RBS Product Description RBS 2106 PR EL I M IN A R Y DESCRIPTION 129/1551-LZA 701 0001 Uen PF1
Copyright © Ericsson AB 2006, 2010. All rights reserved. No part of this document may be reproduced in any form without the written permission of the copyright owner. Disclaimer A R Y The contents of this document are subject to revision without notice due to continued progress in methodology, design and manufacturing. Ericsson shall have no liability for any error or damage of any kind resulting from the use of this document.
Contents Contents Introduction 1 1.1 Revision Information 1 2 Product Overview 2 2.1 Main Features 2.2 Variants 2.3 Optional Equipment 2.4 WCDMA Equipment 3 Dimensions 4 Space Requirements 5 Environment 5.1 Operating Environment 5.2 Environmental Impact 12 5.3 Compliance Distances for Electromagnetic Exposure 20 5.4 Materials 22 6 Hardware Units 23 6.1 Standard Hardware Units 25 6.
RBS Product Description Standards, Regulations and Dependability 46 11.1 Safety Standards 46 11.
Introduction 1 Introduction Figure 1 1.1 EL I M IN A R Y RBS 2106 is a member of the RBS 2000 family. It is a 12-Transceiver (TRX) radio base station for outdoor applications. The RBS 2106 can be configured for omnicells or for multisector cells of up to three sectors.
RBS Product Description 2 Product Overview RBS 2106 is a high-capacity outdoor base station equipped with up to six Double Transceiver Units (dTRU), with space inside for both transmission equipment and battery backup. The RBS 2106 is availables in three variants: • RBS 2106 • RBS 2106i • RBS 2106 V3 IN Note: A R Y RBS 2106 is designed to be transported as a fully assembled cabinet, without batteries, to the site.
Product Overview Internal battery backup • RBS synchronization through the Global Positioning System (GPS) • Power supply system: can be connected to 200 – 250 V AC mains supplies • Radio configurations supported on 800, 900, 1800, and 1900 MHz • Receiver diversity • Transmission Interface: the following transport network interface alternatives exist: , with PCM synchronization T1 1,544 kbps, 100 , with PCM synchronization E1 2,048 kbps, 120 2.
RBS Product Description Bias injectors for DC power supply of TMAs • DC/DC converter • DC filter • Dual-Duplex Tower-Mounted Amplifier (ddTMA) • External Synchronization Bus (ESB) • External alarms • GPS synchronization solution (external GPS antenna) • Hybrid Combiner Unit (HCU) • Operator-specific keys • Mini-Link • Overvoltage Protection (OVP) • Redundant Power Supply Unit (PSU) • Smoke detector • Sound hood PR EL I M IN A R Y • 4 129/1551-LZA 701 0001 Uen PF1 | 2010-10
Product Overview 2.4 WCDMA Equipment In some configurations the RBS can host equipment for a WCDMA RBS, which is then powered from the GSM RBS. The figure below shows an RBS with WCDMA equipment.
RBS Product Description 3 Dimensions This section describes the dimensions and colours of the RBS 2106. A R Y Size and Weight 1,300 IN 925 1,618 PR EL I M 1,560 56.
M IN A R Y Dimensions RBS with Heat Exchanger Climate Unit Table 1 RBS Weights with Combined Climate Unit EL I Figure 4 RBS 2106 RBS 2106i RBS 2106 V3 Fully equipped including batteries 660 kg 700 kg 806 kg Fully equipped excluding batteries 520 kg 560 kg 602 kg Door 150 kg 150 kg 150 kg PR Configuration Table 2 RBS Weights with Heat Exchanger Climate Unit Configuration RBS 2106 RBS 2106i RBS 2106 V3 Fully equipped including batteries 640 kg 650 kg 771 kg Fully equipped e
RBS Product Description Surface and Colour The RBS 2106 has a surface quality according to Ericsson standard class A3/B6.
Space Requirements 4 Space Requirements A R Y Installation and maintenance require that the door can be opened at least 90 . In practice, this means that the space in front of the cabinet must be kept clear for a distance of 1,300 mm, as shown in the figure below. The space above the cabinet must be at least 100 mm. No space is required behind the cabinet. M IN If the RBS is located next to another cabinet of the same depth, no adjacent space is required.
