Technical Product Manual DCT1800-GAP TD 92093GB (1/LZBNB 103 108 R4D) / 20006-03-09/ Ver.
© 2006 No part of this manual may be reproduced in any form, by print, photoprint, microfilm or any other means without prior written permission of the copyright owner.
Technical Product Manual - DCT1800-GAP Preface Preface What this manual describes ... This manual describes how to configure, install, maintain and operate the cordless telephone system, DCT1800-GAP. It also describes the concept and the hardware building blocks of the DCT1800-GAP system to provide the reader with general knowledge about the system. Finally product specifications and a type number list of all DCT1800-GAP products are included. Who should use this manual ...
Technical Product Manual - DCT1800-GAP Preface Section 8 Upgrade information Contains information about new and upgraded products and instructions to upgrade cordless systems. Section 9 Type number list Lists the replaceable products of the DCT1800-GAP system. Use of the term PBX In most cases you can also read ‘PSTN’ where the term ‘PBX’ is used in this manual.
Technical Product Manual - DCT1800-GAP Caption list Caption list 1 Safety and regulatory information 2 System description 3 Product specifications 4 Configuration directions 5 Installation instructions 6 Commissioning 7 Maintenance 8 Upgrade information 9 Type number list TD 92093GB (1/LZBNB 103 108 R4D) / 20006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Caption list IV TD 92093GB (1/LZBNB 103 108 R4D) / 20006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Safety and regulatory information Section 1 Safety and regulatory information TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Safety and regulatory information TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Safety and regulatory information, Table of contents Table of contents Page Chapter 1 Introduction....................................................................................... 1 Chapter 2 Safety................................................................................................. 3 2.1 2.2 2.3 Safety rules ........................................................................................................................
Technical Product Manual - DCT1800-GAP Safety and regulatory information, Table of contents IV TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP System description, Introduction Chapter 1 Introduction This section contains important safety and regulatory information. Other sections refer to this section when applicable. Chapter 1 Chapter 2 Chapter 3 Chapter 4 Chapter 6 Chapter 7 : Introduction Introduces you to this document : Safety Informs you about the precautions to take during installation of the DCT1800-GAP system, the lithium battery on the CPU board and the use of the cordless phone.
Technical Product Manual - DCT1800-GAP System description, Introduction 2 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP System description, Safety Chapter 2 2.1 Safety Safety rules • Ensure that the voltage and frequency of the mains power socket matches the voltage and frequency inscribed on the equipment’s electrical rating label. • Never install telephone wiring during a thunderstorm. • Never install telephone jacks in wet locations unless the jack is specifically designed for wet locations.
Technical Product Manual - DCT1800-GAP System description, Safety 2.2 • A readily accessible disconnect device, that is suitably approved and rated, shall be incorporated in the field wiring. • Connect to a reliably grounded -48Vdc SELV source. • Use minimum 14 AWG copper conductors. • Torque power supply terminal block screws to 7 in. - lbs • For the safety status of the different interconnection points of the system refer to ‘‘ on page 8.
Technical Product Manual - DCT1800-GAP System description, Safety ATTENTION! IL Y A DANGER D’EXPLOSION S’IL Y A REMPLACEMENT INCORRECT DE LA BATTERIE. REMPLACER UNIQUEMENT AVEC UNE BATTERIE DU MÊME TYPE OU D’UN TYPE RECOMMANDÉ PAR LE CONSTRUCTEUR. METTRE AU RÉBUT LES BATTERIES USAGÉES CONFORMÉMENT AUX INSTRUCTIONS DU FABRICANT. VARNING! EXPLOSIONSFARA VID FELAKTIGT BATTERIBYTE.
Technical Product Manual - DCT1800-GAP System description, Safety ADVARSEL! LITHIUMBATTERI – EKSPLOSJONSFARE. VED UTSKIFTING BENYTTES KUN BATTERI SOM ANBEFALT AV APPARATFABRIKANTEN. BRUKT BATTERI RETURNERES APPARATLEVERANDOREN. 6 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP System description, Protection against electrostatic discharge (ESD) Chapter 3 3.1 Protection against electrostatic discharge (ESD) General Integrated circuits are sensitive to ESD. To avoid damage caused by ESD, service engineers and other people must handle equipment and boards carefully. Electronic equipment has become more resistive to ESD, but we see an increase of situations where static electricity can build up.
Technical Product Manual - DCT1800-GAP System description, Protection against electrostatic discharge (ESD) PROTECT ESD SENSITIVE DEVICES Boards with static sensitive devises can be recognized by the sign. Observe special handling rules. Exchanging system boards requires a grounded wrist strap Some of the benefits of protection are: - less failures/service calls, - reduced maintenance costs, - high customer satisfaction.
Technical Product Manual - DCT1800-GAP System description, Safety aspects of the DCT1800-GAP system Chapter 4 Safety aspects of the DCT1800-GAP system The DCT1800-GAP system meets the safety standards EN41003 and EN60950/IEC950. The system is a pluggable equipment class A according to EN60950/IEC950. The system is class I equipment, with class II insulation between primary and secondary circuits. Connection to protective earth is necessary for safety reasons.
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Technical Product Manual - DCT1800-GAP System description, Legal restrictions for the Line Termination Unit, LTU – REX- Chapter 5 5.1 Legal restrictions for the Line Termination Unit, LTU – REX-BRD0019 Line Termination Unit, LTU – REX-BRD0019 (ROFNB 157 25/2) The table below gives an overview of where LTU REX-BRD0019 (ROFNB 157 25/2) can be used. As can be observed it can be used in most cases.
Technical Product Manual - DCT1800-GAP System description, Legal restrictions for the Line Termination Unit, LTU – REX- 12 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP System description, Standards and Regulations for US Chapter 6 6.1 Standards and Regulations for US Standards and Regulations The DCT1800 System adheres to the following standards and regulations: 6.2 6.3 • FCC Part 15 • IEC 60950-1 • UL 60950 • UTAM, Inc. • ANSI/IEEE C95.
Technical Product Manual - DCT1800-GAP System description, Standards and Regulations for US 6.4 Regulatory Compliance Statements FCC CLASS B NOTICE This equipment complies with part 15 of the FCC rules. Operation is subject to the following conditions: 1) This equipment may not cause harmful interference, and 2) This equipment must accept any interference received, including interference that may cause undesired operation.
Technical Product Manual - DCT1800-GAP System description, Standards and Regulations for US The term “IC:” before the radio certification number only signifies that industry of canada technical specification were met. DO NOT TAMPER WITH THE WARRANTY SEAL ON THE BACK OF YOUR PHONE. TAMPERING WITH THIS SEAL CAN VOID YOUR WARRANTY. DO NOT ATTEMPT TO TAKE YOUR PHONE APART. DOING SO WILL VOID YOUR WARRANTY. YOUR PHONE DOES NOT CONTAIN CONSUMER SERVICEABLE COMPONENTS.
Technical Product Manual - DCT1800-GAP System description, Standards and Regulations for US EXPOSURE TO RADIO FREQUENCY SIGNALS (SAR) The wireless phone is a radio transmitter and receiver. It is designed and manufactured not to exceed the emission limit for exposure to radio frequency (RF) energy set by the Federal Communications Commission of the US government and Canada. These limits are part of comprehensive guidelines and established permitted levels of RF energy for the general population.
Technical Product Manual - DCT1800-GAP System description, CE-marking Chapter 7 7.1 CE-marking General A number of DCT1800-GAP products are CE-marked.
Technical Product Manual - DCT1800-GAP System description, CE-marking TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP System description Section 2 System description TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP System description TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP System description, Table of contents Table of contents Page Chapter 1 Introduction....................................................................................... 1 Chapter 2 System description .......................................................................... 3 2.1 2.2 2.3 2.4 2.4.1 2.4.2 2.5 2.5.1 2.6 2.7 2.8 DCT1800-GAP system .......................................................................................................
Technical Product Manual - DCT1800-GAP System description, Table of contents Chapter 6 6.1 6.1.1 6.1.2 6.1.3 6.1.4 6.2 6.2.1 6.2.2 6.2.3 6.2.4 6.2.5 6.2.6 6.3 6.4 6.5 6.6 6.6.1 6.6.2 6.6.3 6.7 6.7.1 6.7.2 6.7.3 6.8 6.9 6.9.1 6.9.2 6.9.3 6.10 6.11 6.11.1 6.11.2 6.11.3 6.11.4 6.11.5 6.12 IV DECT air interface .......................................................................... 25 Introduction.............................................................................................................
Technical Product Manual - DCT1800-GAP System description, Introduction Chapter 1 Introduction This section introduces you to the concept of DECT, the DCT1800-GAP system and its interfaces. It contains an overview and description of network and proprietary features implemented in the radio exchange and cordless phones. Furthermore a description of the DCT1800 system building blocks, installation and maintenance concept and some data about the system capacity. Finally, the DECT standard is discussed.
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Technical Product Manual - DCT1800-GAP System description, System description Chapter 2 System description DECT is a general radio access technology for short range low power radio (cordless) telecommunications. It is a high capacity, pico-cellular digital radio technology with cell radio ranging up to about 5 km depending on the configuration and application areas. It provides wired telephony quality voice services and a broad range of data services, including ISDN.
Technical Product Manual - DCT1800-GAP System description, System description DECT air interface Covered area (Cell) Wireless relay station Cordless phone PBX 032 Base station Radio exchange Fig. 1 Overview of a cordless system 2.3 System interfaces The radio exchange has been developed to support the following interfaces: 4 • IF1. Analogue line interface to any PBX. • IF2.
Technical Product Manual - DCT1800-GAP System description, System description Printer Messaging/CTI applications Printer IF5 IF4 IF6 IF 3 MD110, other PBX IF2 (digital interface) System administrator CSM Note 1 I/F9 IF8 Base station Radio exchange IF1 (analogue interface) AXE, MD110, other PBX IF7 Note: 1: only one of the two interfaces can be connected at the same time 042 Cordless phones Fig. 2 Overview of interfaces 2.
Technical Product Manual - DCT1800-GAP System description, System description 2.4.1 Overview of network features The table below gives an overview of the applicable network features for the radio exchange and cordless phones. For a description of the features see chapter 6..
Technical Product Manual - DCT1800-GAP System description, System description The DCT1800-GAP system supplies some additional proprietary features to increase the user friendliness of the system. They are listed in table 3 and described in paragraph 2.5.1. Cordless phones can contain other features which are not related to GAP (e.g. phone book, menu driven user interface, etc.).
Technical Product Manual - DCT1800-GAP System description, System description unanswered incoming calls are appended to this list only if the A-number is received. An unanswered incoming call from an A-party which already appears in the who-called list will replace the current entry. If available in the cordless phone, the time and date are also logged. If a displayed entry has been logged the same day, then the log time is displayed, else the log date is displayed.
Technical Product Manual - DCT1800-GAP System description, System description 2.7 Computer Telephony Integration (CTI) / Messaging services For information refer to separate data sheet ’9d Message Mobility Server (9dMMS) - TD91827GB’. CTI application/ Messaging Short message Radio exchange Base station Cordless phone 044 PABX Fig. 3 Short messages service 2.8 System characteristics For information on DECT and system characteristics refer to section ’Product specifications’.
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Technical Product Manual - DCT1800-GAP System description, Hardware building blocks Chapter 3 Hardware building blocks The hardware building blocks of the DCT1800-GAP system are (see figure 4): • Radio exchange • Base station • Cordless phone Covered area DECT air interface Cordless phone Base station 043 Radio exchange Telephone network Fig. 4 Basic parts of a DCT1800-GAP system 3.1 Radio exchange The Radio Exchange (RE) interfaces between the PBX and the base stations.
Technical Product Manual - DCT1800-GAP System description, Hardware building blocks The radio exchange mainly consists of: • One to four modular cabinets • A number of system boards The 10 inch modular cabinet mainly contains a Modular Cabinet Connection Board (MCCB) and a backplane with 9 system board connectors, a rectifier circuit and a DC/DC converter. The modular cabinet has three powering options: • External power source: e.g.
Technical Product Manual - DCT1800-GAP System description, Hardware building blocks • BS330 with internal antennas with a slightly forward bias antenna pattern exists in four frequency bands (Standard, China, Latin America, US). • BS340 with omni-directional external antennas. The possibility to mount other external antenna types like a high gain omni-directional or a directional antenna increases the application areas for cordless systems.
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Technical Product Manual - DCT1800-GAP System description, Radio exchange boards Chapter 4 4.1 Radio exchange boards General The radio exchange can contain the following system boards (see figure 11): • Central Processing Unit (CPU) • Speech Processing Unit-S (SPU-S) • Cell Link Unit (CLU) • Cell Link Unit-S (CLU-S) • Speech Link Unit (SLU) • Digital Trunk Unit (DTU) • Line Termination Unit (LTU) The modular cabinet also contains the Modular Cabinet Connection Board (MCCB) (see figure 11).
Technical Product Manual - DCT1800-GAP System description, Radio exchange boards SPC LTC 8 SPC Peripheral P8 SPC LTC 1 SPC Peripheral P1 033 BC Fig. 5 Speech Processing Unit-S (SPU-S) 4.4 Cell Link Unit – CLU The cell link unit provides the communication interface between the SPU-S or SPU part of the SLU and the base station. Every CLU board contains 8 Cell Link Circuits (CLC, see figure 6). Each CLC communicates with one base station.
Technical Product Manual - DCT1800-GAP System description, Radio exchange boards 4.5 Cell Link Unit-S – CLU-S The functionality of the CLU-S board is essentially the same as the CLU board (see paragraph 4.4), with the exception that it can only be used for ‘short’ distance interfacing (up to 1.9 km). As from board revision R1A it also incorporates Automatic Delay Measurement (ADM). 4.6 Speech Link Unit – SLU The speech link unit is a combination of an SPU-S and a CLU-S on one board.
Technical Product Manual - DCT1800-GAP System description, Radio exchange boards CLU board SLU board SPU-S board SPU-S SPU-S CLU-S board CLU REX-BRD0014 (ROFNB 157 11/2) REX-BRD0015 (ROFNB 157 16/1) REX-BRD0017 (ROFNB 157 16/3) REX-BRD0016 (ROFNB 157 16/2) Up to 3.5 km base station cable No country versions Cost effective Up to 2.1 km base station cable Automatic delay measurement as from R2A No country versions Up to 2.
Technical Product Manual - DCT1800-GAP System description, Radio exchange boards LTC LTC 8 SPC Peripheral P8 Analogue telephone line LTC LTC 1 SPC Peripheral P1 Analogue telephone line 036 BC Fig. 9 Line Termination Unit (LTU) 4.9 Digital Trunk Unit – DTU To use the DTU with CAS+ firmware in a GAP system, it can be connected to an MD110, Meridian 1 or Succession 1000M. The digital trunk unit provides the digital interface between the PBX and the radio exchange.
Technical Product Manual - DCT1800-GAP System description, Radio exchange boards Cordless phones Cordless phones Wireless relay station AC adapter Base station Base station Base station Base station AC adapter Powered from radio exchange MDF (Main Distribution Frame) ... DC Power source DC General Alarm (GA) CLU or CLU-S 8 SPU-S 8 CPU CLU-S 8 SPU-S 8 DTU 2 Personal computer System printer CLU or CLU-S 8 SPU-S 8 LTU 8 Radio exchange ...
Technical Product Manual - DCT1800-GAP System description, Other system aspects Chapter 5 5.1 Other system aspects Installation and maintenance As each DCT1800-GAP system is configured to meet specific user requirements, the radio exchange must be assembled on location. After the system has been physically installed it must be initialized.
Technical Product Manual - DCT1800-GAP System description, Other system aspects Modular cabinet number - option 1 3 1 2 4 Cabinet with CPU board 4 3 1 2 Cabinet with CPU board 039 Modular cabinet number - option 2 Fig.
Technical Product Manual - DCT1800-GAP System description, Other system aspects The hexadecimal numbers 00 to 07 are not used. Therefore the hexadecimal numbers 08 to 0F will be assigned to the first CLU/CLU-S or SLU used to add a first base station. Given below is an example: • When you define the first base station of the first CLU/CLU-S/SLU, its CLCs (1 to 8) will get base station numbers 08 to 0F (hexadecimal).
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Technical Product Manual - DCT1800-GAP System description, DECT air interface Chapter 6 DECT air interface This chapter introduces the Digital Enhanced Cordless Telecommunications (DECT) standard. 6.1 Introduction DECT is a standard that defines the air interface between a DECT system and DECT cordless phones. DECT has been defined by the European Telecommunications Standards Institute (ETSI).
Technical Product Manual - DCT1800-GAP System description, DECT air interface 6.1.2 • DECT supports very high density of cordless users. Typically up to 50,000 users per km2. • DECT systems can easily be expanded to support an increasing number of users. There is no need for frequency planning. • DECT supports mobility during a call. The user can move in the coverage area and still make or receive calls. • DECT has protection against illegal use of a cordless phone via authentication procedures.
Technical Product Manual - DCT1800-GAP System description, DECT air interface AC adapter Fixed telephone line 003 Home base station Fig. 16 Residential application of DECT DECT business application A PBX with DECT access provides a radio link to a number of cordless phones in one or more company buildings (see figure 17). It allows people to roam throughout the covered area. The PBX is connected to the public telephone network via standard PBX network lines.
Technical Product Manual - DCT1800-GAP System description, DECT air interface PABX with DECT access 004 Base station Fig. 17 Business application of DECT DECT RLL application Radio in the Local Loop (RLL) is a wireless alternative for copper loops in public telephone networks (see figure 18). RLL replaces traditional cabling between local telephone exchanges and private houses. It provides subscribers with the normal services of a local exchange.
Technical Product Manual - DCT1800-GAP System description, DECT air interface Radio unit DECT Antenna arrangement Power unit Radio node Radio exchange 005 Local telephone exchange Fig. 18 RLL application of DECT DECT telepoint application Telepoint is a low cost solution for public mobile telephony. A Telepoint network consists of thousands of base stations connected to the public fixed telephone network.
Technical Product Manual - DCT1800-GAP System description, DECT air interface cordless phone works like a normal residential cordless phone, so you can also receive calls. To be reachable in the public area, cordless phones can be combined with a wide area paging function. Telepoint base station 006 Home base station Fig. 19 Telepoint application of DECT DECT CTM application Cordless Terminal Mobility (CTM) adds mobility to the public fixed telephone network.
Technical Product Manual - DCT1800-GAP System description, DECT air interface The same phone number wherever you are Home base station 007 Outdoor base station Fig. 20 CTM application of DECT 6.1.3 DECT technical characteristics Below a number of important characteristics of DECT are listed. The explanation is given further on in this chapter.
