Andrew Wireless System NCM843 Repeater for Cellular Networks User Manual Additional information on SM2009

Andrew Wireless System Repeater for Cellular Networks Additional information on SM2009

User Manual

 Repeaters  Node M and Node C   Network ElementsUser's Manual M0121A4A
 User’s Manual for Node M and Node CNetwork Elements Page 2  M0121A4A.doc                             © Copyright 2010 CommScope, Inc.  All rights reserved. Andrew Solutions is a trademark of CommScope, Inc.  All information contained in this manual has been revised thoroughly. Yet Andrew Solutions accepts no liability for any omissions or faults. Andrew Solutions reserves the right to change all hard- and software characteristics without notice. Names of products mentioned herein are used for identification purposes only and may be trademarks and / or registered trademarks of their respective companies. No parts of this publication may be reproduced, stored in a retrieval system, transmitted in any form or by any means, electronical, mechanical photocopying, recording or otherwise, without prior written permission of the publisher.  Andrew Wireless Systems GmbH, 05-February -2010
   Page 3 TABLE OF CONTENTS 1. GENERAL 7 1.1. USED ABBREVIATIONS 7 1.2. HEALTH AND SAFETY WARNINGS 9 1.3. ABOUT ANDREW SOLUTIONS 11 1.4. INTERNATIONAL CONTACT ADDRESSES FOR WIG CUSTOMER SUPPORT 12 2. INTRODUCTION 15 2.1. PURPOSE 15 2.2. THE NODE M AND NODE C (NODE M/C) NETWORK ELEMENT 15 2.3. QUICK START CHECKLIST 16 3. CONNECTION SETUP 19 3.1. SETTING UP A LOCAL / LAN CONNECTION FROM LAPTOP / PC 19 3.2. SETTING UP NODE M/C REPEATER TO RUN AS A LAN ELEMENT 20 3.2.1. Prerequisites 20 3.2.2. Procedure 20 3.3. SETTING UP A REMOTE CONNECTION 21 4. INSTALLATION 23 4.1. MECHANICAL INSTALLATION 23 4.1.1. General 23 4.1.2. Wall Mounting Procedure 24 4.1.3. Pole Mounting Procedure 26 4.2. ELECTRICAL INSTALLATION 29 4.2.1. General 29 4.2.2. Grounding 30 4.2.3. Power Connection 31 4.2.4. Connection of the Antenna Cables 33 4.2.5. Opening the Cabinet - Mains Power Switch 34
 User’s Manual for Node M and Node CNetwork Elements Page 4  M0121A4A.doc 5. FUNCTIONAL DESCRIPTION  37 5.1. DIGITAL ARCHITECTURE 37 5.2. FEATURES 39 5.2.1. Filters Node M 39 5.2.2. Filters Node C 39 5.2.3. Digital ICE (Digital Interference Cancellation Equipment) 40 5.2.4. VSWR (Voltage Standing Wave Ratio) 40 5.2.5. RSSI (Receive Signal Strength Indication) 41 5.2.6. Alarm Forwarding 41 5.2.7. Downlink Final Amplifier 42 5.2.8. Power Supply Unit 44 5.2.9. Modems 45 5.2.10. Digital Channel Module (DCM) 48 5.2.11. External Alarm Controller - EAC-Board 49 5.2.12. Battery Pack - Battery On/Off 55 5.2.13. UL and DL Duplexer 57 6. MAINTENANCE AND REPLACEMENT 59 7. ILLUSTRATIONS 59 7.1. CABINET DRAWING 59 7.2. LAYOUT OF THE NODE M/C 843 60 8. INDEX 61
   Page 5 FIGURES AND TABLES  figure 3-1 Ethernet connector RJ45  19 figure 3-2 Pin connection  20 figure 3-3 Cable gland position  20 figure 4-1 Positions of drilling holes  24 figure 4-2 Wall mounting procedure  25 figure 4-3 Pole mounted units  26 figure 4-4 Back-to-back pole mounting  27 figure 4-5 Grounding bolt  30 figure 4-6 Power supply plug  31 figure 4-7 Mains connector of a Node M, exemplary  31 figure 4-8 Mains connector and antenna connections of a Node C, exemplary  31 figure 4-9 Front view of antenna connections from Node C, exemplary  33 figure 4-10 Front and top cover screws  34 figure 4-11 Position of mains power switch  35 figure 5-1 Configuration of a network element  37 figure 5-2 RF path of a Node C 843, exemplary  38 figure 5-3 Node M/C x37 MCPA DL final amplifier  42 figure 5-4 Node M 2143 and Node M 1943 MCPA DL final amplifier  42 figure 5-5 Node M/C 843 DL final amplifier  43 figure 5-6 Power supply, Node M/C x37  44 figure 5-7 Power supply, Node M/C x43  44 figure 5-8 Modem MC35  45 figure 5-9 Redwing modem (CDMA)  45 figure 5-10 Modem AnyDATA iPORT EMIII Dual / EM IV Dual  46 figure 5-11 Modem Raven XT  46 figure 5-12 Modem MTCBA-C-N9  46 figure 5-13 Cable from modem to donor duplexer  47 figure 5-14 Cable from modem to external modem antenna port; Node M  47 figure 5-15 Digital channel module, DL part  48 figure 5-16 Digital channel module, UL part  48 figure 5-17 EAC-board, installed  49 figure 5-18 Function of LEDs on the EAC-board  51 figure 5-19 Pin assignment  52
 User’s Manual for Node M and Node CNetwork Elements Page 6  M0121A4A.doc figure 5-20 External alarm clamps, installed  52 figure 5-21 Configuration of external alarm clamps  53 figure 5-22 External cable glands  53 figure 5-23 Summary alarm relay  54 figure 5-24 Relay contacts, alarm condition  54 figure 5-25 Battery pack, exemplary  55 figure 5-26 Battery pack installed and its connection to DCM  55 figure 5-27 Position of the battery disconnect button on the EAC-board  56 figure 5-28 Duplexer, UL IN  57 figure 5-29 Duplexer, DL IN  57 figure 5-30 Duplexers installed  57 figure 5-31 Duplexers installed, ceramic duplexer DL IN  58 figure 7-1 Cabinet of a Node M, respective Node C, exemplary  59 figure 7-2 Layout of the Node M/C 843, exemplary  60  table 1-1 List of international contact addresses....................................................... 13 table 4-1 Required length of thread-bolts ................................................................. 26 table 4-2 Components of pole mounting kit .............................................................. 27 table 4-3 Pin assignment of mains connector........................................................... 32 table 5-1 Pin assignment of relay contacts ............................................................... 54
