Rohde & Schwarz DIB-500 R4.1 Installation And Operation Manual
Rohde & Schwarz DIB-500 R4.1 Installation And Operation Manual

Rohde & Schwarz DIB-500 R4.1 Installation And Operation Manual

Digital indoor base station
Table of Contents

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DIB-500 R4.1
Digital Indoor Base Station
Installation and Operation Manual
90DIB500IM02 – 5.2

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Summary of Contents for Rohde & Schwarz DIB-500 R4.1

  • Page 1 DIB-500 R4.1 Digital Indoor Base Station Installation and Operation Manual 90DIB500IM02 – 5.2...
  • Page 2 DIB-500 R4.1 © 2010 Rohde & Schwarz Professional Mobile Radio GmbH 31848 Bad Münder, Germany Printed in Germany - Subject to change - Data without tolerance limits is not binding. Encryption components are subject to German export regulations. Installation and Operation Manual 90DIB500IM02 – 5.2...
  • Page 3: Table Of Contents

    DIB-500 R4.1 Digital Indoor Base Station Table of contents 1 Notes on the Document ........11 1.1 Objectives of the document .
  • Page 4 3.1 Antenna coupling variants of the DIB-500 R4.1 ....23 3.2 Components of the DIB-500 R4.1 ....... . 25 3.2.1 TETRA Indoor Base Transceiver (TIB) .
  • Page 5 3.3 Interfaces of the DIB-500 R4.1 ........
  • Page 6 DIB-500 R4.1 4.4.2.2 Materials ........... . . 66 4.4.2.3 Installing the left top hat rail end bracket .
  • Page 7 5.7 Configuring the DIB-500 R4.1 ........102...
  • Page 8 DIB-500 R4.1 5.9.2 Checking operating statuses ........123 5.9.2.1 Checking operating statuses (via the NMC-511 FaultManager) .
  • Page 9: Notes On The Document

    DIB-500 R4.1 Notes on the Document Objectives of the document 1 Notes on the Document This chapter provides information on using the document. In addition, it names the requirements for using the product/system. 1.1 Objectives of the document The present document contains instructions for behaviour of Rohde & Schwarz Profes- sional Mobile Radio GmbH for all the persons involved in installing the equipment rack and commissioning the product.
  • Page 10: Qualification Of Personnel

    DIB-500 R4.1 Notes on the Document Qualification of personnel 1.4 Qualification of personnel Specialists are persons, who: are trained and experienced in the corresponding field. are familiar with the applicable standards, regulations and provisions associated with the corresponding task. 1.5 Figures and special notations used Figures and symbols are used in the present document.
  • Page 11: Safety Instructions Used

    DIB-500 R4.1 Notes on the Document Figures and special notations used Carry out the following steps: ➔ Description of an individual work step. ➥ A possible result of the work step just performed. 1. Description of the first of multiple work steps.
  • Page 12: General Instructions Used

    DIB-500 R4.1 Notes on the Document History of changes This symbol identifies safety instructions. You are alerted of a hazard for the product/system. ➔ The arrow identifies a precautionary measure designed to avert this danger. 1.5.2.4 General instructions used General instructions provide supplementary and useful information.
  • Page 13: Further Applicable Documents

    DIB-500 R4.1 Notes on the Document Further applicable documents 1.7 Further applicable documents Apart from the present documentation, the scope of delivery of the product includes additional documents. In addition to the contents of the present documentation, all the other documents associated with the product must always be taken into consideration.
  • Page 14: Support Information

    DIB-500 R4.1 Notes on the Document Support information 1.8 Support information If you have any questions or suggestions regarding Rohde & Schwarz Professional Mobile Radio GmbH products, please contact your local service partner responsible or the Rohde & Schwarz Professional Mobile Radio GmbH Support Team directly.
  • Page 15: Safety Regulations

    DIB-500 R4.1 Safety regulations Safety instructions and declaration of conformity 2 Safety regulations This chapter describes the safety regulations relevant for using the product. 2.1 Safety instructions and declaration of conformity The product has been designed, constructed and tested according to the relevant EN, DIN and VDE (Association for Electrical, Electronic &...
  • Page 16 DIB-500 R4.1 Safety regulations Safety instructions and declaration of conformity The general instructions on safety and accident prevention are documented in the Acci- dent Prevention Guideline "General Regulations" (BGV A1). . For work performed on electrical installations, the Accident Prevention Regulations (BGV A3) "Electrical Instal- lations"...
  • Page 17: Intended Use

    DIB-500 R4.1 Safety regulations Intended use 2.2 Intended use The product is exclusively designed for being used as a professional TETRA communi- cation system. In this application it is used for the wireless communication between sub- scribers equipped with the corresponding mobile stations as well as for switching calls and transferring data between subscribers of TETRA (Terrestrial Trunked Radio) net- works.
  • Page 18: Authorised Personnel

    DIB-500 R4.1 Safety regulations Safety measures 2.3.1 Authorised personnel The product may be transported, set up, connected, commissioned, operated and serv- iced only by specialists who are familiar with and comply with the applicable safety reg- ulations and setup instructions.
  • Page 19: Notes On The Electrical System

    DIB-500 R4.1 Safety regulations Safety measures the transmitting antenna. A typical transmitter is made up of an omni-directional trans- mitting antenna with an antenna gain of 7.5 dBi installed on a mast with a height of 30 m and connected to the base station through a 40-m cable.
  • Page 20 DIB-500 R4.1 Safety regulations Safety measures In favour of an environmentally-friendly disposal or recycling of matters, Rohde & Schwarz Professional Mobile Radio GmbH has developed a disposal concept and fully assumes the duty of taking back and disposing of electric and electronic wastes accord- ing to the ElektroG Act on behalf of the manufacturer.
  • Page 21: Product Description