Technical Product Manual - DCT1800-GAP System description, DECT air interface 6.1.4 DECT profiles DECT profiles ensure interoperability between cordless phones and DECT systems of different vendors. A profile is a chosen subset of the overall DECT Common Interface (CI) standard.
Technical Product Manual - DCT1800-GAP System description, DECT air interface Channel N Channel N Channel N Channel N Channel N 008 Channel N Fig. 21 Reuse of DECT channels 6.2.2 Multiple Carrier (MC) In DECT, ten radio carriers are used (see figure 22). Any DECT base station and cordless phone can use these frequencies.
Technical Product Manual - DCT1800-GAP System description, DECT air interface 6.2.3 Time Division Multiple Access (TDMA) Radio transmission requires an available frequency band in the already overcrowded frequency spectrum. DECT uses Time Division Multiple Access (TDMA) as access technology. TDMA makes an efficient use of the allocated frequency band by subdividing each carrier into timeslots. In this way more calls can take place at the same time per carrier.
Technical Product Manual - DCT1800-GAP System description, DECT air interface Blind time slots Usually a cordless phone has only one receiver circuit. So, when a cordless phone has an ongoing call, it cannot monitor the same time slots of other carriers. In addition, it usually takes one time slot to switch from one carrier frequency to another one. This means that the cordless phone neither can monitor the time slot before and the time slot after the one in use.
Technical Product Manual - DCT1800-GAP System description, DECT air interface Base station 12 time slot pairs (1) (2) 10 carriers 012 120 channels Fig. 25 Intracell handover Intercell handover An intercell handover is a change to a channel of a neighbouring base station connected to the same radio exchange (see figure 26). It is used when the cordless phone gets out of range of the current base station. To allow proper handovers, cells of neighbouring base stations should overlap.
Technical Product Manual - DCT1800-GAP System description, DECT air interface Cordless phone (2) (1) Base station 013 Radio exchange Fig. 26 Internal intercell handover External handover An external handover is a change to a channel of a neighbouring base station that is connected to another radio exchange (see figure 27). It is used when the cordless phone gets out of range of the current cordless system. Cordless phone (1) (2) Base station 014 Radio exchange Fig.
Technical Product Manual - DCT1800-GAP System description, DECT air interface 6.2.6 Antenna diversity Antenna diversity is a function that continuously selects the best antenna of a base station. It is used against fading effects. In DECT a base station usually has two antennas that can be used for transmitting and receiving. In radio environments there may be fast changing fluctuations of the field strength due to reflections.
Technical Product Manual - DCT1800-GAP System description, DECT air interface • Radio exchange number • Base station number • Cordless phone number • Carrier number and time slot pair • Antenna number • Quality of received package • Access rights indicator Speech data field This field contains the speech samples in Adaptive Differential Pulse Code Modulation (ADPCM) code. CRC field This field contains a Cyclic Redundancy Check (CRC) code to check if a packet was received correctly.
Technical Product Manual - DCT1800-GAP System description, DECT air interface 6.4 DECT & OSI The DECT standard covers the lower three layers of the Open Systems Interchange (OSI) model. As OSI takes no account of radio transmission uncertainties and handovers, DECT has re-defined these layers into four layers and a management entity (see figure 30). Physical Layer (PHL) The physical layer defines the radio spectrum management. It creates (simplex) physical channels with a fixed throughput.
Technical Product Manual - DCT1800-GAP System description, DECT air interface NWK DLC MAC PHL LLME Application 6 Presentation 5 Session 4 Transport 3 Network 2 Data link 1 Physical OSI layers C-plane (Control) 3 NWK 2b DLC U-plane (User) DLC 2a MAC 1 PHL DECT layers LLME 017 7 Network Data Link Control Medium-Access Control Physical Lower Layer Management Entity Fig. 30 DECT layers compared to OSI layers 6.
Technical Product Manual - DCT1800-GAP System description, DECT air interface Radio Fixed Part (RFP) Global network (public or private) InterWorking Unit (IWU Central Control Fixed Part (CCFP) Fixed Part (FP) Fixed radio Termination (FT) Portable radio Termination (PT) End System (ES) Portable Part (PP) DECT air interface Portable radio Termination (PT) Radio Fixed Part (RFP) End System (ES) Portable Part (PP) Official DECT terms Simplified terms Base station Cordless phone Base station Cor
Technical Product Manual - DCT1800-GAP System description, DECT air interface Note: Features are specified for the Portable Part (PP) and the Fixed Part (FP) whereas procedures are implemented in the Portable radio Termination (PT) and the Fixed radio Termination (FT). Portable parts must support more features than fixed parts. This enables operators to add optional features to their DECT networks (competitive edge) with the knowledge that portable parts can make use of them. 6.6.
Technical Product Manual - DCT1800-GAP System description, DECT air interface • IPEI (International Portable Equipment Identity) • TPUI (Temporary Portable User Identity) For more information on portable part identities, see paragraphs 6.7 and 6.8 Equipment related identities on page 52. The purpose of the ‘fixed identity information’ element is to transport a DECT fixed identity or a Portable Access Rights Key (PARK).
Technical Product Manual - DCT1800-GAP System description, DECT air interface . Item no. Status Feature PT FT R/B P N.1 Outgoing call M M M N.2 Off hook M M M N.3 On hook (full release) M M M N.4 Dialled digits (basic) M M M N.5 Register recall M O O N.6 Go to DTMF signalling (defined tone length) M O M N.7 Pause (dialling pause) M O O N.8 Incoming call M M M N.9 Authentication of portable part M O M N.10 Authentication of user M O O N.
Technical Product Manual - DCT1800-GAP System description, DECT air interface Off hook The ability to indicate the action of going off-hook (for instance, to start set-up or accept a call). On hook (full release) The ability to indicate the action of going on-hook (for instance, to terminate a call) and fully release the radio resource. Dialled digits (basic) The capability of the portable part to dial digits 0-9, *, # during and after call establishment.
Technical Product Manual - DCT1800-GAP System description, DECT air interface Identity (UPI) number. This personal identification number of 0 to 8 digits, manually entered by the user, is used for user authentication. Location registration A facility whereby a portable part can be registered with a fixed part, or a cluster of fixed parts, such that incoming calls, radio pages or messages may be routed to it.
Technical Product Manual - DCT1800-GAP System description, DECT air interface rights, fixed part initiated’. As these commands affects subscription data held in the portable part, the portable part the right to authenticate the fixed part by means of the network feature ‘Authentication of fixed part’. Only if the result is positive the ZAP command will be executed.
Technical Product Manual - DCT1800-GAP System description, DECT air interface This security service allows a portable part to request a fixed part to authenticate before it can change information in the portable part. Besides, the user of a portable part must have the right to choose from different service providers, for instance, operators. Encryption activation portable part initiated The activation of the encryption process initiated by portable part.
Technical Product Manual - DCT1800-GAP System description, DECT air interface • Portable part to portable part direct communication (private) Having access rights does not automatically imply that a portable part can place a call. It may be requested to authenticate which is part of the security services. This protects the owner or operator from unauthorized or fraudulent use of the network.
Technical Product Manual - DCT1800-GAP System description, DECT air interface A TPUI (Temporary Portable User Identity) is a short and locally unique portable part identity that is used for paging (e.g. broadcast message addressing one particular portable part). Each TPUI is associated with an IPUI. There are individual TPUIs and group TPUIs (call-group). The TPUI is a 20bit identity. 6.7.
Technical Product Manual - DCT1800-GAP System description, DECT air interface Access Rights Class (ARC) Radio Fixed Part Number (RPN) Access Rights Details (ARD) Portable User Type (PUT) Portable User Number (PUN) Access Rights Identity (ARI) Portable Access Rights Key (PARK) Fixed part identity International Portable User Identity (IPUI) Portable part identity 020 Radio Fixed Part Identity RFPI Fig.
Technical Product Manual - DCT1800-GAP System description, DECT air interface EMC PSN 16 bits 20 bits 021 IPEI Fig. 35 IPEI, EMC and PSN 6.9 Authentication Key (K) An important part of the security services is the authentication Key (K).
Technical Product Manual - DCT1800-GAP System description, DECT air interface If K is derived from UAK and an UPI then in the portable part the UAK and the manually entered UPI are both associated with either an IPUI or an IPUI/PARK pair. UAK K B2 process 023 UPI Fig. 37 Derivation of K from UAK and UPI 6.9.3 Authentication Code (AC) The AC is used to derive K when authentication of the portable part or authentication of an fixed part service is applied. It is usually a short value (e.g.
Technical Product Manual - DCT1800-GAP System description, DECT air interface 6.11.1 Incoming call This paragraph describes the sequence in which procedures are executed to support an incoming call (see figure 39). The feature is implemented by mandatory procedures for the Portable radio Termination (PT) and the Fixed radio Termination (FT) as shown in table 5. An incoming call is initiated at the fixed part.
Technical Product Manual - DCT1800-GAP System description, DECT air interface Portable radio Termination (PT) Fixed radio Termination (FT) Call control setup Portable identity (IPUI [PUT, PUN]) Fixed identity (PARK [ARC, ARD], PLI) Basic service (Normal call setup) Signal PT compares the received IPUI, PARK PP and PLI with the IPUI, PARK and PLI stored in PT PP during subscription.
Technical Product Manual - DCT1800-GAP System description, DECT air interface • Portable identity: a portable is uniquely defined, by its IPUI, within the area where it has access rights • Fixed identity: defines the access rights of a portable to a DECT system • Basic service: defines the type of call, e.g. normal call setup, emergency call, etc.
Technical Product Manual - DCT1800-GAP System description, DECT air interface 6.11.3 Authentication of portable part This paragraph describes the sequence in which procedures are executed to support the feature ‘Authentication of portable part’ (see figure 41). It is implemented by a mandatory procedure for the Portable radio Termination (PT) and the Fixed radio Termination (FT) as shown in table 7.
Technical Product Manual - DCT1800-GAP System description, DECT air interface 5. The portable part sends RES1 to fixed part. 6. The fixed part compares RES1 and XRES1. As UAK in fixed part and portable part are the same (subscription process), the results RES1 and XRES1 must be the same. In this case the fixed part accepts the authenticity of the portable part.
Technical Product Manual - DCT1800-GAP System description, DECT air interface K (authentication key) A11 RS (random number 1) A12 XRES1 PP is authenticated RAND-F (random number 2) = Authentication process in FP Verification process in FP Auth type, RS and RAND-F to PP RES1 from PP K (authentication key) A11 RS (random number 1) RES1 A12 028 RAND-F (random number 2) Authentication process in PP Fig. 42 Authentication of a portable part 6.11.
Technical Product Manual - DCT1800-GAP System description, DECT air interface Portable part Fixed part UAK (subscription data) UAK, UPI (subscription data) Authentication request - Authentication algorithm type (DSAA) - Authentication type key (UAK, UPI) - Random number (RAND-F) - Number (RS) User inputs UPI. UPI, UAK, B2 => K. PP calculates RES1 based on K, RAND-F, RS UAK, UPI, B2=> K.
Technical Product Manual - DCT1800-GAP System description, DECT air interface Portable part Fixed part UAK (subscription data) UAK (subscription data) Authentication request - Authentication algorithm type (DSAA) - Authentication key type (UAK) - Random number (RAND-P) UAK, B1 => K FP calculates RES2 based on K, RS RAND-P Authentication reply - Response (RES2) - Number (RS) UAK, B1 => K PP calculates XRES2 based on RS,K, RAND-P. If RES2 = XRES2 then FP authenticated 030 Fixed part authenticated Fig.
Technical Product Manual - DCT1800-GAP System description, DECT air interface 6.12 Regulatory regimes for DECT type approvals The aim of the European Telecommunications Standards Institute (ETSI) DECT standardization has been to develop a modern and complete common harmonised standard within the area of cordless telecommunications. Harmonised standards are those prepared and adopted on a European basis, with any conflicting national standards being withdrawn.
Technical Product Manual - DCT1800-GAP System description, DECT air interface TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Product specifications Section 3 Product specifications TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Product specifications TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Product specifications, Table of contents Table of contents Page Chapter 1 Introduction....................................................................................... 1 Chapter 2 System............................................................................................... 3 2.1 2.2 DECT.................................................................................................................................. 3 DCT1800-GAP system ...........
Technical Product Manual - DCT1800-GAP Product specifications, Table of contents Chapter 7 7.1 7.2 7.3 7.3.1 7.3.2 7.3.3 AC-adapter – BMLNB 101 09/n........................................................................................ 19 Power transformer – REX-BAS006n (RES 147 006/n) .................................................... 19 Battery power unit ............................................................................................................
Technical Product Manual - DCT1800-GAP Product specifications, Introduction Chapter 1 Introduction This section lists the safety standards which are met by the DCT1800-GAP system. It also contains a detailed list of technical specifications of the DCT1800-GAP products.
Technical Product Manual - DCT1800-GAP Product specifications, Introduction 2 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Product specifications, System Chapter 2 2.1 System DECT Frequency band Number of carriers Carrier spacing Peak transmit power TDMA frame No. of slots per frame Slot duration Total number of channels Bit rate Speech coding Transmission : : : : : : : : : : : Modulation method Common interface profile Access Rights Class (ARC) Portable User Type (PUT) : : : : 1880 - 1900 MHz 10 1.728 MHz 250 mW (cordless phone, base station) 10 ms 24 (12 full duplex channels) 0.
Technical Product Manual - DCT1800-GAP Product specifications, System 4 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Product specifications, Base stations Chapter 3 3.1 Base stations Base station, BS330/LA (Latin America) / NMT/KRCNB 301 01/1 The BS330/LA base station is functionally the same as the BS330/STD base station, but operates in the 1910 - 1930 MHz band. For further specifications refer to paragraph 3.4. 3.
Technical Product Manual - DCT1800-GAP Product specifications, Base stations EMC Conducted emission : class B (EN 55022) ESD : 8 kV air discharge, 4 kV contact discharge (EN 61000-4-2) Immunity to electromagnetic fields:5V/m (EN 61000-4-3) Electrical fast transients (EFT) : 0.5 kV on signal wires (EN 61000-4-4) Surge : 0.
Technical Product Manual - DCT1800-GAP Product specifications, Base stations 3.5 Base station, BS340/STD (Standard) / KRC161 053/1 Note: For common specifications refer to base station BS330/STD, paragraph 3.4. General specifications Weight Length antennas Antenna connector type 3.6 : 496 grams (incl.
Technical Product Manual - DCT1800-GAP Product specifications, Base stations Connector type power Connector type service Antenna connector type Width × depth × height : : : : Length antennas Weight Material housing Colour housing Operating voltage Power consumption : : : : : : RJ45 (8 pins) RJ12 (6 pins) MCX (female) 200 × 165 × 56 mm (including mounting bracket, excludingantennas) 107 mm (92 mm when mounted) 496 grams (incl. standard external antennas) ABS moulded plastic light grey(NCS 2005-Y20R) 10.
Technical Product Manual - DCT1800-GAP Product specifications, Modular cabinet – REX-BAS900n (BDVNB 101 01/16) Chapter 4 Modular cabinet – REX-BAS900n (BDVNB 101 01/16) Versions REX-BAS9007 (Ascom) REX-BAS9021 (Ascom US/Canada) REX-BAS9008 (Ericsson) Compliance to European regulations and standards As from revision R2 the modular cabinet complies with the following regulations and standards: CE regulation DECT : 91/263/EEC, Telecommunications Terminal Directive 73/23/EEC, Low Voltage Directive 89/336/E
Technical Product Manual - DCT1800-GAP Product specifications, Modular cabinet – REX-BAS900n (BDVNB 101 01/16) Output on 5V, +12V and –12V 5 Vdc output +12 Vdc output – 12 Vdc output 48 Vdc output (not regulated) : : : : : Total maximum is 40 W max. 40 W max. 12 W max. 12 W max. 160 W if AC input, or max. 530 W if DC input Modular Cabinet Connection Board, MCCB – REX-SPP0014 (ROANB 101 28) (spare part) The modular cabinet is provided with the Modular Cabinet Connection Board (MCCB) mounted.
Technical Product Manual - DCT1800-GAP Product specifications, System boards Chapter 5 5.
Technical Product Manual - DCT1800-GAP Product specifications, System boards Return loss Relative levels: Input (AD loss) range Output (DA loss) range Balancing impedance Longitudinal conversion loss : : : : : : 15 dB min. Software programmable 6 to −11 dBr against 270 Ω + (750 Ω // 150 nF) 12 to −4.5 dBr against 270 Ω + (750 Ω // 150 nF) Software programmable; 600 Ω, 900 Ω or complex 60 dB min.
Technical Product Manual - DCT1800-GAP Product specifications, System boards I.431 TS 016 : Primary rate layer 1 : Australia Environmental Temperature Operating Storage Relative humidity : 0 to 70 °C : −40 to 70 °C : 20 to 80%, non condensing General specifications Length x width : 344 x 195 mm Digital trunk specification Number of primary rate interfaces per DTU board Bit rate Signalling : 2 : 2.
Technical Product Manual - DCT1800-GAP Product specifications, System boards 5.7 Central Processing Unit, CPU2/EMN US&Canada– REX-BRD9034 Same as REX-BRD9032 but with different software application and UL approved. Refer to paragraph 5.5. 5.8 Central Processing Unit, CPU2/EADS– REX-BRD9035 Same as REX-BRD9031 but with different software application. Refer to paragraph 5.4. 5.
Technical Product Manual - DCT1800-GAP Product specifications, System boards Transport data rate 384 kbit/s Maximum length base station cable For KRCNB 301 and 302 base stations of revision R3n and later, maximum length is 1.9 km with standard CAT5 cable (FTP CAT5e 4x2x0.5). For older base stations like KRCNB 201 base stations and 301and 302 base stations of revision R1n or R2n, maximum length is up to 3.5 km. General specifications Length x width 5.
Technical Product Manual - DCT1800-GAP Product specifications, System boards base station : 384 kbit/s Maximum length base station cable 1.9 km with standard CAT5 cable (FTP CAT5e 4x2x0.5). Speech coding Telephone exchange side Base stations side : 64 kbit/s PCM (A-law or μ-law, country dependent, downloaded from CPU) : 32 kbit/s ADPCM DTMF levels Country dependent (downloaded from CPU) 5.
Technical Product Manual - DCT1800-GAP Product specifications, Firmware (on EPROM) Chapter 6 6.1 Firmware (on EPROM) DTU-E1 CAS+ firmware set – REX-SW0003 (NTM/RYSNB 101 17/10) With this firmware the DTU-E1 2/ROFNB 157 13/1 can operate with the Ericsson MD110, or Nortel Networks Meridian 1 and Succession 1000M. EPROM Signalling 6.
