear Panel Note: The rear panels for the MobileAccess 410 and MobileAccess 430 are the same. MA BU and RIU connections Slave controller connections BTS/BDA alarms output DC Input General purpose alarms. Figure 2-24.
MA 2000 System Elements MA 2000 Remote Management Elements Table 2. MA 410/430 Rear Panel Connectors Connector Description RS485 MobileAccess Base Units and RIU connections. NMS-RJ45 cables. Connection limitations: o Up to eight MA BUs on any of the ports o Up to two RIUs connected only to ports 1 and 5 From BU Four Legacy BU connections using NMS-BU/DB25 cables. RS232 MA 430 only. Eight connections to Slave controllers.
3 Site Preparation 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. Installation Requirements 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.
Site Preparation Coaxial Cable Connections 3.3 Coaxial Cable Connections 3.3.1 General Cable Installation Procedures Observe the general cable installation procedures that meet with the building codes in your area. The building code requires that all cabling be installed above ceiling level (where applicable). Each length of cable from the risers to each antenna must be concealed above ceiling.
Site Preparation Coaxial Cable Connections 3.3.3 3.3.4 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.
Site Preparation Power Consumption, Connections and Power Supplies 3.4 Power Consumption, Connections and Power Supplies 3.4.1 Power Safety Instructions SAFETY WARNINGS 3.4.2 • When installing or selecting the power supplies: • Be sure to disconnect all power sources before servicing. • MA 410/430 Controller lithium type battery should only be replaced by MobileAccess service personnel. Risk of exploding if battery is replaced by an incorrect type.
Site Preparation Power Consumption, Connections and Power Supplies • The following system elements require external fuse protection: RIUs, BUs, and 410/430 Controllers. • Referring to Table 3-1, calculate the required fuse protection. • Example: a set of three elements consisting of a BU, RIU and MA 410/430 controller requires a 2A circuit breaker.
Site Preparation Installation Conventions 3.4.4 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. Table 3-2: MobileAccess™ Power Supplies Power Supply LPS-48V-66W Local AC/DC Converter 40W LPS-48V-100W Local AC/DC Converter 100W RPS-200-N-48 Non-redundant 200W 110/220V Wall Mount. Not to be used in North America RPS-500-R-48 Redundant 500W 110/220V Chassis Mount.
Site Preparation Installation Conventions The following figure illustrates fiber optic routing to Remote Cabinets. RC Splice Box RC Splice Box Floor 2 Fiber opt. In Fiber opt out Fiber opt. In Fiber opt out Fiber opt. In Fiber opt out 8-Strand Fiber Cable Assembly RC Floor 1 4 3 2 1 Splice Box Port Port Port Port Optical Cable Floor 3 Load 50 ohms (2 spare for additional RUs) Ant. 1 Ant. 2 Ant. 3 Fiber Optic Cables Figure 3-1.
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 3.3.4) 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 Communication Room Installation 4.1.1 Unpacking and Inspection This section provides instructions for opening the shipping boxes, verifying that all parts have been received, and verifying that no shipping damage has occurred. Unpack and inspect the cartons according to the following procedure 1. Open the shipping carton and carefully unpack each unit from the protective packing material. 2. Check for signs of external damage.
System Installation Communication Room Installation Figure 4-1 shows the recommended physical location of the MobileAccess elements in the rack in order to facilitate and simplify the cabling connections. The configuration is for a single operator. If the site is serviced by more than one operator, each operator often installs their equipment in a separate rack.
System Installation Communication Room Installation 4.2.3 RIU (Chassis) Connections 4.2.3.1 RIU Connections 1. RIU to BU connections: connect each BU to the corresponding RF Uplink and Downlink connectors on the RIU rear panel. For connections to more than four 8-port BUs, refer to section 4.2.3.2. NOTE: Each pair of uplink and one downlink RIU rear-panel ports are used to connect one OPTM. See section 2.1.2.
System Installation Communication Room Installation 4.2.3.2 Connections to Additional BUs To connect more than four 8-port BUs or more than eight 4-port BUs to the RIU: • Connect an 8W splitter to the Downlink connector on the RIU front panel. • Connect an 8W combiner to the Uplink connector on the RIU front panel. • Connect additional BUs to the uplink and downlink connections.
