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Table Of Contents

90DIB500R41IM_FCC02 – 99.1

Secure Communications

Installation, Operation and

Service Manual

DIB-500 R4.1

Digital Indoor Base Station

Installation, Operation and

Service Manual

PV 08.01.xx

Summary of content (222 pages)

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Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.1 Secure Communications DIB-500 R4.1 Digital Indoor Base Station Installation, Operation and Service Manual PV 08.01.
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DIB-500 R4.1 © 2011 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. II Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Digital Indoor Base Station Table of contents 1 Notes on the document . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 1.1 Objectives of the document . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 1.2 Intended audience of the document . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 1.3 Qualification of the personnel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 1.4 Validity of the document . . .
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DIB-500 R4.1 2.3.2.2 Electromagnetic compatibility for North America . . . . . . . . . . . . . . . . . . . . . . 25 2.3.3 Notes on the electrical system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 2.3.4 Hazardous substances . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 2.3.4.1 Hazardous substances in Europe . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 2.3.4.2 Hazardous substances outside Europe . . . .
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DIB-500 R4.1 3.1.5.2 Overview of possible functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49 Base Station Function (BSF) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49 Switching Controller Function (SCF) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49 TETRA Vocoder Function (TVF) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49 Application Gateway (AGW) . . . . . . . . . . . . . . . . . . . . . . . . . .
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DIB-500 R4.1 3.1.9 Redundancy options for the DIB-500 R4.1 or the Base Station Function (BSF) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60 VI 3.1.9.1 Redundant Main Control Channel (MCCH) . . . . . . . . . . . . . . . . . . . . . . . . . . 60 3.1.9.2 Transceiver redundancy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61 3.1.9.3 Controller redundancy . . . . . . . . . . . . . . . . . . . . . . .
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DIB-500 R4.1 3.4 Scope of delivery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 83 4 Transport and storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85 4.1 Safety measures and prerequisites . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85 4.2 Tools, aids and materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 86 4.3 Transporting the equipment rack . . . . . . . . . . . . . . . .
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DIB-500 R4.1 5.6.3.2 Connecting the VAC voltage supply – optional . . . . . . . . . . . . . . . . . . . . . . 112 5.7 Connecting Ethernet cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 113 5.8 Installing the GPS antenna . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114 5.9 Installing the GPS protector - optional . . . . . . . . . . . . . . . . . . . . . . . . . . 117 5.10 Connecting antennas . . . . . . . . . . . . . . . . . . . . . . . . . .
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DIB-500 R4.1 6.1.6 Adapting IP addresses (with more than one transceiver module) . . . . . . . . 135 6.1.6.1 Adapting the IP addresses (IntelPC) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 135 6.1.6.2 Adapting the IP addresses (PowerPC) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 138 6.1.7 Performing an initial download via NMC-522 DownloadManager . . . . . . . . 142 6.2 Adjusting a cavity coupler – optional (cavity variant only) . . . . . . . . . . 143 6.2.
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DIB-500 R4.1 7.7 Checking external antenna coupling systems . . . . . . . . . . . . . . . . . . . . 162 8 Service interruption . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 163 8.1 Temporary service interruption . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 163 8.2 Permanent service interruption . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 164 9 Recommissioning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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DIB-500 R4.1 11.4 Replacing the ACS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 179 11.4.1 Removing the ACS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 181 11.4.2 Installing the ACS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 183 11.5 Replacing fan unit constituents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 184 11.5.
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DIB-500 R4.1 Removing the mounting frame . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 201 Preparing the mounting frame . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 203 Installing the mounting frame . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 204 Attaching connectors of the SC200 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 206 11.8.2.3 Concluding tasks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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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 from Rohde & Schwarz Professional Mobile Radio GmbH describes the procedures that are required for the activities on and with the DIB-500 R4.
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DIB-500 R4.1 Notes on the document Qualification of the personnel 1.3 Qualification of the personnel Only specialised personnel is permitted to perform the tasks described in the present document. The specialised personnel must be trained and authorised to perform these tasks. 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.
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DIB-500 R4.1 Notes on the document Figures and special notations used 1.6 Figures and special notations used Figures and symbols are used in the present document. They serve for presenting the product and for emphasizing particular pieces of information. 1.6.1 Figures used The figures used in this document show the product in a simplified form where necessary for clarity (e. g. technical drawings). They refer to different product designs.
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DIB-500 R4.1 Notes on the document Figures and special notations used 1.6.2.2 Sequence of actions Standard operation procedures guide you step by step through a sequence of actions until you have reached the desired goal. Example of a sequence of actions: Goal of the actions Preparation: ✓ List of the prerequisite(s) for an action ✓ ... Carry out the following steps: ➔ Description of an individual work step. ➥ A possible result of the work step just performed. 1.
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DIB-500 R4.1 Notes on the document Figures and special notations used This symbol identifies safety instructions You are warned of a potentially hazardous situation for the life or health of persons. ➔ The arrow identifies a precautionary measure designed to avert this danger. 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. 1.6.2.
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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. They are mandatory for the use of the product.
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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.
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DIB-500 R4.1 Notes on the document Support information 20 Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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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 operation of the product is subject to the statutory provisions of the respective country, in which the product is used. For the operation, the required operating licences must be requested from the responsible local authorities.
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DIB-500 R4.1 Safety regulations Safety instructions and declaration of conformity The general instructions on safety and accident prevention are documented in the Accident Prevention Guideline "General Regulations" (BGV A1)1) . For work performed on electrical installations, the Accident Prevention Regulations (BGV A3) "Electrical Installations" must be heeded.
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DIB-500 R4.1 Safety regulations Intended use 2.1.2 Safety instructions and declaration of conformity for North America The product complies with the requirements of the Federal Communications Commission (FCC). This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: | This device may not cause harmful interference, and | this device must accept any interference received, including interference that may cause undesired operation.
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DIB-500 R4.1 Safety regulations Safety measures The operator of the product is responsible for damage to the product or damage caused by the product if the product was used beyond the intended application range and/or was not used as intended. 2.3 Safety measures All the regulations listed in the following must be adhered to without fail: | If extension cables or multiple socket outlets are used, make sure that they are inspected for proper condition periodically.
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DIB-500 R4.1 Safety regulations Safety measures Depending on the tasks to be performed, the following user groups are distinguished: | | operators, who – operate the product. – monitor, interrupt, terminate and restore the operation of the product. Service personnel: persons, who perform the following additional tasks as compared to operators – – – – Set up the product. Prepare and restore the operational state. Adjust and/or parameterize the product. Maintain, look after and repair the product. 2.3.
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DIB-500 R4.1 Safety regulations Safety measures For compliance with the electromagnetic radiation and the limit values with regard to the safety of the general population in high-frequency fields, the document "RF Exposure" must always be observed. For the proper operation of the product, the limit values specified in the document "RF Exposure" must always be complied with. For this purpose, site-specific calculations by the network operator may be required. 2.3.
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DIB-500 R4.1 Safety regulations Safety Markings The ElektroG Act combines the requirements of the following EC directives: | 2002/96/EC (WEEE) for electric and electronic equipment wastes | 2002/95/EC of the European Parliament and of the Council of 27 January 2003 on the restriction of the use of certain hazardous substances in electrical and electronic equipment (RoHS directive). The respective products are marked with the attached symbol according to EN 50419, refer to Figure 2.2. Figure 2.
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DIB-500 R4.1 Safety regulations Safety Markings Transport inspection using impact indicators To check whether a product was properly transported, the transport boxes are fitted with impact indicators. The impact indicator shows strong impacts or shocks that occurred due to an improper transport.
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DIB-500 R4.1 Safety regulations Safety Markings The safety marking "Transport Upright" points to the cover of the transport box. Transport boxes with this marking must always be transported with the cover at the top. Figure 2.4 Safety marking "Transport Upright" | Safety marking "Keep dry" The safety marking "Keep dry" points to the necessary protection of the product against wetness (e.g.
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DIB-500 R4.1 Safety regulations Safety Markings 30 Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Product description 3 Product description The Digital Indoor Base Station (DIB-500 R4.1) is used as a base station in ACCESSNET®-T IP networks. The base station is responsible for radio coverage in a defined radio coverage area. For this purpose, up to eight carriers are available depending on the antenna coupling variant.
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DIB-500 R4.1 Product description Figure 3.1 shows the front view of the DIB-500 R4.1 with four carriers. The following table describes the components in greater detail. 1 2 3 3 4 5 Figure 3.1 DIB-500 R4.1 (front view) Table 3.1 No. 1 Legend: DIB-500 R4.1 (front view) Component Voltage supply and alarming system (optional), consisting of Described in refer to section 3.1.1 on page 34 1 refer to section 3.1.
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DIB-500 R4.1 Product description Table 3.1 Legend: DIB-500 R4.1 (front view) No. 3 Component TIB transceiver module (TETRA Indoor Base) Number 1-2 4 Antenna Coupling System (ACS) 1 5 Fan unit 1-2 Described in refer to section 3.1.5 on page 34 refer to section 3.1.6 on page 54 refer to section 3.1.7 on page 57 Figure 3.2 shows the top view of DIB-500 R4.1. The following table describes the components in greater detail. 1 2 3 4 5 6 7 Figure 3.2 DIB-500 R4.