RBS Product Description 665 50 65 355 A R Y 20 O mm Front 125 725 1150 Unit of measurement: mm M 1235 IN 650 P002771A Base Frame and Installation Frame Holing Pattern PR EL I Figure 6 710 1300 10 129/1551-LZA 701 0001 Uen PF1 | 2010-10-08
Environment 5 Environment 5.1 Operating Environment Climatic Requirements A R Y The RBS 2106 is designed to operate within the limits stated for climatic requirements listed in the table below, and to withstand ground vibrations as stated below. The operating environment and climatic specifications are shown in the tables below.
RBS Product Description 5.2 Environmental Impact This section describes the effects that the cabinet has on the environment. 5.2.1 Heat Dissipation 5.2.2 A R Y The RBS 2106 (RBS 2106, RBS 2106i or RBS 2106 V3) generates an average heat load of 3000 W. The exact figure is dependent upon configuration, equipment, and site-specific conditions.
Environment Sound Pressure Level at the Bystander Position at a Distance of one Metre, LpADb Operating Condition Left Right Back 25 C 50 49 50 48 30 C 48 48 48 47 45 C 54 52 53 51 A R Y Front The following figures and tables show the noise dispersion for different ambient temperature and at different distances from the cabinet.
RBS Product Description Sound Pressure Levels for a Free Standing RBS with Combined Climate Unit Sound Pressur e Level, dBA Front Left Right Back Front Left Right Back 35 34 21 22 11 10 9 10 8 40 19 12 12 6 5 5 5 4 50 6 3 3 2 1 1 1 <1 60 1 <1 <1 <1 <1 <1 <1 <1 35 24 15 16 9 8 7 8 7 40 13 8 9 5 4 4 4 4 50 4 2 2 <1 <1 <1 <1 <1 60 <1 <1 <1 <1 <1 <1 <1 <1 35 43 26 28 13 15 13 14 12 40 24 15 15 7 8 7 8 6 50 7 4
Environment Sound Pressure Levels for an RBS against a Wall, with Combined Climate Unit Temp. 45 5.2.
RBS Product Description Operating Condition Sound Pressure Level at the Bystander Position at a Distance of one Metre, LpA dB Left Right Back 20 C 48 48 48 47 25 C 51 50 50 50 30 C 53 52 52 51 A R Y Front The following figures and tables show the noise dispersion for different ambient temperature and at different distances from the cabinet.
Environment Sound Pressure Levels for an RBS 2106 Against a Wall, with Heat Exchanger 20 25 30 Left Right Front Left Right 35 10 8 8 5 6 6 40 5 4 4 3 3 3 50 1 <1 <1 <1 <1 <1 60 <1 <1 <1 <1 <1 <1 35 20 16 16 10 10 10 40 11 8 8 5 5 5 50 3 2 2 <1 <1 <1 60 <1 <1 <1 <1 <1 <1 35 33 25 25 15 14 14 40 18 14 14 8 8 8 50 6 4 4 2 2 2 60 2 <1 <1 <1 <1 <1 35 45 32 32 16 17 17 40 25 18 18 9 9 9 7 5 5 2 2 2
RBS Product Description Table 14 Sound Pressure Level, Bystander Position without Sound Hood Operating Condition Sound Pressure Level at the Bystander Position at a Distance of One metre, LpAdB Left Right Back 15 C 45 42 41 38 20 C 45 42 42 38 25 C 46 43 44 43 30 C 55 51 60 57 45 C A R Y Front 51 46 57 52 The following figures and tables show the noise dispersion for different ambient temperature and at different distances from the cabinet. Temp.