Technical Product Manual - DCT1800-GAP Product specifications, Firmware (on EPROM) 18 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Product specifications, Power supply units Chapter 7 7.1 Power supply units AC-adapter – BMLNB 101 09/n This adapter is used to power a BS330 (KRCNB 301 02/n, KRCNB 301 03/n, KRCNB 301 04/n), BS340 (KRCNB 302 01/1) or a BS370 (KRCNB 302 01/1) type base station. Versions BSX-0013 BSX-0014 BSX-0015 BSX-0016 BMLNB 101 09/1 BMLNB 101 09/2 BMLNB 101 09/3 BMLNB 101 09/4 : : : : For European countries except U.K. For U.K.
Technical Product Manual - DCT1800-GAP Product specifications, Power supply units Input voltage Max. load Frequency Output voltage 7.3 : : : : 230 −10% to 240 +6% Vrms 300 W resistive, or 230 W top-rectifying load 47 to 64 Hz 36 Vrms (35 to 38 Vrms) Battery power unit Compliance to regulations and standards CE regulation : 73/23/EEC and 89/36/EEC CE marking : CE Safety standards : EN 60950/IEC950 class II EMC standards : EN 55022 class B EN 50082-1 7.3.
Technical Product Manual - DCT1800-GAP Product specifications, Power supply units 7.3.3 Battery – REX-BAS0054 (BKC 851 003) Four batteries provide 180 minutes of back-up at 240 W. TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Product specifications, Power supply units 22 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Product specifications, Cables Chapter 8 Cables Mains power cord – REX-CAB9016 (RPM 945 102) To connect power supply unit (BML 351 013/1) to mains. For European countries except U.K., Ireland and Cyprus Interconnection set – REX-CAB9008 (NTMNB 101 105) To interconnect two adjacent modular cabinets.
Technical Product Manual - DCT1800-GAP Product specifications, Cables CLU/MDF cable set – REX-CAB9006 (NTM/TSRNB 101 46) This cable set consists of two similar cables. The only difference is the position of the shielding clamp. Cable length Wires Connector CLU side Connector MDF side : : : : 25 m 12 twisted pairs 32 pins, DIN41612 none DTU twisted pair cable set – REX-CAB9007 (NTM/TSRNB 101 49) This cable set consists of two similar cables. The only difference is the position of the shielding clamp.
Technical Product Manual - DCT1800-GAP Product specifications, Software Chapter 9 9.1 Software Cordless system manager software for Windows® – REX-MTC9019 (NTM/LZYNB 201 50/1) Version Ericsson Components CD-ROM with installation instructions, help file and application. ® Registered trademark of Microsoft Corporation PC configuration Millennium compliant personal computer with: • Windows 95, 98, NT4.
Technical Product Manual - DCT1800-GAP Product specifications, Software 26 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Configuration directions Section 4 Configuration directions TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Configuration directions TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Configuration directions, Table of contents Table of contents Page Chapter 1 Introduction....................................................................................... 1 Chapter 2 Limitations of the system ................................................................ 3 2.1 2.2 2.3 Modular cabinet .................................................................................................................. 3 Modular cabinet powering restrictions .
Technical Product Manual - DCT1800-GAP Configuration directions, Table of contents Chapter 7 Relation between parts .................................................................. 33 Chapter 8 Non-standard antennas for BS340/BS370.................................... 35 8.1 8.2 8.3 8.4 8.5 8.6 8.7 8.8 IV Introduction....................................................................................................................... 35 Indoor applications ..........................................
Technical Product Manual - DCT1800-GAP Configuration directions, Introduction Chapter 1 Introduction This section contains all the necessary information for a DCT1800-GAP system configuration. Configuration can be described as calculating the number of building blocks of a DCT1800-GAP system, finding the best location for the base stations and selecting the most suitable powering option for them.
Technical Product Manual - DCT1800-GAP Configuration directions, Introduction To make a system configuration you must: 2 1. Know the limitations of the system (see chapter 2). 2. Know the customer requirements for the coverage area (see chapter 4). Non-standard antennas can be used for special requirements (see chapter 8). 3. Know the number of base stations. The required number of base stations can be found by doing a site survey (see chapters 3 and 4). 4.
Technical Product Manual - DCT1800-GAP Configuration directions, Limitations of the system Chapter 2 Limitations of the system The system limitations determine the number and type of system boards that can be placed in a modular cabinet, number of cordless phones and base stations, distance between base stations and radio exchange, cable connectors, powering method used, etc. Certain limitations may affect each other.
Technical Product Manual - DCT1800-GAP Configuration directions, Limitations of the system The battery power unit can provide power for a single cabinet and at least 14 additional base stations or two cabinets with at least 10 additional base stations for the two cabinets. With external power all cabinets and a maximum of 56 base stations per cabinet can be powered. Charge and back-up times of the battery power unit The charge time and back-up time depend on the load from the modular cabinet(s).
Technical Product Manual - DCT1800-GAP Configuration directions, Limitations of the system 14 Back-up tme (hours) 12 10 8 6 4 2 30 60 90 120 150 180 Load (W) 210 240 027 0 0 Fig. 2 Back-up time Powering recommendation when using a battery power unit When using a system with more than one battery power unit, for instance four modular cabinets and two battery power units, ensure that the modular cabinet with the CPU board contains at least a minimum system configuration.
Technical Product Manual - DCT1800-GAP Configuration directions, Limitations of the system 60 cordless phones and an LTU can interface 8 cordless phones. A DTU with CCS firmware can interface up to 60 simultaneous calls i.e. not related to the number of cordless phones. The CPU firmware limits the number of cordless phones to 600. When using analogue lines the maximum number of cordless phones depends on the LTU board: • ROFNB 157 25/2: 224 cordless phones (see paragraph 2.
Technical Product Manual - DCT1800-GAP Configuration directions, Limitations of the system +5 V Board type Product code board CPU2 2/ROFNB 157 26/1 6W CLU ROFNB 157 11/n) 3.6 W CLU-S ROFNB 157 16/2 2.25 W SLU ROFNB 157 16/1 4.5 W SPU-S ROFNB 157 16/3 2.25 W DTU 2/ROFNB 157 13/n 4.5 W LTU ROFNB 157 02/n, ROFNB 157 04/n 2.5 W LTU ROFNB 157 25/n 2W SPU ROFNB 157 08/n* 3.5 W +12 V −12 V 1.6 W 0.8 W Table 1 Power consumption per board 2.
Technical Product Manual - DCT1800-GAP Configuration directions, Limitations of the system 8 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning Chapter 3 Base station planning The major task in configuring a DCT1800-GAP system is defining the number of base stations required to cover an area to a satisfactory level. This chapter describes how a base station planning can be made in order to gain full area coverage. For additional information about base station planning, refer to chapter 4.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning 3.4 • X-ray rooms in hospitals protected by lead walls and computer rooms in banking buildings protected against unwanted interference do not allow radio signals to enter. • Exhibition halls or production halls may give reflections due to huge metal structures. This causes interference which reduces the capacity and coverage range per base station. Departmental differences • 3.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning 3.6 Site survey To satisfy area coverage and traffic demands, the site must be surveyed in order to determine the number and position of base stations. To do a site survey, a site survey tool and ground plans of the floors are required. With help of these tools a proper base station planning can be made. Samples must be taken to determine an average cell size.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning 40 metres 2 1= 40 metres 2= 20 metres 3= 20 metres 1 3 002 3.5 metres = Base station of site survey tool Fig. 4 Measurement of typical cell size Making a plan Once the ‘typical cell size’ is found, do the following: 1. Make a sketch of all base station positions on the ground plan. 2. Indicate the expected coverage for each base station on the map. 3.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning Front Coverage area BS330 Coverage area BS340 Base station Base station seen from above 002 Rear Fig. 5 Antenna pattern of BS330 and BS340 base stations Finalizing the plan When all base station positions on the map are verified and the plan is found okay, discuss with the client whether, due to local traffic requirements (see chapter 6) extra base stations are needed in particular areas.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning 14 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning - additional information Chapter 4 4.1 Base station planning - additional information Introduction As is already known, there are a number of different uses to bear in mind for an installation: • Open area • Office environment • Industrial environment (incl. metal halls) Small sites are usually no problem because they usually have a homogeneous layout. Take the example of a new four-floor office complex.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning - additional information Bear in mind that, depending on the client’s requirements, you will have to take special note of these areas in addition, therefore, to the normal survey. Lift If the client wishes to have coverage in the lift, there are two methods available: • Locate the base station close to the lift, preferably at the front and such that the base station can ‘see’ the front1.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning - additional information with surprises. A well-positioned base station on the top floor (20 to 30 metres at most from the room where coverage is required) usually provides sufficient coverage for the maintenance rooms on the roof, but it is better to be safe than sorry so check by means of measurements.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning - additional information 2nd floor Open stairwell or atrium 022 1st floor Fig. 6 Base station covering two floors 4.2.4 Outdoors/car park Coverage outdoors is usually not a problem since there are few or no obstacles. Where a base station is located depends (again) on the client and on the size of the area to be covered.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning - additional information Type of glass Range in meters Surface coated float glass 30-50 Wired glass (finemesh) 0-20 Table 3 Type of glass versus base station range The same applies here too that the base station must be able to ‘see’ as much as possible of the outdoor area to be covered (i.e. there must be as few obstacles as possible between the base station and the area for which coverage is to be provided).
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning - additional information • Locate the base stations such that it can ‘see’ as much as possible of the area to be covered or such that there are as few obstacles as possible between the base station and the area to be covered. • Locate the base station strategically: for example, not on a large concrete pillar in the middle of a hall because you will then have little coverage behind the pillar.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning - additional information 4.2.7 Metal halls General When providing coverage in a metal hall (for example, a production hall or storage building), there are a number of issues which call for additional attention. The dimensions of the hall and the material used (metal, concrete, brick etc.) are very important deciding factors in the hall’s radio reception.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning - additional information A DECT signal consists of frames of 420 bits transmitted every 10 ms. The bit length for DECT is 0.868 µs. Mutes1 and clicks on the line will occur if the time difference between the various received signals is of the order of 1 bit length. If this occurs, the receiver has difficulty in distinguishing between the different transmitted bits.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning - additional information corner reach the cordless phone at approximately the same time. If you now place the base station in the centre of the hall (point C) you can work out for yourself that this is much worse than position A because you will have a greater time delay spread between the various signals.
Technical Product Manual - DCT1800-GAP Configuration directions, Base station planning - additional information 24 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Configuration directions, Powering BS330, BS340, BS370 type base stations Chapter 5 5.1 Powering BS330, BS340, BS370 type base stations General After a base station plan has been made (see paragraph 3.6) it must be established which powering method is most suitable to power the base stations.
Technical Product Manual - DCT1800-GAP Configuration directions, Powering BS330, BS340, BS370 type base stations The length of the cable between the base station and the cabinet is ‘data limited’. Data pair SC0 Data pair SC1 Radio exchange Local Power EPP Base station 012 EPP Fig. 10 Powering base stations by a local supply Note: Do not power the base station via the EPP terminals from a local power source and the radio exchange simultaneously.
Technical Product Manual - DCT1800-GAP Configuration directions, Powering BS330, BS340, BS370 type base stations Revision of modular cabinet Backplane powering (PW-BP) External powering (PW-EXT) Overall maximum 3 7 8 R2 Table 4 Maximum number of CLUs, CLU-Ss and SLUs provided with base station power Base stations are connected to the CLU, CLU-S and SLU via an MDF by 2, 3 or 4 twisted pair cables.
Technical Product Manual - DCT1800-GAP Configuration directions, Powering BS330, BS340, BS370 type base stations 48Vdc PWEXT 230 W Backplane Transformer 5 3 PWBP MCCB CLUs/ CLU-Ss/ SLUs 160 W Base stations Max 16 to 32 014 Internal Modular cabinet Fig. 12 Powering base stations via modular cabinet with transformer 5.3.2 Battery power unit powering The battery power unit can supply power for one or two cabinets (see figure 13).
Technical Product Manual - DCT1800-GAP Configuration directions, Powering BS330, BS340, BS370 type base stations 48Vdc PWEXT Battery power unit 5 240 W Backplane PW3 BP MCCB CLUs/ CLU-Ss/ SLUs 190 W Base stations Max 19 to 38 Internal Modular cabinet 240 W Base stations Modular cabinet 1 Max 14 to 28 140 W Base station power available from the two cabinets together 016 2 Battery power unit Fig. 14 Powering base stations via modular cabinet with battery power unit 5.3.
Technical Product Manual - DCT1800-GAP Configuration directions, Powering BS330, BS340, BS370 type base stations The external source must supply –48 Vdc, which may be connected to the backplane for powering the system boards and directly to the MCCB for powering base stations. Each cabinet uses 50 W maximum. The number of base stations powered per modular cabinet is limited to 56 by the MCCB which can connect up to a total of 7 CLUs, CLU-Ss and SLUs to distribute base station power.
Technical Product Manual - DCT1800-GAP Configuration directions, Traffic capacity of the system Chapter 6 Traffic capacity of the system The traffic capacity of the DCT1800-GAP system is mainly determined by the radio exchange and in exceptional cases also by the base stations. The radio exchange can handle a maximum of 60 simultaneous calls and a single base station has a capacity of 8 simultaneous calls. 6.
Technical Product Manual - DCT1800-GAP Configuration directions, Traffic capacity of the system Example: A customer ordering a system with 55 cordless phones, generating 200 mE each in average, requires a system with a traffic capacity of 11 E. With an accepted GOS of 0.5% the number of SPU-Ss/SLUs is found as follows: The total traffic is 11 E. In the column of 0.5% GOS, the next higher value of 11 E is 14.2 E, resulting in 3 SPU-Ss/SLUs.
Technical Product Manual - DCT1800-GAP Configuration directions, Relation between parts Chapter 7 Relation between parts Radio exchange Item Connects Remarks Modular cabinet 9 System boards 1 Connection board 1 Power supply Number of system boards may be less due to power limitations. Up to 4 cabinets can be chained. An MCCB is factory mounted. CPU PC, printer and general alarm Only 1 per system (also with multi-cabinet system). SPU-S 8 calls An SPU-S provides for 8 speech paths.
Technical Product Manual - DCT1800-GAP Configuration directions, Relation between parts Cables 34 Items Required items Remarks LTU/MDF cable set or LTU/MDF cable set, long 1 set per LTU A set consists of 2 cables with different cable clamp positions. Normal version is 5 m. Long version is 25 m. LTU/MCCB ground cable 1 per LTU CLU/MDF cable or CLU/MDF cable, long 1 set per CLU, CLU-S or SLU A set consists of 2 cables with different cable clamp positions. Normal version is 5 m.
Technical Product Manual - DCT1800-GAP Configuration directions, Non-standard antennas for BS340/BS370 Chapter 8 8.1 Non-standard antennas for BS340/BS370 Introduction Base station BS340 is standard equipped with two external omni-directional dipole antennas. Nonstandard antennas may enlarge the range of a BS340 base station and reduce the total number of base stations in a cordless system.
Technical Product Manual - DCT1800-GAP Configuration directions, Non-standard antennas for BS340/BS370 used are: large production halls, long corridors (directional antennas), coverage of bad radio spots and for expanded base station coverage. When compared to the standard base station antennas, non-standard antennas are more expensive, less easy to install and usually larger. These disadvantages do normally not justify the use of nonstandard antennas in an office environment. 8.
Technical Product Manual - DCT1800-GAP Configuration directions, Non-standard antennas for BS340/BS370 8.6 Recommended coax cable At the end of the 1 meter coax cable that is fixed to the non-standard antenna is a an MCX type. In case you need additional coax cable the following is recommended: Type Diameter Loss (at 2 GHz) 8.7 Huber+Suhner G 03232-01 5 mm 0.72 dB/m Distance between antennas Theoretically, the distance between the two antennas should be more then half a DECT wavelength.
Technical Product Manual - DCT1800-GAP Configuration directions, Non-standard antennas for BS340/BS370 38 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions Section 5 Installation instructions TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Table of contents Table of contents Page Chapter 1 Introduction....................................................................................... 1 Chapter 2 General ............................................................................................. 3 2.1 2.2 2.3 2.4 2.5 Environmental requirements...............................................................................................
Technical Product Manual - DCT1800-GAP Installation instructions, Table of contents Chapter 6 6.1 6.2 6.2.1 6.3 Introduction....................................................................................................................... 25 Description ....................................................................................................................... 26 System components .........................................................................................................
Technical Product Manual - DCT1800-GAP Installation instructions, Table of contents 12.2 12.3 Board description ............................................................................................................. 55 Installation ........................................................................................................................ 55 Chapter 13 Digital Trunk Unit T1 (DTU-T1) – REX-BRD0021 (2/ROFNB 157 13/2) ........................................................................
Technical Product Manual - DCT1800-GAP Installation instructions, Table of contents 18.2.2 18.2.3 18.2.4 18.2.5 18.3 18.4 18.5 18.5.1 18.5.2 18.5.3 18.5.4 18.5.5 18.5.6 18.5.7 18.5.8 18.5.9 18.5.10 18.5.11 18.5.12 18.5.13 18.5.14 18.6 Connection to host base station ....................................................................................... 75 Overview of LEDs and connectors ................................................................................... 78 Powering by local adapter .......
Technical Product Manual - DCT1800-GAP Installation instructions, Table of contents Chapter 23 LTU cabling ................................................................................... 133 23.1 23.2 23.2.1 23.2.2 Introduction..................................................................................................................... 133 Installation ...................................................................................................................... 134 Normal connection....
Technical Product Manual - DCT1800-GAP Installation instructions, Table of contents VIII TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Introduction Chapter 1 Introduction This section describes how to install the DCT1800-GAP system. It comprises information about required tools, firmware, recommended board positions, cabling, system cabinets, base stations and field-replaceable units such as power supplies and system boards. This section is set-up in a modular way. Each system board and connection board is described in a separate chapter.
Technical Product Manual - DCT1800-GAP Installation instructions, Introduction 2 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, General Chapter 2 2.1 General Environmental requirements The building (rooms) in which the radio exchange and base stations are to be installed must comply with the following: 2.2 • The air shall be free from dust and smoke. It shall not contain gases or acid fumes that can affect the condition of metal parts or insulation materials. • Relative humidity may vary between 20 - 90%.