1 General   Page 7 1. GENERAL 1.1.  USED ABBREVIATIONS  A/D  Analogue to Digital Converter AGC  Automatic Gain Control ALC  Automatic Level Control ARFCN  Absolute Radio Frequency Channel Number BCCH  Broadcast Control Channel BTS  Base Transceiver Station CDMA  Code Division Multiple Access D/A  Digital to Analogue Converter DAS  Distributed Antenna System DCM  Digital Channel Module DHCP  Dynamic Host Configuration Protocol D-ICE Digital Interference Cancellation Equipment DL Downlink DSP  Digital Signal Processor EAC  External Alarm Controller EDGE  Enhanced Data Rates for GSM Evolution ESD Electrostatic Discharge ETS European Telecommunication Standard ETSI European Telecommunication Standards Institute FCC  Federal Communications Commission FRU  Field Replaceable Unit GPRS  General Packet Radio Service GSM  Global System for Mobile Communication HID  Hardware Inventory Data HSN  Hopping Sequence Number I2C Bus  Inter Integrated Circuit Bus (Philips) ICE  Interference Cancellation Equipment ID No  Identification Number LAN Local Area Network LED  Light Emitting Diode LMT  Local Maintenance Terminal LNA  Low Noise Amplifier LO Local Oscillator MAIO  Mobile Allocation Index Offset MCPA  Multi Carrier Power Amplifier Ncm Newton centimeter NSB  Network Supervision Box OFDM Orthogonal Frequency Division Multiplex OMC  Operation and Maintenance Centre PA Power Amplifier PAMR  Public Access Mobile Radio PPP Point-to-Point Protocol PSTN  Public Switched Telephone Network RF Radio Frequency
 User’s Manual for Node M and Node CNetwork Elements Page 8  M0121A4A.doc RLP Radio Link Protocol RSCP  Received Signal Code Power RSSI  Receive Signal Strength Indication RTC Real Time Clock RX Receiver SCPA  Single Carrier Power Amplifier SDA Serial Data SMS  Short Message Service SNMP  Simple Network Management Protocol TS Transmitter UE User Equipment UL Uplink UMTS Universal Mobile Telecommunication System UPS  Uninterruptible Power Supply UTC  Universal Time Coordinate UTRA  UMTS terrestrial radio access VCO  Voltage Controlled Oscillator VSWR  Voltage Standing Wave Ratio WCDMA  Wide-band Code Division Multiple Access
1 General   Page 91.2.  HEALTH AND SAFETY WARNINGS  1.  Only suitably qualified people are allowed to work on this unit and only after becoming familiar with all safety notices, installation, operation and maintenance procedures contained in this manual.  2.  Read and obey all the warning labels attached to the unit. Make sure that the warning labels are kept in a legible condition and replace any missing or damaged labels.  3.  Obey all general and regional installation and safety regulations relating to work on high voltage installations, as well as regulations covering correct use of tools and personal protective equipment.  4.  Keep operating instructions within easy reach and make them available to all users.  5.  It is the responsibility of the network provider to implement prevention measures to avoid health hazards which may be associated to radiation from the antenna(s) connected to the unit.  6.  IMPORTANT NOTE: To comply with FCC RF exposure compliance requirements, the following antenna installation and device operating configurations must be satisfied: A separation distance of at least 400 cm must be maintained between the antenna of this device and all persons. RF exposure compliance may need to be addressed at the time of licensing, as required by the responsible FCC Bureau(s), including antenna co-location requirements of 1.1307(b)(3). Maximum permissible antenna gain is 17 dBi.  7.  Make sure, access is restricted to qualified personnel.  8.  Only licence holders for the respective frequency range are allowed to operate this unit.  9.  Use this equipment only for the purpose specified by the manufacturer. Do not carry out any modifications or fit any spare parts which are not sold or recommended by the manufacturer. This could cause fires, electric shock or other injuries.  10. Due to power dissipation, the network element may reach a very high temperature. Do not operate this equipment on or close to flammable materials.  11. Before opening the unit, disconnect mains.  12. ESD precautions must be observed! Before commencing maintenance work, use the available grounding system to connect ESD protection measures.
 User’s Manual for Node M and Node CNetwork Elements Page 10  M0121A4A.doc 13. This unit complies with European standard EN60950.  14. Make sure the network element settings are according to the intended use (see also product information of manufacturer) and regulatory requirements are met.  15. Although the network element is internally protected against overvoltage, it is strongly recommended to earth the antenna cables close to the network element’s antenna connectors for protection against atmospheric discharge.
1 General   Page 11 1.3.  ABOUT ANDREW SOLUTIONS  Andrew Wireless Systems GmbH based in Buchdorf/ Germany, is a leading manufacturer of coverage equipment for mobile radio networks, specializing in low cost, high performance, RF and optical repeaters. Our optical distributed networks and RF repeater systems provide coverage for every application: outdoor use, indoor installations, tunnels, subways and many more.  Andrew Wireless Systems GmbH belongs to the Wireless Innovations Group (WIG). Being a part of Andrew Solutions, WIG has unparalleled experience in providing RF coverage and capacity solution for wireless networks in both indoor and outdoor environment.  Andrew Solutions, a CommScope Company, is the foremost supplier of one-stop, end-to-end radio frequency (RF) solutions. Our products are complete solutions for wireless infrastructure from top-of-the-tower base station antennas to cable systems and cabinets, RF site solutions, signal distribution, and network optimization.  Andrew Solutions has global engineering and manufacturing facilities. In addition, it maintains field engineering offices throughout the world.  We operate a quality management system in compliance with the requirements of ISO 9001. All equipment is manufactured using highly reliable material. In order to ensure constant first-rate quality of the products, comprehensive quality monitoring is conducted at all fabrication stages. Finished products leave the factory only after a thorough final acceptance test, accompanied by a test certificate guaranteeing optimal operation.  The declaration of conformity for the product is available upon request from the local sales offices or from Andrew Solutions directly.  To make the utmost from this unit, we recommend you carefully read the instructions in this manual and commission the unit only according to these instructions.  For technical assistance and support, contact the local office or Andrew Solutions directly at one of the following addresses listed in the next chapter.
