Exhibit 8 Manual
EN/LZT 720 0491 Uen R2A RBS 2107 Radio Base Station Product Description The RBS 2107, a member of the RBS 2000 family, is a 6-Transceiver (TRX) radio base station for outdoor applications. It can be configured for omni cells or for multi-sector cells of up to three sectors.
RBS 2107 Contents 2 (28) 1 Product Overview 3 1.1 Main Features 3 1.2 Variants 4 1.3 Optional Equipment 4 2 Dimensions 4 3 Space Requirements 6 4 Environment 7 4.1 Operating Environment 7 4.2 Environmental Impact 8 4.3 Compliance Distances for Electromagnetic Exposure 9 4.4 Materials 11 5 Hardware Units 11 5.1 Standard Hardware Units 12 5.2 Optional Hardware Units 14 6 Interfaces 17 6.1 External Connections 17 6.2 Test Interface 21 6.
RBS 2107 1 Product Overview The RBS 2107 is a medium-capacity base station. It is used for outdoor applications, with up to three double TRansceiver Units (dTRU). There is space inside the cabinet for transmission equipment and battery backup. The RBS 2107 is designed to be transported as a fully assembled cabinet, with the exception of batteries, to the site. All units in the cabinet are easily accessible from the front of the cabinet, which means it can be positioned against a wall. 1.
RBS 2107 1.2 Variants The following variants are available and can be combined according to ordering information: 1.
RBS 2107 Size and Weight 1000 926 1618 56.
RBS 2107 Surface and Colour The RBS 2107 has a surface quality according to Ericsson standard class A3/B6. Table 2 3 RBS 2107 Colours Colour Reference Number Ericsson Number Grey RAL 7035 MZY 509 01/8119 Space Requirements 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 1000 mm, see figure below. No free space is needed at the back of the cabinet.
RBS 2107 Footprint The footprint of the RBS 2107 is 1000 mm wide and 710 mm deep. Note that the door, which protudes 216 mm, is not included in the footprint because its lower edge is clear of the ground.
RBS 2107 Climatic Requirements Table 3 Climatic Requirements Description Temperature Relative Humidity Normal Operational Conditions −33 C to +45 C 15 – 100% Transport −40 C to +70 C 5 – 100% Storage −25 C to +55 C 10 – 100% Ground Vibrations The RBS 2107 is designed to fulfill the requirements of earthquake protection according to IEC 60 721-3-4 class/4M5/ and ETSI EN 300 019-1-4 class 4.1.
RBS 2107 4.3 Compliance Distances for Electromagnetic Exposure The compliance distance is the minimum separation that should be kept between the antenna and a person in order to ensure that the ICNIRP RF exposure limits are not exceeded. Note: 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.
RBS 2107 Table 4 Compliance Boundary Dimensions for the General Public (GP) and Occupational (O) Exposure for Typical Configurations Dimensions of Cylindrical Compliance Boundary in (m) Diameter Height Configuration Frequency (MHz) GP O GP O GP O 3×2 no hybrid 900 6 3 1.7 1.4 0.1 0.1 1800 5 1 1.6 1.4 0.1 0.05 900 4 1 1.5 1.4 0.1 0.1 1800 2 0.5 1.4 1.4 0.1 0.05 900 6 3 1.7 1.4 0.1 0.1 1800 5 1 1.5 1.4 0.1 0.
RBS 2107 Table 6 Maximum Power to Antenna for Various RBS 2107 Configurations Configuration Frequency (MHz) Nominal Output Power per TRU (dBm)/(W) Maximum Power (1) into Antenna (dBm)/(W) 3×2 no hybrid 900 45.2 / 33 47.2 / 53 1800 44 / 25 46 / 40 900 41.7 / 15 43.7 / 23 1800 40.5 / 11 42.5 / 18 900 47.7 / 59 46.7 / 47 1800 46.5 / 45 45.5 / 35 3×2 combined 3×1 TCC (1) Including power tolerance level (+2 dB) and transmission losses (-3 dB). 4.
RBS 2107 Figure 6 5.1 RBS 2107 Overview Standard Hardware Units This section briefly describes the standard hardware units required, irrespective of configuration or frequency. ACCU-32 The AC Connection Unit (ACCU) connects, disconnects, and distributes the incoming AC power supply to the PSUs and the climate unit. Number of units: 1 BFU-21 The Battery Fuse Unit (BFU-21) supervises the connection or disconnection of the batteries.
RBS 2107 refrigerating capacity; so the cabinet cannot be cooled to a temperature lower than the outside (ambient) temperature. Number of units: 1 CDU-J The Combining and Distribution Unit (CDU-J) is the interface between the transceivers and the antenna system. All signals are filtered before transmission and after reception by means of bandpass filters. The CDU-J allows several dTRUs to share antennas.
RBS 2107 FCU The Fan Control Unit (FCU) controls the fans in the cooling system by regulating fan speed. The FCU is controlled by the DXU. Number of units: 1 IDM The Internal Distribution Module (IDM) is a panel for distributing the internal +24 V DC power to the various units. Each distribution circuit in the cabinet is connected to a circuit breaker in the IDM. Number of units: 1 PSU The PSU converts 120 – 250 V to regulated +24 V DC.
RBS 2107 Number of units: 0 – 6 DC/DC Converter The DC/DC converter can supply −48 V DC power to transmission equipment in the TM compartment. It converts +24 V DC to -48 V DC. Number of units: 0 – 2 DC Filter The DC filter is the interface between a +24 V DC external power source, such as a battery, and the IDM inside the RBS.