Environment Sound Pressure Level, dBA 45 Front Left Right Back 35 35 22 22 12 40 19 12 12 7 50 6 4 4 2 60 1 <1 <1 <1 Sound Pressure Levels for an RBS 2106i or RBS 2106 V3 with Heat Exchanger, against a Wall Temp (C ) Sound Pressure Level, dB(A) 15 Left Right 6 4 4 3 2 2 <1 <1 <1 60 <1 <1 <1 35 6 4 4 40 3 2 2 50 <1 <1 <1 60 <1 <1 <1 35 6 6 7 40 3 3 3 50 <1 <1 <1 60 <1 <1 <1 35 18 13 13 40 10 7 7 50 3 2 2 60 <1 <1 <
RBS Product Description 5.3 Compliance Distances for Electromagnetic Exposure The compliance distance is the minimum separation that must be kept between the antenna and a person to ensure that the ICNIRP Radio Frequency (RF) exposure limits are not exceeded. ICNIRP, ‘‘Guidelines for limiting exposure to time-varying electric, magnetic, and electromagnetic fields (up to 300 GHz)’’, International Commission on Non-Ionizing Radiation Protection, Health Physics, vol. 74, no. 4, 1998.
Environment Table 17 Compliance Boundary Dimensions for the General Public (GP) and Occupational (O) Exposure for Typical Configurations Dimensions of Cylindrical Compliance Boundary in (m) Height GP Configuration Frequency (MHz) GP O 3×2 no hybrid 900 6 3 1800 5 1 900 6 3 1800 5 1 900 8 4 1800 7 2 900 11 1800 9 3×2 TCC GP O 1.5 0.1 0.1 1.6 1.4 0.1 0.05 1.6 1.5 0.1 0.1 1.6 1.4 0.1 0.05 1.9 1.6 0.1 0.1 1.6 1.5 0.1 0.1 5 2.3 1.6 0.1 0.1 4 1.8 1.
RBS Product Description tolerances and transmission loss) per TRU, for RBS 2106 at 900 MHz and 1800 MHz, are given in Table 19. Table 19 Maximum Power to Antenna for Various RBS 2106 Configurations Frequency (MHz) Nominal Output Power per TRU (dBm)/(W) Maximum Power to (1) Antenna (dBm)/(W) 3×2 no hybrid 900 45.2 / 33 47.2 / 52 1800 44 / 25 46 / 40 900 41.7 / 15 46.7 / 47 1800 40.5 / 11 45.5 / 35 900 47.7 / 59 49.7 / 93 1800 46.5 / 45 48.5 / 71 900 42.7 / 19 52.5 / 177 41.
Hardware Units 6 Hardware Units RBS 2106 Overview PR Figure 9 EL I M IN A R Y A high level of availability is achieved using strict functional modularity in a system of standardized Replaceable Units (RU). A failed RU can easily be replaced by a new one.
RBS Product Description Climate unit ACCU-DU PSU DXU OXU IDM FCU DC/DC converter A R Y CDU CXU, ASU, HCU and OXU dummies dTRU DF IN Bias injector ACCU-CU M RBS 2106i Overview P014121B PR EL I Figure 10 BFU Figure 11 24 RBS 2106 V3 Overview 129/1551-LZA 701 0001 Uen PF1 | 2010-10-08
Hardware Units 6.1 Standard Hardware Units This section briefly describes the standard hardware units required for function, irrespective of configuration or frequency. ACCU A R Y The AC Connection Unit (ACCU) connects, disconnects, and distributes the incoming AC power supply to the PSUs and the climate unit. It consists of two parts: an ACCU Connection Unit (ACCU-CU) and an ACCU Distribution Unit (ACCU-DU). ACCU-02 is used in RBS 2106 and ACCU-05 is used in RBS 2106i and RBS 2106 V3.
RBS Product Description The CDU combines transmitted signals from several transceivers, and distributes the received signal to several transceivers. The CDU supports EDGE. Three CDU types are used in the RBS 2106 to support all configurations: • CDU-F is a filter combiner intended for high capacity solutions (baseband hopping only). Number of units: 1 – 3 CDU-G can be configured either for high capacity or for high coverage. It is a combiner that can be used for synthesizer or baseband hopping.