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DIB-500 R4.1 Product description Constituents 3.1 Constituents The DIB-500 R4.1 consists of the following hardware components: | Voltage supply and alarming system | E1 connection board | Redundancy package with LAN Routing Unit (LRU) | On/off switch | TIB transceiver module (TETRA Indoor Base) | Antenna Coupling System (ACS) | Fan unit | Cavity coupler (only for the Cavity variant) 3.1.1 Voltage supply and alarming system The DIB-500 R4.1 is operated with 48 VDC in the standard version.
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DIB-500 R4.1 Product description Constituents 3.1.1.1 Terminal block The terminal block provides terminals for connecting the VDC voltage supply and distributes the internal VDC supply in the equipment rack. Each equipment rack (except for the Cavity variant of the Cavity equipment rack) features a separate terminal block. Voltage supply connector for VAC voltage supply For the VAC voltage supply, the voltage supply connector is implemented via the optional VAC voltage supply unit, see section 3.1.1.
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DIB-500 R4.1 Product description Constituents Figure 3.4 shows the top view of the terminal block in a simplified representation. The following table describes the terminals in more detail that are required for connecting a VDC voltage supply and top hat rail power supply unit of the redundancy package. 1 2 3 4 5 7 6 Figure 3.4 Terminal block Table 3.4 No. 1 2 3 4 5 6 7 3.1.1.
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DIB-500 R4.1 Product description Constituents Figure 3.5 shows the front view of a VAC voltage supply unit, which provides two rectifier modules, as an example. The following table describes the components in greater detail. PSU1 1 PSU2 2 2 3 Figure 3.5 VAC voltage supply unit (front view) Table 3.6 No. 1 2 3 3.1.1.
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DIB-500 R4.1 Product description Constituents 3.1.1.4 SC200 – optional (VAC or alarm system expansion) The SC200 is a hardware component and used for monitoring the voltage supply and for alarm signalling and is installed in the mounting frame. Through the SC200, external alarms can be collected via the freely-configurable, digital, alarm inputs of the alarm input / output module and reported via the Network Management System.
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DIB-500 R4.1 Product description Constituents Table 3.9 Legend: System controller display window No. 1 2 Constituent Bus voltage Rectifier Current 3 Alarms Description The voltage of the equipment rack Output current of the rectifier module (with VAC-voltage supply only) Area for displaying alarms Table 3.10 provides an overview of the possible alarm states and the corresponding alarm indicators. The visual indicators are shown on the display window of the system controller. Table 3.
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DIB-500 R4.1 Product description Constituents 3.1.1.5 Alarm input/output module – optional (VAC or alarm system expansion) The alarm input/output module is a hardware component that provides the alarm contacts for the digital alarm inputs/outputs. The alarm input/output module also features alarm contacts for connecting external hardware components. Figure 3.10 shows the alarm input/output module. The following table describes the components in greater detail. 1 2 Figure 3.
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DIB-500 R4.1 Product description Constituents Figure 3.11 shows the front view of a rectifier module. The following table describes these indicators in detail. 1 2 3 4 Figure 3.11 Rectifier module (front view) Table 3.13 Legend: front view of rectifier module No. 1 2 3 4 Constituent "Major Alarm" LED "Minor Alarm" LED LED "Power" Mounting screw Description LED for signalling major alarms. LED for signalling "minor" alarms. LED for signalling of the voltage supply. --- 3.1.
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DIB-500 R4.1 Product description Constituents Table 3.14 Legend: E1 connection board (top view) No. 4 5 6 7 8 9 10 Description "PPS" connection (pulses per second) for clock synchronisation of DIB-500 R4.
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DIB-500 R4.1 Product description Constituents Figure 3.14 shows the front view of the LRU, including top hat rail power supply unit. The following table describes these indicators in detail. Figure 3.14 LRU, including top hat rail power supply unit (top view) Table 3.
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DIB-500 R4.1 Product description Constituents Table 3.17 Legend: On/Off switches No. 1 2 Description On/Off switches for the first TIB transceiver module and the corresponding fan On/Off switches for the second TIB transceiver module and the corresponding fan Voltage supply of the ACS The antenna coupling system (ACS) is supplied with voltage via the installed TIB transceiver modules.
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DIB-500 R4.1 Product description Constituents 3.1.5 TIB transceiver module (TETRA Indoor Base) The TETRA Indoor Base transceiver module (TIB) is a hardware component. The TIB has been implemented in the form of a subrack for the equipment rack and provides a maximum of two carriers for the radio coverage to and from the mobile stations within an ACCESSNET®-T IP network. Figure 3.16 shows the front view of the TIB. The following table describes these indicators in detail.
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DIB-500 R4.1 Product description Constituents Table 3.19 Legend: TIB (front view) No. 7 8 9/10 11 12 13 14 Supply RxD (Carrier A) Tx (Carrier A) Power LED (LH side) Alive LED (RH side) Ethernet ports Service E1 GPS Description Rx receiver input carrier A (Diversity) Tx transmitter output carrier A Voltage supply status indicator Operation status indicator Described in Table 3.20 on page 46 Serial service interface E1 interface to E1 connection board of the DIB-500 R4.1 GPS antenna connector Figure 3.
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DIB-500 R4.1 Product description Constituents Figure 3.18 shows the indicators of the TIB. The following table describes these indicators in detail. 1 2 Figure 3.18 TIB indicators Table 3.21 Legend: Indicators (LEDs) of the TIB No. 1 2 3.1.5.
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DIB-500 R4.1 Product description Constituents Table 3.
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DIB-500 R4.1 Product description Constituents 3.1.5.2 Overview of possible functions In the ACCESSNET®-T IP, the available services and performance features are combined in form of so-called functional units. These functional units available for the present product are described in the following sections. Depending on the respective network configuration, the DIB-500 R4.
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DIB-500 R4.1 Product description Constituents Application Gateway (AGW) The Application Gateway (AGW) facilitates the communication between the ACCESSNET®-T IP network and applications that use the services of the TETRA system such as dispatchers, positioning systems (AVL, GIS), voice and data recording as well as SCADA or SMART-Metering applications.
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DIB-500 R4.1 Product description Constituents Processing Unit Controller (PUC) The Processing Unit Controller (PUC) is a software component and serves for commissioning, configuring, controlling and monitoring the integrated hardware components of the TIB. The PUC makes the resulting data available to the Network Management System via an SNMP agent. The PUC is also responsible for the signalling between the transceivers and the TETRA Operation Server (TOS).
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DIB-500 R4.1 Product description Constituents IP Switch (IPS) The IP Switch (IPS) is a software component. It serves for distributing TETRA voice data between software components and to external applications (optional) and is thus a central control component of the network element. The TETRA voice data are received in the form of IP data packages. The received IP data packages information facilitating the routing of the IP data packages in addition to the TETRA voice data.
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DIB-500 R4.1 Product description Constituents TETRA Application Platform (TAP) The TETRA Application Platform (TAP) is a software component and acts as the gateway between applications and the ACCESSNET®-T IP. The TAP is responsible for logging in/authenticating the relevant applications and connecting them to the wireless network. Applications can be integrated into the TAP via the ACCESSNET®T Common Application Programming Interface (A-CAPI).
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DIB-500 R4.1 Product description Constituents 3.1.5.6 Power supply The voltage supply (Power Supply) is a hardware component and provides the voltage supply for the TIB. 3.1.5.7 Receiver/transmitter unit (transceiver) A carrier is a hardware component consisting of a transmitter, a receiver and a TETRA protocol coder/decoder. Carriers are available in different frequency ranges as required. Up to two carriers can be installed in one TIB.
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DIB-500 R4.1 Product description Constituents | High power variant | – up to two carriers per network element, – Higher transmitting power than hybrid and cavity variants FlexibleTx variant – – – – only equipped with Rx path up to four carriers per network element, high flexibility due to the use of project-specific antenna coupling systems site-specific provision by the network operator Antenna diversity is available for optimal reception properties.
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DIB-500 R4.1 Product description Constituents Figure 3.20 shows the front view of the ACS. The following table describes the components in greater detail. 9 1 10 11 12 2 3 4 13 14 5 15 6 16 7 8 Figure 3.20 ACS (front view) Table 3.24 Legend: ACS (front view) 56 No.
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DIB-500 R4.1 Product description Constituents Table 3.24 Legend: ACS (front view) No.
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DIB-500 R4.1 Product description Constituents 3.1.8 Cavity coupler (only for the Cavity variant) The cavity coupler is a hardware component and used for lossless coupling of two to four radio channels on one transmitting antenna. Cavity couplers are available in the cavity variant of the DIB-500 R4.1 in a separate equipment rack which can accommodate up to four cavity couplers. One cavity coupler is available for each carrier. The size of the cavity couplers depends on the frequency used, e.g.
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DIB-500 R4.1 Product description Constituents Table 3.26 Legend: DIB-500 R4.1 cavity variant with four cavity couplers for frequencies < 486 MHz (front view) No. 1 2 3 4 5 6 Designation Cavity coupler A Cavity coupler B Insulator for cavity coupler B Star distributor Cavity coupler C Cavity coupler D Figure 3.23 shows the DIB-500 R4.1 in the cavity variant for frequencies > 806 MHz. The four cavity couplers are installed in a separate equipment rack.
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DIB-500 R4.1 Product description Constituents Table 3.27 Legend: DIB-500 R4.1 cavity variant with four cavity couplers for frequencies > 806 MHz (front view) No. 1 2 3 4 5 6 Designation Cavity coupler A Cavity coupler B Insulator for cavity coupler B Star distributor Cavity coupler C Cavity coupler D 3.1.9 Redundancy options for the DIB-500 R4.