 User’s Manual for Node M and Node CNetwork Elements Page 12  M0121A4A.doc 1.4.  INTERNATIONAL CONTACT ADDRESSES FOR WIG CUSTOMER SUPPORT  Wireless Innovations Group (WIG)  Americas: Canada United States Andrew Solutions Canada  Andrew Solutions,  Andrew LLC, A CommScope CompanyMail 620 North Greenfield Parkway Garner, NC 27529 U.S.A. Mail  620 North Greenfield Parkway Garner, NC 27529 U.S.A. Phone +1-905-878-3457 (Office) +1 416-721-5058 (Mobile) Phone +1-888-297-6433 Fax +1-905-878-3297  Fax  +1-919-329-8950 E-mail Peter.Masih@andrew.com WIsupport.us@andrew.com  E-mail WIsupport.us@andrew.com  Brazil & South America  Mexico, Central America &  Caribbean region Andrew Solutions,  A CommScope Company  Andrew Solutions Mexico Mail Av. Com. Camilo Julio 1256 Predio B Zonal Industrial CP 597 Sorocaba SP 18086-000 Brazil Mail Monte Elbruz 124-402A Col. Palmas Polanco 11560 Mexico, D.F. Mexico Phone  + 55-15-9104-7722  Phone  + 52-55-1346-1900 (Office) +52-1-55-5419-5260 (Mobile) Fax  + 55-15-2102-4001  Fax  +52-55-1346-1901 E-mail WIsupport@andrew.com  E-mail WIsupport@andrew.com  APAC Countries:  China Australia Andrew Solutions Hong Kong  Andrew Corporation (Australia) LLC Pty Ltd. Mail Room 915  Chevalier Commercial Centre 8 Wang Hoi Rd Kowloon Bay SAR Hong Kong Mail Unit 1 153 Barry Road Campbellfield  VIC  3061 Australia Phone +852-310-661-00  Phone +613-9300-7969 Fax +852-2751-7800  Fax +613-9357-9110 E-mail WISupport.china@andrew.com  E-mail WIsupport.australia@andrew.com
1 General   Page 13 Europe:  United Kingdom  France Andrew Solutions UK Ltd  Andrew Solutions France Mail Unit 15, Ilex House  Mulberry Business Park Fishponds Road  Wokingham Berkshire RG41 2GY England Mail 28, Rue Fresnel Z.A Pariwest BP 182 78313 Coignières Cedex France Phone  +44-1189-366-792  Phone  +33 1 30 05 45 50 Fax  +44-1189-366-773  Fax  +33 1 34 61 13 74 E-mail  WIsupport.uk@andrew.com E-mail WIsupport@andrew.com  Germany Czech Republic Andrew Wireless Systems GmbH  Andrew Solutions Czech Republic C-Com, spol. s r.o Mail  Industriering 10 86675 Buchdorf Germany Mail  U Moruší 888 53006 Pardubice Czech Republic Phone  +49-9099-69-0  Phone  +420-464-6280-80 Fax  +49-9099-69-930  Fax  +420-464-6280-94 E-mail WIsupport@andrew.com  E-mail WIsupport@andrew.com  Austria Switzerland Andrew Wireless Systems (Austria) GmbH  Andrew Wireless Systems AG Mail  Weglgasse 10 Wien-Schwechat 2320 Austria Mail  Tiergartenweg 1 CH-4710 Balsthal Switzerland Phone  +43-1706-39-99-10  Phone +41-62-386-1260 Fax  +43-1706-39-99-9  Fax +41-62-386-1261 E-mail WIsupport.austria@andrew.com  E-mail support.ch@andrew.com  Italy  Spain & Portugal Andrew Wireless Systems S.r.l., Faenza, Italy  Andrew Solutions España S.A. Mail  Via de Crescenzi 40 Faenza 48018 Italy Mail  C/ Salvatierra, 5 - 3a pt. 28034 Madrid Spain Phone  +39-0546-697111  Phone  +34-91-745-20 40 Fax  +39-0546-682768  Fax  +34-91-564-29 85 E-mail WIsupport.italia@andrew.com  E-mail WIsupport.iberia@andrew.com table 1-1 List of international contact addresses
 User’s Manual for Node M and Node CNetwork Elements Page 14  M0121A4A.doc For your notes:
2 Introduction   Page 15 2. INTRODUCTION 2.1.  PURPOSE  Wireless communication systems provide a two-way information transfer (voice and data) between a base station and multiple mobiles within a given area. Environmental variables such as physical structures both man-made (buildings) and natural (mountains) attenuate signals in the transmission path, which reduce the transport signal’s strength. This attenuation leads to a reduction in quality and data rate and eventually prohibits the system’s use entirely. The Node M and Node C are specifically designed to extend coverage, enhance quality, and increase air-interface capacity.  In the downlink (DL), the Node M and Node C picks up signals coming from the base station, filters them, amplifies them, and retransmits them to the mobile. In the uplink (UL), it picks up signals from the mobile, filters them, amplifies them, and retransmits them to the base station. The Node M and Node C constantly monitors the quality of the signals passing through it, while simultaneously electronically decreasing isolation requirements. 2.2.  THE NODE M AND NODE C (NODE M/C) NETWORK ELEMENT  Node M and Node C are primary network elements, capable of enhancing up to 20 MHz of continuous spectrum. Their primary function is to increase the signal strength between multiple mobiles and a base station in areas where basic voice or high-speed data transmission is not available. They may be used for basic coverage, signal reinforcement, and cell shaping, which can increase a network’s coverage area, data rate, and capacity.  The Node M is a dedicated UMTS device, but the Node C operates with CDMA technology. However, several enhancers operating at different frequencies and technologies may share the same hardware (cables and antennas) via a crossband coupler.  The Node M or Node C may be set-up locally or remotely. A circuit switch or packet data modem may be connected to an integrated controller. This provides the network management system with on-demand, alarm generated, or heartbeat monitoring via the always-connected packet features. The Node M and Node C have features and functions that may be monitored and changed by the operators via a web-based browser remotely or locally, or via the SNMP based OMC software platform. The graphical interfaces of Node M and Node C provide a setup menu including a setup wizard which allows both setup and monitoring capability without any equipment required apart from a laptop or PC. The Node M and Node C network elements are self-diagnosing, self-adaptive, and virtually maintenance-free.  In the following, the expression Node M/C stands for Node M and Node C.
 User’s Manual for Node M and Node CNetwork Elements Page 16  M0121A4A.doc 2.3.  QUICK START CHECKLIST  Read the health and safety warnings in chapter 1.2 Health and Safety Warnings.  Setting up the Node M/C is quick and easy. The following step-by-step procedure provides a quick overview for a correct setup and optimization.  a. Required Equipment    Node M or Node C   donor antenna   coverage antenna(s) or DAS   coaxial feeder cable   connectors (RF, mains)   laptop (Win XP or Win 2000) with connection and mains cable   standard Ethernet cable (CAT5) (see chapter 3 Connection Setup)  b. Required Information  Make sure to have the following information at hand:   important on-site conditions (e.g. BTS location, mains supply, etc.)   channels to be enhanced/ amplified   pilot power to total power ratio   data of mandatory fields of Connectivity and Upload page see user's manual for Node software.  c. Procedure  1.  Install the donor (linear polarized recommended) and coverage antennas. 2.  Install the feeder cable from the Node M/C to the antennas. 3.  Install the Node M/C (see chapter 4.1 Mechanical Installation)  ) Note:  Take care to ground the unit correctly as instructed in chapter 4.2.2 Grounding. 4.  Connect power and the antenna feeder cables to the Node M/C. 5.  Open the Node M/C as described in chapter 4.2.5 Opening the Cabinet - Mains Power Switch. 6.  Setup the connection computer (see chapter 3 Connection Setup and software manual).