    E1 connections, IP connections (depending on the used system software [Package Version, PV]) 3.1 Antenna coupling variants of the DIB-500 R4.1 Different antenna coupling variants of the Digital Indoor Base Station (DIB-500) are available. The selection of the corresponding antenna coupling system depends on the network requirements.
  • Page 22 Product description Antenna coupling variants of the DIB-500 R4.1 Figure 3.1 shows the front view of the DIB-500 R4.1 with four carriers. The correspond- ing table describes the components in greater detail. Figure 3.1 Front view of the DIB-500 R4.1 (cavity variant with four cavity combiners)
  • Page 23: Components Of The Dib-500 R4.1

    Fan subrack (for each TIB module) – Fan – Air filter mat 3.2 Components of the DIB-500 R4.1 The network elements of the DIB-500 R4.1 consist of the following network/hardware components: TETRA Indoor Base Transceiver (TIB) Antenna Coupling System (ACS)
  • Page 24: Tetra Indoor Base Transceiver (Tib)

    DIB-500 R4.1 Product description Components of the DIB-500 R4.1 3.2.1 TETRA Indoor Base Transceiver (TIB) The TIB (TETRA Indoor Base Transceiver) base station module is a network compo- nent. The TIB has been implemented in the form of a subrack (with one or two carriers) for the equipment rack.
  • Page 25 DIB-500 R4.1 Product description Components of the DIB-500 R4.1 Figure 3.3 shows the front view of the TIB. The corresponding table describes the com- ponents in greater detail. 9/10 Figure 3.3 TIB front view Table 3.2 Legend: front view of the TIB...
  • Page 26: Multi Processor Server Unit (Msu)

    (depending on the variant) Service Serial service interface E1 interface to the connection panel of the DIB-500 R4.1 GPS antenna connector Table 3.4 shows the indicators of the TIB. The associated table describes them in detail. Figure 3.4 TIB indicators Table 3.3...
  • Page 27: Powerpc

    DIB-500 R4.1 Product description Components of the DIB-500 R4.1 PowerPC The PowerPC is a hardware component and an integral constituent of the TIB. The fol- lowing software components use the PowerPC as the hardware platform: Switching and Routing Server (SRS)
  • Page 28: Synthesizer

    DIB-500 R4.1 Product description Components of the DIB-500 R4.1 The NEM-523 server application is responsible for management functions and controls the downloads as well as the distribution of network resources. The NEM-523 is the remote station, via which the NMC-522 DownloadManager communicates while down- loading software or data.
  • Page 29 DIB-500 R4.1 Product description Components of the DIB-500 R4.1 Depending on the variant and number of the carriers installed, the ACS is made up of different components. These are detailed in the following table. Table 3.4 Variants of the ACS...
  • Page 30 DIB-500 R4.1 Product description Components of the DIB-500 R4.1 Figure 3.5 shows the front view of the ACS. The corresponding table describes the components in greater detail. Figure 3.5 ACS front view Table 3.5 Legend: ACS front view Supply Description...
  • Page 31: Voltage Supply And Alarming System

    Mounting frame (optional for V voltage supply) The mounting frame is not installed in the standard version of the DIB-500 R4.1 with voltage supply. The mounting frame is required if the optional system controller and alarm input/output module hardware components for the alarming system have been installed.
  • Page 32: System Controller (Optional For Vdc Voltage Supply)

    DIB-500 R4.1 Product description Components of the DIB-500 R4.1 Table 3.6 Legend: components of the voltage supply unit Constituent Mounting frame Subrack for the AC voltage supply module(s); the number of modules depends on the voltage on site and on the number of TIB modules installed, refer to Table 3.13 on...
  • Page 33 DIB-500 R4.1 Product description Components of the DIB-500 R4.1 Figure 3.8 shows the display window of the system controller. The following table describes these in detail. Figure 3.8 System controller display window Table 3.8 Legend: System controller display window Constituent...
  • Page 34: Alarm Input/Output Module (Optional With Vdc Voltage Supply)

    DIB-500 R4.1 Product description Components of the DIB-500 R4.1 Table 3.10 Legend: rear view of system controller Constituent Description Ethernet interface Ethernet interface to the first TIB of the equip- ment rack (TIB A, LAN 1). Serial interface not used for the time being...
  • Page 35: Vac Voltage Supply Unit (Optional) Including Ac Voltage Supply Module(S)

    DIB-500 R4.1 Product description Components of the DIB-500 R4.1 3.2.3.4 voltage supply unit (optional) including AC voltage supply module(s) The voltage supply unit is a hardware component. Depending on the type of voltage supply selected (V ), it is made up of different components, refer to Table 3.12 on page 37.
  • Page 36: Connection Panel

    Connection panel (variant with LAN Routing Unit, LRU [redundancy package]) A DIB-500 R4.1 as of five carriers can optionally be operated with redundant connecting lines of the TIB. In this case, the connection panel and the LRU including the top hat rail power supply unit form one modular unit to combine the TIBs installed in two equipment racks to an internal ring.
  • Page 37: Connection Panel (Variant Without Lan Routing Unit, Lru)

    External E1 port with connection to E1 relay (RJ-45) External E1 connections to TIB A (RJ-45) PPS connection (pulses per second) for clock synchronization of DIB-500 R4.1-equip- ment racks (RJ-45) Port for connecting the E1 connecting cables from the connection panel to TIB A (D-...
  • Page 38: Lan Routing Unit (Lru)