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DIB-500 R4.1 Product description Constituents The main control channel can be configured redundantly on any available carrier. If the carrier that provided the main control channel last drops out, an alternative carrier will take on this task. In this case, the replacement carrier will continue to send on its original frequency, not on that of the failed carrier.
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DIB-500 R4.1 Product description Constituents 3.1.9.5 Fallback operation The radio coverage of base stations is also ensured if the base station loses the connection to an IP node (IPN) with Switching Controller Function (SCF). In this case, the base station changes to fallback operation. In fallback operation, the base station in its radio cell still maintains the Base Station Function (BSF).
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DIB-500 R4.1 Product description Interfaces 3.1.9.7 Redundancy by means of overlapping radio coverage Especially in critical radio coverage zones, radio coverage can be ensured by employing two redundant base stations to compensate for the failure of one base station in exceptional circumstances. In this case, the entire traffic load handled by only one base station; for this reason, the base stations must be dimensioned appropriately.
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DIB-500 R4.1 Product description Wiring diagrams Table 3.28 Interfaces DIB-500 R4.1 Specification for air interface in compliance with: Test of the air interface in compliance with: Electromagnetic compatibility EN 300 392-2 (TETRA V+D) V2.5.1 EN 300 394-1 (TETRA Conformance testing specification) V2.3.1 | | ETSI EN 301 489-1 V 1.8.
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DIB-500 R4.1 Product description Wiring diagrams Table 3.29 Internal wiring diagrams DIB-500 R4.
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DIB-500 R4.1 Product description Wiring diagrams 3.3.1.1 Internal wiring of the hybrid variant – two carriers Figure 3.24 shows the internal wiring of the DIB-500 R4.1 in the hybrid variant with two carriers. Upon delivery, the connections have already been wired ex works. Figure 3.24 Wiring diagram of DIB-500 R4.1 – hybrid-variant with two carriers (diversity) 66 Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Product description Wiring diagrams 3.3.1.2 Internal wiring of the hybrid variant – four carriers Figure 3.25 shows the internal wiring of the DIB-500 R4.1 in the hybrid variant with four carriers. Upon delivery, the connections have already been wired ex works. Figure 3.25 Wiring diagram DIB-500 R4.1 – hybrid variant with four carriers (diversity) Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Product description Wiring diagrams 3.3.1.3 Hybrid variant – eight carriers Two equipment racks installed next to each other are used for the hybrid variant as of five carriers. The internal wiring within an equipment rack corresponds to the wiring of the hybrid variant with four carriers, see section 3.3.1.2 on page 67. Cable labeling for the connection of two equipment racks For variants with more than four carriers, the corresponding connecting cables are supplied.
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DIB-500 R4.1 Product description Wiring diagrams 5 Equipment rack A 3 4 Equipment rack B 1 2 Figure 3.26 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. Figure 3.26 Wiring diagram DIB-500 R4.1 – hybrid variant with eight carriers (diversity) Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Product description Wiring diagrams Table 3.31 Legend: Wiring diagram DIB-500 R4.1 – hybrid variant with eight carriers (diversity) No.
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DIB-500 R4.1 Product description Wiring diagrams 7 Equipment rack A 1 2 5 6 Equipment rack B 3 4 Figure 3.27 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. Figure 3.27 Wiring diagram DIB-500 R4.1 – Hybrid variant with eight carriers and redundancy package (diversity) Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Product description Wiring diagrams Table 3.32 Legend: Wiring diagram DIB-500 R4.1 – Hybrid variant with eight carriers and redundancy package (diversity) No. Connection from To hardware component Cable labeling 1 TIB A (LAN 3) LRU (P5) for connecting the TIB D (ring connection) installed in a second equipment racks. LAN1) 2 3 4 5 6 7 LRU (P6) Alternatively, TIB A and TIB D can be directly connected (series connection).
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DIB-500 R4.1 Product description Wiring diagrams 3.3.2.1 Internal wiring of the cavity variant – two carriers Figure 3.28 shows the wiring of the equipment rack of the DIB-500 R4.1 to the cavity equipment rack with two carriers. The following table describes these indicators in detail. Upon delivery, the connections have already been wired ex works. 1 2 3 Figure 3.28 Wiring diagram of DIB-500 R4.1 – cavity variant with two carriers (diversity) Table 3.34 Legend: Wiring diagram DIB-500 R4.
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DIB-500 R4.1 Product description Wiring diagrams 3.3.2.2 Internal wiring of the cavity variant – four carriers Figure 3.29 shows the wiring of the equipment rack of the DIB-500 R4.1 to the cavity equipment rack with four carriers. The following table describes these indicators in detail. Upon delivery, the connections have already been wired ex works. 1 2 3 4 5 Figure 3.29 Wiring diagram of DIB-500 R4.1 – cavity variant with four carriers (diversity) Table 3.35 Legend: Wiring diagram DIB-500 R4.
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DIB-500 R4.1 Product description Wiring diagrams 3.3.2.3 Internal wiring of the cavity variant – eight carriers Two equipment cabinets installed next to each other are used for the cavity variant as of five carriers. Apart from the wiring between the equipment cabinets A and B, the wiring in each case corresponds to that of the cavity variant with four carriers, refer to section 3.3.2.2 on page 74.
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DIB-500 R4.1 Product description Wiring diagrams 3.3.2.4 Wiring of cavity equipment rack The wiring between the cavity equipment rack and the equipment rack of the DIB-500 R4.1 is identical in all variants and, for this reason, is done independently of the installed cavity couplers and the frequency used. Figure 3.30 shows the wiring of the cavity equipment rack to the equipment rack of the DIB-500 R4.1 with four carriers in a schematic representation.
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DIB-500 R4.1 Product description Wiring diagrams 3.3.3 Internal wiring of the high power variant The following sections describe the wiring diagrams of the high power variant. Wiring of variants with two carriers The wiring is identical for the hybrid and high power variants with two carriers. Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Product description Wiring diagrams 3.3.3.1 Internal wiring of the high power variant – one carrier Figure 3.31 shows the internal wiring of the DIB-500 R4.1 in the high power variant with one carrier. Upon delivery, the connections have already been wired ex works. Figure 3.31 Wiring diagram DIB-500 R4.1 – High power variant with one carrier (diversity) 78 Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Product description Wiring diagrams 3.3.3.2 Internal wiring of high power variant – two carriers Figure 3.32 shows the internal wiring of the DIB-500 R4.1 in the high power variant with two carriers. Upon delivery, the connections have already been wired ex works. Figure 3.32 Wiring diagram of DIB-500 R4.1 – high power variant with two carriers (diversity) Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Product description Wiring diagrams 3.3.4 Internal wiring for FlexibleTx variant The following sections contains a description of the wiring diagrams for the FlexibleTx variant. Wiring diagram for external antenna coupling system The wiring diagram for the connection of external antenna coupling systems is available in the section 5.10.2 on page 121. 80 Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Product description Wiring diagrams 3.3.4.1 Internal wiring of FlexibleTx variant – two carriers Figure 3.32 shows the internal wiring of the DIB-500 R4.1 in the FlexibleTx variant with two carriers. Upon delivery, the connections have already been wired ex works. Figure 3.33 Wiring diagram DIB-500 R4.1 – FlexibleTx variant with two carriers (Diversity) Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Product description Wiring diagrams 3.3.4.2 Internal wiring for FlexibleTx variant – Four carriers Figure 3.34 shows the internal wiring of the DIB-500 R4.1 in the FlexibleTx variant with two carriers. Upon delivery, the connections have already been wired ex works. Figure 3.34 Wiring diagram DIB-500 R4.1 – FlexibleTx variant with four carriers (Diversity) 82 Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Product description Scope of delivery 3.4 Scope of delivery 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. If there are more than four carriers, they are delivered in two 19" equipment racks. The height of the equipment rack(s) will increase by 12 rack units each for the cavity variants. The variants of the DIB-500 R4.
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DIB-500 R4.1 Product description Scope of delivery 84 Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Transport and storage Safety measures and prerequisites 4 Transport and storage This chapter describes the transport and storage of the DIB-500 R4.1 product. The safety measures to be followed and prerequisites for the corresponding activities are described in section 4.1 on page 85. The required tools, auxiliaries and materials are described in section 4.2 on page 86. 4.
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DIB-500 R4.1 Transport and storage Tools, aids and materials 4.2 Tools, aids and materials Table 4.2 provides an overview of the tools, auxiliaries and materials required for the steps in this chapter. Table 4.2 Overview of tools, auxiliaries and materials (Transport and storage) Tools, aids | Transport/lifting devices, e.g.
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DIB-500 R4.1 Transport and storage Transporting the equipment rack Carry out the following steps: Risk of injury Injuries could occur due to the heavy weight of the equipment rack during lifting. In addition, it could fall down during lifting. ➔ Lift the equipment rack evenly. ➔ If necessary, ask an additional person to assist during lifting. 1. Lift the equipment rack evenly with two persons so that a third person can position the pallet centered under the equipment rack.
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DIB-500 R4.1 Transport and storage Storage 4.4 Storage The product must be stored in closed rooms that are dry and weatherproof. In addition, this room must meet the required ambient conditions, refer to Table 4.1 on page 85. 88 Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Setup and commissioning 5 Setup and commissioning This chapter describes the setup and commissioning of the DIB-500 R4.1 product. The safety measures to be followed and prerequisites for the corresponding tasks are described in section 5.1 on page 90. The required tools, auxiliaries and materials are described in section 5.2 on page 90. The tasks listed in the following table must be performed for setting up the DIB-500 R4.1. Table 5.