2 Introduction   Page 17  7.  Login to the unit and follow the installation wizard option for easy installation. a.  Optimize the donor antenna performance (see software manual). b.  To select the channels for enhancement, choose between the “Measurement Assisted Channel Assignment” or “Unassisted Channel Assignment” from the Setup Wizard page (see software manual). c.  Enter the pilot power to total power ratio of the donor Base Station. d.  Enter the desired output power in the downlink. e.  Enter the relative uplink gain and click the “Program” button. f. Select the “Connectivity and Upload” button, to setup the modem (if applicable) and to enter data in the other user fields (see software manual). g.  Select the “Technician Setup” button (see software manual), to change additional system settings, e.g. ICE, H.R. Filter, Diversity; the “Technician Setup” is also accessible from the home page. 8.  The Node M/C setup is complete. 9.  Open the “Save Configuration to Laptop” menu for record keeping purposes. 10. Unplug the computer, close the Node M/C and tighten all screws.  ) Note:  To do a power cycle, disconnect the battery backup by pushing the battery disconnect button on the EAC-board; see chapter 5.2.12 Battery Pack - Battery On/Off.
 User’s Manual for Node M and Node CNetwork Elements Page 18  M0121A4A.doc For your notes:
3 Connection Setup   Page 193. CONNECTION SETUP 3.1.  SETTING UP A LOCAL / LAN CONNECTION FROM LAPTOP / PC    figure 3-1 Ethernet connector RJ45 2 1  Ethernet connector - LEDs After the connection is made properly, the red and green LEDs near the Node C network connector will flash.  No Colour Explanation 1 Yellow LED illuminates when a packet is transmitted by the DCM2 DL module. 2  Green  LED illuminates when a packet is received by the DCM2 DL module.  A standard CAT5 Ethernet cable is supplied to set up a local connection. Open the Node and plug the cable in the Ethernet connector RJ45 of the EAC-board.  To setup a LAN connection follow the description in the next chapter. A cable is not provided.
 User’s Manual for Node M and Node CNetwork Elements Page 20  M0121A4A.doc3.2.  SETTING UP NODE M/C REPEATER TO RUN AS A LAN ELEMENT 3.2.1.  Prerequisites  Use the Local Area Network (LAN) mode to activate DHCP clients or to assign a static IP address to the Node M/C. ) Note:  Before it is possible to configure the LAN settings alarm connectors 7 and 8 must be connected in order to activate External Alarm 1, figure 3-2 Pin connection. A local connection via laptop or PC cannot be setup as long as alarm connectors 7 and 8 are connected.  ) Note:  In the software, LAN Information settings will be activated, if the main connectivity is set to LAN. Please refer to the software manual. For the connection of the Node to the LAN network please use the same type / category of Ethernet cable as for the connection of the computer to the LAN network.  3.2.2.  Procedure 1.  Switch off repeater and connect Pin 7 and Pin 8 of the External Alarm connector. Pin   Pin  2 n.c. 1 n.c. 4 GROUND 3 EXT_ALARM_3 6 GROUND 5 EXT_ALARM_2 8 GROUND 7 EXT_ALARM_1  10 PSTN_1_EXTERNAL 9 PSTN_1_INTERNAL 12 PSTN_2_EXTERNAL 11 PSTN_2_INTERNAL 14 GROUND 13 SUMMARY ALARM, LED GREEN 16 GROUND 15 SUMMARY ALARM, LED RED                 figure 3-2 Pin connection 2.  Switch on repeater 3. Put an Ethernet CAT5 cable (recommended cable diameter is 4 - 6 mm) through one of the PG7 cable glands into the Node.     figure 3-3 Cable gland position 2  11516
3 Connection Setup   Page 214.  Crimp the RJ45 connector and connect it to the RJ45 jack of the EAC board. This is the same connector as for a local connection. See figure 3-1 Ethernet connector RJ45 on page 19). 5.  Fasten the cable glands properly to ensure waterproofness. 6. Configure Main connectivity on the Connectivity page to be LAN so that the LAN section on the Connectivity page will be activated (for details see software manual, chapter LAN Information). 7.  To enable the DHCP client, set the DHCP check mark. To enter a static IP, DHCP must be disabled  and the IP entry fields will become activated, indicated by white colour.   Entry fields to set static IP  (white = active; grey = deactivated)   For further details on IP address setting see software manual. 8.   Press the Submit button. 9.  Connect the Node via the CAT5 cable from Step 3 to the (customer) LAN network and the Node will get a LAN IP. For more information on LAN IP see software manual.  3.3.  SETTING UP A REMOTE CONNECTION  Use the manual 'Network and Dial-Up Connections - Setup' to establish a remote connection.  Using the remote connection, the operator can monitor and control the Node M using the Web browser interface remotely.  In addition, the remote connection may be used for:     An OMC-type software platform (see separate manual)    SMS alarm forwarding
 User’s Manual for Node M and Node CNetwork Elements Page 22  M0121A4A.doc For your notes:
4 Installation   Page 234. INSTALLATION 4.1.  MECHANICAL INSTALLATION 4.1.1.  General  Read the health and safety warnings in chapter 1.2 Health and Safety Warnings.  1.  Do not install the unit in a way or at a place where the specifications outlined in the Environmental and Safety Specifications leaflet of the manufacturer are not met.  2.  It is recommended only to use the mounting hardware delivered by the manufacturer. If different mounting hardware is used, the specifications for stationary use of the unit must not be exceeded. ) Note:  Exceeding the specified load limits may cause the loss of warranty. 3. The unit is considerably heavy. Make sure that a suitable mounting surface is used. Ensure there is adequate manpower to handle the weight of the system.  4.  Due to power dissipation, the unit may reach a very high temperature. Ensure sufficient airflow for ventilation.   Above and below the units a minimum distance of 300 mm to ceiling,   floor, etc. has to be kept. This distance must also be observed between   two units if they are mounted one above the other.  5. When connecting and mounting the cables (RF, mains, ...) ensure no water can penetrate into the unit through these cables.  If any different or additional mounting material is used, ensure that the mounting remains as safe as the mounting designed by the manufacturer. Ensure that the static and dynamic strengths are adequate for the environmental conditions of the site. The mounting itself must not vibrate, swing or move in any way that might cause damage to the unit. ) Note:  Node M and Node C are delivered with a pre-mounted front cover. This cover is of vital importance for the correct forced airflow and for passive cooling. Thus, do not operate the unit without cover.
 User’s Manual for Node M and Node CNetwork Elements Page 24  M0121A4A.doc4.1.2.  Wall Mounting Procedure     Check the wall mounting kit and the wall to determine their suitability.    Mark the position of the drilling holes - four per unit - for the Node according to figure 4-1. Please observe that the figure always shows a pair of drill holes for each position. Only drill one of each pair.   figure 4-1 Positions of drilling holes  ) Note:  Ensure that there is free access to the electrical connections as well as to the cabinet. The approved bending radius of the connected cables must not be exceeded.
