User's Manual
Table Of Contents
- 1 Notes on the document
- 2 Safety regulations
- 3 Product description
- 3.1 Constituents
- 3.1.1 Voltage supply and alarming system
- 3.1.1.1 Terminal block
- 3.1.1.2 Expansion for VAC voltage supply (VAC voltage supply unit)
- 3.1.1.3 Alarm system expansion
- 3.1.1.4 SC200 - optional (VAC or alarm system expansion)
- 3.1.1.5 Alarm input/output module - optional (VAC or alarm system expansion)
- 3.1.1.6 Rectifier module - optional (VAC expansion)
- 3.1.2 E1 connection board
- 3.1.3 Redundancy package with LAN Routing Unit (LRU)
- 3.1.4 On/off switch
- 3.1.5 TIB transceiver module (TETRA Indoor Base)
- 3.1.6 Antenna Coupling System (ACS)
- 3.1.7 Fan unit
- 3.1.8 Cavity coupler (only for the Cavity variant)
- 3.1.9 Redundancy options for the DIB-500 R4.1 or the Base Station Function (BSF)
- 3.1.1 Voltage supply and alarming system
- 3.2 Interfaces
- 3.3 Wiring diagrams
- 3.4 Scope of delivery
- 3.1 Constituents
- 4 Transport and storage
- 5 Setup and commissioning
- 5.1 Safety measures and prerequisites
- 5.2 Tools, aids and materials
- 5.3 Installing equipment racks
- 5.4 Removing the top cover of the mounting frame
- 5.5 Connecting equipment racks (as of 5 carriers)
- 5.6 Connection to the electrical system
- 5.7 Connecting Ethernet cables
- 5.8 Installing the GPS antenna
- 5.9 Installing the GPS protector - optional
- 5.10 Connecting antennas
- 5.11 Connecting external alarm sensors (LSA+)
- 5.12 Connecting external alarms - optional, with VAC or alerting expansion
- 5.13 Mounting the top cover of the equipment rack
- 5.14 Switching on the voltage source
- 5.15 Switching on the DIB-500 R4.1
- 6 Configuration
- 6.1 Configuring the software
- 6.1.1 Work equipment
- 6.1.2 Preparatory measures
- 6.1.3 Deleting the ARP buffer
- 6.1.4 Configuring and generating network configurations via the NMC-515 ConfigurationManager
- 6.1.5 Creating the download repository
- 6.1.6 Adapting IP addresses (with more than one transceiver module)
- 6.1.7 Performing an initial download via NMC-522 DownloadManager
- 6.2 Adjusting a cavity coupler - optional (cavity variant only)
- 6.3 Concluding tasks
- 6.1 Configuring the software
- 7 Function tests and operating surveillance
- 8 Service interruption
- 9 Recommissioning
- 10 Maintenance
- 11 Component replacement
- 11.1 Safety measures and prerequisites
- 11.2 Overview of replacement components and tools, aids and materials
- 11.2.1 Replacing the TIB transceiver module (tools and aids)
- 11.2.2 Replacing the ACS (tools and aids)
- 11.2.3 Replacing components of the fan unit (tools, aids and materials)
- 11.2.4 Replacing the LRU (tools and aids)
- 11.2.5 Replacing the top hat rail power supply unit (tools and aids)
- 11.2.6 Replacing components of the mounting frame/the voltage supply unit (tools, aids and materials)
- 11.2.7 Replacing cavity couplers (tools and aids)
- 11.2.8 Replacing the GPS protector (tools and aids)
- 11.3 Replacing the TIB
- 11.4 Replacing the ACS
- 11.5 Replacing fan unit constituents
- 11.6 Replacing the LRU - optional (redundancy package)
- 11.7 Replacing the top hat rail - optional (redundancy package)
- 11.8 Replacing components of the VAC and alarm system expansion - optional
- 11.9 Replacing cavity couplers - optional (cavity variants only)
- 11.10 Replacing the GPS protector - optional
Installation, Operation and Service Manual 90DIB500R41IM_FCC02 – 99.1 31
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. It can thus provide as many as 32 radio
channels (four radio channels per carrier) for the communication of the mobile terminal
equipment, via which voice and data is/are transmitted in accordance with the TETRA
standard (Terrestrial Trunked Radio).
In addition, in networks with a distributed switching architecture, the DIB-500 R4.1 can
take on the routing function and thus act as a full system controller node. Moreover, fur-
ther functions are available; applications, for example, can be connected directly to the
ACCESSNET
®
-T IP by means of an IP connection.
The carriers are provided via the transceiver module TETRA Indoor Base Transceiver
(TIB) that can accommodate up to two carriers. Two TIB transceiver modules may be
incorporated in the equipment rack of the DIB-500 R4.1, thus providing four carriers.
From five carriers, a second equipment rack is used, which can also provide up to four
carriers.
Two TETRA antenna connections and one GPS antenna connection (Global Position-
ing System, GPS) are available for connecting antennas. Internally, the antennas are
coupled via the antenna coupling system. In the FlexibleTx variant, project-specific
external antenna coupling systems can be used. Antenna diversity is available for opti-
mal reception properties.
Depending on the requirement, the ACS can provide the following antenna connection
variants:
| Hybrid
| Cavity
| High Power or
| FlexibleTx
For communicating with other base stations and with the IP Node (IPN) network ele-
ment, the DIB-500 R4.1 features Ethernet interfaces for linking to the IP transport net-
work.
If all the connections to the other network constituents break down during operation, the
DIB-500 R4.1 ensures radio operation within its own radio cell. If the DIB-500 R4.1 is
operated with a separate routing function in networks with a distributed switching archi-
tecture, the base station additionally collects call detail records (CDR).