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DIB-500 R4.1 Setup and commissioning Safety measures and prerequisites Table 5.1 Overview of the tasks to be performed (Setup and commissioning) Tasks/work steps Connecting external alarms – optional, with VAC or alerting expansion Removing the top cover of the equipment rack Connecting external alarms Mounting the top cover of the mounting frame Mounting the top cover of the equipment rack Switching on the voltage source Switching on the DIB-500 R4.1 Described in Section 5.12.
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DIB-500 R4.1 Setup and commissioning Tools, aids and materials Table 5.2 Overview of tools, aids and materials (setup and commissioning) Work step Installing equipment racks Removing the top cover of the mounting frame Assembly of the redundancy package – optional Connecting the equipment racks A and B Connection to the electrical system Tools, aids | Transport/lifting devices, e.g.
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DIB-500 R4.1 Setup and commissioning Installing equipment racks 5.3 Installing equipment racks Depending on the variant, the DIB-500 R4.1 consists of several equipment racks upon delivery. Upon delivery, equipment racks have already been wired ex works. The equipment racks may be freestanding or they may be placed against the wall with the rear or with either side. If multiple equipment racks of the same type are used in the operation room, these may also be positioned next to each other.
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DIB-500 R4.1 Setup and commissioning Installing equipment racks ✓ ✓ ✓ ✓ ✓ At least two people are required to set up the equipment rack. You need suitable means of transportation, e.g. a lift truck. During transport, observe the notes and procedures in chapter 4 on page 85. The equipment rack must have been unpacked. The equipment rack must be bolted to the pallet. Carry out the following steps: Risk of damage from tipping over The equipment rack may tip over during transportation, resulting in damage.
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DIB-500 R4.1 Setup and commissioning Removing the top cover of the mounting frame 5.4 Removing the top cover of the mounting frame To perform work in the equipment rack, the top cover of the equipment rack has to be removed. Removing the transportation lock – optional, only for VAC or alarm system expansion Upon delivery, a transportation lock is installed between the mounting frame and the upper cover of the equipment rack, retained by the upper cover of the equipment rack.
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DIB-500 R4.1 Setup and commissioning Connecting equipment racks (as of 5 carriers) 2. Loosen the mounting screws of the equipment rack top cover using a coin, refer to Figure 5.3. Figure 5.3 Equipment rack top cover - mounting screws Damage of the earthing connection The grounding connection may be damaged if you remove the equipment rack top cover without removing the grounding cable connected on the inside of the cover. ➔ Cautiously lift the top cover of the equipment rack.
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DIB-500 R4.1 Setup and commissioning Connecting equipment racks (as of 5 carriers) 5.5.1 Assembly of the redundancy package – optional The redundancy package is not installed upon delivery in order to avoid transport damages. The DIB-500 R4.1 features a top hat rail so that the LRU and the corresponding top hat rail power supply unit can be installed by snapping it in with a click mechanism on this top hat rail in the first equipment rack (A). Figure 5.
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DIB-500 R4.1 Setup and commissioning Connecting equipment racks (as of 5 carriers) 5.5.1.1 Installing the left top hat rail end bracket To prevent components on the top-hat rail from shifting, top-hat rail end brackets must be installed. Before the components are mounted on the top hat rail, a top hat rail end bracket must be installed on the left-hand end of the top hat rail, refer to Figure 5.5. Figure 5.
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DIB-500 R4.1 Setup and commissioning Connecting equipment racks (as of 5 carriers) 5.5.1.2 Establishing the voltage supply of the LRU The tasks listed in the following table must be performed for establishing the voltage supply of the LRU. Table 5.
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DIB-500 R4.1 Setup and commissioning Connecting equipment racks (as of 5 carriers) Connecting the voltage supply of the top hat rail power supply unit Connecting the voltage supply of the top hat rail power supply unit is done directly via the terminal block. Figure 5.7 shows the terminal block to which the wires of one of the power supply cables must be connected. The following table describes these indicators in detail. 1 2 Figure 5.7 Terminals of the terminal block Table 5.8 No.
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DIB-500 R4.1 Setup and commissioning 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. Figure 5.8 shows the terminals of the top hat rail power supply unit to which the power supply cables must be connected. The following table describes these indicators in detail. 1 2 4 3 Figure 5.
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DIB-500 R4.1 Setup and commissioning 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 Figure 5.8 on page 100. Use a size 0.8 x 2.5 flat-bladed screwdriver for this purpose. Risk of injury The equipment rack features sharp edges on the inside.
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DIB-500 R4.1 Setup and commissioning Connecting equipment racks (as of 5 carriers) 5.5.1.3 Inserting the LRU The LRU must be connected to the top hat rail. First, the power supply cable to the top hat rail power supply unit must be connected. Figure 5.10 shows the voltage supply connection of the LRU. The following table describes it in detail. 1 2 Figure 5.10 Voltage supply connection of the LRU Table 5.10 Legend: Voltage supply connection of the LRU No.
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DIB-500 R4.1 Setup and commissioning Connecting equipment racks (as of 5 carriers) Carry out the following steps: Risk of injury The equipment rack features sharp edges on the inside. Risk of injury if you do not wear protective gloves. ➔ Always wear protective gloves for the following process steps. Risk of electric shock Electric shock when touching live parts. Hardware components in the equipment cabinet are live.
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DIB-500 R4.1 Setup and commissioning Connecting equipment racks (as of 5 carriers) ✓ The power supply cables must have been connected to the top hat rail power supply unit. ✓ The LRU must be installed. Carry out the following steps: Risk of damage The connected wires of the voltage supply cables connected to the top hat rail power supply unit may be torn out of the terminals. ➔ Proceed with caution when installing the top hat rail power supply unit.
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DIB-500 R4.1 Setup and commissioning Connecting equipment racks (as of 5 carriers) 5.5.1.5 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 5.13. Figure 5.
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DIB-500 R4.1 Setup and commissioning Connecting equipment racks (as of 5 carriers) Table 5.11 Connecting equipment racks – required connections Connection TIB transceiver modules (cabinet A and B) – via Ethernet via TIB via TIB and LRU (optional, redundancy package) GPS synchronisation – via PPS Rx antennas (with diversity) Description The TIB transceiver modules are chained via Ethernet. The connection is made from the first to the second and from the second to the third TIB transceiver module, etc.
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DIB-500 R4.1 Setup and commissioning Connection to the electrical system 5.6 Connection to the electrical system The following section describes the procedure for performing the electrical connection of the product properly. Defining the reference potential For the electrical connection of the DIB-500 R4.1, it is necessary to define the reference potential and connect an earthing cable accordingly, see section 5.6.2 on page 108.
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DIB-500 R4.1 Setup and commissioning Connection to the electrical system ✓ You need a green-yellow earthing cable that is already connected to the earthing system. ✓ The equipment rack must be accessible from above. ✓ The upper cover of the equipment rack must have been removed, refer to section 5.4 on page 94. Carry out the following steps: 1. Loosen the outer nut of the earth connection on the equipment rack using the 13mm ring spanner. 2. Remove the spring washer and the plain washer.
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DIB-500 R4.1 Setup and commissioning Connection to the electrical system Carry out the following steps: Risk of short circuit. The product may be damaged if the live wires of the voltage supply cable are connected without grounding. In addition, an incorrectly connected earthing cable can cause a short circuit, e.g. if the voltage source requires grounding on the positive terminal, the earthing cable, however, is connected to the terminal marked with "-".
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DIB-500 R4.1 Setup and commissioning Connection to the electrical system 5.6.3 Connecting the voltage supply The procedure for connecting the voltage supply cable differs depending on the type of voltage supply (VDC, optional VAC). Risk of damage Connecting VAC and VDC power supply cables at the same time can damage the DIB-500 R4.1. ➔ Never connect the VAC and VDC voltage supply cables at the same time. ➔ The connection must be made by an electrician.
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DIB-500 R4.1 Setup and commissioning Connection to the electrical system Risk of short circuit. The product may be damaged if the live wires of the voltage supply cable are connected without grounding. In addition, an incorrectly connected earthing cable can cause a short circuit, e.g. if the voltage source requires grounding on the positive terminal, the earthing cable, however, is connected to the terminal marked with "-".
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DIB-500 R4.1 Setup and commissioning Connection to the electrical system 5.6.3.2 Connecting the VAC voltage supply – optional The DIB-500 R4.1 with VAC expansion (optional) provides a power supply cable via the equipment rack for each rectifier module. Rectifier modules are already connected to the mounting frame and can be connected to the voltage source on site. With a VAC voltage supply (optional), the DIB-500 R4.
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DIB-500 R4.1 Setup and commissioning Connecting Ethernet cables ✓ ✓ ✓ ✓ The voltage source on site must be de-energised. The toggle switches must be set to the "Off" position ("downward" switch position). The top cover of the equipment rack must have been removed. Depending on the connection variant, the plug with earthing contact may have to be removed already. ✓ The reference potential must have been defined.
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DIB-500 R4.1 Setup and commissioning Installing the GPS antenna Requirements for the layer-3 switch for controller redundancy For controller redundancy (see section 3.1.9.3 on page 61), it is required that the layer3 switch supports the Multiple Spanning Tree Protocol (MSTP) in accordance with IEEE 802.1Q2. If network elements must be connected to a layer-3 switch, it is required that the configuration of the layer-3 switch has been completed.
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DIB-500 R4.1 Setup and commissioning Installing the GPS antenna Figure 5.18 shows an example of installing the GPS antenna supplied. Figure 5.