    3.2.4.2 Connection panel (variant with LAN Routing Unit, LRU [redundancy package]) For operating the DIB-500 R4.1 with more than four carriers, the terminal area and the LRU including the top hat rail power supply unit form a modular unit. Figure 3.14 shows the front view of the connection panel with the LRU installed includ- ing the power supply unit.
  • Page 39: Fan Unit

    DIB-500 R4.1 Product description Components of the DIB-500 R4.1 Figure 3.15 shows the front view of the LRU including top hat rail power supply unit. The corresponding table describes the components in greater detail. Figure 3.15 Front view of LRU including top hat rail power supply unit Table 3.17 Legend: Connection assignment of LRU including top hat rail power supply unit...
  • Page 40: Interfaces Of The Dib-500 R4.1

    GPS for providing the standard clock (synchronization) required for switching con- nections 3.4 Wiring diagrams of the DIB-500 R4.1 Upon delivery, the product is completely wired and prepared for commissioning. Inside the equipment rack, all the connecting cables are marked with the corresponding part no.
  • Page 41: Internal Wiring Of The Hybrid Variant

    Wiring diagrams of the DIB-500 R4.1 3.4.1 Internal wiring of the hybrid variant For the hybrid variant of the DIB-500 R4.1 up to two equipment cabinets are used depending on the number of carriers (four carriers per equipment cabinet). With more than four carriers, the equipment cabinets are positioned next to each other on site and connected with each other, refer to Figure 3.17.
  • Page 42: Internal Wiring Of The Hybrid Variant - Two Carriers

    3.4.1.1 Internal wiring of the hybrid variant – two carriers Figure 3.18 shows the internal wiring of the DIB-500 R4.1 with two carriers. Upon deliv- ery, the connections have already been wired ex works. Figure 3.18 Wiring diagram DIB-500 R4.1 – hybrid-variant with two carriers (diversity)
  • Page 43: Internal Wiring Of The Hybrid Variant - Four Carriers

    3.4.1.2 Internal wiring of the hybrid variant – four carriers Figure 3.19 shows the internal wiring of the DIB-500 R4.1 with four carriers. Upon deliv- ery, the connections have already been wired ex works. Figure 3.19 Wiring diagram DIB-500 R4.1 – hybrid variant with four carriers (diversity)
  • Page 44: Hybrid Variant - Eight Carriers

    DIB-500 R4.1 Product description Wiring diagrams of the DIB-500 R4.1 3.4.1.3 Hybrid variant – eight carriers Two equipment racks installed next to each other are used for the hybrid variant as of five carriers. Apart from the wiring between the equipment racks A and B, the wiring cor- responds to that of the hybrid variant with four carriers, refer to section 3.4.1.1.
  • Page 45 DIB-500 R4.1 Product description Wiring diagrams of the DIB-500 R4.1 Figure 3.20 shows the connection between the equipment racks of the DIB-500 R4.1 in the hybrid variant with eight carriers. The connections are described in detail in the associated table.
  • Page 46 DIB-500 R4.1 Product description Wiring diagrams of the DIB-500 R4.1 Table 3.19 Legend: Wiring diagram DIB-500 R4.1 – hybrid variant with eight carriers (diversity) Connection from to network or hardware component Connection panel A (B1) Connection panel B (A1) for connecting a second...
  • Page 47 DIB-500 R4.1 Product description Wiring diagrams of the DIB-500 R4.1 Figure 3.21 shows the connection between the equipment racks of the DIB-500 R4.1 in the hybrid variant with eight carriers. The connections are described in detail in the associated table.
  • Page 48 DIB-500 R4.1 Product description Wiring diagrams of the DIB-500 R4.1 Table 3.20 Legend: Wiring diagram DIB-500 R4.1 – hybrid variant with eight carriers (diversity) Connection from to network or hardware component Connection panel A (B1) Connection panel B (A1) for connecting a second...
  • Page 49: Wiring Of The Cavity Variant

    Depending on the number of carriers, up to two equipment cabinets are used for the DIB-500 R4.1 in the cavity variant. The cavity couplers (one per carrier) are installed in the respective equipment cabinet(s) of the DIB-500 R4.1. With more than four carriers, the equipment cabinets are positioned next to each other on site and connected with each other, refer to Figure 3.22.
  • Page 50: Cavity Variant - Four Carriers

    3.4.2.1 Cavity variant – four carriers For the DIB-500 R4.1 in the cavity variant, the cavity couplers are installed in the equip- ment carrier(s), refer to Figure 3.22. Upon delivery, the connections have already been wired ex works. The wiring of the Tx paths is shown in Figure 3.23.
  • Page 51 DIB-500 R4.1 Product description Wiring diagrams of the DIB-500 R4.1 Figure 3.23 shows the wiring between the equipment racks of the DIB-500 R4.1 in the cavity variant with four carriers. The connections are described in detail in the associ- ated table.
  • Page 52: Cavity Variant - Eight Carriers

    DIB-500 R4.1 Product description Wiring diagrams of the DIB-500 R4.1 Table 3.21 Legend: Wiring diagram DIB-500 R4.1 – cavity variant with four carriers (without diversity) Connection from to network or hardware component Tx carrier A (TIB A) Cavity coupler A...
  • Page 53: Internal Wiring Of The High-Power Variant - One Carrier

    Wiring diagrams of the DIB-500 R4.1 3.4.3 Internal wiring of the high-power variant – one carrier Figure 3.24 shows the internal wiring of the DIB-500 R4.1 with one carrier. Upon deliv- ery, the connections have already been wired ex works.
  • Page 54: Voltage Supply Of The Dib-500 R4.1