Technical Product Manual - DCT1800-GAP Installation instructions, General 2.5 • Cutting plier • Crimping tool for RJ45 8-pin plugs • Ericsson PCB-extractor • Drilling machine • 8 mm drill bit • Equipment to measure the delay times of base station cables when not using SLU REX-BRD0015 (ROFNB 157 16/1) revision R2A or higher, or CLU-S of revision R1A or higher.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation steps Chapter 3 3.1 Installation steps Introduction Paragraph 3.2 describes the recommended board positions. This paragraph should be read before starting any installation. Paragraph 3.3 describes the main steps of installation and the order in which they should be carried out. It can be used by inexperienced engineers, but also by experienced engineers as a reference or check-list.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation steps CLUs, CLU-Ss and SLUs CLUs, CLU-Ss and SLUs are placed on the right hand side of the cabinet. At this position CLU/MDF cables do not influence the accessibility of the MCCB. Note: When more CLUs, CLU-Ss or SLUs are to be installed, you may alternate CLUs, CLU-Ss or SLUs with SPU-Ss. This creates more space between the CLUs/CLU-Ss/SLUs thus providing easier access to the CLU cables.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation steps 12. Connect a power source to the modular cabinet, See chapter 20. See also chapter 5 (Power transformer) and chapter 6 (Battery power unit) 13. Mount the base stations and measure the base station cable delays, See chapter 16 or 17 depending on version 14. Switch on the DCT1800-GAP system, See paragraph 3.6 15. Initialize the DCT1800-GAP system with the application Cordless System Manager (CSM) for Windows.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation steps 15. Place the securing bar, See paragraph 4.11 16. Stick the cabinet number labels, board name labels and cable position labels, See paragraph 3.7.2 17. Commissioning, See section ‘Commissioning’ 3.4 Unpacking The system is delivered in several cardboard boxes. 3.5 1. Read ESD instructions in the section ‘Safety and regulatory information’. 2. Open the cardboard boxes and take out the shipping list. 3.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation steps 3.7.1 Board position labels The board position labels can be stuck to the bar below the system board as indicated in figure 2. The labels must be stuck before installing the cabling. 28 32 36 40 44 48 Board position label 52 56 002 24 Fig. 2 Position of the board position labels 3.7.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation steps Position 3 Position 4 No label 48/3 Position 2 24/3 Position 1 24/2 CLU at board position 48 CPU at board position 24 003 48/1 Fig. 3 Connector positions and examples of cable labelling 10 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet – REX-BAS900nn (BDVNB 101 01/16) Chapter 4 4.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet – REX-BAS900nn (BDVNB 101 01/16) Ceiling Mounting bracket ≥ 0.1 m Approx. 45 mm approx. 95 mm Cabinet 3 (cabinet 4) Cabinet 1 (cabinet 3) 167 mm Cabinet 2 (cabinet 1) Cabinet 4 (cabinet 2) 390 mm 226 mm 4 mm ≤ d ≤ 8 mm ≥ 0.3 m Notes: - The mounting brackets are drawn above the cabinets. When the cabinets are mounted to the wall the mounting brackets are not visible.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet – REX-BAS900nn (BDVNB 101 01/16) Bottom view MCCB Power connection of cabinet Backplane Power on/off switch Fuses Wrist strap connector Power filter Drawer 005 Left side view Front view Fig. 5 Modular cabinet TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet – REX-BAS900nn (BDVNB 101 01/16) 4.5 Pre-mounting of a modular cabinet in a one cabinet system 1. Remove the cover of the cabinet (see figure 6): – loosen the screws that secure the cover (1), – lift the front cover approximately 10 mm (2), – remove the cover by lifting the lower edge towards you (3). 2.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet – REX-BAS900nn (BDVNB 101 01/16) 7. Hang the cabinet to the mounting bracket and mark the lower two retaining holes. 8. Drill the holes and insert the plugs. 9. Repeat this procedure for the other cabinets. The cabinets must be placed against each other, such that the shielding gasket contacts always have good contact with each other. The space between the cabinets should never be more than 8 mm.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet – REX-BAS900nn (BDVNB 101 01/16) A A A-A 008 Outer surface of cabinet 2 shielding gaskets Fig. 8 Placement of the shielding gaskets 4.7 4.8 Mounting the modular cabinets to the wall 1. Hang-up the modular cabinet(s) using the mounting bracket(s). In a multi cabinet configuration, the cabinets must be placed against each other, such that the shielding gasket contacts always have good contact with each other. 2.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet – REX-BAS900nn (BDVNB 101 01/16) 4. Interconnect the ground strips of the cabinets using the protective ground cables (see figures 9 and 11. 5. If system boards have been removed, re-insert the boards. Flat cable R-network R201, R202 and R207 R-network R401, R402 and R407 Protective ground cable R-network fitted 009 To telecom or protective ground R-network removed Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet – REX-BAS900nn (BDVNB 101 01/16) X102 X112 X101 010 R202 R402 X100 R207 R407 R201 R401 X113 Fig. 10 Backplane of modular cabinet 4.9 Connection to protective ground The modular cabinet always has to be connected to protective ground. 1. 18 Connect the telecom ground or the protective ground to a free protective ground connection on the ground strip (see figure 11) of one of cabinets, using a 3.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet – REX-BAS900nn (BDVNB 101 01/16) WARNING To prevent the ground connection from contact corrosion, only a ground cable with a tinned eye should be connected to the ground strip. Cable tie blocks 011 Protective ground connections Fig. 11 Ground strip 4.10 Connection of wrist strap for ESD After mounting the modular cabinet(s) the engineer must avoid damaging the system boards by ESD.
Technical Product Manual - DCT1800-GAP 012 Installation instructions, Modular cabinet – REX-BAS900nn (BDVNB 101 01/16) Fig. 12 Placement of the securing bar 20 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Power transformer – REX-BAS006n (RES 147 006/n) Chapter 5 5.1 Power transformer – REX-BAS006n (RES 147 006/n) General The power transformer (36 Vac) can power one modular cabinet and a number of base stations.
Technical Product Manual - DCT1800-GAP Installation instructions, Power transformer – REX-BAS006n (RES 147 006/n) 5.2 Description The power transformer can power one modular cabinet and a number of base stations. The transformer shall be mounted to the wall. The transformer is connected to the modular cabinet using a cable (TRENB 101 01) delivered with the cabinet. In case of short-circuit the automatic fuse will activated. The fuse can be reset by pressing the reset button.
Technical Product Manual - DCT1800-GAP 014 Installation instructions, Power transformer – REX-BAS006n (RES 147 006/n) Fig. 14 Opening the transformer TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Power transformer – REX-BAS006n (RES 147 006/n) 24 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Battery power unit Chapter 6 6.
Technical Product Manual - DCT1800-GAP Installation instructions, Battery power unit + Circuit breaker Up: batteries connected Down: batteries disconnected Battery - + Battery cabinet set 015 Battery rack Power supply unit Fig. 15 Battery power unit Two fuses 6.3 A −48 V output Circuit breaker Mains input PSU 016 Four 12 V batteries Fig. 16 Principle of the battery power unit 6.2 Description 6.2.
Technical Product Manual - DCT1800-GAP Installation instructions, Battery power unit Power supply unit REX-BAS0063 (BML 351 48) The PSU is a 48 V power supply that can be screwed to the rear side of the battery cabinet. It can supply a maximum of 2 modular cabinets. The PSU is provided with battery back-up provision to charge the back-up batteries. During a mains power failure the battery voltage is supplied to the 2 outputs of the unit.
Technical Product Manual - DCT1800-GAP Installation instructions, Battery power unit 3. Position the PSU at the back of the cabinet such that the side with the connectors is facing down as indicated in figure 19. 4. Fix the PSU and the battery rack to the battery cabinet using 4 of the enclosed M5 x 10 screws. Verify that the screws are tightened well to ensure the connection to protective earth. 2 3 Front cover 1 Drawer 020 1 Fig. 18 Removal of the front cover Mounting the battery cabinet 1.
Technical Product Manual - DCT1800-GAP Installation instructions, Battery power unit Inserting batteries 1. Interconnect the upper two batteries using cable TRE 990 119/200 as shown in figure 19 and slide them into the cabinet as indicated. 2. Interconnect the lower two batteries using cable TRE 990 119/200 as shown in figure 19 and slide them into the cabinet. Cabling See figure 19. 1. Put the circuit breaker in the OFF (lower) position. 2.
Technical Product Manual - DCT1800-GAP Installation instructions, Battery power unit Switch on 1. Connect the mains power cord to the wall-outlet. The battery power unit is supplying 48 V now. 2. 30 Put the circuit breaker in the on (upper) position. The battery back-up is switched on now. TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Battery power unit TRE 990 119/200 Red cable Grey cable Circuit breaker Up: batteries connected Down: batteries disconnected + ± ± + TRE 990 117/900 TRE 990 112/3000 to alarm device. For 48 V alarm output see figure 6-8 TRE 990 113/850 to modular cabinet N: 230 V mains input A: −48 Vdc output for charging the batteries B: alarm relay output. The contact closes when no AC power is supplied to the PSU. Max.
Technical Product Manual - DCT1800-GAP Installation instructions, Battery power unit H I B TRE 990 112/3000 to alarm device TRE 990 111/400 Battery Cabinet PSU B To alarm device TRE 990 111/400 I TRE 990 112/3000 H 022 Circuit breaker Fig. 20 48 V alarm output 32 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Central Processing Unit (CPU2/SA) – REX-BRD9031 and REX-BRD9035 Chapter 7 7.1 Central Processing Unit (CPU2/SA) – REX-BRD9031 and REX-BRD9035 General Maintenance The CPU2 contains the following field-exchangeable parts (see figure Figure 21 on page 35): • CPU2 poller firmware • Lithium battery (LithiuMCell BR2325-1Hc) The lithium battery is a back-up power supply for the real-time clock on the CPU2 board.
Technical Product Manual - DCT1800-GAP Installation instructions, Central Processing Unit (CPU2/SA) – REX-BRD9031 and REX-BRD9035 LEDs LED10 LED3 LED7 LED6 LED5 LED4 : : : : : Normally on. Power on LED Normally off. Watch-dog LED (not significant) Normally lit very weak. Communication with backplane LED (not significant) Normally off. Board error LED Normally off. Info or error message received, but not read yet Flashing slowly (0,5Hz). Software download active Flashing quickly.
Technical Product Manual - DCT1800-GAP Installation instructions, Central Processing Unit (CPU2/SA) – REX-BRD9031 and REX-BRD9035 321 321 Not synchronized, DCT1800-GAP master Synchronized, DCT1800-GAP slave J4 LED10 LED3 LED7 LED6 Reset button Synchronization jumper LED5 LED4 CPU poller firmware Printer port RS232-A Lithium battery (type BR2325-1Hc) PC port RS232-B J13 Not used Battery activated 128 321 General alarm port Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Central Processing Unit (CPU2/SA) – REX-BRD9031 and REX-BRD9035 7.3 Installation 1. Put the jumper J13 in the correct position to activate the lithium battery (see figure ). Note: See the warning about the lithium battery in the ‘Safety and regulatory information’ section in this manual. 2. Download the latest CPU2-software with CSM management tool. 3.
Technical Product Manual - DCT1800-GAP Installation instructions, Central Processing Unit (CPU2 with External Synchronisation) – REX BRD9032, REX BRD9033 and REX BRD9034, Chapter 8 8.1 Central Processing Unit (CPU2 with External Synchronisation) – REX BRD9032, REX BRD9033 and REX BRD9034, General This CPU2 board can be used in a stand alone Radio Exchange (RE) system, or in REs connected to a Switch Module (SWM) in an Enterprise Mobility Node (EMN) system.
Technical Product Manual - DCT1800-GAP Installation instructions, Central Processing Unit (CPU2 with External Synchronisation) – REX BRD9032, REX BRD9033 and REX BRD9034, Connectors The CPU has the following front connectors (see figure 24): • RS232 printer port • RS232 personal computer port • DECT Sync input port (1 input) • DECT Sync output port (3 outputs in one port) • General alarm port RS232 ports and general alarm port are connected to a Modular Cabinet Connection Board (MCCB) via factory
Technical Product Manual - DCT1800-GAP Installation instructions, Central Processing Unit (CPU2 with External Synchronisation) – REX BRD9032, REX BRD9033 and REX BRD9034, 8 pin Modular connector (back view) Pin 1 234567 Pin 8 CPU2/EMN - Input (Slaves) 1 2 3 4 5 6 7 8 CPU2/EMN - Output (Master) Twisted pairs 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 130 Fig. 22 Sync line connections from one master CPU2/EMN to three CPU2/EMN slaves .
Technical Product Manual - DCT1800-GAP Installation instructions, Central Processing Unit (CPU2 with External Synchronisation) – REX BRD9032, REX BRD9033 and REX BRD9034, Not synchronized, CPU2/EMN is master Synchronized, CPU2/EMN is slave J16 J16 321 Note: If the CPU2/EMN is set to master , then J4 must be set to slave (synchronized) DECT Synchronization ports Input (from CPU2/EMN master) Not synchronized, DCT1800-GAP is master Output (to CPU2/EMN slave) 321 J14 321 321 J14 CPU2/EMN – CPU2/E
Technical Product Manual - DCT1800-GAP Installation instructions, Central Processing Unit (CPU2 with External Synchronisation) – REX BRD9032, REX BRD9033 and REX BRD9034, 8.3 Installation 1. Put the jumper J13 in the correct position to activate the lithium battery (see figure 24). Note: See the warning about the lithium battery in the ‘Safety and regulatory information’ section in this manual. 2. Download the latest CPU2/EMN-software with CSM management tool. 3.
Technical Product Manual - DCT1800-GAP Installation instructions, Central Processing Unit (CPU2 with External Synchronisation) – REX BRD9032, REX BRD9033 and REX BRD9034, 42 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Cell Link Unit (CLU) – REX-BRD0014 (ROFNB 157 11/2) Chapter 9 9.1 Cell Link Unit (CLU) – REX-BRD0014 (ROFNB 157 11/2) General The CLU is used to control base stations via twisted pair cables with a maximum length of 3.5 km. The CLU REX-BRD0014 (ROFNB 157 11/2), supports a robust data link protocol between the CLU and the base stations. Power distribution to the base stations is protected by two 1 AT fuses for each base station.
Technical Product Manual - DCT1800-GAP Installation instructions, Cell Link Unit (CLU) – REX-BRD0014 (ROFNB 157 11/2) CLU DCT1800 board controller firmware RYT/ROFNB 157 11/2 or REX-SPP0009 (RYSNB 101 44/2) LED1 LED4 Base station power P1 P0 CLC8 Base 8 CLC7 Base 7 CLC6 Base 6 CLC5 6,7: SC0 2,3: SC1 5,8: EPP-a 1,4: EPP-b 8 5 6 3 4 1 2 CLC4 Base 4 CLC3 Base 3 CLC2 Base 2 CLC1 Base 1 Fuses REX-SPP0001 (NTK/NGHNB 101 102), set of 16 pcs 024 7 Base 5 Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Cell Link Unit (CLU) – REX-BRD0014 (ROFNB 157 11/2) CLU P0 Power from connection board P1 SC0 CLC 8 Base station 8 SC1 EPP SC0 CLC 1 Base station 1 SC1 025 EPP Fig. 26 Power distribution on CLU 9.3 Installation 1. Insert the CLU into the slides of its specified slot position. 2. Gently push the board into the back connector till it locks. Don’t use any force.
Technical Product Manual - DCT1800-GAP Installation instructions, Cell Link Unit (CLU) – REX-BRD0014 (ROFNB 157 11/2) 46 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Cell Link Unit-S (CLU-S) – REX-BRD0016 (ROFNB 157 16/2) Chapter 10 Cell Link Unit-S (CLU-S) – REX-BRD0016 (ROFNB 157 16/2) 10.1 General The CLU-S is used to control base stations via twisted pair cables with a maximum length of 2.1 km. Power distribution to the base stations is protected by two PTCs for each base station (see figure 28). Maintenance The CLU-S contains the following field-exchangeable parts (see figure 27): • 10.
Technical Product Manual - DCT1800-GAP Installation instructions, Cell Link Unit-S (CLU-S) – REX-BRD0016 (ROFNB 157 16/2) LED1 LED4 Base station power CLC8 CLC7 CLC6 CLC5 6,7: SC0 2,3: SC1 5,8: EPP-a 1,4: EPP-b CLC4 7 8 5 6 3 4 1 2 CLC3 CLC2 CLU-S board controller firmware REX-SPP0004 (RYSNB 101 19) 026 CLC1 Fig. 27 CLU-S – REX-BRD0016 (ROFNB 157 16/2) 48 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Cell Link Unit-S (CLU-S) – REX-BRD0016 (ROFNB 157 16/2) CLU-S P0 Power from connection board P1 SC0 +T CLC 8 Base station 8 SC1 +T EPP SC0 +T CLC 1 Base station 1 SC1 +T 027 EPP Fig. 28 Power distribution on CLU-S 10.3 Installation 1. Insert the CLU-S into the slides of its specified slot position. 2. Gently push the board into the back connector till it locks. Don’t use excessive force.
Technical Product Manual - DCT1800-GAP Installation instructions, Cell Link Unit-S (CLU-S) – REX-BRD0016 (ROFNB 157 16/2) 50 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Speech Link Unit (SLU) – REX-BRD00015 and REX-BRD00026 Chapter 11 Speech Link Unit (SLU) – REX-BRD00015 and REX-BRD00026 11.1 General The SLU is a combination of an SPU-S and a CLU-S on one board. The CLU-S part is used to control base stations via twisted pair cables with a length of maximum 2.1 km. For longer cables (up to 3.5 km), the CLU with product code REX-BRD0014 (ROFNB 157 11/2) must be used.
Technical Product Manual - DCT1800-GAP Installation instructions, Speech Link Unit (SLU) – REX-BRD00015 and REX-BRD00026 SPU-S part LED1 LED4 SPU-S board controller firmware REX-SPP0005 (RYSNB 101 20) LED1 CLU-S part LED4 Base station power CLC8 CLC7 CLC6 CLC5 6,7: SC0 2,3: SC1 5,8: EPP-a 1,4: EPP-b CLC4 7 8 5 6 3 4 1 2 CLC3 CLC2 CLU-S board controller firmware REX-SPP0004 (RYSNB 101 19) 028 CLC1 Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Speech Link Unit (SLU) – REX-BRD00015 and REX-BRD00026 Power from connection board SLU P0 P1 SC0 +T CLC 8 Base station 8 SC1 +T EPP SC0 +T CLC 1 Base station 1 SC1 +T 029 EPP Fig. 30 Base station power distribution on the SLU 11.3 Installation 1. Insert the SLU into the slides of the specified board position. 2. Gently push the board into the back connector till it locks. Don’t use any force.