Hardware Units The DXU is provided with four connections for transmission interfaces. It can handle both 2,048 kbps (E1) and 1,544 kbps (T1) transmission interfaces. The DXU has hardware support for EDGE on 12 TRXs. DXU-21 is used in RBS 2106 and RBS 2106i. DXU-23 is used in RBS 2106 V3. Number of units: 1 A R Y dTRU The double Transceiver Unit (dTRU) contains two TRXs used to transmit and receive two radio carriers. It has a built-in combiner with the option to combine two TX signals into one TX output.
RBS Product Description 6.2 Optional Hardware Units This section describes the RBS 2106 optional hardware units. ASU A R Y The Antenna Sharing Unit (ASU) is a part of co-siting, that is, using another cabinet together with a GSM RBS 2106 cabinet in the same sector. The ASU allows a TDMA (or other) cabinet and a GSM RBS 2106 cabinet to share RX antennas.
Hardware Units DC Filter The DC filter is the interface between a +24 V DC external battery, and the IDM inside the RBS. The DC filter has the following main functions: ElectroMagnetic Compatibility (EMC) filtering • Connection of +24 V DC to the cabinet • Distribution of +24 V DC power to the IDM Number of units: 0 – 1 ddTMA A R Y • M Number of units per cabinet: 0 – 6 IN The ddTMA is to be mast-mounted and placed close to the antenna. It improves the receiver sensitivity.
RBS Product Description • Four spaces in the DXU/PSU subrack of the RBS 2106 and the RBS 2106i (RUs that are typically located in the OXU slots include the DXX and the TMA-CM) • One 19-inch OXU position is available between the CXU and the CDU subrack (used for HCU and ASU in co-sited cabinets) Smoke Detector A R Y The smoke detector is an optical device. Its purpose is to detect visual smoke. When smoke enters the detector, a light beam is deflected towards a photocell and an alarm is activated.
Hardware Units The recommended installation is shown in the figure below. Lightning Protection and RF filter DXU (DXX) Transmission equipment Recommended TM Installation P012580A IN Figure 12 TM A R Y RBS cabinet The maximum dimensions for the TM are shown in the table below.
RBS Product Description 7 Interfaces This section lists all external connectors, as well as the test interface and the operator interface. 7.1 A R Y Internal connections, the test interface, and the operator interface are located on some cabinet hardware units. External Connections PR EL I M IN All external connectors enter through the bottom of the cabinet. The approximate locations of the connection fields are shown in the figure below, to aid in planning cable inlet allowances.
IN A R Y Interfaces Figure 14 Connection Field Inlets in RBS 2106i and RBS 2106 V3 Cable Inlet Diametre EL I Connectio n Field M Table 22 Cable Inlet Measurements 1 2 3 Inlet Sealing Type AC mains 17 – 28 mm Rubber Signal cables 6 × 10 mm, 18 × 5 mm Rubber pads Optical cable 2 × 23 mm PR Connections on DF The DF, which is of modular construction, contains positions for OVP modules used for external alarms, GPS solution, PCM, and ESB cables.
RBS Product Description The DF in the RBS 2106i and RBS 2106 V3 can be equipped with the following: • Up to two OVP modules for PCM (four PCM lines) • Up to two OVP modules for ESB (one incoming and one outgoing) • Up to four OVP modules for external alarms (16 external alarms) A R Y Overvoltage Arrestors for External Alarms in the RBS 2106 All voltage arrestors, for example external alarms, have space for two alarms. The cable used must be single core, with a diametre of 0.3 – 0.8 mm.