    3.2.4 on page 38. 3.6 Scope of delivery of the DIB-500 R4.1 The scope of delivery of the DIB-500 R4.1 depends on the respective variant. In the Hybrid and high power variants, the base stations are delivered in a 19“ equipment racks.
  • Page 55 DIB-500 R4.1 Product description Scope of delivery of the DIB-500 R4.1 Table 3.22 Scope of DeliveryDIB-500 R4.1 Quan- Designation Item no: tity Hardware component for additional 5500.9979.00 alarming system Mounting frame System controller Alarm input/output module Antenna mounting kit, including the 5500.8672.00...
  • Page 56 DIB-500 R4.1 Product description Scope of delivery of the DIB-500 R4.1 Installation and Operation Manual 90DIB500IM02 – 5.2...
  • Page 57: Installation

    DIB-500 R4.1 Installation 4 Installation The following chapter describes the procedure for correctly installing the product on site. The tasks listed in the following table must be performed for setting up the DIB-500 R4.1. Order of tasks to be performed When you have completed a work step, always navigate to the next work step via the overview table to ensure that the tasks are performed in the correct order.
  • Page 58: Setup Variants Of The Dib-500 R4.1

    Figure 4.1 visualizes the standard setup options of the hybrid variant with four and eight carriers in one operation room each. Figure 4.1 Standard upright variant DIB-500 R4.1 with four and eight carriers Required cable lengths The cable sets for the Ethernet and E wiring refer to the standard variants. The cable sets are designed for a max.
  • Page 59: Cavity Variant

    Figure 4.2 visualizes the standard setup options of the cavity variant with four and eight carriers in one operation room each. Figure 4.2 Standard upright variant DIB-500 R4.1 with four and eight carriers Required cable lengths The cable sets for the Ethernet and E wiring refer to the standard variants. The cable sets are designed for a max.
  • Page 60: High Power Variant

    4.3 Installing equipment racks Depending on the variant, the DIB-500 R4.1, consisting of multiple equipment cabinet, will be delivered. In this case, the internal wiring of the equipment cabinets has already been done ex works.
  • Page 61 DIB-500 R4.1 Installation Installing equipment racks Transporting equipment racks later on Note that equipment racks may only be transported in upright position (e.g. using a lift truck) or with the optionally available hoisting eyebolt kit. When transporting an equip- ment rack, e.g. on a lift truck, it must be seated on all the levelling feet.
  • Page 62: Connecting Equipment Racks (As Of 5 Carriers)

    DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) 4.4 Connecting equipment racks (as of 5 carriers) For variants with five or more carriers (hybrid and cavity) two equipment racks are used equipped with a total of three or four TIB modules and two ACS. Upon delivery, the TIB modules and ACS installed in the two equipment racks are not yet connected.
  • Page 63 DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) 1. Loosen the mounting screws of the grommet using a size PH2 Phillips head screw- driver, refer to Figure 4.4. Figure 4.4 Upper equipment rack cover – grommet mounting screws 2.
  • Page 64: Mounting The Lru

    DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) 4.4.2 Mounting the LRU (optional, variants with redundancy package only – depending on the delivery status) For variants with redundancy package (hybrid and cavity) a LAN switch (LAN routing unit, LRU) is additionally used optionally to connect the two equipment racks, i.e. the TIB modules installed in the racks.
  • Page 65: Tools And Aids

    DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) Inserting the LRU Installing the top hat rail power supply unit Installing the right top hat rail end bracket 4.4.2.1 Tools and aids The following tools and aids are required for retrofitting the LRU: Flat-bladed screwdriver 4.4.2.2...
  • Page 66: Establishing The Voltage Supply Of The Lru

    DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) Carry out the following steps: Risk of injury due to sharp edges. The component features sharp edges. Risk of injury if you do not wear protective gloves. ➔ Always wear protective gloves when handling the component.
  • Page 67 DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) Table 4.3 Legend: Overview of the voltage supply of the LRU No.: Connection between LRU and top hat rail power supply unit top hat rail power supply unit and terminals of the connection panel...
  • Page 68 DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) Carry out the following steps: Risk of injury due to sharp edges. The component features sharp edges. Risk of injury if you do not wear protective gloves. ➔ Always wear protective gloves when handling the component.
  • Page 69 DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) Connecting voltage supply cables to the top hat rail power supply unit The voltage supply cables must be connected to the top hat rail power supply unit before the power supply unit is installed.
  • Page 70 DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) Carry out the following steps: 1. Connect the voltage supply cable for the connection between the LRU and the top hat rail power supply unit with the corresponding terminals of the top hat rail power supply unit, refer to Table 4.5.
  • Page 71: Inserting The Lru

    DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) 4.4.2.5 Inserting the LRU The LRU must be connected to the top hat rail. Figure 4.12 shows the position of the LRU on the top hat rail . Figure 4.12 LRU on the top hat rail The procedure for inserting the LRU is described below.
  • Page 72: Installing The Top Hat Rail Power Supply Unit

    DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) Electric shock when touching live parts. Hardware components in the equipment cabinet are live. ➔ When performing work in the equipment cabinet, ensure that the voltage source on site is switched off.
  • Page 73 DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) The procedure for installing the top hat rail power supply unit is described in the follow- ing. Proceed as follows to install the top hat rail power supply unit: Preparation: ✓...
  • Page 74: Installing The Right Top Hat Rail End Bracket

    DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) 4.4.2.7 Installing the right top hat rail end bracket To prevent components on the top-hat rail from shifting, top-hat rail end brackets must be installed. To secure the components reliably, a top hat rail end bracket must be installed to the right of the top hat rail power supply unit, refer to Figure 4.15.
  • Page 75: Procedure For Connecting Equipment Racks A And B

    DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) Table 4.6 describes the connections required for connecting equipment racks. Table 4.6 Connecting equipment racks – required connections Connection Description TIB modules (racks A The TIB modules are chained via E1. The connection is made from the first to the second and B) –...
  • Page 76 DIB-500 R4.1 Installation Connecting equipment racks (as of 5 carriers) Installation and Operation Manual 90DIB500IM02 – 5.2...
  • Page 77: Commissioning

    DIB-500 R4.1 Commissioning 5 Commissioning The following chapter describes the procedure for connecting the electrical system properly and for commissioning the product on site. The tasks listed in the following table must be performed for commissioning the DIB-500 R4.1. Order of tasks to be performed When you have completed a work step, always navigate to the next work step via the overview table to ensure that the tasks are performed in the correct order.
  • Page 78 DIB-500 R4.1 Commissioning Table 5.1 Overview of the tasks to be performed Tasks/work steps Described in: Configuring the DIB-500 R4.1 Preparatory measures Section 5.7.2 on page 102 Switching on the voltage Section 5.7.2.1 source on page 103 Switching on the equipment Section 5.7.2.2...
  • Page 79: Connection To The Electrical System

    DIB-500 R4.1 Commissioning Connection to the electrical system 5.1 Connection to the electrical system The following section describes the procedure for connecting the product/system to the electrical system properly. 5.1.1 Tools and aids The following tools and aids are required for connecting the product to the electrical...
  • Page 80 DIB-500 R4.1 Commissioning Connection to the electrical system Figure 5.1 shows the position of the grounding connector in the equipment rack. Front View Equipment Rack Figure 5.1 Equipment rack grounding connector The procedure for connecting to the grounding system is described in the following.
  • Page 81: Connecting The Voltage Supply

    If the AC and DC voltage supply cables are connected at the same time, the product/system may be damaged. The DIB-500 R4.1 can optionally be operated with an AC or DC voltage supply. ➔ Never connect the AC and DC voltage supply cables at the same time.
  • Page 82: Connecting The Vdc Voltage Supply

    5.1.3.1 Connecting the V voltage supply In the case of a DIB-500 R4.1 with V voltage supply, the voltage supply is connected directly via the corresponding terminal on the connection panel. The procedure for connecting the voltage supply is described in the following.
  • Page 83 DIB-500 R4.1 Commissioning Connection to the electrical system Carry out the following steps: If cables are routed over sharp edges or in bending radiuses too small for the cables, the cables may be damaged. ➔ If cables are routed over sharp edges or in bending radiuses too small for the cables, the cables may be damaged.
  • Page 84: Connecting The Vac Voltage Supply (Optional)

    "PSU1". Removing Schuko plugs The Schuko plug can be removed when the DIB-500 R4.1 is to be connected to a fixed connection (e.g. distributor box). In this case, the strand ends of the voltage supply cable/s must be fitted with end sleeves for strands.
  • Page 85 DIB-500 R4.1 Commissioning Connection to the electrical system Figure 5.4 shows the possible connection variants for the V - voltage supply Fixed connection Mains socket Figure 5.4 V voltage supply – connection variants Based on an AC voltage supply module, the procedure for connecting the voltage sup- ply is described in the following.
  • Page 86: Connecting E1

    DIB-500 R4.1 Commissioning Connection to the electrical system The product may be damaged if the live wires of the voltage supply cable are connected without grounding. ➔ Connect the green-yellow grounding cable of the grounding conductor first. ➔ Connect the voltage supply cable with the voltage source depending on the con- nection variant, refer to Figure 5.4 on page 85.
  • Page 87 DIB-500 R4.1 Commissioning Connection to the electrical system Table 5.3 Legend: Front view of connection panel No.: Designation External alarm inputs (LSA+) External E1 connections to TIB B (RJ-45) External E1 port with connection to E1 relay (RJ-45) External E1 connections (LSA+)
  • Page 88 DIB-500 R4.1 Commissioning Connection to the electrical system Table 5.5 Legend: E1 pin assignment Pin no.: Configuration 5.1.4.1 Connecting E1 connectors (RJ-45) The procedure for connecting E1 connectors (RJ-45) is described below. Proceed as follows to connect E1 connectors (RJ-45): Preparation: ✓...
  • Page 89 DIB-500 R4.1 Commissioning Connection to the electrical system Ring connection The external E1 interfaces A1 and B1 (refer to Figure 5.8, are routed via an E1 relay and serve to connect further network elements connected in the form of a ring. If one TIB fails, the relay will be disabled and the incoming E1 connection will be switched through directly to the next network element.
  • Page 90: Installing The Gps Antenna

    DIB-500 R4.1 Commissioning Installing the GPS antenna 5.2 Installing the GPS antenna The scope of delivery of the product/system comprises an antenna mounting kit includ- ing the GPS antenna. A third-party GPS antenna may be used instead. In this case, heed the documentation of the third-party devices to prevent adverse effects and mal- functions of the product//system and other products connected to it.
  • Page 91 DIB-500 R4.1 Commissioning Installing the GPS antenna The procedure for installing the GPS antenna included in the scope of delivery is described in the following. Proceed as follows to install the GPS antenna: Preparation: ✓ The location must be prepared to meet on-site requirements.
  • Page 92 DIB-500 R4.1 Commissioning Installing the GPS antenna 4. Tighten the corresponding fastening screws to install the GPS antenna at the installation site. Use a size 4 Allen wrench for this purpose. Figure 5.12 GPS antenna – installation at the installation site If cables are routed over sharp edges or in bending radiuses too small for the cables, the cables may be damaged.
  • Page 93: Connecting Antennas (Gps And Tetra)