Technical Product Manual - DCT1800-GAP Installation instructions, Speech Link Unit (SLU) – REX-BRD00015 and REX-BRD00026 54 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Speech Processing Unit-S (SPU-S) – REX-BRD0017 and REX-BRD0030 Chapter 12 Speech Processing Unit-S (SPU-S) – REX-BRD0017 and REX-BRD0030 12.1 General Maintenance The SPU-S contains the following field-exchangeable parts (see figure 31): • 12.2 SPU-S board controller firmware Board description Jumpers and connectors Not applicable. LEDs LED1 LED2 LED3 LED4 12.3 : Normally on. Power on LED : Normally off.
Technical Product Manual - DCT1800-GAP Installation instructions, Speech Processing Unit-S (SPU-S) – REX-BRD0017 and REX-BRD0030 SPU-S board controller firmware REX-SPP0005 (RYSNB 101 20) LED1 030 LED4 Fig. 31 SPU-S – REX-BRD0017 / REX-BRD0030 56 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Digital Trunk Unit T1 (DTU-T1) – REX-BRD0021 (2/ROFNB 157 13/2) Chapter 13 Digital Trunk Unit T1 (DTU-T1) – REX-BRD0021 (2/ROFNB 157 13/2) Same as DTU-E1 but is operating on 1.544 Mbit/s. For further specifications refer to Chapter 14. Chapter 14 Digital Trunk Unit E1 (DTU-E1) – REX-BRD0003 (2/ROFNB 157 13/6) 14.1 General The DTU-E1 provides 60 voice channels with the PBX via two 2 Mbit/s links.
Technical Product Manual - DCT1800-GAP Installation instructions, Digital Trunk Unit E1 (DTU-E1) – REX-BRD0003 (2/ROFNB 157 13/6) Coax/twisted pair jumpers DTC1 and DTC 2 Coax (connection closed) Twisted pair (connection open) 105 Not allowed Not allowed Fig. 32 Jumper settings DTC1 and DTC2 LEDs Each DTC has its own LEDs: LED1 LED2 LED3 LED4 14.3 : : : : Normally on. Power on LED Normally off. Watch-dog LED (not significant) Normally off. Board not polled LED Normally off.
Technical Product Manual - DCT1800-GAP Installation instructions, Digital Trunk Unit E1 (DTU-E1) – REX-BRD0003 (2/ROFNB 157 13/6) LED1 LED2 LED3 LED4 Coax/twisted pair jumpers DTU-E1 CAS+ firmware REX-SW0003 (RYSNB 101 17/10) or DTU-E1 CCS firmware REX-SW0004 (RYSNB 101 17/11) Coax Twisted pair LED1 LED2 LED3 LED4 DTC1 DTC2 Coax/twisted pair jumpers DTU-E1 CAS+ firmware REX-SW0003 (RYSNB 101 17/10) or DTU-E1 CCS firmware REX-SW0004 (RYSNB 101 17/11) Coax 031 Twisted pair Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Digital Trunk Unit E1 (DTU-E1) – REX-BRD0003 (2/ROFNB 157 13/6) 60 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Line Termination Unit (LTU2) – REX-BRD0019 (ROFNB 157 25/2) Chapter 15 Line Termination Unit (LTU2) – REX-BRD0019 (ROFNB 157 25/2) 15.1 General This version of the LTU does not support cascaded telephone connections. Note: ROFNB 157 25/1 and REX-BRD0019 (ROFNB 157 25/2) can not be used together in one system. Maintenance The LTU contains the following field-exchangeable parts (see figure): • 15.
Technical Product Manual - DCT1800-GAP Installation instructions, Line Termination Unit (LTU2) – REX-BRD0019 (ROFNB 157 25/2) LED1 LED2 LED3 LED4 LTC8 LTC7 LTC6 LTC5 e4 LTU ground e1 LTC4 LTC3 LTC2 b LTC1 LTU firmware RYSNB 101 43/1 104 a Fig. 34 LTU2 – REX-BRD0019 (ROFNB 157 25/2) 62 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, BS330 base station Chapter 16 BS330 base station 16.1 General The base station is connected to the radio exchange by means of a standard twisted pair cable, with minimum 26 AWG copper conductors. The base station can be fixed to a wall, a ceiling, a pole or a beam, by means of the mounting bracket included. When fixing the base station to a wall or ceiling the included plugs and screws must be used.
Technical Product Manual - DCT1800-GAP Installation instructions, BS330 base station Software If necessary, the software in the base station can be updated by downloading new software to the base station. Downloading can be performed without disconnecting the base stations. The new software is stored in flash memory. How to download the software is described in the help file of the application Cordless System Manager (CSM) for Windows.
Technical Product Manual - DCT1800-GAP Installation instructions, BS330 base station LED2 Front view Back view Factory testing (RJ12) Data/ power (RJ45) Data/ power (RJ45) 037 LED1 Fig. 35 BS330 base station 16.2 Base station cabling The base station cable must be a twisted pair cable, with 2 pairs minimum for connection of the data lines. Also power can be distributed via these data pairs. Use minimum 26 AWG copper conductors.
Technical Product Manual - DCT1800-GAP Installation instructions, BS330 base station Base station SC0-a SC0-b SC1-a Data/power connector 1 + SC1-b − DC DC EPP-a EPP-b SC0-a SC0-b SC1-a Data/power connector 2 SC1-b EPP-a 038 EPP-b Fig. 36 Base station powering 16.3 Installation Base stations can be mounted vertically or horizontally. Mount the base stations at places and positions as determined in the system configuration plan.
Technical Product Manual - DCT1800-GAP Installation instructions, BS330 base station Ceiling ≥ 65 mm 039 TOP Fig. 37 Fixing the mounting bracket to a wall 16.3.2 Fixing the mounting bracket to a ceiling Fixing to a ceiling is done in the same way as the a wall (see paragraph 16.3.1). When the base station has to be positioned above a suspended ceiling, take care that the front of the base station points downwards. 16.3.
Technical Product Manual - DCT1800-GAP Installation instructions, BS330 base station Fix the mounting bracket to a pole or beam such that the text ‘TOP’ is right way up (see figure 38). Tied wrongly 040 1. Fig. 38 Fixing the mounting bracket to a pole or beam 16.3.4 Using cable ducts When the base station is mounted to the wall, cable ducts can be used to route the wiring through. 68 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, BS330 base station 1. Fix the cable duct to the wall in one of the positions shown in figure 39. 65 mm 57 mm TOP 125 mm 70 mm 15 mm thick cable ducts 041 75 mm Fig. 39 Minimum distances between a cable duct and the mounting bracket 16.3.5 Securing the base station cable 1. For safety reasons secure the base station cable to a convenient point at about 30 cm from the base station.
Technical Product Manual - DCT1800-GAP Installation instructions, BS330 base station 16.3.6 Connecting the base station plug to the cable 1. Cut the base station cable to the correct length and connect the cable to a RJ45 modular jack (see figure 40).
Technical Product Manual - DCT1800-GAP Installation instructions, BS330 base station 16.3.8 Sticking the label on the base station Brand labels have to be ordered separately. 1. Stick the brand label in the front cover recess. 16.3.9 Connecting the base station cables 1. If it is required that the cables enter the base station centrally from above, guide the cables through the recess in the middle of the base station as shown in figure 41. Power cable (if used) 043 Data cable Fig.
Technical Product Manual - DCT1800-GAP 044 Installation instructions, BS330 base station Fig. 42 Mounting the base station 72 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, BS340 base station Chapter 17 BS340 base station 17.1 General The BS340 could best be described as a BS330 base station with two omni-directional external antennas. Other external antennas can be mounted as well. This chapter only contains the differences between the BS340 and the BS330. For all other information please refer to chapter 16, base station BS330.
Technical Product Manual - DCT1800-GAP Installation instructions, BS340 base station 74 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station Chapter 18 Installation instructions BS370 Wireless Relay Station 18.1 About this document This document describes the installation of the BS370 Wireless Relay Station revision R2. 18.2 General product description 18.2.1 Base station without cable connection to system The BS370 Wireless Relay Station (WRS) is a base station without cable connection to the system.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station Without extra antenna, the typical configuration is as shown in figure 43. The BS370 has to be in the coverage area of the host base station. Coverage host base station Coverage BS370 BS370 BS370 AC Adapter Host base station AC Adapter BS370 109 System AC Adapter Fig. 43 Coverage of BS370 without extra antenna 76 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station Connection to host base station with extra antenna Optionally an extra antenna can be used for the radio link between BS370 and host base station. The extra antenna serves only to communicate with the host base station. When using an extra antenna, the distance between BS370 and host base station can be up to 1000 m. With extra antenna, the typical configuration is as shown in figure 44.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station 18.2.3 Overview of LEDs and connectors Standard antenna connectors Connector for extra antenna to communicate with host base station Indication LED Power LED Back view Service (RJ12) Power (RJ45) Power (RJ45) 111 Front view Fig. 45 LEDs and connectors on BS370 Wireless Relay Station LEDs Power LED Indication LED : Green when powered : Two colour indication LED, see table 2.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station • Two 8-pin RJ45 modular jacks for powering. The two powering connectors are interconnected on the board. • A 6-pin RJ12 modular jack for service and configuration. 18.2.4 Powering by local adapter A 24 Vdc adapter (BMLNB 101 09/n) can be used to power the BS370. This adapter is provided with an 8-pin RJ45 plug that can be plugged into one of the power connectors of the BS370.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station 18.3 Using the Site Survey Tool A site survey of the BS370 can be done using the Site Survey Tool (SST), LTTNB 101 03. For more information on using the Site Survey Tool, see the accompanying documentation. 18.4 Maximum number of simultaneous calls on BS370 and host base station The BS370 can handle maximum 5 simultaneous calls.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station Note: The use of an extra antenna for communication with the host base station makes no difference for the number of simultaneous calls. TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station Figure 48 shows an example situation: Coverage host base station Coverage BS370 Cordless phone 2 Cordless phone 1 Host base station 114 BS370 System Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station 18.5 Installation 18.5.1 Required for installation BS370 deliveries The BS370 is delivered as follows: • BS370 • 2 antennas (with sealing rings) • Instruction to place the antennas • Mounting bracket • 2 screws with wall plugs Accessories (to be ordered separately) • Required: local power adapter (BMLNB 101 09/n).
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station 8. Option: mounting and connecting the extra directional antenna (18.5.12). 9. Securing the power cable (18.5.13). 10. Final check (18.5.14). 18.5.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station 0 dB -1 0 dB -1 +60 -3 +60 -3 +30 -6 +30 -6 -10 -13 -10 -13 -20 -20 0 0 -30 -30 -60 115 -60 Typical radiation in horizontal plane Typical radiation in vertical plane Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station 18.5.4 Placing and connecting the antennas 1. Put the antennas at their places on the BS370, following the instruction sheet delivered. You can also use the special omni-directional antennas or directional external antennas. If you want to use an extra directional antenna for communication with the host base station: Remove the cap from the connector of the BS370. 117 2. Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station 118 Fig. 52 Removing the protection cap from the cable Put the large cap with the hole inside around the cable of the directional antenna (delivered with the directional antenna). 119 4. Fig. 53 Putting the cap around the cable of the directional antenna TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station Connect the cable of the directional antenna to the connector on the BS370. See figure 54. 120 5. Fig. 54 Connecting the cable of the extra external antenna to the BS370 18.5.5 Configuring the BS370 with the Base Station Manager To configure the BS370 you need the Base Station Manager software. For more information on using the Base Station Manager, see the help file of it.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station To configure the BS370: 1. Install the Base Station Manager software on a PC with Windows. 2. Connect the RS232 cable with level shifter (delivered with the Base Station Manager) to the RS232 port of the PC. Back view 121 RS232 Fig. 55 Connecting PC and BS370 using the RS232 cable with level shifter 3. Connect the RS232 cable to the RJ12 service connector of the BS370. 4.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station The BS370 can automatically give itself a base station number. It detects which numbers the surrounding base stations have and gives itself a free base station number. However, there may be a base station that the BS370 cannot see, having this base station number already. In that case, two base station numbers may have the same number. These base stations cannot be used to set up a call.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station above the BS370 must be at least 175 mm (see figure 56). If the distance is less than 175 mm, the BS370 cannot be slid onto the bracket. 2. When using wall plugs, take a ý 6 mm drill and drill the two holes and insert the included wall plugs. 3. Position the mounting bracket with its flat side to the wall and fasten it with the two included ý 3.5 mm screws.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station 18.5.7 Fixing the mounting bracket to a ceiling Fixing to a ceiling is done in the same way as to a wall (see paragraph 18.5.6). When the base station has to be positioned above a suspended ceiling, take care that the front of the base station points downwards. 92 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station 18.5.8 Fixing the mounting bracket to a pole or beam The mounting bracket can be fixed to a pole (diameter Š 45 mm) or a beam (wider than 50 mm) by means of a strap or flexible metal band less than 30 mm wide. The strap and flexible metal band are not included. Fix the mounting bracket to a pole or beam such that the text ‘TOP’ is up (see figure 57). Tied wrongly 123 1. Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station 18.5.10 Connecting the power cable If it has been disconnected, connect the cable to power the base station to a power connector (see Figure 45 on page 78 for connector positions). 2. If it is required that the power cable enters the base station centrally from above, guide the cable through the recess in the middle of the BS370 as shown in figure 58. 124 1. Power cable Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station 18.5.11 Mounting the base station Hold the base station flat against the mounting bracket and move it downwards until it clicks (see figure 59). 125 1. Fig. 59 Mounting the BS370 18.5.12 Option: mounting and connecting the extra directional antenna The extra directional antenna takes care of the communication between BS370 and host base station. 1.
Technical Product Manual - DCT1800-GAP Installation instructions, Installation instructions BS370 Wireless Relay Station 18.5.13 Securing the power cable 1. For safety reasons secure the power cable to a convenient point at about 0.3 m from the BS370. 18.5.14 Final check 1. Check if all antennas are securely mounted and connected. 2. Plug the power cable of the power adapter into a wall-outlet. 3. Check if the power LED is on. If not, check the power adapter and power cable. 4.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet connection board – REX-SPP0014 (ROANB 101 28) Chapter 19 Modular cabinet connection board – REX-SPP0014 (ROANB 101 28) 19.1 Board description The Modular Cabinet Connection Board (MCCB) REX-SPP0014 (ROANB 101 28) (see figure 63) is factory fit on the bottom of modular cabinet type REX-BAS9007 (BDVNB 101 01/n), above the drawer.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet connection board – REX-SPP0014 (ROANB 101 28) PW1 PW-BP PW2 PW3 Backplane power PW3 Fuse F1 PW-EXT − + PW4 Power filter PW5 Ground bridge PW6 PW1 Fuse F2 Power filter PW2 PW7 External power 045 MCCB Fig. 60 Power distribution on the MCCB Fuses The MCCB is provided with two fast 15 A fuses (see figures 60 and 63) to protect the external power supply from short circuit.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet connection board – REX-SPP0014 (ROANB 101 28) DTC-OUT S DTC2 R R DTC5 S S S DTC3 S R 046 R R DTC6 R S Ground DTC1 Open DTC4 DTC-OUT The jumpers are default in the ground position (see figure 61). This setting gives the best EMC protection. Fig. 61 Jumper settings on MCCB Note: There are two sets of PW1, PW2 and PW3 terminals; one for backplane powering and one for external powering.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet connection board – REX-SPP0014 (ROANB 101 28) GA-OUT Contact rating: 10 VA (peak) Switching max: 200 Vdc or 141 Vac Switching current max: 0.75 Adc or 0.53 Aac 1 2 3 1 2 3 047 Relay is activated when there is no alarm Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet connection board – REX-SPP0014 (ROANB 101 28) 19.2 Installation The modular cabinet is delivered with the MCCB mounted. The cables to the CPU are already connected to the MCCB. For installation of these cables and the installation of the other cables refer to the relevant chapter. TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP 048 Ground bridge (default position) Fuse 2 Fuse 1 Installation instructions, Modular cabinet connection board – REX-SPP0014 (ROANB 101 28) Fig. 63 Modular Cabinet Connection Board (MCCB) – REX-SPP0014 (ROANB 101 28) 102 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling Chapter 20 Modular cabinet power cabling 20.1 Introduction This chapter describes the installation of the power cables of the modular cabinet. The installation depends on whether the modular cabinet is powered by an AC source or a DC source and on how the base station are powered. WARNING Disconnect or switch off all power supply sources before servicing any power supply circuit.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling Factory fitted power cabling The modular cabinet is delivered with the following powering cables fitted: • Power cable TRENB 101 01 connected to the bottom side of the filter (see figure 65) • Cable TRENB 101 02 between the filter and the power switch (see figure 66) • Cable TRENB 101 04 between the switch and the two fuse holders • Cable TRENB 101 05 between the fuse holders and connector X102 on the bac
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling DC: + DC: − Power on/off switch 051 Fuses (2 x REX-SPP0002 (NGHNB 101 103), 15 A/250 V) Fig. 66 Power connections to top of filter X102 AC input connector + X112 DC input/output connectors X113 052 − Fig. 67 Power connections on the backplane TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling 20.2 Installation 20.2.1 Modular cabinet powered by power transformer Base station power supplied to a maximum of 3 CLUs/CLU-Ss/SLUs via the backplane This is the default configuration the modular cabinet is delivered with. Figure 68 gives a schematic diagram of this configuration. Figure 69 gives the cable diagram of this configuration.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling Black Red X102 C C C L L L U U U * * * Back plane + X112 red − X113 black REX-CAB0013 (TSRNB 101 33) TRENB 101 05 TRENB 101 03 Red PW-BP Black TRENB 101 01 36 Vac PW1 PW2 PW3 PW5 PW6 PW7 PW-EXT PW4 PW3 PW2 MCCB * Or CLU-S/SLU − PW1 + 054 Ground bridge Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling 48 Vdc PWEXT Backplane 5 3 PWBP MCCB CLUs, CLU-Ss or SLUs Transformer Modular cabinet 055 Internal Fig. 70 Schematic diagram of powering the modular cabinet and 3 CLUs/CLU-Ss/SLUs by a transformer and 5 CLUs/CLU-Ss/SLUs by a 48 Vdc supply WARNING When using the PBX power supply, make sure that the capacity of the supply is sufficient to power both the PBX and the modular cabinet. 1.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling Black Red X102 C C C L L L U U U * * * Back plane + X112 red − X113 black REX-CAB0013 (TSRNB 101 33) TRENB 101 05 TRENB 101 03 To other CLUs, CLU-Ss or SLUs Red PW-BP Black TRENB 101 01 36 Vac PW1 PW2 PW3 PW5 PW6 PW7 PW-EXT PW4 PW3 PW2 MCCB Ground bridge + Cable like TRENB 101 01 48 Vdc From external source (PBX) * Or CLU-S/SLU 056 − PW1 Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling Base station power supplied to a maximum of 7 CLUs/CLU-Ss/SLUs via a separate 48 V power supply In this configuration the MCCB has to be connected to a 48 V (PBX) power supply. There is no cable delivered with the modular cabinet to connect this power supply. The cable can easily be made by yourself. Figure 72 gives a schematic diagram of this configuration.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling Black Red X102 C C C L L L U U U Back plane * * + X112 red − X113 black * REX-CAB0013 (TSRNB 101 33) To other CLUs, CLU-Ss or SLUs TRENB 101 05 TRENB 101 03 Red PW-BP Black TRENB 101 01 36 Vac PW1 PW2 PW3 PW5 PW6 PW7 PW-EXT PW4 PW3 PW2 MCCB Ground bridge + Cable like TRENB 101 01 48 Vdc * Or CLU-S or SLU From external source (PBX) 058 − PW1 Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling 20.2.2 Modular cabinet powered by battery power unit Base station power supplied to a maximum of 3 CLUs/CLU-Ss/SLUs via the backplane Figure 74 gives a schematic diagram of this configuration. Figure 75 gives the cable diagram of this configuration. PWEXT Backplane PW3 BP MCCB CLUs, CLU-Ss or SLUs Internal Modular cabinet 059 Battery power unit Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling Black Red X102 C C C L L L U U U Back plane * * + X112 red − X113 black * REX-CAB0013 (TSRNB 101 33) TRENB 101 05 TRENB 101 03 Red PW-BP Black TRE 990 113/850 BPU 48 Vdc PW1 PW2 PW3 PW5 PW6 PW7 PW-EXT PW4 PW3 PW2 MCCB * Or CLU-S/SLU − PW1 + 060 Ground bridge Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling 48 Vdc PWEXT Battery power unit Backplane 7 PWBP MCCB CLUs, CLU-Ss or SLUs Modular cabinet 061 Internal Fig. 76 Schematic diagram of powering the modular cabinet by a battery power unit and 7 CLUs/CLU-Ss/SLUs by a 48 Vdc supply WARNING When using the PBX power supply, make sure that the capacity of the supply is sufficient to power both the PBX and the modular cabinet. 1.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling Black Red X102 C C C L L L U U U Back plane * * + X112 red − X113 black * REX-CAB0013 (TSRNB 101 33) To other CLUs, CLU-Ss or SLUs TRENB 101 05 TRENB 101 03 Red PW-BP Black TRE 990 113/850 BPU 48 Vdc PW1 PW2 PW3 PW5 PW6 PW7 PW-EXT PW4 PW3 PW2 MCCB Ground bridge + Cable like TRENB 101 01 48 Vdc From external source (PBX) * Or CLU-S/SLU 062 − PW1 Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling Base station power supplied to a maximum of 3 CLUs/CLU-Ss/SLUs via the backplane and 5 CLUs/CLU-Ss/SLUs powered via a separate 48 V power supply Figure 78 gives a schematic diagram of this configuration. Figure 79 gives the cable diagram of this configuration. 48 Vdc PWEXT Battery power unit Backplane 5 PW3 BP MCCB CLUs, CLU-Ss or SLUs Modular cabinet 063 Internal Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling Black Red X102 C C C L L L U U U * * * Back plane + X112 red − X113 black EX-CAB0013 SRNB 101 33) To other CLUs, CLU-Ss or SLUs TRENB 101 05 TRENB 101 03 Red PW-BP Black TRE 990 113/850 BPU 48 Vdc PW1 PW2 PW3 PW5 PW6 PW7 PW-EXT PW4 PW3 PW2 MCCB Ground bridge + Cable like TRENB 101 01 48 Vdc From external source (PBX) * Or CLU-S/SLU 064 − PW1 Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling 20.2.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling Black Red X102 C C C L L L U U U * * * Back plane + X112 red − X113 black REX-CAB0013 (TSRNB 101 33) TRENB 101 03 Red PW-BP TRENB 101 05 Black TRENB 101 01 48 Vdc From external source (PBX) PW1 PW2 PW3 PW5 PW6 PW7 PW-EXT PW4 PW3 PW2 MCCB Ground bridge − + 066 * Or CLU-S/SLU PW1 Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling 1. Remove the cable TRENB 101 03 from connection X112 and X113 on the backplane (see figure 81). 2. Remove cable TRENB 101 05 from connector X102 on the backplane (see figure 81), remove the dummy plug from the connector and connect the cable to connectors X112 and X113. The red wire must be connected to connector X112 on the backplane (see figure 81). 3.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling 4. Connect cable TRENB 101 03 to the piggy-back faston of power cable TRENB 101 01 (see figure 83). 5. Connect power cable TRENB 101 01 to the DC source. Note: There are two sets of PW1, PW2 and PW3 terminals; one for backplane powering and one for external powering. The positive pole of the external DC source is connected to the ground of the modular cabinet via the backplane.