4 Installation   Page 25    Drill four holes (four per unit) at the marked positions and insert dowels*.   *  The dowels are not part of the delivery (and thus not illustrated in the figure) since the suitable   type depends on the on-site conditions (the material of wall). Therefore, use dowels that are   appropriate for the mounting surface.    Use a cap nut or locknut to screw the four M8 screws into the dowels.    Use a hex wrench, opening 17 (old standard) or 16 (new standard), to loosen the M10 hexagon head screws (four per unit) by which the mounting brackets are fastened to the cabinet sides.    Mount the mounting brackets to the screws, and fasten them using the M8 washers, locking rings, and hex nuts that are part of the wall mounting kit.    Hang the cabinets into the brackets and fasten them with the M10 hexagon head screws *.    figure 4-2 Wall mounting procedure   *  If other screws than the ones delivered by the supplier are used for fastening, these must have   a diameter of at least 8 mm and an appropriate length (depending on the dowels). Additionally,   make sure they are adequate for supporting a maximum weight of 50 kg per unit.
 User’s Manual for Node M and Node CNetwork Elements Page 26  M0121A4A.doc4.1.3.  Pole Mounting Procedure  The following figure illustrates the pole mounting option back-to-back. V1498A0 figure 4-3 Pole mounted units  Before starting the mounting procedure, check the pole diameter of the pole to which the units will be installed. Then, cut the thread-bolts (see table 4-2 Components of pole mounting kit, pos. 5) to the required length according to the following table:  Pole-diameter (mm)  100 110 120 130 140 150 160 170  180  190 200Length of thread-bolt (mm)  216 226 236 246 256 266 276 286  296  306 316table 4-1 Required length of thread-bolts
4 Installation   Page 27The pole mounting kit 'back-to-back' consists of the following parts in different quantities:  No Part 1  Pole mounting brace 2  Washer DIN 9021 – 8.4 3  Nut M8 DIN 934 4  Spring ring DIN 127 – A8 5 Thread-bolt M8 6  Washer M8 DIN 125 table 4-2 Components of pole mounting kit  The numbers in the above table refer to the numbering of the components in the following figure.   figure 4-4 Back-to-back pole mounting  Dismount the mounting brackets from the cabinets of the units by loosening the hexagon head screws M10x20 by which the mounting brackets are screwed to the housing (four per unit). Do not unscrew those screws, only loosen them by approx. three turns and take off the brackets.   Fasten the mounting brackets to the pole using the corresponding mounting kit as illustrated above.
 User’s Manual for Node M and Node CNetwork Elements Page 28  M0121A4A.doc For your notes:
4 Installation   Page 294.2.  ELECTRICAL INSTALLATION 4.2.1.  General  Read the health and safety warnings in chapter 1.2 Health and Safety Warnings. 1. This unit contains dangerous voltages. Loss of life, severe personal injury or property damage can be the result if the instructions contained in this manual are not followed. 2.  It is compulsory to ground the unit before connecting power supply. A grounding bolt is provided on the cabinet to connect the ground bonding cable. 3. Although the unit is internally protected against overvoltage, it is strongly recommended to earth the antenna cables close to the unit’s antenna connectors for protection against atmospheric discharge. In areas with strong lightning it is strongly recommended to insert additional lightning protection. 4.  Hard wired installation of mains supply for the unit requires an easily accessible separation device in the mains circuit. 5.  Make sure that an appropriate circuit breaker and an overcurrent limiting device are connected between mains and the unit. 6.  For unstable electric networks which frequently generate spikes, it is advised to use a voltage limiting device. 7. A connection of mains supply to a power socket requires the power socket to be nearby the unit. 8.  The mains cable must be used exclusively for the repeater. Do not use this cable for the power supply of other devices. 9. Incorrectly wired connections can destroy electrical and electronic components. 10. To avoid corrosion at the connectors caused by electrochemical processes, the material of the cable connectors must not cause a higher potential difference than 0.6V (see electrochemical contact series). 11. It is sufficient to tighten the 7/16 or N antenna connector hand-screwed. Any use of a tool (e.g. pair of pliers) might cause damage to the connector and thus lead to malfunctioning of the unit. 12. The unit complies with the surge requirement according to EN 61000-4-5 (fine protection), however, it is recommended to install an additional  medium (via local supply connection) and/or coarse protection (external surge protection) depending on the individual application in order to avoid damage caused by overcurrent. 13. Observe the labels on the front panels before connecting any cables.
 User’s Manual for Node M and Node CNetwork Elements Page 30  M0121A4A.doc4.2.2.  Grounding  Grounding must be carried out. Connect an earth-bonding cable to the grounding connection provided at the outside of the remote unit. Do not use the grounding connection to connect external devices.    figure 4-5 Grounding bolt  After loosening the hex nut, connect the earth-bonding cable between the two washers as illustrated in the figure above. Then, fasten all parts again with the hex nut.   The PE cables must have a minimum cross section of 10mm2.
4 Installation   Page 314.2.3.  Power Connection   Before connecting electrical power to the units, the system must be grounded as described in the previous chapter. Mains power must be connected at the mains connector. The power supply plug is included with the Node M/C.  The correct wiring of the power supply plug is as follows:   figure 4-6 Power supply plug  figure 4-7 Mains connector of a Node M, exemplary Mains   Mains Coverage antenna  Donor antenna (to mobile)  (to base station) figure 4-8 Mains connector and antenna connections of a Node C, exemplary
 User’s Manual for Node M and Node CNetwork Elements Page 32  M0121A4A.doc   Mains AC  Mains DC PIN Connection  Colour Connection Colour 1 Phase  brown not connected  2 Neutral  blue  -Vdc*  black 3 not connected    +Vdc*  red 4  PE  green / yellow PE  green / yellowtable 4-3 Pin assignment of mains connector  A minimum cross section of 1.5 mm2 is required for the power supply connection. Each wire must observe the applicable national regulations regarding loop impedance, voltage drop, and methods of installation. Make sure to connect the correct voltage to the unit. ) Note:   Do not connect or disconnect the power cord at the mains connector while power is on. Turn off mains** power before connecting the power cord at the units, then, engage mains again. *   Black is always the negative potential while red is the positive one. ** Mains power must be interrupted with an external AC or DC breaker. For the AC or DC breaker, observe the following recommendation:      120 Volt / 20 Amp max. or 240 Volt / 16 Amp, single-phase, 50/60 Hz AC service is needed, i.e. the external AC breaker should be 20 Amps max. for 120-Volt service or 16 Amps for 240-Volt service.   Option: 48 Vdc (36-72 Vdc). The external DC breaker should be 20 Amps.