System Installation Communication Room Installation Figure 4-4. BU Rear Panel Connections 4. Connect the BU rear panel COM to the MA 430 rear panel RS485 connector. 5. Connect the Power connection on the BU rear panel.
System Installation Communication Room Installation 4.2.5 BU and RIU Lite Connections 1. Connect the BU to the corresponding RF Uplink and Downlink connectors on the RIU Lite rear panel. Note that one uplink and one downlink RIU rear-panel ports are used to connect one OPTM (four ports from the BU). NOTE: Only a single four 4-port BU may be connected. 2. Connect each BDA to the corresponding rear panel Duplex connectors. 3. Connect the Power connections on the RIU rear panel. 4.
System Installation Remote Cabinet Installation 4.3 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 2000 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 MA 2000 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 RC 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 MA 850 system, refer to the MobileAccess 850 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. 2.
System Installation Remote Cabinet Installation 4.3.2 RC 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 Remote Cabinet Installation 4.3.3 RC 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 MA 2000 RC Rack Mount model is supplied with the required brackets already assembled to the sides of the cabinet as illustrated in the following figure. Simply, mount the MA 2000 RC in the rack and secure with the supplied screws.
System Installation Remote Cabinet Installation 4.3.4 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 Remote Cabinet Installation 4.3.5 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 2000 Lite Installation and Connections 4.4 2000 Lite Installation and Connections MA 2000 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 2000 Lite device and their antenna outputs are connected to either side of the 2000 Lite device. The combined outputs are then connected to the antennas in the covered area. The following figure illustrates MA 2000 connections to two RUs.
System Installation 2000 Lite Installation and Connections 4.4.1 Mounting MA 2000 Lite In order to mount MA 2000 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 is displayed. The installed filters vary depending on the RU models in the installation.
System Installation 2000 Lite Installation and Connections 4.4.2 Antenna Connections Referring to Figure 4-12: • Connect the four cables that are routed from the 8x4 Combiner to either side of the 2000 Lite, to the antenna ports of each RU. • Connect the two cables that are routed from the Digital unit to either side of the 2000 Lite, to the RS232 front panel connector of each RU. The following figure shows the internal connections ports.
5 Setup and Adjustment Procedure NOTE: This chapter provides only the basic instructions necessary for setting up and configuring the MA 2000 System. A complete description of the NMS System is given in the MA NMS Installation and Configuration Guide. 5.1 Overview After completing the required physical connections, it is required to perform some basic setup and adjustment procedures to the MA 2000 system elements.
Setup and Adjustment Procedure Configuring MA 430 Controller Network Parameters 6. If RIUs are installed, verify that the interface between the Base Units and the RIUs is defined as ‘RIU’ and perform the adjustment procedure described in the RIU Products Line Installation and Configuration Guide. 7. If RIUs are not installed, perform the adjustment procedure described in section 0. 5.
Setup and Adjustment Procedure Configuring MA 430 Controller Network Parameters 3. Reset the MA 430 controller by removing and reinserting the power connector on the controller rear panel. The terminal application will be initialized. 4. Press any key within 5 sec in order to access the CLI command prompt. 5. At the password prompt, enter the default password “MA” and change the password if desired. 6.
Setup and Adjustment Procedure Opening a Controller Session 5.3 Opening a Controller Session The configuration procedure is performed through a computer that is serially connected to the MA 430 controller. Install MCT on a computer (or laptop) meeting the requirements specified in the datasheet and create a shortcut to the application on your desktop. To connect to the controller locally 1.
Setup and Adjustment Procedure Opening a Controller Session 3. To open a session at a level that provides access to configuration options, select the User Name ‘Field Eng’ and enter the default Engineering password ‘Eng’. NOTE: The User Names determine the access levels. For more information on the User Names, Passwords and Password change, refer to the NMS manual. 4. Select the Comm Port according to the communication port to which your computer is connected.
Setup and Adjustment Procedure Base Units Interface Definition 5.4 Base Units Interface Definition By default, the Base Units are factory configured to connect to a passive BTS/BDA interface type. If an RIU is included in the installation, the BTS/BDA interface for each BU must be defined accordingly. NOTE: The relevant Base Units are displayed under the group of host BTSC module(s) In the Topology Tree.