    DIB-500 R4.1 Commissioning Connecting antennas (GPS and TETRA) Additional protection against tensile stress If required, use appropriate mechanisms as an additional means of protecting long GPS antenna cables against tensile stress. ✓ You have successfully installed the GPS antenna. Checking the Installation Site Following the installation of the GPS antenna, the installation site should be checked, refer to section 5.9.4 on page 130.
  • Page 94: Connecting External Alarm Sensors

    ✓ The antennas have thus been connected. 5.4 Connecting external alarm sensors The DIB-500 R4.1 features two external alarm inputs that are connected via the "Alarm in" LSA+ strip on the connection panel of the product, refer to Figure 5.15. The assign- ment of the external alarm inputs is controlled project-specifically.
  • Page 95: Connecting External Alarms (Optional)

    DIB-500 R4.1 Commissioning Connecting external alarms (optional) 5.5 Connecting external alarms (optional) The DIB IP (SNB1) is equipped with six external alarm inputs and six external alarm outputs that are connected directly via the alarm input/output module, refer to Figure 5.16.
  • Page 96: Tools And Aids

    DIB-500 R4.1 Commissioning Connecting external alarms (optional) Table 5.6 Legend: Alarm input/output module – external alarm inputs/outputs Description Alarm input/output Alarm outputs (O) 5.5.1 Tools and aids You need the following tools and aids to perform the procedure(s described: Coin to unscrew/tighten the fastening screws of the equipment rack top cover No.
  • Page 97: Connecting External Alarms

    DIB-500 R4.1 Commissioning Connecting external alarms (optional) Electric shock when touching live parts. Hardware components in the equipment cabinet are live. ➔ When performing work in the equipment cabinet, ensure that the voltage source on site is switched off. 1. Loosen the mounting screws of the top cover of the mounting frame using a size 1 Phillips screwdriver, refer to Figure 5.17.
  • Page 98 DIB-500 R4.1 Commissioning Connecting external alarms (optional) Table 5.7 Legend: terminals for connecting external alarms (example) No.: Alarm input/output Terminal Description Alarm input Grounding (digital input 1) Digital input 1 Common – centre contact normally open – switch open if an alarm...
  • Page 99 DIB-500 R4.1 Commissioning Connecting external alarms (optional) Carry out the following steps: Electric shock when touching live parts. Hardware components in the equipment cabinet are live. ➔ When performing work in the equipment cabinet, ensure that the voltage source on site is switched off.
  • Page 100: Mounting The Top Cover Of The Mounting Frame

    DIB-500 R4.1 Commissioning Connecting external alarms (optional) Strain Relief of Connected Cables / Connecting Lines When connecting cables and connecting lines, you must ensure that they are protected against tensile strain. 5. Fasten the connected cables in the equipment rack in such a way that they are pro- tected against tensile strain, e.
  • Page 101: Mounting The Top Cover Of The Equipment Rack

    PH2 Phillips head screwdriver for this purpose, refer to Figure 4.4. ✓ You have successfully mounted the equipment rack top cover. 5.7 Configuring the DIB-500 R4.1 The following chapter describes the procedure for properly setting up (configuring) the product at its installation site.
  • Page 102: Switching On The Voltage Source

    DIB-500 R4.1 Commissioning Configuring the DIB-500 R4.1 5.7.1 Tools and aids The following tools and aids are required for the software update and the configuration: Network cable ("straight-through" Ethernet cable) Serial cable (1:1) Service computer set up appropriately, refer to the "Service Computer for ACCESS- ®...
  • Page 103 DIB-500 R4.1 Commissioning Configuring the DIB-500 R4.1 For each TIB module there is a separate ON/OFF switch on the connection panel of the respective equipment cabinet. The other components in the equipment cabinet are sup- plied with voltage via an internal connection to the connection panel.
  • Page 104: Connecting The Service Computer

    DIB-500 R4.1 Commissioning Configuring the DIB-500 R4.1 5.7.2.3 Connecting the service computer The service computer may be any computer that meets the system requirements. The system requirements for the service computer are described in the related product documents, refer to Table 5.9.
  • Page 105: Connecting The Service Computer (Serially)

    DIB-500 R4.1 Commissioning Configuring the DIB-500 R4.1 2. Connect the free SMT cable to the service connection of the TIB/TOB, refer to Fig- ure 5.22. Figure 5.22 Service Connection ✓ The SMT has thus been connected. Connecting the service computer (serially) The procedure for connecting the service computer is described in the following.
  • Page 106: Deleting The Arp Buffer

    DIB-500 R4.1 Commissioning Configuring the DIB-500 R4.1 Carry out the following steps: ➔ Connect the network cable to the service connector (refer to Figure 5.23) of the network element and the Ethernet port of the service computer. Figure 5.23 Service connector ✓...
  • Page 107: Configuring And Generating Network Configurations Via The

    DIB-500 R4.1 Commissioning Configuring the DIB-500 R4.1 ➥ The "command prompt" is displayed: Figure 5.24 Command prompt 2. Enter the command below to delete the ARP buffer: arp -d ✓ You have successfully deleted the ARP buffer. 5.7.4 Configuring and generating network configurations via the...
  • Page 108: Creating The Download Repository