Interfaces To CDUs (x6) 7-16 Connectors IN A R Y A1 2 3 4 5 6 B8 B7 B6 B2 Antenna sharing connectors B3 B4 B5 N connectors P008714B RBS 2106 Antenna Connections PR Figure 15 EL I M B1 129/1551-LZA 701 0001 Uen PF1 | 2010-10-08 35
Figure 16 Table 25 EL I M IN A R Y RBS Product Description RBS 2106i and RBS 2106 V3 Antenna Connections Antenna Connections Connection To Type Connector A1–A6 Antenna 7-16" IEC 169-4 B1–B6 Antenna sharing N connector IEC 169-16 B7–B8 Optional N connector IEC 169-16 C1–C6 Antenna (only in CDU-K configurations) 7-16" IEC 169-4 PR Connection Number 36 129/1551-LZA 701 0001 Uen PF1 | 2010-10-08
Interfaces A R Y CDU-K TMA-CM connection plate CF cover P017212C RBS 2106i and RBS 2106 V3 Antenna Connections with CDU-K Other External Connections External Connections Connection To EL I Connection Location M Table 26 IN Figure 17 Type Connector AC Mains connections Screw terminal for wires 4 – 16 mm ACCU AC Service outlet • IEC 83:1975 standard C 2b (Sweden, Germany and others) PR AC connection box Reference earth • IEC 83:1975 standard B2, same as BS 1363:1984 standard 13A (UK) •
RBS Product Description Transport Network to TM The external line from the transport network interfaces to the transport module. The type and impedance of the connector can differ from operator to operator. 7.2 Test Interface Self-test button OMT The Operation and Maintenance Terminal (OMT) interface is located on the front of the DXU. System voltage test The system voltage test port provides access to the system voltage (+24 V DC). It is located on the IDM. Operator Interface IN CLU M 7.
Indicator Position Description Heat exchanger external fan fault Climate unit A fan is faulty Heat exchanger internal fan fault Climate unit A fan is faulty Local mode dTRU, DXU The RU is in local mode Operational All RUs The RU is operational Power fault Climate unit RBS fault DXU RF off dTRU TMA operational TMA Transmission OK DXU A R Y Interfaces One or more faults are detected on RUs in the RBS No RF signal The TMA is operational Table 28 Signal and frame synchronization OK
RBS Product Description 8 Power System This section provides information on the power system of the RBS 2106.
Power System 8.1 Power Supply This section describes the AC mains power supply, the external earth fault circuit breakers, and the mains fuses. AC Mains Supply Voltage Single-phase, two-phase, or three-phase AC can be used.
RBS Product Description 8.2 Battery Backup Battery backup is used to power the site during mains failure and also to protect the site from short-term interruptions in the mains supply. The backup time is dependent on for example RBS configuration, traffic load and temperature.
Power System Climate System Power Consumption, Input Voltage >200 V AC 2106 or 2106i Combined Climate Unit 5,920 W 2106 V3 Heat Exchanger Climate Unit 7,700 W 2106 V3 Combined Climate Unit 8,700 W PR EL I M IN A R Y RBS 129/1551-LZA 701 0001 Uen PF1 | 2010-10-08 43
RBS Product Description 9 Transmission • T1 1544 kbps, 100 • E1 2048 kbps, 120 • E1 2048 kbps, 75 A R Y Transmission cables are normally connected to the transmission Overvoltage Protection (OVP) modules. Four transmission cables are connected to the ports on the front of the DXU.
External Alarms 10 External Alarms The RBS 2106 supports a maximum of 16 external alarms. The external alarm device can set the alarm using either an open or a closed condition. A R Y The alarm device connected to the screw terminals must be isolated by relay contacts. A closed contact (logic zero) is required to be below 2 k , and an open contact (logic one) above 100 k . The current through a closed 0 W contact is 1.2 mA. The voltage between terminals with an open contact is +24 V DC.
RBS Product Description 11 Standards, Regulations and Dependability This section provides a brief overview of standards, type approval, and EMC. Safety Standards A R Y 11.1 In accordance with the market requirements, the RBS 2106 complies with the following product safety standards: • IP 55 according to IEC 60529 • EN 60950 / IEC 60950 • EN 60215 / IEC 60215 • UL 1950 • CSA 22.2 No. 950 EL I M IN 73/23/EEC Low voltage directive Other Standards and Regulations PR 11.
Standards, Regulations and Dependability Dependability The RBS 2106 is designed for a technical lifetime of 25 years (24-hour operation). The following preventive maintenance conditions must be fulfilled to guarantee the availability of the RBS: The fans must be inspected (and cleaned if necessary) every year. The lifetime is estimated to be at least 7 years.