4 Installation   Page 334.2.4.  Connection of the Antenna Cables   The Node M/C’s antenna connectors are 7/16 female (optionally equipped with an N female adapter). All connectors are located at the bottom of the cabinet. An operator should refer to the documentation of the cable connector manufacturer for best mating procedures. Furthermore, the bending radius of the antenna cables should be maintained at all times.  There are several issues to be considered when selecting the cable and antenna types.    Highly directional antennas with good front-back-ratios (40 dB is typical) are recommended because they improve isolation and cell site selectivity.    Smaller diameter cables are less expensive and easier to install but have worse performance.  Tighten the 7/16 or N connectors ONLY by hand. The use of pliers may cause damage to the connector and impair the performance of the Node M/C.   DiversityMobile BTS Coverage antenna (to mobile)  Donor antenna (to base station) figure 4-9 Front view of antenna connections from Node C, exemplary
 User’s Manual for Node M and Node CNetwork Elements Page 34  M0121A4A.doc4.2.5.  Opening the Cabinet - Mains Power Switch  Read the health and safety warnings in chapter 1.2 Health and Safety Warnings and observe the following step-by-step procedure.    Do not operate the Node M/C without terminating the antenna connectors. The antenna connectors may be terminated by connecting them to their respective antennas or to a dummy load.    Only qualified personnel should carry out the electrical, mechanical, commissioning, and maintenance activities that require the unit to be powered on when open.    When opening the Node M/C do not damage the warranty labels on the internal devices. The warranty is void if the seals are broken.    First remove the front cover plate by loosening the four front cover screws. The M5 socket head cap screws are circle-marked in the figure to the left.  Do not remove those screws. When they are loosened, the front cover plate can be taken off.  To open the housing, unscrew the nine M5 socket head cap screws (captive) of the top cover. figure 4-10 Front and top cover screws     ) Note:  Do not forget to reinstall the front cover afterwards to ensure safe operation!
4 Installation   Page 35) Note:  Before closing the unit, make sure that the mains power switch inside is set to ON.    figure 4-11 Position of mains power switch
 User’s Manual for Node M and Node CNetwork Elements Page 36  M0121A4A.doc For your notes:
5 Functional Description   Page 375. FUNCTIONAL DESCRIPTION 5.1.  DIGITAL ARCHITECTURE  The following figure shows the RF block diagram of the Node M/C.   figure 5-1 Configuration of a network element  The Node M/C is designed to amplify signals between multiple mobiles and a base station in a UMTS/CDMA system. The unit consists of a filter and amplifier chain in the downlink and one or two filters and amplifier chains in the uplink (primary and diversity). The uplink and downlink paths are connected via a duplexer on both ends of each path.
 User’s Manual for Node M and Node CNetwork Elements Page 38  M0121A4A.docIn the primary uplink path, a signal originating from the mobile is separated from the downlink signal via the primary UL IN duplexer. It is then amplified by an integrated low noise amplifier (LNA) and forwarded to the uplink digital channel module (DCM). The DCM down-converts the signal to base-band, digitally filters it, amplifies it and then up-converts it. In addition the interference cancellation technology is implemented in the DCM. Finally, the signal is sent to the final amplifier (included in DCM) and combined with the downlink input signal in the DL IN duplexer. The optional diversity uplink path (via a second filter) is identical except signals enter via the diversity UL IN duplexer and are combined in the DCM with the primary path.  In the downlink path, a signal originating from the base station is separated from the uplink signal in the DL IN duplexer. It is then amplified by an integrated low noise amplifier (LNA) and forwarded to the downlink digital channel module (DCM). The DCM down-converts the signal to base-band, digitally filters it amplifies it and then up-converts it. In addition the interference cancellation technology is implemented in the DCM. Finally, the signal is sent to the final amplifier and combined with the uplink input signal in the primary UL IN duplexer. The downlink DCM is also responsible for communication and control of the entire unit.  Using a Node C 843 as an example, the following figure illustrates the positions of the RF components inside the Node M/C.    Digital channel module DL Digital channel module UL Downlink final amplifier Downlink final amplifier Power supply unit Coverageduplexer  Donor duplexer figure 5-2 RF path of a Node C 843, exemplary
5 Functional Description   Page 395.2.  FEATURES 5.2.1.  Filters Node M   Filters are set automatically according to the channels set in “Setup Wizard” or “Technician Setup”. For further information about these menus refer to the user's manual for Node software.  UMTS - Possible filters are:  5  5  MHz                              One UMTS channel  One UMTS channel 5.2.2.  Filters Node C   Filters are set automatically according to the channels set in “Setup Wizard” or “Technician Setup”. For further information about these menus refer to the user's manual for Node software.  CDMA - Possible filters are:  1.23   16 x  1.23 MHz                               one CDMA channel   sixteen adjacent CDMA channels
 User’s Manual for Node M and Node CNetwork Elements Page 40  M0121A4A.doc 5.2.3.  Digital ICE (Digital Interference Cancellation Equipment)  Digital ICE has been developed to enhance antenna isolation. This feature enables the Node M/C to provide coverage in areas where effectivity is decreased due to physical site limitations which cause insufficient antenna isolation.   Antenna isolation is the RF loss measured between the donor antenna and the coverage antenna. If the gain of the network element exceeds the path loss, feedback in form of oscillation occurs. The isolation is usually dominated by the direct path loss from one antenna to the other, but reflections can contribute to or even affect antenna isolation. Digital ICE cancels the signal from the primary feedback path, thus allowing the gain of the network element to be increased.  The required delay resulting from the on-site conditions is measured by the DCM and set accordingly.  For software setting commands please refer to the online help screens.   The Digital ICE function can be enabled or disabled in the “Technician Setup” page. Isolation and gain margin* can be checked in the “Status and Reports” menu accessible via the home page of the web interface (see software manual).  * gain margin = antenna isolation minus Node M/C gain  5.2.4.  VSWR (Voltage Standing Wave Ratio)  This feature enables the provider to query the status of the antenna system (antenna and cable). The voltage standing wave ratio of the DL output antenna port is measured.  If the VSWR falls below the value set in the Alarming Management of the software, an alarm is released. The alarm can be forwarded to the OMC where the faults and irregularities can be acknowledged and eliminated promptly.  The current VSWR value can be checked in the “Status and Reports” menu accessible via the home page of the web interface.
5 Functional Description   Page 41 5.2.5.  RSSI (Receive Signal Strength Indication)  The RSSI provides controlling and monitoring of the receive level of a base station (DL RSSI) or user equipment (UL RSSI) to a Node M/C. It measures the level of the input signal by detecting the RF and converting the analogue level into a digital value. The data are processed and evaluated by software. An alarm will be released if the measured signal level exceeds the alarm level set by the provider via software. ) Note:  If the Node M/C is equipped with a diversity path, both values will be combined before the RSSI evaluation. Thus, only one UL value is reported. The current RSSI values can be checked in the “Status and Reports” menu accessible via the home page of the web interface.  5.2.6.  Alarm Forwarding  Alarms can be forwarded to a defined phone number or to the OMC if the Node M/C is equipped with a modem or a mobile station. This enables the provider to control and to query the status of the network via pocket switched or circuit switched connection. Faults and irregularities can be recognized and eliminated.  With an optional modem the Node M/C also provides an SMS feature, by which the unit is able to send out alarm messages as SMS. For further details please contact your supplier.