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DIB-500 R4.1 Setup and commissioning Installing the GPS antenna Proceed as follows to install the GPS antenna: Preparation: ✓ The site must be prepared in compliance with the document "Site Requirements". ✓ The tools, auxiliary means and materials specified must be available, refer to section 5.2 on page 90. ✓ The antenna mounting kit including the GPS antenna supplied must be available. Carry out the following steps: 1.
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DIB-500 R4.1 Setup and commissioning Installing the GPS protector - optional Cable damage If cables are routed over sharp edges or in bending radiuses too small for the cables, the cables may be damaged. ➔ Never route cables over sharp edges and always maintain to the bending radius. 5. Connect the cable of the GPS antenna to the corresponding connector on the bottom of the GPS antenna, refer to Figure 5.20. Figure 5.
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DIB-500 R4.1 Setup and commissioning Installing the GPS protector - optional GPS overvoltage concept When using the GPS protector, the GPS supply lines at the entry into the building should be safeguarded against high overvoltages by a grounded lightning surge protector. The GPS protector is a passive and thus maintenance-free hardware component mounted on the GPS antenna connection of the equipment rack.
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DIB-500 R4.1 Setup and commissioning Connecting antennas 5.10 Connecting antennas The following sections contains a description of the wiring diagrams for the FlexibleTx variant. | Connecting antennas (GPS and TETRA) | Connection of external antenna coupling systems – Optionally, only FlexibleTx variant 5.10.1 Connecting antennas (GPS and TETRA) Each equipment cabinet features three antenna connectors – two for TETRA antennas (A and B) and one GPS antenna connector.
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DIB-500 R4.1 Setup and commissioning Connecting antennas ✓ The equipment rack must be connected to the grounding system. ✓ Appropriate antenna cables of the required lengths must be available. ✓ The toggle switches must be set to the "Off" position ("downward" switch position). Carry out the following steps: Cable-specific tools and process steps The required tools and process steps depend on the antenna cable used and the related connector.
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DIB-500 R4.1 Setup and commissioning Connecting antennas 5.10.2 Connection of external antenna coupling systems – Optionally, only FlexibleTx variant In the FlexibleTx variant, antenna coupling was performed project-specifically according to the desires and requirements of the network operator via external antenna coupling systems. In this way, the DIB-500 R4.1, e.g. can be connected to existing antenna coupling systems. Requirements for external antenna coupling systems.
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DIB-500 R4.1 Setup and commissioning Connecting antennas Connect external antenna coupling system Preparation: ✓ The site must be prepared in compliance with the document "Site Requirements". ✓ The equipment rack must be connected to the grounding system. ✓ Appropriate antenna cables of the required lengths must be available. ✓ The toggle switches must be set to the "Off" position ("downward" switch position).
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DIB-500 R4.1 Setup and commissioning Connecting external alarm sensors (LSA+) 5.11 Connecting external alarm sensors (LSA+) The DIB-500 R4.1 features two alarm inputs that are connected via the "Alarm in" LSA+ strip on the E1 connection board. The assignment of the alarm inputs is controlled project-specifically. 2 1 Figure 5.24 Alarm inputs (LSA+) Proceed as follows to connect external alarm sensors: Preparation: ✓ The connecting cables provided must comply with the "Site requirements" document.
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DIB-500 R4.1 Setup and commissioning Connecting external alarms – optional, with VAC or alerting expansion Figure 5.25 shows the alarm inputs/outputs of the alarm input/outputs of the alarm input/ output module. The following table describes these indicators in detail. 1 2 Figure 5.25 Alarm input/output module – alarm inputs/outputs Table 5.15 Legend: Alarm input/output module – alarm inputs/outputs No.
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DIB-500 R4.1 Setup and commissioning Connecting external alarms – optional, with VAC or alerting expansion The top cover of the mounting frame is secured with five mounting screws. Proceed as follows to remove the top cover of the mounting frame: Preparation: ✓ The voltage source on site must be de-energised. ✓ The toggle switches must be set to the "Off" position ("downward" switch position). ✓ The top cover of the equipment rack must have been removed.
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DIB-500 R4.1 Setup and commissioning Connecting external alarms – optional, with VAC or alerting expansion 5.12.2 Connecting external alarms Depending on the desired alarm signalling, external alarms can be connected to the terminals of the alarm inputs/outputs. For the alarm outputs you can influence, in which cases alarms are to be signalled. This is determined via the corresponding connection combinations of the terminals, refer to Figure 5.27. Figure 5.
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DIB-500 R4.1 Setup and commissioning Connecting external alarms – optional, with VAC or alerting expansion ✓ The top cover of the mounting frame must have been removed. ✓ The top cover of the equipment rack must have been removed. Carry out the following steps: Risk of electric shock 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.
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DIB-500 R4.1 Setup and commissioning Connecting external alarms – optional, with VAC or alerting expansion 4. Ensure that all the terminals of vacant alarm inputs are connected through alarm jumpers. 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 protected against tensile strain, e. g. by using cable ties.
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DIB-500 R4.1 Setup and commissioning Mounting the top cover of the equipment rack 5.13 Mounting the top cover of the equipment rack The top cover of the equipment rack must be mounted again for normal operation. Proceed as follows to mount the top cover of the equipment rack: Preparation: ✓ The tools, auxiliary means and materials specified must be available, refer to section 5.2 on page 90. ✓ You need the mounting screws you removed before. Carry out the following steps: 1.
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DIB-500 R4.1 Setup and commissioning Switching on the DIB-500 R4.1 To switch on the product, the connections must have been made properly and the voltage source at the installation site must have been switched on already. Switching on DIB-500 R4.1 Preparation: ✓ The equipment rack must be connected with the earthing system, see section 5.6.1 on page 107. ✓ The equipment rack must be connected to the voltage source at the location, see section 5.6.3 on page 110.
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DIB-500 R4.1 Configuration Configuring the software 6 Configuration The following chapter describes the procedure for the proper configuration of the product. The product is already configured upon delivery. After a component replacement or due to project-specific circumstances, it may still be necessary to perform configuration steps. The tasks listed in the following table must be performed for the configuration of the DIB-500 R4.1. Table 6.
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DIB-500 R4.1 Configuration Configuring the software Table 6.2 Overview of the tasks to be performed (Configuring the software) Tasks/work steps Deleting the ARP buffer Configuring and generating network configurations via the NMC-515 ConfigurationManager Creating the download repository Adapting IP addresses (with more than one transceiver module) Performing an initial download via NMC-522 DownloadManager Described in Section 6.1.3 on page 134 Section 6.1.4 on page 134 Section 6.1.
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DIB-500 R4.1 Configuration Configuring the software 6.1.2.1 Connecting the service computer to the TIB transceiver module In principle, the service computer can be connected to any open Ethernet interface of the TIB transceiver module.
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DIB-500 R4.1 Configuration Configuring the software 6.1.3 Deleting the ARP buffer The assignments of IP addresses to hardware addresses of network adapters (MAC address) are stored in the ARP (Address Resolution Protocol) buffer. To ensure the proper execution of the initial download and to be able to directly connect with hardware components, it is necessary to delete the ARP buffer on the respective service computer after every connection.
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DIB-500 R4.1 Configuration Configuring the software 6.1.5 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. The procedures for this purpose are described in corresponding documents, refer to Table 6.6. Table 6.
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DIB-500 R4.1 Configuration Configuring the software Adapting the IP address Preparation: ✓ According to the configured service computer, refer to the Configuration Manual "Service Computer for ACCESSNET®-T IP" ✓ The service computer must be connected to the corresponding component, see section 6.1.2.1 on page 133. Carry out the following steps: 1. Start "PuTTY" by double-clicking the executable file. ➥ The user interface of "PuTTY" will be displayed: Figure 6.2 "PuTTY" user interface 2.
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DIB-500 R4.1 Configuration Configuring the software Command "ifconfig.xxx" The "ifconfig.xxx" command opens the corresponding "ethX/Y" configuration file. "xxx" corresponds to the respective configuration file. The "ethX/Y" configuration files depend on the component. Thus, the commands listed below are possible: | MPU-550 and TIB/TOB (DIB-500 R3.2 and DIB-500 R4) | – eth1/1 contains the IP address for the initial download. This file must be configured accordingly.
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DIB-500 R4.1 Configuration Configuring the software 10. Enter the following command to delete the corresponding line: x 11. Enter the following command to insert a corresponding figure: I 12. Navigate to the end of the line with the arrow keys and enter the corresponding figure, see 135. 13. Enter the following command to change to the main menu: Esc 14. Enter the following command and confirm your entry with the Enter key: :wq ➥ The changes will be saved and the configuration file closed. 15.
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DIB-500 R4.1 Configuration Configuring the software Adapting the IP address Preparation: ✓ According to the configured service computer, refer to the Configuration Manual "Service Computer for ACCESSNET®-T IP" ✓ The service computer must be connected to the corresponding component, see section 6.1.2.1 on page 133. ✓ The IP address of the IntelPC must have been adapted already. ✓ The ARP buffer of the service computer must be deleted again, see section 6.1.3 on page 134. Carry out the following steps: 1.
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DIB-500 R4.1 Configuration Configuring the software 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 example: # ================================================================ # ACCESSNET-T Configuration File # # Network : cta # Description : cta # Package Version : 7.