    DIB-500 R4.1 Commissioning Configuring the DIB-500 R4.1 5.7.5 Creating the download repository For commissioning network elements locally via the NMC-522 DownloadManager, the Download Repository must be created on the service computer. For this purpose, the required directory structures must be stored on the service computer.
  • Page 109 DIB-500 R4.1 Commissioning Configuring the DIB-500 R4.1 The procedure for adapting the IP address is described in the following. Adapting the IP address Preparation: ✓ Service computer set up appropriately, refer to the "Service Computer for ® ACCESSNET -T“ requirements manual.
  • Page 110 Thus, the commands listed below are possible: MPU-550 and TIB/TOB (DIB-500 R3.2 and DIB-500 R4) – eth1/1 – eth1/0 GPP-100 and TIB (DIB-500 R4.1) – eth0/0 – eth0/1 8. Enter the following command to open the corresponding configuration file: vi /etc/sysconfig/network/devices/ifconfig.xxx...
  • Page 111: Adapting The Ip Addresses (Powerpc)

    DIB-500 R4.1 Commissioning Configuring the DIB-500 R4.1 12. Navigate to the end of the line and enter the corresponding figure, refer to Table 5.13. 13. Enter the following command to change to the main menu: 14. Type in the following command: 15.
  • Page 112 DIB-500 R4.1 Commissioning Configuring the DIB-500 R4.1 Carry out the following steps: 1. Start "PuTTY“ by double-clicking the executable file. ➥ The user interface of "PuTTY“ will be displayed: Figure 5.26 "PuTTY“ user interface 2. Enter the corresponding IP address in the "Host Name (or IP address)“ field, refer to Table 5.12.
  • Page 113 DIB-500 R4.1 Commissioning Configuring the DIB-500 R4.1 8. Enter the following command to open the corresponding configuration file: vi /etc/udhcpd.conf ➥ The "udhcpd.conf" configuration file is opened. The following output is an exam- ple: # ================================================================ # ACCESSNET-T Configuration File...
  • Page 114 DIB-500 R4.1 Commissioning Configuring the DIB-500 R4.1 17. Enter the corresponding IP address of the IntelPC, refer to Table 5.13 on page 108. 18. Enter the following command to change to the main menu: 19. Type in the following command: 20.
  • Page 115: Performing An Initial Download Via Nmc-522 Downloadmanager

    DIB-500 R4.1 Commissioning Configuring the DIB-500 R4.1 28. Type in the following command: 29. Press the ENTER key to confirm your input. ➥ The changes will be saved and the configuration file closed. 30. Enter the following command to restart the network component: reboot ➥...
  • Page 116: Setting A Cavity Coupler To The Tx Frequency

    Procedure described refers to one cavity coupler The procedure described in the following refers to one cavity coupler. Depending on the DIB-500 R4.1 variant, the work steps may have to be repeated for further cavity cou- plers. The procedure for setting a cavity coupler to the Tx frequency is described in the follow- ing.
  • Page 117 DIB-500 R4.1 Commissioning Setting a cavity coupler to the TX frequency Carry out the following steps: 1. Connect the one end of the network cable to the service connection, refer to Figure 5.27. Figure 5.27 Service connector 2. Connect the other end of the network cable to the Ethernet port of the service com- puter.
  • Page 118 DIB-500 R4.1 Commissioning Setting a cavity coupler to the TX frequency 7. Enter the p 1 -A sbue sbcc 02 0x command to check the configured output power of the corresponding carrier; x corresponds to carrier no. ➥ The power of the corresponding carrier is displayed in mW: BSC Command Shell tobs-ppc (Port: 5100) 'puc_1'-BSC 10.32.36.17 (5100) >u **...
  • Page 119: Measuring And Checking The Carriers (Impedance Adjustment)

    ✓ You have successfully set the output power. 5.8.3 Measuring and checking the carriers (impedance adjustment) For all the variants of the DIB-500 R4.1 the same procedure is used for measuring and checking carriers (impedance adjustment). Depending on the variant, the hand wheel of the cavity combiner is secured with a mounting screw.
  • Page 120 DIB-500 R4.1 Commissioning Setting a cavity coupler to the TX frequency If neither an antenna is mounted nor a dummy load is applied when the antenna cable is removed, an overload may occur due to the missing terminating resist- ance . The components fitted could then be damaged.
  • Page 121 DIB-500 R4.1 Commissioning Setting a cavity coupler to the TX frequency 5. Connect the antenna cable to the adapter of the measuring probe. Alternatively, connect a dummy load (50 Ω), refer to Figure 5.30. Antennna cable/dummy load Measuring equipment Antenna connectors Figure 5.30 Connected measuring equipment...
  • Page 122 DIB-500 R4.1 Commissioning Setting a cavity coupler to the TX frequency Maximum transmitter output measurement The maximum transmitter output measurement must always be greater than the value produced by the following formula: Maximum transmitter output configuration - 5 dBm. 10. Tighten the hand wheel on the front of the corresponding cavity coupler again.
  • Page 123: Function Tests Dib-500 R4.1

    DIB-500 R4.1 Commissioning Function tests DIB-500 R4.1 5.9 Function tests DIB-500 R4.1 After all activities performed on the product, which may have effects on the product and/ or its components, the proper functionality of all installed network and hardware compo- nents should be inspected.
  • Page 124: Checking Operating Statuses (Via The Service And Maintenance Tool, Smt)