RBS 2107 ESB TG synchronisation is the technology used to expand one RBS 2107 cabinet with another RBS cabinet in the same cell. The ESB is the cable between the DXUs. Number of units: 0 – 1 Gas Collecting Kit The batteries can be fitted with a gas evaporating kit, which removes gases from the cabinet. Number of units: 0 – 1 OXU The following Optional Expansion Unit (OXU) positions are available: • Two spaces in the DXU/dTRU subrack 1 × 5 TE and 1 × 12 TE (× 5.
RBS 2107 RX-Splitter 01 RX-Splitter 01 distributes the receiver signals from the CDUs to the dTRU in specific configurations of the RBS. Number of units per cabinet: 0 – 1 6 Interfaces This section lists all external connectors, as well as the test interface and the operator interface. Internal connections, the test interface, and the operator interface are located in some cabinet hardware units. 6.1 External Connections All external connectors enter through the bottom of the cabinet.
RBS 2107 Connection field 4 557 Power inlet 274 Connection field 2 Connection field 1 115 393 710 Connection field 3 102 360 457 898 1000 Unit of measurements: mm Figure 8 Table 7 P012696A Cable Inlet Measurements Cable Gland Capacity Connection Field Cables 1 See Antenna Connections on Page 19 2 7 × 12 mm (diameter) OVP 1 × 15 mm (diameter) GPS 1 × (17 – 20 mm) (diameter) DC out 3 6 × (1 × 10 mm + 3 × 0.
RBS 2107 Table 8 Optional Configurations in the DF No. of PCM Lines Used 4 Ext. Alarms 2 X (1) 4 Ext. Alarms 4 Ext. Alarms 4 Ext. Alarms ESB 1 ESB 2 X X X X X X O (2) 4 X X X O 6 X X O O O O 8 X O O – O O (1) Usable with no restrictions or conflicts. (2) Optional; can be used, but not together with one or more other optional (O) functions. Note: ESB 1 is always used in the RBS in an ESB chain. ESB 2 is used only if the RBS is between more RBSs in an ESB chain.
RBS 2107 A1 A3 A5 A2 A6 A4 P012632A Figure 9 Antenna Connections Table 10 Antenna Connections Connection Number Connection To Type of Connector A1 – A6 Antenna 7-16" IEC 169-4 Other External Connections Table 11 20 (28) External Connections Connection Location Connection To Type of Connector AC connection box AC mains connections Screw terminal for wires 2.
RBS 2107 External Connections to Transmission Equipment Optical fibre and MiniLink radio cables are connected to the transmission equipment through connection field 3. Twisted pair cables are connected to the transmission equipment through the DF-OVP. 6.2 Test Interface The RBS 2107 is equipped with test interfaces for the connection of external equipment. 6.3 CLU Self-test button OMT The Operation and Maintenace Terminal (OMT) interface is located on the front of the DXU.
RBS 2107 Operational All RUs The RU is operational Power fault PSU AC power or at least one phase is missing in the RBS RBS fault DXU One or more faults are detected on RUs in the RBS RF off dTRU No RF signal TMA 1 – 6 TMA-CM The TMA is operational Transmission OK DXU Signal and frame sync.
RBS 2107 The figure below provides an overview of the power distribution system in the RBS 2107. External battery AC mains Outside RBS cabinet Inside RBS cabinet DC filter and OVP ACCU Internal battery PSUs BFU IDM DC/DC Internal DC users TM equipment Climate DF DC out P012639A Figure 10 7.1 Power System Power Supply This section describes the AC mains power supply, the external earth-fault circuit breakers, and the mains fuses.
RBS 2107 External Earth-fault Circuit Breakers If external earth-fault (ground-fault) circuit breakers are used, then the recommended minimum trip value is 100 mA. Mains Fuses Table 14 Mains Fuses Recommendation Minimum for Safe Function 16 A (1) / 35 A Recommended for Maximum Selectivity 20 A (1) / 35 A Maximum Allowed Fuse Rating 63 A (1) High line 180 V AC three-phase/single phase. 7.
RBS 2107 7.4 Power Consumption The power consumption is shown in the table below. Table 16 Power Consumption Power Consumption, Input Voltage >200 V AC 1700 W 8 Transmission The RBS 2107 supports two transmission standards: 9 • T1 1.5 Mbit/s, 100 • E1 2 Mbit/s, 75 • E1 2 Mbit/s, 120 , with PCM synchronisation , with PCM synchronisation , with PCM synchronisation External Alarms The RBS 2107 supports a maximum of 16 external alarms.
RBS 2107 10.2 • 73/23/EEC Low voltage directive • IP 55 according to IEC 60529 • EN 60950-1 / IEC 60950-1 • EN 60215 / IEC 60215 • UL 60950-1 • CSA 950-1 Other Standards and Regulations Marking The product is marked with symbols to indicate compliance with product safety standards. Type Approval Standards The RBS 2107 complies with European Community and North American market requirements regarding radio performance.
RBS 2107 Fans The fans must be inspected (and cleaned if necessary) every year. Their lifetime is estimated to be at least 7 years. Climate unit The climate unit must be regularly inspected and cleaned (the interval is about a year but depends on the environmental conditions at the site). Batteries The batteries must be inspected at least once a year (for oxide on the pole terminals). The batteries should be replaced according to the recommendations of the battery supplier.
RBS 2107 . Ericsson AB SE-164 80 Stockholm Sweden asq.us@ericsson.com 28 (28) No part of this document may be reproduced in any form without the written permission of the copyright owner. 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 damages of any kind resulting from the use of this document.