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DIB-500 R4.1 Configuration Configuring the software 17. Enter the corresponding IP address of the IntelPC, refer to Table 6.8 on page 135. 18. Enter the following command to change to the main menu: Esc 19. Enter the following command and confirm your entry with the Enter key: :wq ➥ The changes will be saved and the configuration file closed. 20. Enter the following command to open the corresponding configuration file: vi /etc/exports ➥ The "exports" configuration file is opened.
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DIB-500 R4.1 Configuration Configuring the software :wq 28. Press the ENTER key to confirm your input. ➥ The changes will be saved and the configuration file closed. 29. Enter the following command to restart the hardware component: reboot ➥ The hardware component is restarted. Checking the IP addresses (optionally) If required, check the IP address by establishing an SSH connection via PuTTY.
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DIB-500 R4.1 Configuration Adjusting a cavity coupler – optional (cavity variant only) 6.2 Adjusting a cavity coupler – optional (cavity variant only) The cavity coupler must be matched to the set Tx frequency of the connected carrier. To be able to perform this setting, only the carrier to be measured in each case is activated to exclusively measure its power at the antenna output.
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DIB-500 R4.1 Configuration Adjusting a cavity coupler – optional (cavity variant only) 6.2.1 Tools and aids Table 6.12 provides an overview of tools and aids that are required for adjusting a cavity coupler. Table 6.
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DIB-500 R4.1 Configuration Adjusting a cavity coupler – optional (cavity variant only) BSC Command Shell tobs-ppc (Port: 5100) u 'puc_1'-BSC 10.32.36.17 (5100) >u ** Password OK User Level: 3 Command is okay p l -A sbue sbcc 02 01 'puc_1'-BSC 10.32.36.17(5100)>pl-A sbue sbcc 02 01 Appl Node No In Description Parameter value R ------------------------------------------------------SBUE SBCC 02 01 Transmit power of the carrier in mW 600 Command is okay 6.
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DIB-500 R4.1 Configuration Adjusting a cavity coupler – optional (cavity variant only) Take note of the status A carrier is enabled when the output for the corresponding carrier shows none . If the carrier has not been enabled, you have to repeat the command.. ✓ You have successfully set the output power. 6.2.3 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).
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DIB-500 R4.1 Configuration Adjusting a cavity coupler – optional (cavity variant only) Carry out the following steps: 1. Disable all the corresponding carriers with the command car shutdown x;x corresponds to carrier no. ➥ The following output is displayed: car shutdown 1'puc_1'-BSC 10.xx.xx.XX (5100) >car shutdown 1Command is okay 2. Use the command bsca la to verify whether the corresponding carriers are actually disabled.
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DIB-500 R4.1 Configuration Adjusting a cavity coupler – optional (cavity variant only) 5. Connect the antenna cable to the adapter of the measuring probe. Alternatively, connect a dummy load (50 Ω), refer to Figure 6.5. Antennna cable/dummy load Measuring equipment GPS Antenna connectors Figure 6.5 Connected measuring equipment 6. Switch on the appropriate measuring equipment and check the AVG (W) and SWR of the R&S NRT measuring equipment on the display. 7.
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DIB-500 R4.1 Configuration Adjusting a cavity coupler – optional (cavity variant only) 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 handwheel on the front of the corresponding cavity coupler again. 11. Disable the measured carrier again with the command car shutdown x, x corresponds to carrier no. 12.
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DIB-500 R4.1 Configuration Concluding tasks 6.3 Concluding tasks Once you have successfully completed the visual inspection via the SMT, you must restore the proper operational state of the product. Proceed as follows to restore the operating condition Preparation: ✓ The network element must have been put out of operation temporarily, refer to section 8.1 on page 163. ✓ The tools, auxiliary means and materials specified must be available, refer to section 6.1.1 on page 132.
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DIB-500 R4.1 Function tests and operating surveillance 7 Function tests and operating surveillance After all the tasks have been performed on the product that have effects on the product and/or its components, the proper operation of all the integrated network and hardware components should be tested. We recommend logging the results of the test. In addition, it is recommended to perform the tasks described in the following sections in regular intervals during the operation. Table 7.
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DIB-500 R4.1 Function tests and operating surveillance Work equipment for function tests 7.1 Work equipment for function tests Table 7.2 provides an overview of the work equipment required for the steps in this chapter. Table 7.
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DIB-500 R4.1 Function tests and operating surveillance Checking operating states 7.2.1 Checking operating statuses via the NMC-511 FaultManager To check the operating states via the NMC-511 FaultManager, a service computer that is configured accordingly or an NMC computer with installed NMC-511 FaultManager is required which is connected via remote operation using a Remote Desktop connection with the ACCESSNET®-T IP network.
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DIB-500 R4.1 Function tests and operating surveillance Checking operating states 7.2.3 Checking operating statuses via LEDs of the SC200 or rectifier modules – optional (only for VAC voltage supply) The proper operation of the voltage supply unit can be checked via the LEDs of the SC200 and the LEDs of the rectifier modules (if available) as well as in the display window of the SC200. Table 7.4 provides an overview of LED colours of voltage supply unit constituents and describes them in detail. Table 7.
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DIB-500 R4.1 Function tests and operating surveillance Checking the reachability of network elements 7.2.4 Checking operating states via SMT-500 The SMT (Service and Maintenance Tool) is a hardware component for checking the operating statuses of the installed transceiver modules.
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DIB-500 R4.1 Function tests and operating surveillance Checking voice channels 7.4 Checking voice channels The procedure for checking voice channels depends on the available carries of the DIB-500 R4.1. The following work steps are required for checking voice channels: | Checking the voice channel (two carriers) | Checking the voice channel (more than two carriers) 7.4.
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DIB-500 R4.1 Function tests and operating surveillance Checking voice channels p s lnsw slsw 10 04 00 p s lnsw slsw 10 03 00 p s lnsw slsw 10 02 00 11. 12. 13. 14. Re-establish voice communication using the two radio sets. Check whether both the radio sets can send and receive voice transmissions. Terminate the voice communication. Enter the following command to enable the voice channels that you disabled before: p s lnsw slsw 10 xx 17 xx corresponds to the voice channel on the respective carrier 15.
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DIB-500 R4.1 Function tests and operating surveillance Checking standby carriers – optional 7. Enter the following command to disable the fourth carrier: bsce block 4 8. Establish voice communication using the two radio sets. ➥ The voice communication setup is denied because there are no voice channels available. ➥ The functionality of the voice channels has thus been proven. 9. Re-enable the voice channels that you disabled before.
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DIB-500 R4.1 Function tests and operating surveillance Function tests and operating surveillance GPS 3. Unblock any blocked operational carriers after at least 5 minutes with the System release maintenance function. ➥ The system blocking of operational carriers has been revoked. ➥ Standby carriers are switched back to their original status. ✓ You have successfully checked the standby carriers. 7.
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DIB-500 R4.1 Function tests and operating surveillance Function tests and operating surveillance GPS All the network constituents of an ACCESSNET®-T IP network are monitored via the NMC-511 FaultManager. Operational states and faults are detected by the network management system and visualized via all the connected workstations with the NMC-511 FaultManager installed and enabled.
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DIB-500 R4.1 Function tests and operating surveillance Function tests and operating surveillance GPS Messages if the voltage supply is switched off The voltage supply for the GPS antenna in the GPS module features a short-circuit monitoring. In case of malfunctions, the PUC switches the voltage supply for the GPS antenna and the GPS module off. All messages are subsequently visualised. 7.6.3 Function tests and fault analysis GPS Table 7.
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DIB-500 R4.1 Function tests and operating surveillance Checking external antenna coupling systems Table 7.11 GPS module – Fault analysis No. 1 2 Possible cause(s) Badly positioned GPS antenna or a GPS connecting cable that is too long and with excessive attenuation. 3 GPS module defective Required measure(s) Perform the following measures: 1. Check whether messages 4 and 5 are visualised in addition to messages 1 and 2, see Table 7.10 on page 162.
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DIB-500 R4.1 Service interruption Temporary service interruption 8 Service interruption The following chapter describes the procedure for the service interruption of the product. The following service interruptions are distinguished: | Temporary service interruption | Permanent service interruption A service interruption may be required in the following cases: | Work on an open equipment cabinet | The replacement of defective components.
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DIB-500 R4.1 Service interruption Permanent service interruption Turn off the power supply Carry out the following steps: Voltage supply of the other components If the DIB-500 R4.1 is operated with VAC voltage supply, the voltage supply unit will still be live when the on/off switches are switched to off. 1. Switch off the voltage supply by flipping down the On/Off switch; refer to Figure 8.1. 1 2 Figure 8.1 On/off switch ➥ The hardware components are switched off. 2.
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DIB-500 R4.1 Service interruption Permanent service interruption Table 8.2 provides an overview of the order for disconnecting physical connections from network elements. Table 8.2 Disconnecting physical connections (order) Order 1. 2. Physical connection Voltage Supply Cable Antenna cable: 3.
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DIB-500 R4.1 Service interruption Permanent service interruption 166 Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.
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DIB-500 R4.1 Recommissioning Recommissioning after a temporary service interruption 9 Recommissioning This chapter describes the procedures for putting the product back into operation. The following recommissioning situations are distinguished: | Recommissioning after a temporary service interruption | Recommissioning after a permanent service interruption 9.
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DIB-500 R4.1 Recommissioning Recommissioning after a permanent service interruption 9.2 Recommissioning after a permanent service interruption The present section describes the proper procedure for recommissioning after a permanent shutdown of the product. For this purpose, the disconnected physical connections must be restored. Proceed as follows to recommission a network element after a permanent shutdown: Preparation: ✓ The equipment rack must be connected to the grounding system.