Technical Product Manual - DCT1800-GAP Installation instructions, Modular cabinet power cabling 20.2.4 Base station powering using AC-adapters When all base stations are powered by AC-adapters, cable TRENB 101 03 and all REX-CAB9013 (TSRNB 101 33) cables can be removed. In all other cases use a configuration as described in the previous paragraphs. Note: When a base station is powered by an AC-adapter, do not supply power via the radio exchange to that base station via EPP pairs.
Technical Product Manual - DCT1800-GAP Installation instructions, CPU2 cabling Chapter 21 CPU2 cabling 21.1 Introduction This chapter describes all cabling to the CPU2. All cabling of the CPU2 is routed via the MCCB. 21.2 Installation WARNING The printer and PC must be stationed in a restricted area if connected directly to the modular cabinet The printer and PC must be connected to mains with a suitable socket; safety earth to safety earth, non-earth to non-earth (the safety earth must be guaranteed).
Technical Product Manual - DCT1800-GAP Installation instructions, CPU2 cabling Printer port RS232-A PC port RS232-B General alarm port CPU2 CPU/MCCB serial connection cable (TSRNB 101 26) General alarm cable (TSRNB 101 28) RS232-B RS232-A GA in PC PC cable REX-CAB0011 PC output (TSRNB 101 22) Printer cable REX-CAB0012 (TSRNB 101 23) Printer output Relay is activated when there is no alarm GA out 1 2 3 MCCB To external alarm system 069 Contact rating: 10 VA (peak) Switching max: 200 Vdc o
Technical Product Manual - DCT1800-GAP Installation instructions, CPU2 cabling Connection to alarm device The general alarm relay is normally activated when the modular cabinet is switched on. If the CPU2 generates a general alarm, the alarm relay is de-activated. 1. Connect an alarm device to the GA-OUT connector (see figure 84). When the alarm devices needs a make contact, connect the alarm device between contacts 1 and 2.
Technical Product Manual - DCT1800-GAP Installation instructions, CPU2 cabling 126 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, CLU/CLU-S/SLU to base station cabling Chapter 22 CLU/CLU-S/SLU to base station cabling 22.1 Introduction This chapter describes all cabling between the CLU, CLU-S or SLU, and the base station. Refer to chapter 20 on how to supply base station power via CLUs, CLU-S or SLUs. The modular cabinet is provided with a ground strip to connect the CLU, CLU-S or SLU cables to ground (see figure 86).
Technical Product Manual - DCT1800-GAP Installation instructions, CLU/CLU-S/SLU to base station cabling 22.2 Installation CLU, CLU-S or SLU to MDF 1. Connect the plug of the longer1 of the two CLU/MDF cables (REX-CAB9001 (TSRNB 101 29) or the long cable REX-CAB9006 (TSRNB 101 46)) to the upper connector of the rightmost CLU, CLU-S or SLU as shown in figure 87. 2.
Technical Product Manual - DCT1800-GAP Installation instructions, CLU/CLU-S/SLU to base station cabling Note: Base stations with cables longer than 1.9 km must always be connected to a CLU with code REX-BRD0014 (ROFNB 157 11/2). Base stations with cables of up to 1.9 km can be connected to a SLU with code REX-BRD0015 (ROFNB 157 16/1) or a CLU-S with code REX-BRD0016 (ROFNB 157 16/2). Only applicable for KRCNB 201 and KRCNB 301, 302 and 303 base station of revision R1n or R2n.
Technical Product Manual - DCT1800-GAP Installation instructions, CLU/CLU-S/SLU to base station cabling Base station power CLC8 Cable REX-CAB0001 (TSRNB 101 29) or REX-CAB0006 (TSRNB 101 46) CLC7 CLC6 CLC5 Cable REX-CAB9013 (TSRNB 101 33) See chapter: CLU/CLU-S/SLU to base station cabling.
Technical Product Manual - DCT1800-GAP Installation instructions, CLU/CLU-S/SLU to base station cabling Cable Cable pair Colour CLC Signal CLC1 SC1 /1 1 white-blue (shortest cable pair) 2 white-orange 3 white-green 4 white-brown 5 yellow-green SC0 6 red-blue EPP 7 red-orange 8 red-green SC0 EPP CLC2 CLC3 SC1 SC1 SC0 9 red-brown 10 yellow-blue EPP 11 black-blue SC0 12 black-orange EPP /2 1 white-blue (longest cable pair) 2 white-orange 3 white-green 4 white
Technical Product Manual - DCT1800-GAP Installation instructions, CLU/CLU-S/SLU to base station cabling Base station id Cabinet number CLU, CLU-S or SLU board position CLC number Location of base station Table 6 Base station identification and location sheet 132 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, LTU cabling Chapter 23 LTU cabling 23.1 Introduction This chapter describes the installation of the cabling between the LTU(s) and the PBX. The ‘normal’ as well as the ‘cascade’ connection are handled. Only certain types of LTUs support cascade connections. For more information see the chapters about the LTUs (or see the ‘Product Specifications’).
Technical Product Manual - DCT1800-GAP Installation instructions, LTU cabling 23.2 Installation 23.2.1 Normal connection LTU/MDF cable set 1. Connect the plug of the longer1 of the two LTU/MDF cables (REX-CAB9002 (TSRNB 101 31)) or the long cable (REX-CAB9004 (TSRNB 101 44)), to the upper connector of the rightmost LTU as shown in figure 90. 2.
Technical Product Manual - DCT1800-GAP Installation instructions, LTU cabling Cable REX-CAB0002 or REX-CAB0004 (TSRNB 101 31 or TSRNB 101 44 (min. length 2.5 m)) LTC8 LTC7 LTC6 LTC5 LTU ground cable REX-CAB0014 (TSRNB 101 35/2) Only used with earth signalling for recall LTC4 LTC3 LTC2 LTC1 Cable REX-CAB002 or REX-CAB0004 (TSRNB 101 31 or TSRNB 101 44 (min. length 2.
Technical Product Manual - DCT1800-GAP Installation instructions, LTU cabling Cable Cable pair Colour LTC Signal /1 1 white-blue LTC1 a0 - b0 (shortest cable pair) 2 white-orange LTC2 a1 - b1 3 white-green LTC3 a2 - b2 4 white-brown LTC4 a3 - b3 /2 1 white-blue LTC5 a4 - b4 (longest cable pair) 2 white-orange LTC6 a5 - b5 3 white-green LTC7 a6 - b6 4 white-brown LTC8 a7 - b7 Table 7 Identification of the cable pairs in REX-CAB9002 (TSRNB 101 31) and REX-CAB9004 (TSR
Technical Product Manual - DCT1800-GAP Installation instructions, LTU cabling 4. Connect the other end of the LTU/MCCB ground cable to the LTU ground connector on the leftmost LTU (see figure 91). TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, LTU cabling Cable REX-CAB0003 (TSRNB 101 32) or REX-CAB0005 (TSRNB 101 45) (min. length 2.5 m) LTC8 LTC7 LTC6 LTC5 LTU ground cable REX-CAB0014 (TSRNB 101 35/2) Only used with earth signalling for recall LTC4 LTC3 LTC2 LTC1 Cable REX-CAB0003 (TSRNB 101 32) or REX-CAB0005 (TSRNB 101 45) (min. length 2.
Technical Product Manual - DCT1800-GAP Installation instructions, LTU cabling Cordless phone Extension number N Extension number N LTU a, b a', b' MDF 077 PBX Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, LTU cabling 140 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, DTU cabling Chapter 24 DTU cabling 24.1 Introduction This chapter describes the installation of the cabling between the DTU(s) and the PBX. Paragraph 24.2 describes the use of coaxial cables and paragraph 24.3 describes the use of twisted pair cables. 24.2 Installation using coaxial cables REX-CAB9010 (TSRNB 101 12) Connecting the DTUs to the MCCB 1.
Technical Product Manual - DCT1800-GAP Installation instructions, DTU cabling DTU/MCCB cable REX-CAB0015 (TSRNB 101 37) Ferrite core DTU 6 3 5 2 4 1 PBX cables REX-CAB0010 (TSRNB 101 12) 4 1 5 2 6 3 DTC-OUT connector Cabinet base 078 DTC-IN connector Fig. 93 DTC connections on the DTU 142 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, DTU cabling Connecting the PBX to the MCCB On the MCCB, DTC1 – DTC6 on the DTC-OUT connectors are linked with DTC1 – DTC6 on the DTCIN connectors. 1. Connect PBX cables REX-CAB9010 (TSRNB 101 12) to the DTC-OUT connectors related to the DTC-IN connectors used. In case another cable is required to cover a longer distance, this cable should have a characteristic impedance of 75 Ω. The cable should not attenuate more than 6 dB at 1.024 MHz.
Technical Product Manual - DCT1800-GAP Installation instructions, DTU cabling Shielding clamps at the front row 071 Shielding clamp at the back row Fig. 95 Ground strip with shielding clamps 144 1. Ensure that the jumpers on the DTU board have been set in the twisted pair position (see chapter 14). 2. Connect the plug of the shorter of the two DTU twisted pair cables (REX-CAB9007 (TSRNB 101 49)) to the lower connector of the left most DTU as shown in figure 96. 3.
Technical Product Manual - DCT1800-GAP Installation instructions, DTU cabling DTU twisted pair cable REX-CAB0007 (TSRNB 101 49/2) DTU twisted pair cable REX-CAB0007 (TSRNB 101 49/1) DTU Cabinet base 106 Ground strip with shielding clamps PBX or MDF Fig. 96 Connections between the DTU and the PBX TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, DTU cabling 24.4 Installation using DTU/Ascotel-PRA cable set – REX-CAB9019 The modular cabinet is provided with a ground strip to connect the DTU twisted pair cables and the CLU, CLU-S and SLU cables to ground (see figure 97).These ground connections are necessary for EMI suppression reasons. Note: The orientation of the shielding clamps shall be according to figure 97.