Setup and Adjustment Procedure Adjustment Procedure 5.5 Adjustment Procedure NOTE: If your system includes RIU Chassis/Lite systems, refer to the RIU Product Line Installation and Configuration Guide for detailed instructions on commissioning, configuring and monitoring RIUs. This procedure may be performed for systems without RIUs. Although the adjustment procedure is optional and the system will operate without it, the procedure contributes to optimal site coverage.
Setup and Adjustment Procedure Adjustment Procedure • Click the Adjustment tab, verify that Live Signal is selected and click Adjust. 5. Adjust the RU as follows: • Invoke the RU configuration dialog by double-clicking on the RU in the Topology Tree or Display View. 6. Click the Adjustment tab, and click Adjust 7. Repeat steps 5 to 7 for any additional bands.
6 Upgrading and Configuration Examples MA 2000 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 Common USA Configurations 6.1 Common USA Configurations 6.1.1 iDEN/SMR with PCS Add-on iDEN and SMR coverage is implemented by one remote unit. This type of configuration was designed to meet Nextel’s existing needs. MA 1200 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.
Upgrading and Configuration Examples Common USA Configurations 6.1.2 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 6-2. 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 Common Israeli Configurations 6.2 Common Israeli Configurations MA 2000 Lite supports Cell/DCS and Orange/DCS. UMTS support can be added through MA 1200 Add-on. 6.2.1 Cell/DCS Figure 6-4.
Upgrading and Configuration Examples Common Israeli Configurations 6.2.2 Orange/DCS and UMTS Add-on Figure 6-5. Orange/DCS and Add-on UMTS Configuration 6.2.3 iDEN iDEN support is provided through MA 2000 Cabinet configurations. RHU 2000 Cavity iDEN DL BPF P1 iDEN P2 to 8x4 P6 P3 to 8x4 P2 P4 6-6.
7 Appendix I: Optical test Procedures 7.1 General Two parameters are of prime importance when testing optical cables or jumpers for use with Mobile Access products: • Optical Loss – the difference between the optical power at the input and output of an optical cable. It must be measured (usually in dB units) at 1310 nm. The maximum allowable loss should be < 0.5 dB/km for Single Mode (SM) cables and < 0.5 dB for every mated pair of connectors.
Appendix I: Optical test Procedures Optical Loss Testing 7.2.2 • Two Fiber Optic Test Jumpers with SC/APC connectors at each end • Two SC/APC Adapters Test Procedure 1. Set up the Laser Source, Optical Power Meter, and Test Jumper as shown below. Figure 7-1. Set Up 2. Record reading as P1 in dBm units. 3. Serially connect the second Test Jumper as shown below. Figure 7-2. Serial Connection of Second Jumper 4. Record the Power Meter Reading as P2 in dBm units. 5.
Appendix I: Optical test Procedures Optical Loss Testing 7. Disconnect connectors B and C. Connect the Cable Under Test (CUT) between connector B and C as shown below. Figure 7-3. Connecting CUT 8. Record Power Meter reading as Pcut in dBm units. 9. Calculate Cable Loss Ldut from the equation Lcut = P2- Pcut. 10. The maximum allowable loss should be < 0.5 dB/km for SM cables and < 0.5 dB for every mated pair of connectors. 7.2.3 Example Testing a 50 meter cable with SC/APC connectors at each end.
Appendix I: Optical test Procedures Optical Back-reflection Testing 7.3 Optical Back-reflection Testing This section describes the optical back-reflection testing of SM SC/APC connectors at each end of an optical cable. 7.3.1 Required Test Equipment 1. Adjustable1310 nm Stabilized Laser Source with output power greater than 7dBm 2. 1310 nm Optical Power Meter with a measurement range of up to -70 dBm 3.
Appendix I: Optical test Procedures Optical Back-reflection Testing 6. Connect the laser to port I1 of the coupler as shown in Figure 7-5. Figure 7-5. Test Procedure Connections 7. Connect the Power Meter to port I2 of the coupler as shown in Figure 7-5. 8. Wrap the O2 pigtail around a pencil of diameter 7 to 8 mm as illustrated. 9. The power meter readings should be < –58 dBm; otherwise, clean connector O1 and measure again. 10. Connect the cable under test to connector O1. 11.