    DIB-500 R4.1 Commissioning Function tests DIB-500 R4.1 5.9.2.1 Checking operating statuses (via the NMC-511 FaultManager) The procedure for checking the operating states of network components via the NMC-511 FaultManager is described below. Checking the operating status (via the NMC-511 FaultManager) Preparation: ✓...
  • Page 125 DIB-500 R4.1 Commissioning Function tests DIB-500 R4.1 Carry out the following steps: ➔ Check the LED indicators of the SMT, refer to Figure 5.31 and the associate table. Figure 5.31 LED indicators of the SMT Table 5.16 Legend: LED indicators of the SMT...
  • Page 126: Checking Operating Statuses (Via Leds Of The Tib)

    DIB-500 R4.1 Commissioning Function tests DIB-500 R4.1 5.9.2.3 Checking operating statuses (via LEDs of the TIB) The procedure for checking operating statuses (visual inspection) of integrated network/ hardware components is described in the following. Check the operating states of installed network and hardware components Preparation: ✓...
  • Page 127 DIB-500 R4.1 Commissioning Function tests DIB-500 R4.1 Table 5.18 provides an overview of possible alarm statuses and the corresponding alarm indicators of connected external alarms. The visual indicators are displayed in the area for displaying external alarms in the system controller display window.
  • Page 128: Checking Voice Channels

    The voice channels are disabled on the command interface of the TOS component of the DIB-500 R4.1. For this purpose, a Telnet connection to the compo- nent must be established.
  • Page 129: Checking The Voice Channel (More Than Two Carriers)

    ✓ The check of the voice channel is complete. Variants with more than two Carriers For a DIB-500 R4.1 with more than two carriers, the function test must be continued as described in section 5.9.3.2 on page 129 . 5.9.3.2 Checking the voice channel (more than two carriers) Checking the voice channels of a DIB-500 R4.1 with more than two carriers requires...
  • Page 130: Checking The Installation Site Of The Gps Antenna

    DIB-500 R4.1 Commissioning Function tests DIB-500 R4.1 5. Terminate the voice communication. 6. Enter the following command to disable the third carrier: bsce block 7. Enter the following command to disable the fourth carrier: bsce block 8. Establish voice communication using the two radio sets.
  • Page 131: Concluding Tasks

    DIB-500 R4.1 Commissioning Function tests DIB-500 R4.1 2. Check the circumferential range of vision of the GPS antenna. ✓ The visual inspection has thus been completed. 5.9.5 Concluding tasks Once you have successfully completed the visual inspection via the SMT, you must restore the proper operational state of the product.
  • Page 132 DIB-500 R4.1 Commissioning Function tests DIB-500 R4.1 Installation and Operation Manual 90DIB500IM02 – 5.2...
  • Page 133: Service Interruption

    DIB-500 R4.1 Service interruption Temporary service interruption 6 Service interruption The following chapter describes the procedure for performing service interruptions of the product properly. The following service interruptions are distinguished: Temporary service interruption Permanent shutdown A service interruption may be required in the following cases: Work on an open equipment cabinet The replacement of defective components.
  • Page 134 Carry out the following steps: 1. Switch off the voltage supply by flipping down the On/Off switch; refer to Figure 6.1. Figure 6.1 On/off switch of the DIB-500 R4.1 ➥ The network and hardware components are switched off. 2. Disconnect the equipment rack from the voltage source on site depending on the connection variant, refer to Table 6.1 on page 133.
  • Page 135: Permanent Shutdown

    DIB-500 R4.1 Service interruption Permanent shutdown 6.2 Permanent shutdown The following chapter describes the procedure for performing a permanent shutdown of the product properly. For a permanent shutdown, all the physical connections to other connected network constituents must be removed in addition to those measures taken for a temporary serv- ice interruption of the base station.
  • Page 136 DIB-500 R4.1 Service interruption Permanent shutdown Installation and Operation Manual 90DIB500IM02 – 5.2...
  • Page 137: Recommissioning

    DIB-500 R4.1 Recommissioning Recommissioning after a temporary service interruption 7 Recommissioning The present chapter describes the procedure for recommissioning the product properly. The following recommissioning situations are distinguished: Recommissioning after a temporary service interruption Recommissioning after a permanent shutdown 7.1 Recommissioning after a temporary service interrup-...
  • Page 138: Recommissioning After A Permanent Shutdown

    DIB-500 R4.1 Recommissioning Recommissioning after a permanent shutdown 3. Switch the on/off switch upward to switch on the network element, refer to Figure 7.1. Figure 7.1 On/Off switch ➥ The network and hardware components are started and started up. ✓ You have successfully recommissioned a network element.
  • Page 139: Maintenance

    DIB-500 R4.1 Maintenance Maintenance tasks 8 Maintenance To ensure the correct operation of the product, maintenance procedures and periodical visual inspections are necessary. The products have been designed for permanent, unsupervised operation. For this rea- son, maintenance need not be performed according to a fixed schedule. Still, you should perform inspections from time to time, e.g.
  • Page 140: Periodical Visual Inspections

    DIB-500 R4.1 Maintenance Periodical visual inspections 8.2 Periodical visual inspections The table below lists the recommended tasks for maintaining the products. The visual inspections should be performed in the intervals specified to be able to respond in due time, e.g. in the case of changes at the location that may result in improper operation.
  • Page 141: Transport And Storage

    DIB-500 R4.1 Transport and storage Transport 9 Transport and storage The product must always be transported and stored according to the respective regula- tions and temperature ranges. Table 9.1 provides an overview of the ambient data, for which the product has been designed.
  • Page 142: Storage

    DIB-500 R4.1 Transport and storage Storage ✓ Appropriate means of transportation must be available, e.g. a lift truck. ✓ The transport must be performed by at least two people. ✓ The equipment rack must be bolted to a pallet. Carry out the following steps: The equipment rack may tip over during transportation.

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