Technical Product Manual - DCT1800-GAP Installation instructions, DTU cabling DTU/Ascotel-PRA cable set – REX-CAB9019 DTU Cabinet base 127 Ground strip with shielding clamps Ascotel or MDF Fig. 98 Connections between the DTU and the Ascotel TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, DTU cabling 148 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables Chapter 25 Cables This chapter gives an overview of the cables used in a system with modular cabinets. The main purpose of this overview is to enable cable repair if necessary. 25.1 Mains power cord – REX-CAB9016 (RPM 945 102) The mains power cord (see figure 99) is for European countries except the UK and Cyprus. The power cord is used to connect the power supply to the mains. 1 2 2 1 K2 K1 1 2 2 080 1 Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables 25.3 Power cable – TRENB 101 01 The power cable (see figure 101) is a 2-wire 2.5 mm2 cable with two connectors on one side. It is used to supply power from a transformer or an other external power supply to the filter in the modular cabinet. The cable is provided with two faston piggy-back connectors which makes it possible to connect another cable to this cable. The cable has a length of 2.5 m.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables K1 K3 K4 K2 Cap Faston 083 200 mm Fig. 102 Power cable filter/switch – TRENB 101 02 25.5 MCCB power cable – TRENB 101 03 The MCCB power cable (see figure 103) is a 2-wire unshielded cable with connectors on both sides. It is used to supply power from the backplane or from the filter (via the piggy-back fastons) to the MCCB which takes care of the power distribution to the CLUs, CLU-Ss and SLUs.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables 1 1 X2 2 X3 (V0) (V1) X1 2 X2 X3 X1 450 mm ± 10 mm 2 X1 X2 and X3 084 1 Fig. 103 MCCB power cable – TRENB 101 03 25.6 Power cable switch/fuse – TRENB 101 04 The power cable switch/fuse is a 2-wire 2.5 mm2 cable with two connectors on both sides. It is used to supply power from the on/off switch to the fuse-holder in the modular cabinet. This cable does not need to be ordered separately.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables K1 K3 K4 085 K2 100 mm ± 10 mm Fig. 104 Power cable switch/fuse – TRENB 101 04 25.7 Power cable fuse/backplane – TRENB 101 05 The power cable fuse/backplane (see figure 105) is a 2-wire 2.5 mm2 cable with two connectors on both sides. It is used to supply power from the fuse holder to the backplane in the modular cabinet. On the backplane side two piggy-back fastons are attached.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables K1 K3 K4 K2 400 mm ± 10 mm Cap Faston Piggy-back 086 Cap Faston of other cable Fig. 105 Power cable fuse/backplane – TRENB 101 05 25.8 PBX cable – REX-CAB9010 (TSRNB 101 12) The PBX cable (see figure 106) is a special coaxial pair cable with a length of 15 metres to connect a DTU via the MCCB to a PBX. Two PBX cables are necessary to connect one DTU.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables 25.9 PC cable – REX-CAB9011 (TSRNB 101 22) The PC cable (see figure 107) is used to connect the PC to the Modular Cabinet Connection Board (MCCB). The maximum permissible length for self-made cables is 15 metres. Straight exit (for PC) 90° exit (for MCCB) SIGNAL PIN PIN SIGNAL RX TX RTS CTS DCD GND 2 3 7 8 1 5 2 3 8 7 1 5 RX TX RTS CTS DCD GND 088 300 cm Fig. 107 PC cable - REX-CAB9011 (TSRNB 101 22) 25.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables Straight exit (for printer) 90° exit (for MCCB) SIGNAL PIN PIN SIGNAL TX RX DTR RTS DCD CTS GND 2 3 20 4 8 5 7 2 3 1 8 4 7 5 RX TX DCD CTS DTR RTS GND * * In some cases pin 20 and 4 on the 25 pin SUB-D connector must be interconnected to ensure correct printer operation 089 300 cm Fig. 108 Printer cable - REX-CAB9012 (TSRNB 101 23) 25.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables A 1 2 3 4 5 6 7 8 B 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 white brown green yellow grey pink blue red C black violet grey/pink blue/red white/green green/brown white/yellow yellow/brown K1 1 2 3 4 5 6 7 8 common braided shield K2 connect shield only at connector K2 side ! Fold back shield K1 K2 15 ± 1 mm 45 ± 5 mm 270 mm ± 10 mm A notch> B 7 5 3 1 7 5 3 1 8 6 4 2 8 6 4 2 3 4 5 6 7 8 9 10 K1
Technical Product Manual - DCT1800-GAP Installation instructions, Cables 25.12 General alarm cable – TSRNB 101 28 The general alarm cable (see figure 110) is used to connect the general alarm output of the CPU to the MCCB. This cable does not need to be ordered separately. It is factory connected to the MCCB. k1 k2 1 2 3 4 5 6 7 8 1 2 yellow green K1 K2 170 mm ± 10 mm notch > 7 5 3 1 6 4 2 K1 8 1 2 K2 091 45mm ± 5mm Fig. 110 General alarm cable – TSRNB 101 28 25.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables 32 31 30 29 black SC0 blue black 28 27 SC0 EP0 orange EP1 SC1 yellow 26 25 blue 24 23 red 22 21 SC1 SC0 green red 20 19 SC0 EP0 brown EP1 SC1 red 18 17 orange 16 15 yellow SC1 X1 red 12 11 SC0 EP0 blue EP1 SC1 white 10 9 8 7 SC1 brown white SC0 orange 6 5 4 3 2 1 white SC0 EP0 green white blue EP1 SC1 SC1 092 14 13 SC0 green Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables K1 325 or 445 mm 50 mm 5 m ± 10 cm K1 (view from cable side) 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 31 29 27 25 23 21 19 17 15 13 11 7 5 3 1 093 9 Fig. 112 CLU/MDF cable set – REX-CAB9001 (NTM/TSRNB 101 29) (cont’d) 25.14 LTU/MDF cable set – REX-CAB9002 (NTM/TSRNB 101 31) The LTU/MDF cable set (see figure 113) is used for the connection of the LTU to an MDF.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables K1 A brown 8 7 6 5 4 3 2 1 B b3 a3 white green b2 a2 white orange 8 7 6 5 4 3 2 1 b1 a1 white blue b0 a0 white common braided shield shield only connected to cabinet ferrite core cable tie 3 cable windings tied together cable clamp 8 2 8 2 A B 325 mm or 445 mm K1 5 m ± 10 cm A 8 B 6 4 2 8 6 4 2 7 5 3 1 7 5 3 1 094 K1 Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables 25.15 LTU/MDF cascade cable set – REX-CAB9003 (NTM/TSRNB 101 32) The LTU cascade cable set (see figure 114) is used for the connection of the LTU, which supports cascade connections, to an MDF. Both cables are shielded cables with a connector at one side. The shield of the cable is connected to the modular cabinet by a clamp. This clamp also functions as pullrelief.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables 25.16 CLU/MCCB power cable – REX-CAB9013 (TSRNB 101 33) The CLU/MCCB power cable is a 2-wire unshielded cable which is used to supply power from the MCCB to the CLU, CLU-S and SLUs which takes care of the power distribution to the base stations. K1 K2 (V0) (V1) 1 2 1 2 K1 K2 500 mm ± 10 mm 2 1 1 2 K2 096 K1 Fig. 115 CLU/MCCB power cable – REX-CAB9013 (TSRNB 101 33) 25.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables K1 K2 1 2 3 4 5 6 7 8 green 1 2 red yellow (not used) blue K1 K2 350 mm ± 10 mm 45mm ± 5mm K1 1 2 097 notch > K2 Fig. 116 LTU/MCCB ground cable – REX-CAB9014 (TSRNB 101 35/2) 25.18 DTU/MCCB cable – REX-CAB9015 (TSRNB 101 37) The DTU/MCCB cable (see figure 117) is a special coaxial pair cable to connect one DTC to the Modular Cabinet Connection Board (MCCB). 164 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables K1 K2 1 1 2 2 RECEIVE 3 3 4 4 RECEIVE SHIELD 5 5 6 6 7 7 8 SEND 8 9 9 SEND SHIELD 10 10 Ferrite bead core X1 X2 Cable is looped three times around the core 480 mm ± 10 mm 9 6 4 8 10 5 9 K1 3 7 notch > 1 2 6 4 8 10 1 K2 3 7 5 2 098 notch > Fig. 117 DTU/MCCB cable – REX-CAB9015 (TSRNB 101 37) 25.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables K1 A brown 8 7 6 5 4 3 2 1 B b3 a3 white green b2 a2 white orange 8 7 6 5 4 3 2 1 b1 a1 white blue b0 a0 white common braided shield shield only connected to cabinet ferrite core cable tie 3 cable windings tied together cable clamp 8 2 8 2 A B 325 mm or 445 mm K1 25 m ± 10 cm A 8 B 6 4 2 8 6 4 2 7 5 3 1 7 5 3 099 K1 1 Fig.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables 25.20 LTU/MDF cascade cable set, long – REX-CAB9005 (NTM/TSRNB 101 45) The LTU cascade cable set long (see figure 119) is used for the connection of the LTU, which supports cascade connections, to an MDF. Both cables are shielded cables with a connector at one side. The shield of the cable is connected to the modular cabinet by a clamp. This clamp also functions as pullrelief.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables 25.21 CLU/MDF cable set, long – REX-CAB9006 (NTM/TSRNB 101 46) The CLU/MDF cable set long (see figures 111 and 112) consists of two shielded cables (TSRNB 101 46/1 and TSRNB 101 46/2). The cables are used to connect a CLU REX-BRD0014 (ROFNB 157 11) or CLU-S REX-BRD0016 (ROFNB 157 16/2) to an MDF. The shielding of the cables is connected to the cabinet via a clamp which also functions as a pull relief.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables K1 50 mm 325 or 445 mm 25 m ± 10 cm 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 31 29 27 25 23 21 19 17 15 13 11 7 5 3 1 9 102 K1 Fig. 121 CLU/MDF cable set, long – REX-CAB9006 (NTM/TSRNB 101 46) (cont’d) 25.22 DTU twisted pair cable set – REX-CAB9007 (NTM/TSRNB 101 49) The DTU twisted pair cable set (see figure 122 and 123) consists of two shielded cables (TSRNB 101 49/1 and TSRNB 101 49/2).
Technical Product Manual - DCT1800-GAP Installation instructions, Cables A 1 2 3 4 5 6 7 8 B 1 2 3 4 5 6 7 8 white blue white orange white blue 1 2 3 4 5 6 7 8 X2 DTU - receive negative DTU - receive positive white DTU - send negative orange DTU - send positive X1 107 common braided shield only connected to cabinet Fig. 122 DTU twisted pair cable set REX-CAB9007 (NTM/TSRNB 101 49) 170 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables 8 2 8 X1/A 2 X1/B 325 or 445 mm 8 6 4 A 2 8 6 4 2 1 7 5 3 1 X1 B 7 8 50 mm 5 X2 3 2 70 mm 50 mm cable length 15 m ± 10 cm 6 4 2 7 5 3 1 X2 108 8 Fig. 123 DTU twisted pair cable set REX-CAB9007 (NTM/TSRNB 101 49) (Cont’d) TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables 25.23 DTU/Ascotel-PRA cable set – REX-CAB9019 The cable is used to connect a DTU (2/ROFNB 157 13/1) to an Ascotel PRA directly or via an MDF. The shielding of the cables is connected to the cabinet via a clamp which also functions as a pull relief. The length of the cable is 5 m.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Installation instructions, Cables TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Commissioning Section 6 Commissioning TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Commissioning TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Commissioning, Table of contents Table of contents Page Chapter 1 Introduction....................................................................................... 1 Chapter 2 Visual inspection and tests ............................................................. 3 2.1 2.1.1 2.1.2 2.2 2.2.1 2.2.2 2.2.3 2.2.4 2.3 2.4 2.4.1 2.4.2 2.4.3 2.4.4 Visual inspection ......................................................................................................
Technical Product Manual - DCT1800-GAP Commissioning, Table of contents IV TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Commissioning, Introduction Chapter 1 Introduction This section describes the visual inspection and tests that must be executed after completing the installation and initialization of the DCT1800-GAP system. The purpose of the visual inspection and tests is to verify that all installation activities have resulted in a correctly functioning DCT1800-GAP system. If it appears that a part is malfunctioning while the system is installed correctly (i.e.
Technical Product Manual - DCT1800-GAP Commissioning, Introduction 2 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Commissioning, Visual inspection and tests Chapter 2 2.1 Visual inspection and tests Visual inspection Visual inspection consists of checking the LEDs on the system boards and the availability of all system boards and base stations. 2.1.1 LEDs on the system boards Check the following LEDs: 2.1.2 1. On the CPU board only the upper-most green LED (LED1) must be on.
Technical Product Manual - DCT1800-GAP Commissioning, Visual inspection and tests Test 1. Put a cordless phone in the service display mode (refer to the section ‘Maintenance’ in this manual). 2. Take ground plan (map) of the building where the base stations are indicated with their corresponding base station number or use the base station identification and location sheet in the section ‘Installation instructions’ in this manual. 3.
Technical Product Manual - DCT1800-GAP Commissioning, Visual inspection and tests 2.4 Radio exchange tests 2.4.1 Ringing detection test The purpose of this test is to check whether the radio exchange can discriminate between the internal/ external and call back ringing cadences, as programmed during initialization. This test is only necessary when LTUs are used in the system. Test 1. Make an internal call from one cordless phone to another.
Technical Product Manual - DCT1800-GAP Commissioning, Visual inspection and tests 6 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Maintenance Section 7 Maintenance TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Maintenance TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Maintenance, Table of contents Table of contents Page Chapter 1 1.1 1.2 Qualified personnel ............................................................................................................ 1 Preventive maintenance ..................................................................................................... 1 Chapter 2 2.1 2.2 2.2.1 2.2.2 2.2.3 2.2.4 2.3 2.3.1 2.3.2 2.3.3 2.4 2.4.1 2.4.2 Fault reports.............................................
Technical Product Manual - DCT1800-GAP Maintenance, Table of contents 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 5.10 Replacing a system board ................................................................................................ 21 Replacing the CPU ........................................................................................................... 21 Replacing same type of base station (Distributor mode)..................................................
Technical Product Manual - DCT1800-GAP Maintenance, Introduction Chapter 1 Introduction The concept of maintenance for the DCT1800-GAP system is to undertake component repair and replacement at the DCT1800-GAP system repair centre. Site maintenance is therefore limited to one of module replacement only. These modules are easily replaceable elements, like system boards, base stations, fuses, cordless phones, desk chargers etc.
Technical Product Manual - DCT1800-GAP Maintenance, Introduction End-user guidance End-users and customers should be fully aware of all DCT1800-GAP system features and the facilities on the cordless phone. Informing end-users of how to operate the cordless phone and how to behave in a cordless telephone environment and advising them to read the user’s guide may prevent many initial complaints.
Technical Product Manual - DCT1800-GAP Maintenance, Test and maintenance software Chapter 2 2.1 Test and maintenance software Introduction The DCT1800-GAP system has a powerful Test and Maintenance (T&M) module incorporated in the system software. This software module regularly tests the entire system to locate possible faults in an early stage and to isolate the faulty circuits, thus minimizing the reduction in system service and to generate subsequent error messages and alarms.
Technical Product Manual - DCT1800-GAP Maintenance, Test and maintenance software DTC2 Peripheral P8 LTC SPC BC L2 L1 BC L2 L1 BC Peripheral P1 DTC1 LTU, SPU and SPU-S board DTU board Peripheral P8 (SPC) CLC 8 BC Peripheral P1 (SPC) BC CLC 8 BC Base station Base station SLU board CLC 1 CLU and CLU-S board 001 CLC 1 Fig. 1 Board controllers and peripherals 2.
Technical Product Manual - DCT1800-GAP Maintenance, Test and maintenance software Error detected by testing Operational fault N Fault class? 1) For explanation of symbols, refer to chapter 6.
Technical Product Manual - DCT1800-GAP Maintenance, Test and maintenance software 2.2.1 Diagnostics After T&M has concluded that the message is not info but a fault message, T&M starts to decode, locate and verify the fault. This is done by the diagnostics module. After verification, T&M will isolate the faulty circuit to prevent usage of it by the system. This is done by changing its status temporarily to Test ModE (TME).
Technical Product Manual - DCT1800-GAP Maintenance, Test and maintenance software 2.3 Testing The T&M module has three tests available to check the overall system performance and to report any deviations in performance. These tests are: 2.3.1 • Board power-on test • Ack test • 24h test Board power-on test Every board is tested before it becomes operational. The test is initiated after insertion of the board in an operational system, but also after system power-on.
Technical Product Manual - DCT1800-GAP Maintenance, Test and maintenance software the test result is positive, the board controllers and peripherals will get status AVE, available. Base stations for which no delay value is programmed yet will get the status NEW. Erroneous boards or peripherals will get status MFG (malfunctioning). Watchdog test Board Controllers (BC) and controllers within base stations have a so called watchdog circuit, which resets the controller when running in an infinite loop.
Technical Product Manual - DCT1800-GAP Maintenance, Test and maintenance software • The board inserted in the system. As a result the board power-on test is started on the board. Watchdog reset There are two different watchdog resets: an expected and an unexpected. An expected watchdog reset happens during the watchdog test, which is the final test of the board power-on test.
Technical Product Manual - DCT1800-GAP Maintenance, Test and maintenance software Relative counters A relative counter counts all resets since the power-on. The counter is cleared each time the power is cycled or at a CPU reset (button or watchdog). Relative counters have a threshold level. When the threshold level is exceeded, a general alarm with fault code 3 is generated. Relative counter values are halved every 24 hours.
Technical Product Manual - DCT1800-GAP Maintenance, Test and maintenance software Action Reset type Results in Error tables cleared Reset counters CPU BC P P W R O D E L A B S R E L R E L system switched on CPU power-on reset board power-on reset power-on test CPU power-on test all boards x + 0 + 0 0 CPU reset button pressed CPU power-on reset board power-on reset power-on test CPU power-on test all boards x + 0 + 0 0 minimum configuration lost backplane reset (SW) power-on t
Technical Product Manual - DCT1800-GAP Maintenance, Test and maintenance software 12 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Maintenance, Fault signalling Chapter 3 3.1 Fault signalling Introduction This chapter describes how maintenance personnel or system managers are acquainted of faults existing in the DCT1800-GAP system. Faults are signalled to the outside world in the following ways: 1. General alarm 2. System screen of cordless system manager 3. Individual user complaints 4. Common user complaints Furthermore LEDs and the service display of the cordless phone are discussed.
Technical Product Manual - DCT1800-GAP Maintenance, Fault signalling 3.4 Individual user complaints Individual user complaints are complaints received from only one user or, theoretically spoken, two or more users who do not have any relation with each other, like being in different areas or using analogue lines on different LTUs etc. Individual complaints point to parts in the system that can only be accessed by that particular cordless phone.
Technical Product Manual - DCT1800-GAP Maintenance, Fault signalling Green Red Power Reset LED1 LED1 LED4 SPU-S LED4 part LED5 LED6 CLU-S part LED 1 LED 2 LED2 LED1 LED4 LED1 LED4 LED1 System boards (DTU 2x) SLU Base station 003 CPU Fig. 3 LEDs in the system 3.6.1 LEDs on system boards Each board has four LEDs at the top. The SLU has two times 4 LEDs because it consists of a SPUS and a CLU-S on one board, each with its own board controller and board address.
Technical Product Manual - DCT1800-GAP Maintenance, Fault signalling 3.6.2 LEDs on CPU The CPU is the only board having six LEDs. LEDs 1 to 4 are identical to the LEDs on other boards. Below the reset button LED 5 and 6 are found. LED 5 LED 5 on the CPU board is the ‘message-received-LED’. When a message is written in one of the tables info, fault or service, LED 5 is turned on.
Technical Product Manual - DCT1800-GAP Maintenance, Fault signalling Note2: Activating the service display reduces the normal functioning of the cordless phone. It is therefore recommended only to use this facility in exceptional cases, e.g. when service requires such. 3.7.1 Activating service display mode 1. Switch off cordless phone. 2. Switch on again with special code by pressing 2+8+On/Mute simultaneously for more than 1 second.
Technical Product Manual - DCT1800-GAP Maintenance, Fault signalling The link info option can be used for site surveys and commissioning of the system. All information regarding the speech/beacon channel and system to which the cordless phone is locked, is visible. The signal strength theoretically varies between 00hex and 3Fhex. In practice, values will lie between 07hex and 37hex, of which 07hex means noise, 37hex means optimum quality. Typical values are 20hex ... 29hex.
Technical Product Manual - DCT1800-GAP Maintenance, Fault reports Chapter 4 4.1 Fault reports Format of fault reports For information on the format of the error messages displayed in the service table is referred to the help file of CSM Windows. 4.2 Fault report handling How to display fault reports Service forms can be displayed using the menu File-Create Service Form in the CSM Windows application (both in distributor mode and in system manager mode).
Technical Product Manual - DCT1800-GAP Maintenance, Fault reports 20 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Maintenance, Part replacement Chapter 5 5.1 5.2 Part replacement General rules • Always protect yourself with a properly connected ESD wrist-strap, before touching any board. • Pack replaced boards immediately in ESD safe material. Use the packing materials from the replacement board. • When sending a board for repair, always include a printout of the corresponding fault report from service table.
Technical Product Manual - DCT1800-GAP Maintenance, Part replacement 5.4 4. Switch on system. 5. After LED 6 has turned off, start up cordless system manager. 6. If spare CPU has been initialized before, it will become operational with wrong EEPROM data. Download the original system data from PC to EEPROM using the File-System Restore command. 7. If the spare CPU is new, CSM will come up with the ‘Initialization’ screen and then the ’country selection’ screen.
Technical Product Manual - DCT1800-GAP Maintenance, Part replacement 5.6 Expansion of modular cabinet system Expanding the modular cabinet system means that a new cabinet has to be interconnected to an existing cabinet. Modular cabinets are interconnected in a fixed sequence. The correct cabinet sequence and all other details can be found in section ‘Installation instructions’ in this manual. A special interconnection set is available to connect the cabinets.
Technical Product Manual - DCT1800-GAP Maintenance, Part replacement 5.7 Re-positioning boards The CPU keeps initialization data of all boards in its memory. This data is related to the board position. If the procedures below are maintained, no initialization data will be lost and significant time on reconfiguring a system can be saved. SPU boards • Execute Board-Replace for the SPU and re-insert the SPU in the new position. DTU boards • Execute Board-Replace for the DTU.