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DIB-500 R4.1 Maintenance Maintenance tasks 10 Maintenance To ensure the proper operation of products, maintenance tasks and periodical visual inspections are required. The products have been designed for permanent and unsupervised operation. For this reason, maintenance need not be performed according to a fixed schedule. Still you should make checks from time to time.
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DIB-500 R4.1 Maintenance Periodical visual inspections Table 10.2 Tasks to be performed during visual inspections and intervals Task/s Site inspection based on the document "Site Requirements“, such as the inspection of the: | | | | Grounding facility Voltage supply connection Installation location of the GPS antenna Condition and fit of all the supply lines and replacement of supply lines as required.
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DIB-500 R4.1 Component replacement Safety measures and prerequisites 11 Component replacement This chapter describes the component replacement of hardware components and, if necessary, the configuration or the software update of installed software components. The safety measures to be followed and prerequisites for the corresponding tasks are described in section 11.1 on page 171. The hardware components that can be replaced are described in section 11.2 on page 172.
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DIB-500 R4.1 Component replacement Overview of replacement components and tools, aids and materials 11.2 Overview of replacement components and tools, aids and materials Every replacement component can be uniquely identified via a part number. Please specify the corresponding part number when ordering. In case of questions concerning replacement components and part numbers, please contact Rohde & Schwarz Professional Mobile Radio GmbH. Table 11.
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DIB-500 R4.1 Component replacement Overview of replacement components and tools, aids and materials 11.2.2 Replacing the ACS (tools and aids) Table 11.3 provides an overview of tools and aids that are required for replacing the ACS. Table 11.3 Overview of tools and aids (replacing the ACS) Work step Replacing the ACS Tools, aids | Torx screwdriver size TX25 | Flat-bladed screwdriver size 0.6 x 3.5 | Wrench size 8 | Wrench size 19 | Size 8 dynamometric key with a torque of 0.
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DIB-500 R4.1 Component replacement Overview of replacement components and tools, aids and materials 11.2.6 Replacing components of the mounting frame/the voltage supply unit (tools, aids and materials) Table 11.7 provides an overview of tools, aids and materials that are required for replacing components of the mounting frame/the voltage supply unit. Table 11.
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DIB-500 R4.1 Component replacement Replacing the TIB 11.2.8 Replacing the GPS protector (tools and aids) Table 11.9 provides an overview of the tools and aids that are required for replacing the GPS Protector. Table 11.9 Overview of tools and aids (replacing the GPS protector) Work step Replacing the GPS protector Tools, aids | Size 18 dynamometric key with a torque of 100 Ncm 11.3 Replacing the TIB An equipment rack can hold as many as two TIB transceiver modules with up to two carriers.
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DIB-500 R4.1 Component replacement Replacing the TIB Figure 11.1 shows the front view of the TIB. The following table describes these indicators in detail. 6 1 7 8 2 9/10 11 3 4 12 13 5 14 Figure 11.1 TIB (front view) Table 11.11 Legend: TIB (front view) 176 No.
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DIB-500 R4.1 Component replacement Replacing the TIB 11.3.1 Removing the TIB The procedure for removing the TIB is described below. Proceed as follows to remove the TIB: Preparation: ✓ The preparatory measures must be completed, refer to Table 11.10 on page 175. ✓ The tools and aids must be available, refer to section 11.2.1 on page 172. Carry out the following steps: Risk of damage Installed components may be damaged.
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DIB-500 R4.1 Component replacement Replacing the TIB Risk of damage Risk of damage due to high weight (19 kg). The TIB may fall when pushing it in/pulling it out and damage other components. ➔ When pulling the TIB out, additionally support it from below with your other hand. 3. Now cautiously pull the component out along the holder. ✓ The removal of the TIB has been completed. 11.3.2 Installing the TIB The procedure for installing the TIB is described below.
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DIB-500 R4.1 Component replacement Replacing the ACS Proceed as follows: | Connect the corresponding cable at the port for the "AUX" antenna connection using a flathead screwdriver size 0.6 x 3.5, see (2) in Figure 11.1 on page 176. | Connect the corresponding cables at the Tx transmitter outputs with a dynamometric key size 19 using a torque of 1 Nm, see (3) and (8) in Figure 11.1 on page 176.
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DIB-500 R4.1 Component replacement Replacing the ACS Table 11.13 Overview of the tasks to be performed (Replacing the ACS) Tasks/work steps Temporary service interruption Removing the ACS Installing the ACS Recommissioning after a temporary service interruption Described in Section 8.1 on page 163 Section 11.4.1 on page 181 Section 11.4.2 on page 183 Section 9.1 on page 167 Figure 11.2 shows the front view of the ACS. The following table describes the components in greater detail.
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DIB-500 R4.1 Component replacement Replacing the ACS Table 11.14 Legend: ACS (front view) No.
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DIB-500 R4.1 Component replacement Replacing the ACS Proceed as follows: | Remove the cable at the "AUX" port using a flathead screwdriver size 0.6 x 3.5, see (6) in Figure 11.2 on page 180. | Remove the cables at ports "Antenna A" and "Antenna B" as well as at the antenna inputs "Tx" using a wrench size 19, see (2), (7) and (8) in Figure 11.2 on page 180. | Remove the cables at the antenna outputs "Rx" and "RxD" using a wrench size 8, see (1) and (3) to (5) in Figure 11.2 on page 180. 2.
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DIB-500 R4.1 Component replacement Replacing the ACS 11.4.2 Installing the ACS The procedure for installing the ACS is described below. Proceed as follows to install the ACS: Preparation: ✓ The preparatory measures must be completed, refer to Table 11.10 on page 175. ✓ The tools and aids must be available, refer to section 11.2.2 on page 173. ✓ You need the terminating resistors and fastening screws removed with the component.
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DIB-500 R4.1 Component replacement Replacing fan unit constituents 11.5 Replacing fan unit constituents You can replace the air filter pad or the entire fan unit of the DIB-500 R4.1. The procedures for this are described in the following sections. | Replacing the air filter pad | Replacing the fan subrack 11.5.1 Replacing the air filter pad The fan insert is equipped with an air filter pad that removes dirt and dust particles from the supply air.
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DIB-500 R4.1 Component replacement Replacing fan unit constituents Proceed as follows to remove the air filter pad: Carry out the following steps: 1. Turn the air filter pad holder mounting screws by 90° to loosen them, refer to Figure 11.4. Figure 11.4 Air filter pad holder mounting screws 2. Pull the air filter pad holder out to the front. 3. Remove the fastener of the air filter pad holder by pressing the fastener together and taking it out of the holder. Figure 11.
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DIB-500 R4.1 Component replacement Replacing fan unit constituents Carry out the following steps: Positioning the air filter pad When positioning the air filter pad in the air filter pad holder, ensure that all the edges of the air filter pad are aligned and make firm contact so that supply air cannot flow past the air filter pad. Otherwise dirt and dust particles will not be filtered from the supply air reliably. 1. Position the air filter pad in the air filter pad holder. 2.
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DIB-500 R4.1 Component replacement Replacing fan unit constituents 11.5.2 Replacing the fan subrack The fan insert is suspended on a mounting rail in the equipment rack and secured to the front of the equipment rack with two mounting screws. The fan insert can be replaced during operation. In this case, the replacement should be performed fast. Otherwise the TIB transceiver modules may switch off automatically as a factor of the ambient conditions.
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DIB-500 R4.1 Component replacement Replacing the LRU – optional (redundancy package) Resistance when pulling out the fan insert Slight resistance will be noticed when pulling out the fan insert. Pull the fan insert out further to disconnect the voltage supply connector. 2. Cautiously pull out the fan insert to the front along the holder. ✓ You have successfully removed the fan insert. 11.5.2.2 Installing the fan subrack The voltage supply connector will be reconnected when the fan insert is installed.
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DIB-500 R4.1 Component replacement Replacing the LRU – optional (redundancy package) The LRU is supplied with voltage via a separate top hat rail power supply unit. Figure 11.9 shows the top view of the installed redundancy package. The following table describes the additional components in detail. 1 2 Figure 11.9 Redundancy package (top view) Table 11.19 Legend: Redundancy package (top view) No. 1 2 Component LRU Top hat rail power supply unit of the LRU 11.6.
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DIB-500 R4.1 Component replacement Replacing the top hat rail – optional (redundancy package) 2. Pull the component slightly forward and then upwards off the top hat rail. 3. Remove all the connected cables. ✓ The removal of the LRU has thus been completed. 11.6.2 Inserting the LRU The procedure corresponds to the description in section 5.5.1.3 on page 102. 11.7 Replacing the top hat rail – optional (redundancy package) The top hat rail power supply unit is used for the voltage supply of the LRU.