 User’s Manual for Node M and Node CNetwork Elements Page 42  M0121A4A.doc5.2.7.  Downlink Final Amplifier  For the Node M/C x37 an MCPA (multi carrier power amplifier) is used. This is an error-correcting feed-forward amplifier. It has a high output power while maintaining superior intermodulation and linearity performance.   figure 5-3 Node M/C x37 MCPA DL final amplifier  For the Node M/C x43 an MCPA (multi carrier power amplifier) with more output power is used. This is an error-correcting feed-forward amplifier. It has a high output power while maintaining superior intermodulation and linearity performance.   figure 5-4 Node M 2143 and Node M 1943 MCPA DL final amplifier
5 Functional Description   Page 43 figure 5-5 Node M/C 843 DL final amplifier
 User’s Manual for Node M and Node CNetwork Elements Page 44  M0121A4A.doc5.2.8.  Power Supply Unit  The power supply unit is mounted in the door of the Node. This device transforms mains power into a predefined DC voltage. When performing maintenance, ensure that all circuits are voltage-free and that the Node M/C is disconnected from mains.   figure 5-6 Power supply, Node M/C x37     figure 5-7 Power supply, Node M/C x43
5 Functional Description   Page 455.2.9.  Modems  The modem is used to establish a remote connection to the Node M/C. The connection may be used to change the parameters of the unit, check and clear alarms or collect measurement and quality statistics.  Furthermore, the modem is at the Node M/Cs request to alert the operator when there is an alarm. The modem may be over-the-air (wireless) or public switched telephone network (PSTN). It is possible to install the wireless modem or the PSTN modem on site.  Modem communication settings may only be changed locally. Should a different modem be used, the operator should ensure that the settings are changed prior to leaving the site.  Wireless modems allows remote control and maintenance of the Node.  Parameters may be changed; alarm and measurement statistics may be acknowledged and collected in the OMC.  5.2.9.1. Illustrations of Modems     ) Note:  The modems MC55, MC56, MC75 and HC25T are similar to modem MC35.   ) Note:  The modem Raven C3211 is similar to modem Redwing.  figure 5-8 Modem MC35  figure 5-9 Redwing modem (CDMA)
 User’s Manual for Node M and Node CNetwork Elements Page 46  M0121A4A.doc    figure 5-10 Modem AnyDATA iPORT EMIII Dual / EM IV Dual      figure 5-11 Modem Raven XT  figure 5-12 Modem MTCBA-C-N9
5 Functional Description   Page 475.2.9.2. Modem Output  The modem output is connected to the 20 dB modem coupler port of the DL IN duplexer or to the N-female connector near to the BTS port to connect an external antenna.  figure 5-13 Cable from modem to donor duplexer  figure 5-14 Cable from modem to external modem antenna port; Node M
 User’s Manual for Node M and Node CNetwork Elements Page 48  M0121A4A.doc5.2.10. Digital Channel Module (DCM)  The task of the digital channel module (DCM) is to filter and amplify any signals passing through it. In addition it takes measurements of the input and output signals and decodes the air interface to ensure proper setup and operation.  Finally it performs the interference cancellation algorithms, which eliminate the normal problems associated with isolation, and has an integrated controller (in the DL part) for the entire Node M/C, which maintains a web server for local and remote communication. This process is accomplished by both analogue and digital means.  In case the diversity option is equipped, the module receives signals from both the primary duplexer and diversity filter. Both signals are combined digitally and filtered before being amplified in the uplink amplifier.  The DCM consists of an DL and UL part.    figure 5-15 Digital channel module, DL part  figure 5-16 Digital channel module, UL part 1 2 2 7 3 4  6  45  No Explanation 1 1  Vdc and remote (RS232) for modem 2 Debug-connector 3  Fan connector (Node x43) 4  Vdc DL digital channel module 5  Battery backup connector 6 EAC-board connector 7  Internal DCM - DCM interface connection 1 Only one modem can be used at the same time.
5 Functional Description   Page 495.2.11. External Alarm Controller - EAC-Board 5.2.11.1.  Connectors on the EAC-Board - Description  The EAC circuit board is used for general purpose housekeeping functions of the Node. The EAC circuit board is the main connection point for the user. It has the external alarm clamps, the connectors for local or modem connection, as well as a summary alarm relay. The following figure shows an installed EAC-board.   1  2 34 figure 5-17 EAC-board, installed 56 78 9 10DCM-A 11DCM-B DCM-C
 User’s Manual for Node M and Node CNetwork Elements Page 50  M0121A4A.doc Connectors on the EAC-board  No Explanation 1 1, 2  USB connector for modem 2 1  Ethernet connector RJ45 for local and LAN web access 3  Internal DCM (DL) - DCM (UL) interface connection 4 1  Internal PSTN connector 5 Internal I2C (not used) 6  Battery disconnect button 7 1 External alarms, summary alarm LED & PSTN, see chapter 5.2.11.3 External Alarms 8 1 Summary alarm terminal; for pin assignment see chapter 5.2.11.4 Summary Alarm 9  Internal PSU and I2C connection 10 Internal I2C (used for electronic door label memory board) 11  Door switch connector 1 Only these connectors are for general customer use. All others designated above are for informative purposes, and required, only, e.g. for an upgrade or replacement of parts. 2 Only one modem can be used at the same time.  Connectors on the DCM DL module  See chapter 5.2.10 Digital Channel Module (DCM).  No Explanation DCM-A  Fan connector (Node x43) DCM-B  Vdc DL digital channel module DCM-C  Battery backup connector
5 Functional Description   Page 515.2.11.2.  LEDs - Description  Seven LEDs are included on the EAC-board. They are controlled via the I2C bus.    figure 5-18 Function of LEDs on the EAC-board  Colours and illumination functions No Colour Explanation 1 Yellow 2 Green Ethernet connector LEDs, see chapter 3.1 Setting up a Local / LAN Connection from Laptop / PC 3 Green DL PWR - illuminates when the DL Power is "Good" and the DL is NOT in battery backup. 4 Green UL PWR - illuminates when the software on the UL sets a bit in the FPGA indicating power is "good". 5 Blue USER1 - illuminates when software activates. The LED is controlled by software through the I2C bus. 6 Red ALARM - illuminates when a software defined alarm condition exists. This LED is controlled via the I2C bus. 7 Yellow BBU ACTIVE - when illuminated the DL-DCM is in battery backup mode.  23 4 5 67 1
