™ InterReach Spectrum Main and Secondary Remote Access Unit Installation Guide ADCP-77-168 Issue 2 07/2011 Main Remote Access Unit Secondary Remote Access Unit D-620731-0-20 Rev A
Copyright © 2011 ADC Telecommunications, Inc. All Rights Reserved. Information contained in this document is company private to ADC Telecommunications, Inc. and shall not be modified, used, copied, reproduced or disclosed in whole or in part without the written consent of ADC. Trademark Information ADC is a registered trademark and InterReach Spectrum is a trademark of ADC Telecommunications, Inc.
TABLE OF CONTENTS Preface.................................................................................................................... 1 InterReach Spectrum User Documentation .............................................................. 2 Document Cautions and Notes ............................................................................... 2 General Safety Precautions ................................................................................... 2 Standards Certification .................
Preface InterReach Spectrum User Documentation The InterReach Spectrum user documentation is intended for system administrators, engineers and installers responsible for planning, administering, configuring, and maintaining ADC InterReach Spectrum systems. Table 1 lists the manuals that correspond to this InterReach Spectrum release. Table 1.
Preface Standards Certification FCC: This equipment complies with the applicable sections of Title 47 CFR, Part 22 (800 MHz Cellular), Part 24 (1900 MHz - PCS), Part 90 (800/900 - SMR), and Part 27 (700 MHz, 2100 MHz - AWS). IC: This equipment complies with the applicable sections of RSS-131 (800/900 – SMR), RSS-132 (800 - Cellular), and RSS-133 (1900 – PCS). The term “IC:” before the radio certification number only signifies that Industry Canada Technical Specifications were met.
Product Overview PRODUCT OVERVIEW InterReach Spectrum supports up to eight frequency bands in a single system. Each antenna location supports those bands in modular, group pairings. Each location includes a Main Remote Access Unit (MRAU), which can power up to three additional Secondary Remote Access Units (SRAUs). An MRAU supports two frequency bands, and each SRAU can support up to two frequency bands, for a total of up to eight frequency bands.
Product Overview Main Remote Access Units The Main Remote Access Unit (MRAU) receives FWD IF signals from an IF Expansion Unit (IFEU), which is part of the Spectrum Expansion Module Group, using 75 CATV cable. The MRAU converts the IF signals to RF and sends them to a passive RF antenna using 50 coaxial cable. The MRAU also receives configuration information and power from and sends its status information to the IFEU. The MRAU receives REV RF signals from a passive RF antenna using 50 coaxial cable.
Product Overview MRAU LEDs REV IF OUT REV SECONDARY PORTS 1 2 3 1 Ref # LED LINK 2 LED Color STATUS FWD SECONDARY PORTS 1 2 3 3 4 FWD IF IN 5 Description • Green 1 FWD SECONDARY PORT (1 - 3) 2 LINK 3 STATUS 4 REV SECONDARY PORT (1 - 3) 5 FWD IF IN Page 6 © 2011 ADC Telecommunications, Inc • Downstream unit correctly connected; unit has no alarms or a Minor alarm is active. • Blinking Green • SRAU or band is set out-of-service.
Product Overview Secondary Remote Access Units A Secondary Remote Access Unit (SRAU) receives FWD IF signals from the MRAU, using 75 CATV cable. The SRAU converts the IF signals to RF and sends them to a passive RF antenna using 50 coaxial cable. The SRAU, through the MRAU, also receives configuration information and power from and sends its status information to the IFEU. The SRAU receives REV RF signals from a passive RF antenna using 50 coaxial cable.
Install the RAUs and Antennas SRAU LEDs SECONDARY SECONDARY REV Ref # LED 1 LED Color 3 STATUS 1 2 3 Description • Green • Red LINK • 2 FWD LINK • • • • SECONDARY FWD • STATUS • • SRAU receiving communications from the IFEU. • SRAU has not received communications from the IFEU for more than 90 seconds. Off • During initial power up, SRAU is powering up and waiting for IFEU communications. Green • Unit has no alarms or a Minor alarm is active.
Install the RAUs and Antennas NOTE: RAUs are suitable for use in environmental air space in accordance with Section 300-22(c) of the National Electrical Code, and Sections 2-128, 12-010(3) and 12-100 of the Canadian Electrical Code, Part 1, CSA C22.1. NOTE: You can place the RAU, without its fastening hardware, on a flat surface, such as a shelf, desk, cabinet, or any other horizontal surface that allows stable placement, with the mounting base facing down to the mounting surface.
Install the RAUs and Antennas Connect the IFEU to the MRAU NOTE: The IFEU should be powered up before starting this procedure; see the InterReach Spectrum Expansion Module Group Installation Guide (ADCP-77-167). 4 Follow these rules for the CATV cables when connecting the IFEU to the MRAU: • The FWD and REV cables should be close to the same length. • The FWD and REV cables should be the same cable type (both RG6 or both RG11). • A pair of CATV cables connects each MRAU to the IFEU.
Install the RAUs and Antennas IFEU Step 6a To an antenna MRAU REV IF OUT REV SECONDARY PORTS 1 2 3 LINK Step 6c InterReach Spectrum Remote Access Unit Installation Guide ADCP-77-168 • Issue 2 • 07/2011 STATUS FWD SECONDARY PORTS 1 2 3 FWD IF IN Step 6b Page 11 © 2011 ADC Telecommunications, Inc.