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DIB-500 R4.1 Component replacement Replacing the top hat rail – optional (redundancy package) Table 11.21 Legend: Top hat rail power supply unit on the top hat rail No. 1 2 3 Designation LRU Top hat rail power supply unit of the LRU Terminal block 11.7.1 Removing the top hat rail power supply unit The top hat rail power supply unit is clamped on with a locking device, refer to Figure 11.11 on page 190.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional 2. Secure the top hat rail power supply unit with one hand and pull the locking device away from the component using a size 0.8 x 4 flat-bladed screwdriver, refer to Figure 11.12. Figure 11.12 Locking device of top hat rail power supply unit 3. Pull the component slightly forward and then upwards off the top hat rail. ✓ You have successfully removed the top hat rail power supply unit. 11.7.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Table 11.23 provides an overview of replacement components of the VAC and the alarm system expansion. Table 11.23 Overview of replacement components (VAC and alarm system expansion) Replacement component Rectifier module SC200 (the SC200 must always be replaced together with the mounting frame) Replacement is described in Section 11.8.1 on page 193 Section 11.8.2 on page 196 11.8.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Carry out the following steps: Risk of injury The equipment rack features sharp edges on the inside. Risk of injury if you do not wear protective gloves. ➔ Always wear protective gloves for the following process steps. 1. Loosen the fastening screw of the rectifier module using a size 2 cross-head screwdriver, refer to Figure 11.13. Figure 11.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Risk of electric shock 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. ➔ Do not reach into the empty subrack with your hand. 3. Take appropriate measures to safeguard the empty subrack, e.g. through dummy panels.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Risk of damage Damage of installed components. If you apply excessive force when tightening the mounting screw, installed components of the equipment rack may be damaged. ➔ Use a size 2 torque cross-head screwdriver for tightening the fastening screw. ➔ Ensure that the maximum torque does not exceed the following value: 1.5 Nm. 4. Tighten the mounting screw on the mounting frame.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional The tasks listed in the following table must be performed to replace the mounting frame. Table 11.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Disconnecting external alarms (via alarm input/output module) Before replacing the mounting frame, the external alarms connected to the alarm input/ output module must be disconnected. The alarm input/output module is installed in a mounting frame.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional 3. Remove the wires of the external alarms from the corresponding clamps of the alarm input/output module, refer to Figure 11.16 on page 198. 4. Remove any installed alarm jumpers (3), refer to Figure 11.16 on page 198. You will need them again. 5. Route the cables of the external alarms through the corresponding grommet, refer to Figure 11.17. Figure 11.17 Mounting frame grommet (top view) 6.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Table 11.27 Legend: rear view of system controller No. 1 Constituent Ethernet interface 2 3 Serial interface Supply voltage connection Description Ethernet interface to the first TIB of the equipment rack (TIB A, LAN 1).
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Connection to a Fixed Connection The plug with earthing contact can be removed when the DIB-500 R4.1 system 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.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional 3. Loosen the mounting screws of the retaining brackets on the front of the equipment rack using a Torx screwdriver size TX 20 x 80, refer to Figure 11.20. Figure 11.20 Mounting frame mounting screws Risk of injury The equipment rack features sharp edges on the inside. Risk of injury if you do not wear protective gloves. ➔ Always wear protective gloves for the following process steps. 4.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional 7. Loosen the nut of the DC voltage supply cables using a size 4 wrench, refer to Figure 11.23. Figure 11.23 Mounting frame – DC voltage supply connectors (side view) 8. Remove the DC voltage supply cables. 9. Pull the component out of the subrack cautiously. 10. Remove the retaining brackets from the component by loosening the fastening screws using a size 1 cross-head screwdriver.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Risk of injury The equipment rack features sharp edges on the inside. Risk of injury if you do not wear protective gloves. ➔ Always wear protective gloves for the following process steps. 2. Brake off the rear part of the cover along the predetermined breaking pattern. Use combination pliers for this purpose. Figure 11.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Strain relief of connected cables / connecting lines When connecting cables and connecting lines, you must ensure that they are protected against tensile strain. 3. Fasten the connected cables in the equipment rack in such a way that they are protected against tensile strain, e. g. by using cable ties. Risk of injury The equipment rack features sharp edges on the inside.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Attaching connectors of the SC200 The SC200 connections must be installed prior to connecting the external alarms. Proceed as follows to install the connections: Preparation: ✓ The network element must have been put out of operation temporarily, refer to section 8.1 on page 163. ✓ The voltage source on site must be switched off.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Strain relief of connected cables / connecting lines When connecting cables and connecting lines, you must ensure that they are protected against tensile strain. 3. Fasten the connected cables in the equipment rack in such a way that they are protected against tensile strain, e. g. by using cable ties. ✓ You have successfully installed the connections. 11.8.2.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Proceed as follows to mount a plug/plugs with earthing contact: Preparation: ✓ The network element must have been put out of operation temporarily, refer to section 8.1 on page 163. Carry out the following steps: ➔ Mount the plug(s) with earthing contact on the corresponding voltage supply cable(s) using the tool required for this purpose.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Installing the "DCTools" application The system controller is configured via the "DCTools" application on the SC200. For this purpose, the application must be installed via a setup wizard. The installation file (Setup) and the configuration file of the SC200 are available on the PV-DVD. Table 11.31 describes the directory structure of the PV-DVD for the "DCTools" application. Table 11.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Controls of the SC200 When delivered as a spare part, the SC200 will not yet be configured. Once the configuration file of the SC200 has been loaded, the controls of the SC200 will be disabled to prevent configuration adaptations. Configuring the orientation of the display window of the SC200 Preparation: ✓ The voltage source on site must be switched on. This must have been checked with a voltmeter.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional 10. Press softkey 2 to exit the settings. 11. Press softkey 2 twice to exit the main menu. ✓ You have successfully configured the display window of the SC200. Configuring IP settings of the SC200 (local) For the proper operation, each SC200 should have corresponding IP settings. The IP settings will not have been configured upon delivery of the replacement component. Table 11.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Carry out the following steps: Using softkeys The respective function depends on the display in the display window. Softkey 1 is used to call menus and save settings. Softkey 2 is used to call superordinate menus and discard settings. 1. Press softkey 1 to open the main menu, refer to Figure 11.29 on page 212. 1 2 Figure 11.29 SC200 – Softkeys ➥ The main menu will be displayed. 2.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional Loading the SC200 configuration file (via the "DCTools" application) The configuration file of the SC200 contains an adapted configuration for operation in the DIB-500 R4.1. The configuration file is loaded via the application "DCTools". Upon the first start of the "DCTools" application, a new connection must be established and configured accordingly. Table 11.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional 4. Click the Create a new connection (Ins) button to create a new connection. Figure 11.31 "DCTools" application – "Create a new connection (Ins)" button ➥ The Comms Properties dialogue box will be displayed. 5. Enter the required settings, refer to Table 11.33 on page 213. Figure 11.32 "DCTools" application – required settings 6. Click OK to save the settings. ➥ The connection will be created. 7.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional ➥ The application window of the "DCTools" application opens: Figure 11.34 "DCTools" application – connection established 8. In the menu, click on File > ICE Backup/Restore. ➥ The following dialogue box will be displayed: Figure 11.35 "DCTools" application – "Target Configuration ..." dialogue box 9. Select the Restore item. 10. Click Next >.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional ➥ The following dialogue box will be displayed: Figure 11.36 "DCTools" application – "Target Configuration ..." dialogue box 11. Click Browse to select the configuration file of the SC200. ➥ The following dialogue box will be displayed: Figure 11.37 "DCTools – "Open" dialogue box 12. Navigate to the configuration file of the SC200, refer to Table 11.31 on page 209. 13.
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DIB-500 R4.1 Component replacement Replacing components of the VAC and alarm system expansion – optional ➥ The following dialogue box will be displayed after the configuration files have been loaded successfully: Figure 11.38 "DCTools" application – "Target Configuration ..." dialogue box 15. Click Finish to close the dialogue box. 16. In the Form Tree area of the application window, navigate to the level Configuration > Communications, refer to Figure 11.39: Figure 11.
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DIB-500 R4.1 Component replacement Replacing cavity couplers – optional (cavity variants only) Uninstalling the "DCTools" application The "DCTools" application facilitates extensive configuration of the SC200. For this reason, the application must be uninstalled after having configured the SC200 since it is not needed for the functional operation. The "DCTools" application can be uninstalled via "Add or Remove Programs" in the Windows Control Panel.
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DIB-500 R4.1 Component replacement Replacing cavity couplers – optional (cavity variants only) 11.9.1 Replacing a cavity coupler As many as eight cavity couplers can be installed in a DIB-500 R4.1. Each pair of cavity coupler is installed on a mounting plate on the front of the equipment rack. Each cavity coupler is fastened to the mounting plate with four attachment screws from below and two attachment screws from behind. Four screws fasten the mounting plate to the equipment cabinet.
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DIB-500 R4.1 Component replacement Replacing cavity couplers – optional (cavity variants only) 3. Remove the cables, which lead to the top equipment rack and are connected to the insulators that are located on the same mounting plate as the respective cavity coupler, see Figure 3.31 on page 78. 4. Remove the fastening screws of the mounting plate on which the respective cavity coupler is installed using a size 2 cross-head screwdriver, see Figure 11.40. Figure 11.
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DIB-500 R4.1 Component replacement Replacing the GPS protector – optional 2. Fasten the component on the mounting plate by tightening the corresponding attachment screws on the underside of the mounting plate again. Use a size 2 cross-head screwdriver for this purpose. 3. Slide the mounting plate with the component fastened on it back in via the front of the equipment cabinet. 4. Fasten the mounting plate with the component mounted on it on the equipment rack again, refer to Figure 11.40 on page 220.
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DIB-500 R4.1 Component replacement Replacing the GPS protector – optional 11.10.1 Removing the GPS protector The procedure for removing the GPS protector is described in the following. Proceed as follows to remove the GPS protector: Preparation: ✓ The preparatory measures must be completed, refer to Table 11.35 on page 221. Carry out the following steps: Risk of damage from electrostatic discharge (ESD) The DIB-500 R4.