 User’s Manual for Node M and Node CNetwork Elements Page 52  M0121A4A.doc5.2.11.3.  External Alarms  The external alarms are used to monitor the status of one or more external devices via the Node M/C. A UPS or entry alarm is among the items that might be connected to the contact relay and monitored via the Node M/C. The cage clamp connectors are located on the EAC-board.  Observe that the cross-sectional area of the wires to be connected must be in the range from 0.5 - 1.0 mm2. Do not use wire-end sleeves (wire cable ends).         2 n.c.  1 n.c. 4 GROUND  3 EXT_ALARM_3 6 GROUND  5 EXT_ALARM_2 8 GROUND  7 EXT_ALARM_1 10 PSTN_1_EXTERNAL  9 PSTN_1_INTERNAL 12 PSTN_2_EXTERNAL  11 PSTN_2_INTERNAL 14 GROUND  13 SUMMARY ALARM, LED GREEN 16 GROUND  15 SUMMARY ALARM, LED RED                      figure 5-19 Pin assignment 12 16  15   figure 5-20 External alarm clamps, installed  External Alarms 1 to 3 Input voltage range  5 Vdc Recommended input line  Potential free Nominal sink current to ground  15 mA Active level  High or low set via software Connectors Cage clamps
5 Functional Description   Page 53 figure 5-21 Configuration of external alarm clamps  All external alarms are defaulted to high (5 VDC) without connection. This setting may be changed on the external alarm page to active high or active low. The severity levels of the external alarms may be set via the web page. More information about the external alarm settings is available in the web page and online-help.  Make sure that external alarms which are not required are set to active low or disable them; otherwise the status will always show an alarm. The names for each external alarm are user-definable on the external alarm page; renaming them to indicate the use of these alarms is recommendable.  There are two external cable glands (PG7) at the bottom of the Node. They may be used to connect the external devices. Please note that connecting the external devices by a wrong type of cable may result in a loss of the water-proofness. The recommended cable diameter is 4 - 6 mm. figure 5-22 External cable glands
 User’s Manual for Node M and Node CNetwork Elements Page 54  M0121A4A.doc5.2.11.4.  Summary Alarm  The summary alarm is a DC potential-free contact relay.  Observe that the cross-sectional area of the wires to be connected must be in the range from 0.14 - 1.5 mm2.      Pin No:        1    2    3 figure 5-23 Summary alarm relay   The following table indicates the three-connector pin out.  Pin No  Contact  Maximum Resistive Load1  Open in alarm condition  Max 1 A @ 50 Vdc 2  Common  Max 2 A @ 30 Vdc 3  Closed in alarm condition Max 1 A @ 230 Vac table 5-1 Pin assignment of relay contacts           Pin 3 Pin 2 Pin 1B0185AHA figure 5-24 Relay contacts, alarm condition
5 Functional Description   Page 555.2.12. Battery Pack - Battery On/Off  In case power fails, a battery backup system for controller and modem has been implemented. This provides enough power for the controller that is integrated into the DCM and the modem to operate for a limited period of time (battery backup time). Within this time, the Node M/C will initiate a call to the OMC and alert the operator that power has been lost. All other functions will cease to work in case of power failure.  The battery pack is protected from deep discharge. When performing preventive maintenance, make sure that all circuits are voltage free by disconnecting the battery cable from the DCM. In case of a power cycle, it is sufficient to press the “Battery disconnect button” on the EAC-board to interrupt the voltage supply. After mains is connected again, the battery will be charged and the battery backup function will be available again.   figure 5-25 Battery pack, exemplary  figure 5-26 Battery pack installed and its connection to DCM
 User’s Manual for Node M and Node CNetwork Elements Page 56  M0121A4A.docBattery On/Off  A pushbutton on the EAC-board is implemented to disconnect the battery pack from the controller. This forces a hard reset of the system. Once disconnected, the power to the controller will not be restored until the +28V supply is again operational.   Battery disconnect button  figure 5-27 Position of the battery disconnect button on the EAC-board
5 Functional Description   Page 575.2.13. UL and DL Duplexer  The duplexer is used to isolate the uplink from the downlink, i.e. to separate the transmitting path from the receiving path. The pass band of the duplexer is the full band (UMTS/CDMA). This allows the same Node M/C to be used regardless of its operator’s frequency plan. The UL and DL duplexers have multiple outputs, including the primary and extension path, plus forward and reverse probes used for auto setup, VSWR, and RSSI functions.   figure 5-28 Duplexer, UL IN  figure 5-29 Duplexer, DL IN  figure 5-30 Duplexers installed   LNALNA
 User’s Manual for Node M and Node CNetwork Elements Page 58  M0121A4A.doc Ceramic duplexer  DL IN  figure 5-31 Duplexers installed, ceramic duplexer DL IN
6 Maintenance and Replacement   Page 596. MAINTENANCE AND REPLACEMENT  Read the health and safety warnings in chapter 1.2 Health and Safety Warnings. ) Note:  Node M and Node C do not require any preventative maintenance measures.  ) Note:  In case of a defect replace the entire repeater. When sending back the unit, use an appropriate packaging. We strongly recommend using the original packaging!  7. ILLUSTRATIONS 7.1.  CABINET DRAWING  The cabinet measures of the Nodes described in this manual are nearly identical.  The following figure of a cabinet drawing exemplifies the proportions of Node M and Node C.   figure 7-1 Cabinet of a Node M, respective Node C, exemplary
 User’s Manual for Node M and Node CNetwork Elements Page 60  M0121A4A.doc7.2.  LAYOUT OF THE NODE M/C 843  The following figure is exemplifying the layout of a Node M/C 843.   figure 7-2 Layout of the Node M/C 843, exemplary
8 Index   Page 61 8. INDEX A Abbreviations 7 AC Breaker - Mains Power  32 Address of Andrew Wireless Systems GmbH  13 Alarm Forwarding  41 Alarm LEDs - Description  51 Alarms (External)  52 Amplifier (Feed-Forward)  42 Andrew Solutions  11 B Battery - On/Off  56 Battery Disconnect Button  56 Battery Pack  55 C Cabinet - Opening  34 Cabinet Drawing - Node M/C  59 CDMA - Standard Feature  39 Connection from Laptop or PC  19 Connections Antenna 33 Power 31 Connectors on EAC-Board  49 Contact Addresses  12 Customer Support Addresses  12 D DCM 48 Declaration of Conformity  11 Design 37 Digital Channel Module  48 Digital ICE  40 Diversity 33, 48 Duplexer 57 E EAC-Board 49 Ethernet Connector  19 External Alarm Controller  49 External Alarms  52 External Cable Glands  53 F Feed-Forward Amplifier  42 Filters Node C - Standard Feature  39 Filters Node M - Standard Feature  39 G Grounding 30 H Health and Safety Warnings  9 I Installation Electrical 29 Mechanical 23 L LAN Connection  20 Layout of Node M/C 843  60 LNA 57 Local Connection  19 Low Noise Amplifier  Look Up    LNA M Mains Power AC Breaker  32 Switch 35 Maintenance 59 Modem General 45 GSM 45 MC35 45 MC55/56 45 MC75 45 MTCBA-C-N9 (CDMA)  46 Raven C3211  45 Raven XT  46 Redwing (CDMA)  45 Mounting Brackets 27 General 23 Hexagon Head Screws M10  25, 27 Pole 26 Wall 24 P Power Supply Unit  44 R Relay Contacts  54 Remote Connection  21 Replacement 59 RF Block Diagram  37 RF Path  38 RSSI 41 S SMS Alarm Forwarding  41 Summary Alarm - Pin Assignment  54 U UMTS - Standard Feature  39 V VSWR 40

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