Technical Product Manual - DCT1800-GAP Maintenance, Part replacement 1. Switch off modular cabinet 2. Replace fuse 3. Switch on modular cabinet Modular cabinet - fuses on the MCCB The fuses on the MCCB are only used for the ‘External power’ connection. Front fuse - Protection against overload in base station powering via PW3/4/5/6 Rear fuse - Protection against overload in base station powering via PW1/2/7 Replacement: 1. Remove the power cable connected to PW-EXT. 2. Replace the fuse. 3.
Technical Product Manual - DCT1800-GAP Maintenance, Part replacement 26 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Maintenance, Fault finding procedures Chapter 6 6.1 Fault finding procedures Introduction These fault finding procedures are designed to help maintenance personnel locate and eliminate faults in the shortest possible time. The fault finding extends to the level of a replaceable product (LTU, SPU, power supply unit, etc.).
Technical Product Manual - DCT1800-GAP Maintenance, Fault finding procedures 6.3 How defective items are indicated When the flow charts lead to a possible cause, this is indicated by a statement giving the name of the defective part or the cause of the problem, e.g. a defective LTU board is indicated by the statement ‘LTU’. When there are more possible items, they are listed in order of decreasing probability. 6.
Technical Product Manual - DCT1800-GAP Maintenance, Fault finding procedures GENERAL ALARM System manager Control - Service Fault 8, 35, 36 or 37? N Replace indicated board Y Fault 8? Y Check availability of indicated base station in System manager Control - System Base station available? N Y Connection between the indicated CLU/CLU-S/SLU and BS has been broken for a short time N A Fault 35? Y Check availability of indicated DTU board in System manager Control - System N BC and L1 and L2
Technical Product Manual - DCT1800-GAP Maintenance, Fault finding procedures A Check supply voltage at BS. Voltage <1/2 x PSU Y voltage? BS powered by an adapter? N - Check fuses on CLU. - Check fuses on MCCB. - Check base station wiring. - Check base station. Y Adapter Check BS data lines connections. Cable correct? N N BS cable Y Check CLU/CLU-S/SLU wiring. Cable correct? N CLU/MDF cable - BS - CLU/CLU-S/SLU 30 006 Y TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Maintenance, Fault finding procedures COMMON USER COMPLAINT All cordless phones see no system? Y Green LED on all boards on? A malfunctioning base station can be detected by: - testing the base station with the cordless phone in the service display mode (see para 3.
Technical Product Manual - DCT1800-GAP Maintenance, Fault finding procedures 1) INDIVIDUAL USER COMPLAINTS 1) Y Cordless phone display remains blank Connect basic charger For DPANB 203, 204, 206 and 210 type cordless phones. N Display turns on? Y N 'NoSystem' displayed Cordless phone defect Y - Cordless phone not within coverage area - Cordless phone not subscribed to system - Cordless phone defective - System out of order, see 'Common user complaint' Battery is low (battery icon flashes).
Technical Product Manual - DCT1800-GAP Maintenance, Fault finding procedures 1) For all faults corrective action are given. If after correction a fault re-appears, the cordless phone should be sent for repair. ERRORS 1) '.....Error' displayed N NO DIAL TONE Y System list empty Y Cordless phone has not been subscribed to any system N Fixed phone book error Y Fixed phone book data missing or corrupted. If phone book was loaded, all data is lost. Re-download phone book.
Technical Product Manual - DCT1800-GAP Maintenance, Fault finding procedures NO DIAL TONE Go off hook Call icon visible? (flashing or stable) N Reset cordless phone by removing and reconnecting its battery. Switch on and go off hook. Y Call icon visible now? Cordless phone okay now dial tone will be heard N Y Cordless phone defect END Turns off after some flashing.
Technical Product Manual - DCT1800-GAP Maintenance, Fault finding procedures B Unplug relevant cable from LTU board and test reception of DT at the plug outlets with test telephone. N - Error in wiring to PBX.
Technical Product Manual - DCT1800-GAP Maintenance, Fault finding procedures CSM PROBLEM 'No connection with DCT1800' message on PC display? Y Check PC cabling: from COM port via connection board to CPU N N Correct cabling Cabling correct? Y 'No connection with cordless phone' message? - COM port of PC - CPU board - Serial PC cable N Y Check the programmer cable.
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Technical Product Manual - DCT1800-GAP Upgrade information Section 8 Upgrade information TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Upgrade information TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Upgrade information, Table of contents Table of contents Page Chapter 1 1.1 1.2 Introduction......................................................................................................................... 1 Upgrade procedure ............................................................................................................ 3 Chapter 2 2.1 2.2 2.3 2.4 2.4.1 2.4.2 Upgrade from DCT1800-A to DCT1800-GAP R2A – July 1999 ...............................
Technical Product Manual - DCT1800-GAP Upgrade information, Table of contents 5.1.1 5.1.2 5.2 5.3 KRCNB 201 03/n powered by the modular cabinet.......................................................... 25 KRCNB 201 03/n powered by an AC-adapter .................................................................. 25 Cordless System Manager (CSM) for Windows ............................................................... 25 DTU twisted pair cable set............................................................
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-A to DCT1800-GAP R1B – January 1999 Chapter 1 1.1 Upgrade from DCT1800-A to DCT1800-GAP R1B – January 1999 Introduction This chapter describes how systems with the A-protocol can be updated to the GAP-protocol. Systems with the B-protocol (mobility) cannot be updated.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-A to DCT1800-GAP R1B – January 1999 Product Product number Required items Remarks Cordless system manager, DCT1800-GAP LZYNB 201 05/n 1 per system Cordless system statistics, DCT1800-GAP LZYNB 201 06/n 1 per system when statistics are required DT310 GAP software upgrade LZY/DPANB 208 01/n 1 per system when DPANB 203 01/n type cordless phones are used. To upgrade also a diskette with IPEI numbers is needed.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-A to DCT1800-GAP R1B – January 1999 Product Product number Required items Remarks User’s guide DT360, GAP NTK/LZTNB 101 57/n 1 per 20 DT360 cordless phones Delivered in a package of 20 pieces.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-A to DCT1800-GAP R1B – January 1999 14. On the SLU boards (ROFNB 157 16/1) also remove the CLU board controller PROM (RYSNB 101 19) and place the new revision PROM RYSNB 101 19 (revision R2A or higher). 15. Re-insert the SLU boards and reconnect the cables. 16. Remove the cables from the CLU-S boards (ROFNB 157 16/2) and remove the CLU-S boards. 17.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-GAP R1A to R1B – January 1999 Chapter 2 2.1 Upgrade from DCT1800-GAP R1A to R1B – January 1999 General The release of DCT1800-GAP R1B improves the customer satisfaction of the cordless system as a number of problems have been solved and items have been added or changed in the cordless system manager software.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-GAP R1A to R1B – January 1999 2.2.2 DTU-E1 CAS+ firmware set (NTM/RYSNB 101 17/10 R1C) The problems and solutions for the DTU-E1 CAS+ firmware are the same as for the DTU CAS+ firmware. See paragraph 2.2.1 for the description. 2.2.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-GAP R1A to R1B – January 1999 Incorrect information in ‘info’ screen The ‘info’ screen does not display all the errors or displays them in the wrong order when data is retrieved from the CPU board under heavy load condition. Malfunctioning link to MD110 during downloading of software to all base stations During the execution of the ‘download all bases’ command the data links to the MD110 are malfunctioning. As a result the MD110 generates alarms.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-GAP R1A to R1B – January 1999 5. On CPU board 2/ROFNB 157 19/5 place the CPU firmware PROM RYT/ROFNB 157 19/3 R2A and the CPU firmware PROM board controller RYSNB 101 23/4 R1B. 6. Reset the system. 7. Install CSM DCT1800-GAP (LZYNB 201 05/n R2B) and CSS DCT1800-GAP (LZYNB 201 06/n R2B). Note: In case you want to change the wait for dial tone setting (recommended for certain dial tones) see paragraph 2.4.1. 2.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-GAP R1A to R1B – January 1999 This menu has changed. The following detection options are available (see figure 1): • Tone detection, clear at time-out If no dial tone is detected the cordless phone goes automatically on-hook after the time-out. • Tone detection, continue at time-out If no dial tone is detected the radio exchange (and cordless phone) continues with dialling out the numbers after the time-out.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-GAP R1A to R1B – January 1999 2.4.2 System manager menus The following system manager menus or commands have been added or changed. Ringing cadences Menu path: System manager - Administrate - Ringing This menu has changed. The ringing types are defined in one screen instead of three screens (see figure 2).
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-GAP R1A to R1B – January 1999 Cordless System Manager Service Form DCT1800-GAP system Software version of CSM : xxxx Time of form creation : 98-09-07 15:00:07 Fault table: No error messages logged in this buffer. Service table: No error messages logged in this buffer. Information table: No error messages logged in this buffer.
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Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-GAP R1B to R2A – July 1999 Chapter 3 Upgrade from DCT1800-GAP R1B to R2A – July 1999 Release of the DCT1800-GAP R2A system (also called release R2.0) introduces new features and products. Upgrading from DCT1800-GAP R1B to R2A is done through software and firmware. 3.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-GAP R1B to R2A – July 1999 Product name Product number Minimum new revision Leather casing and belt click-on clip for DT4xx cordless phones DPYNB 220 04/1 R1A Headset for DT400/410/420 cordless phones DPYNB 220 05/1 R1A Headset with hearing protection for DT400/410/420 cordless phones DPYNB 220 05/2 R1A Battery pack NiMH, standard, for DT400/410/420 cordless phones BKBNB 220 01/1 R1A Battery pack NiMH, with headset connector, for DT
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-GAP R1B to R2A – July 1999 3.2.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-GAP R1B to R2A – July 1999 Product name Product number Previous revision Minimum new revision DT368 GAP software upgrade 1 CPU firmware RYT/ROFNB 157 19/3 R2A R4A DTU CAS+ firmware set RYT/ROFNB 157 03/5 R1C R2A DTU-E1 CAS+ firmware set NTM/RYSNB 101 17/10 R1C R2A Cordless system manager software, DCT1800-GAP LZYNB 201 05/n R2A R3C Cordless system statistics software, DCT1800-GAP LZYNB 201 06/n R2A R3C Table 7 Required pr
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-GAP R1B to R2A – July 1999 11. Check the software revision of the following cordless phones to see whether software upgrading is necessary. The software product number and revision is displayed when you switch on the cordless phone with the special code (press 2 + 8 + On/Mute simultaneously for more than 1 second). Use the cordless phone manager, administrator to perform the upgrade. – DPANB 203 (DT310) type cordless phones.
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Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-A to DCT1800-GAP R2A – July 1999 Chapter 4 Upgrade from DCT1800-A to DCT1800-GAP R2A – July 1999 This chapter informs you about the new features and products, products that are updated and replaced, and how to upgrade a DCT1800-A to a DCT1800-GAP R2A system (also called release R2.0). Systems with the B-protocol (mobility) cannot be updated. 4.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-A to DCT1800-GAP R2A – July 1999 Product name Product number Minimum new revision Belt clip, hinge type for DT4xx cordless phones DPYNB 220 02/1 R1A Belt clip, click-on type with belt leather buckle for DT4xx cordless phones DPYNB 220 02/2 R1A Security chain, 800 mm, for DT4xx cordless phones DPYNB 220 03/1 R1A Leather casing and belt click-on clip for DT4xx cordless phones DPYNB 220 04/1 R1A Headset for DT400/410/420 cordless phone
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-A to DCT1800-GAP R2A – July 1999 Product name Product number Remarks Portable data management tool (PDMT) LZYNB 101 04/n For system administrator and distributor Programmer set NTM/DPYNB 101 06/n For cordless phones DT310, DT360, DT368 DT310 GAP software upgrade diskette LZY/DPANB 208 01/n Diskette with upgrade software for the DT310 GAP DT360 GAP software upgrade diskette LZY/DPANB 209 01/n Diskette with upgrade software for the DT3
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-A to DCT1800-GAP R2A – July 1999 The CPU board has to be replaced by a new one. Cordless phones of the type DPANB 201 0x/3 are to be replaced by GAP cordless phones. All other cordless phones and base stations can be updated by downloading new software. Systems using a CCS interface cannot be updated. The DCT1800-GAP system only supports LTU, CAS and CAS+ interfaces. Table 11 gives an overview of all items required for upgrading.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-A to DCT1800-GAP R2A – July 1999 Product Product number DTU CAS+ firmware set RYT/ROFNB 157 03/5 DTU-E1 CAS+ firmware set NTM/RYSNB 101 17/10 Errata - Cordless Phone user’s Guide (for DT310) User’s guide DT360, GAP Minimum revision Required items Remarks R2A 1 per DTU of type 2/ ROFNB 157 03 Box with 2 RYT/ ROFNB 157 03/5 PROMs R2A 1 per DTU-E1 of type 2/ ROFNB 157 13/6 Box with 2 RYSNB 101 17/10 PROMs NTK/LZTNB 101 56/1 R1 1 per
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-A to DCT1800-GAP R2A – July 1999 9. Connect the cables to the new CPU board as described in chapter 18 ‘CPU cabling’ of the ‘Installation instructions’ section in this book. 10. Replace SPU boards ROFNB 157 08/n by SPU-S boards ROFNB 157 16/3. 11. On the SPU boards (ROFNB 157 16/3) remove the SPU board controller PROM (RYSNB 101 20) and place the new revision PROM RYSNB 101 20 (revision R2A or higher). 12.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-A to DCT1800-GAP R2A – July 1999 32. When using DPANB 203 (DT310) type cordless phones, upgrade them to the minimum required software revision (CAH/DPANB 208 01/n R1F) by means of the cordless phone manager, administrator. The required IPEI numbers are provided on diskette LZYNB 101 20/n. 33.
Technical Product Manual - DCT1800-GAP Upgrade from DCT1800-A to DCT1800-GAP R2A – July 1999 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Upgrade information – February 2000 Chapter 5 Upgrade information – February 2000 The Technical Product Manual DCT1800-GAP R3 has been released due to the introduction of the base station BS340, Cordless System Manager (CSM) for Windows and the DTU twisted pair cable set. 5.1 Base station BS340 - KRCNB 302 01/1 The BS340 could best be described as a BS330 base station with two omnidirectional external antennas.
Technical Product Manual - DCT1800-GAP Upgrade information – February 2000 the same functionality as the DOS version, it also includes basic statistics and remote maintenance. A help file is included in the program. 5.3 DTU twisted pair cable set The DTU twisted pair cable set NTM/TSRNB 101 49 can now be used for the DTU 2/ROFNB 157 13/n. TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Upgrade information – November 2002 Chapter 6 Upgrade information – November 2002 The Technical Product Manual DCT1800-GAP R4B has been released due to the introduction of the wireless relay station BS370, central processing unit CPU2, and the DTU/Ascotel-PRA cable set. 6.1 Wireless Relay Station BS370 NTM/KRCNB 303 01/1 wireless relay station (BS370) is a base station without cable connection to the system. It can handle 5 calls simultaneously.
Technical Product Manual - DCT1800-GAP Upgrade information – November 2002 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Upgrade information – September 2004 Chapter 7 7.1 Upgrade information – September 2004 Base Stations BS330, BS340 and BS370 BS330 and BS340 has been equipped with new hardware and software. The BSM (Base Station Manager) has been upgraded to comply with the new BS330 and BS340. Note: The new BS330 and BS340 are not compatible with the Site Survey Tool software. Older versions of BS330 and BS340 may be ordered on request for the Site Survey Tool.
Technical Product Manual - DCT1800-GAP Upgrade information – September 2004 TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Upgrade information – September 2005 Chapter 8 8.1 Upgrade information – September 2005 DECT in US and Canada The Technical Product Manual DCT1800-GAP has been updated to ver. C (R4D) due to the introduction of DECT in US and Canada. 8.2 Digital Trunk Unit DTU-T1 Digital Trunk Unit DTU-T1 works on 1.544 Mbit/s. Note: Only for US & Canada 8.3 Central Processing Unit CPU2, new versions Information about the following products has been added. • • • 8.3.
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Technical Product Manual - DCT1800-GAP Type number list Section 9 Type number list TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Type number list TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Type number list, Table of contents Table of contents Page Chapter 1 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 Type number list............................................................................... 1 Base stations (GAP) ........................................................................................................... 1 System boards ...................................................................................................................
Technical Product Manual - DCT1800-GAP Type number list, Table of contents IV TD 92093 (1/LZBNB 103 108 R4D) / 2006-03-09/ Ver.
Technical Product Manual - DCT1800-GAP Type number list Chapter 1 Type number list The purpose of this section is to enable identification of the various replaceable products of the DCT1800-GAP system. Listed below are all the products described in this manual followed by their article number (if applicable) and product number (ABC-number). 1.1 Base stations (GAP) BS330 base station, 1880-1900 MHz . . . . . . . . . . . . . BS330 base station, 1900-1920 MHz . . . . . . . . . . . . .
Technical Product Manual - DCT1800-GAP Type number list Central Processing Unit, CPU2/SA EADS . . . . . . . . . . REX-BRD9035 Speech Processing Unit-S, SPU-S (a-law) . . . . . . . . . REX-BRD0017* . . ROFNB 157 16/3 Speech Processing Unit-S, SPU-S (my-law (US&Canada)). . . . . . . . . . . . . . . . . . . . . . . . . REX-BRD0030* Cell Link Unit, CLU (max 3.5 km) . . . . . . . . . . . . . . . . . REX-BRD0014* . . ROFNB 157 11/2 Cell Link Unit-S, CLU-S (max 2.1 km) . . . . . . . . . . . . . REX-BRD0016* . .
Technical Product Manual - DCT1800-GAP Type number list 1.5 Modular cabinet Article number Product number Modular cabinet, CE approved (Ericsson) . . . . . . . . . . REX-BAS9008* . . .BDVNB 101 01/16 Modular cabinet, CE approved (Ascom) . . . . . . . . . . . REX-BAS9007* Interconnection set (flat cable, ground cable and 4 shielding gaskets) . REX-CAB9008* . . .NTMNB 101 105 Modular Cabinet Connection Board, MCCB (spare) . . REX-SPP9014* . . .ROANB 101 28 Backplane modular cabinet (spare) . . . . . . . . .
Technical Product Manual - DCT1800-GAP Type number list 1.8 Operation and Maintenance tools Article number Product number Cordless System Manager for Windows (Ericsson). . . REX-MTC9019*. . .LZYNB 201 50/1 Cordless System Manager for Windows (Ascom) . . . . REX-MTC9022* Site Survey Tool (without cordless phones) . . . . . . . . . SST-9004/* . . . . . .