Install the RAUs and Antennas Connect the MRAU to SRAUs CAUTION! To prevent interference, do not install an 850/1900 MRAU antenna near an 800/900 SRAU. The 850 MHz band must be 20 feet away from the 800/1900 SRAU’s passive antenna. 7 Use one of the following 6’ and 20’ CATV RG6 jumpers, available for purchase from ADC, to connect an MRAU to SRAUs. ADC Part Number Description Note 300469-0 6’ RG-6 Cable; F Male to F Male CATV cable that connects the MRAU to SRAUs. Two cables required per SRAU.
Install the RAUs and Antennas 10 Repeat Step 9 to install up to two more SRAUs, as per system design.
Appendix A: Specifications APPENDIX A: SPECIFICATIONS Spectrum System Specifications RF Specification Supported Frequency Blocks 2 per Remote Antenna Unit; 1-8 per Host Unit Bandwidth 1.
Appendix A: Specifications Remote Access Unit Specifications Operating Temp -25°C to +50°C Storage Temperature -40°C to +70°C Humidity 10% to 90% non-condensing Dimensions 11.50" x 9.00" x 3.50" Weight 7.49 Pounds Power Source 54VDC (from IFEU) Composite Power Out of RAU RF Frequency TX 850 Cell 869-894 RX 824-849 800 SMR 851-869 806-824 900 SMR 935-940 896-901 1900 PCS 1930-1995 1850-1915 Number of RF Carriers 1 2 4 8 16 26 23 20 18 17.5 GSM 23 20.
Appendix B: 75-Ohm CATV Cable APPENDIX B: 75-OHM CATV CABLE The 75-Ohm CATV Cable: • connects the IFEU to MRAU(s) and the MRAU(s) to the SRAU(s) • transmits (FWD) multiband and receives (REV) IF signals • delivers DC electrical power to the RAUs. The Spectrum IFEU DC voltage output is 54VDC nominal. If the IFEU reaches its current limit, a current-limiting circuit protects it. • carries configuration and status information • uses 75 type-F connectors with captive centerpins.
Appendix B: 75-Ohm CATV Cable • Use RG-6 or RG-11 CATV cable between the IFEU and MRAU, the typical lengths of which are listed below. Cable Type Minimum Length Maximum Length Meters Feet Meters Feet RG-6 0 0 140 459 RG-11 0 0 200 656 • Use only RG-6 CATV cable between the MRAU and SRAU, the lengths of which are listed below. RG-6 Cable Meters Feet Typical 2 6.56 800/900 iDEN to 850 CELL 6 19.68 800 AWS to 850 CELL 6 19.
Appendix B: 75-Ohm CATV Cable Overall Nominal Electrical Characteristics Characteristic Impedance 75.000 Inductance 0.103 H/ft. Capacitance Conductor to Shield 16.100 (pF/ft.) Velocity of Propagation 82 (%) Delay 1.240 (ns/ft.) Conductor DC Resistance 6.400 @ 20°C (/1000 ft.) Outer Shield DC Resistance 2.800 @ 20°C (/1000 ft.) Attenuation Freq. (MHz) Attenuation (dB/100 ft.) Page 18 © 2011 ADC Telecommunications, Inc 1.000 0.240 3.580 0.450 5.000 0.550 7.000 0.650 10.000 0.
Appendix B: 75-Ohm CATV Cable Belden 7732A Coax Specifications Description RG-11/U type, 14 AWG solid 0.064-inch bare copper conductor, plenum, foam FEP insulation, Duofoil® + tinned copper braid shield (95% coverage), fluorocopolymer jacket. Overall Physical Characteristics Conductor One Coax 18 AWG Solid stranding Bare Copper (BC) conductor material 0.064-inch diameter Insulation Teflon® Foam Fluorinated Ethylene Propylene (FFEP) 0.
Appendix B: 75-Ohm CATV Cable Attenuation Freq. (MHz) Attenuation (dB/100 ft.) Page 20 © 2011 ADC Telecommunications, Inc 1.000 0.150 3.580 0.260 5.000 0.300 7.000 0.340 10.000 0.400 67.500 1.200 71.500 1.240 88.500 1.400 100.000 1.500 135.000 1.780 143.000 1.840 180.000 2.090 270.000 2.600 360.000 3.100 540.000 3.890 720.000 4.570 750.000 4.680 1000.000 5.500 1500.000 6.910 2000.000 8.130 2250.000 9.200 3000.000 10.
Appendix C: Omni Antenna APPENDIX C: OMNI ANTENNA The Omni Antenna (4214-M727), shown in Figure 3, is a round radome with the following specifications: • 8.5-inch diameter • 1.65-inch height • 72-inch pigtails that are plenum-rated cables with N (male) connectors Figure 3. Omni Antenna NOTE: Two antennas per RAU is required for MIMO performance.
Appendix D: Contacting ADC/TE Connectivity APPENDIX D: CONTACTING ADC/TE CONNECTIVITY NOTE: ADC is now TE Connectivity. PHONE U.S.A.
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