Nortel Networks 411-2021-111 manual Receive cabling

Page 59

Cell Site Layouts 3-33

Receive cabling

In the reverse path, the receive signal from the main antenna of each sector is connected to the A-input of the Receive Multicoupler (RMC) through the receive port of the duplexer of that sector. The diversity antenna connects directly to the B-input of the RMC. Distribution of the reverse path frequencies is accomplished by RF splitters within each RF frame.

Table 3-14 lists the connection between the RMCs and the RF splitters in a 60° STSR Metrocell with two RF Frames. Table 3-15 lists the connection between the RMCs and the RF splitters in a 60° STSR Metrocell using four RF frames.

Table 3-14

RMC to splitter connections for a 60° STSR Metrocell with two RF Frames

 

From

Through

To

 

 

 

 

 

 

 

Main antenna, Sector X — primary sector

RMC 1A - A1

 

Splitter 1

 

 

 

 

 

 

Main antenna, Sector Y — right adjacent sector

RMC 2A - A1

 

Splitter 2

Sector X

 

 

 

 

Main antenna, Sector U — rear sector

RMC 4A - A1

RF Frame 1

Splitter 3

 

 

 

TRU shelf 1

 

 

Diversity antenna, Sector X — primary sector

RMC 1B - B1

Splitter 4

 

 

 

 

 

 

Diversity antenna, Sector U — rear sector

RMC 4B - B1

 

Splitter 5

 

 

 

 

 

 

Diversity antenna, Sector W — left adjacent sector

RMC 6B - B1

 

Splitter 6

 

 

 

 

 

 

Main antenna, Sector Y — primary sector

RMC 2A - A2

 

Splitter 1

 

 

 

 

 

 

Main antenna, Sector Z — right adjacent sector

RMC 3A - A1

 

Splitter 2

Sector Y

 

 

 

 

Main antenna, Sector V — rear sector

RMC 5A - A1

RF Frame 1

Splitter 3

 

 

 

TRU shelf 2

 

 

Diversity antenna, Sector Y — primary sector

RMC 2B - B1

Splitter 4

 

 

 

 

 

 

Diversity antenna, Sector V — rear sector

RMC 5B - B1

 

Splitter 5

 

 

 

 

 

 

Diversity antenna, Sector X — left adjacent sector

RMC 1B - B2

 

Splitter 6

 

 

 

 

 

 

Main antenna, Sector Z — primary sector

RMC 3A - A2

 

Splitter 1

 

 

 

 

 

 

Main antenna, Sector U — right adjacent sector

RMC 4A - A2

 

Splitter 2

Sector Z

 

 

 

 

Main antenna, Sector W — rear sector

RMC 6A - A1

RFFrame 1

Splitter 3

 

 

 

TRU shelf 3

 

 

Diversity antenna, Sector Z — primary sector

RMC 3B - B1

Splitter 4

 

 

 

 

 

 

Diversity antenna, Sector W — rear sector

RMC 6B - B2

 

Splitter 5

 

 

 

 

 

 

Diversity antenna, Sector Y — left adjacent sector

RMC 2B - B2

 

Splitter 6

 

 

 

 

 

 

Main antenna, Sector U — primary sector

RMC 4A - A3

 

Splitter 1

 

 

 

 

 

 

Main antenna, Sector V — right adjacent sector

RMC 5A - A2

 

Splitter 2

Sector U

 

 

 

 

Main antenna, Sector X — rear sector

RMC 1A - A2

RFFrame 2

Splitter 3

 

 

 

TRU shelf 1

 

 

Diversity antenna, Sector U — primary sector

RMC 4B - B2

Splitter 4

 

 

 

 

 

 

Diversity antenna, Sector X — rear sector

RMC 1B - B3

 

Splitter 5

 

 

 

 

 

 

Diversity antenna, Sector Z — left adjacent sector

RMC 3B - B2

 

Splitter 6

 

 

 

 

 

DMS-MTX DualMode Metrocell Cell Site Description

Page 58 Page 60
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Page 58 Page 60
Contents DualMode Metrocell Page Page June Publication historyContents Appendices Power and Grounding RequirementsCell Site Components Datafilling a Metro Cell SiteList of tables Block diagram of a 120 Stsr Metrocell using one RF FramePage Intended audience for this publication About this documentApplicability of this publication How this publication is organizedCarrier RF List of termsBand Duplexer CellDBm DBWLoss FilterForward path IsolationReturn loss ModulationOmni DqpskSectorization Signal RFSector Stsr Northern Telecoms DualMode Metrocell IntroductionDigital ready cellular product System architecture of a DualMode MetrocellMetro RF Frame Basic components of a DualMode Metrocell Universal CE FrameChannel assignment Band a 416 channels Band B 416 channels 800 MHz cellular bandChannel assignment for 800 MHz cellular systems Introduction 6Introduction Standard 01.01 June Overview Cell Site ConfigurationsOmni configuration Omni N=7 frequency reuse plan Sectorized configuration120 N=7 sectorized frequency reuse plan 60 N=4 sectorized frequency reuse plan Cell Site Layouts Omni cell site configurationRF Frame Control Channel redundancyCell Site Layouts 4Cell Site Layouts TRU/DPA Transmit cabling6Cell Site Layouts Frames TRUs ATCs Receive cablingComponent requirement No.Stsr cell site configuration CE Frame RF Frame Block diagram of a 120 Stsr Metrocell using one RF FrameBlock diagram of a 120 Stsr Metrocell using three RF Frames 12Cell Site Layouts DPA 9 Port1 CCH ATC3 Port DPA 10 Port1 14Cell Site Layouts TRU/DPA ATC 16Cell Site Layouts Sector Sector Z Sector YSector Y TX/RX, 3 RX Sector W Stsr cell site connectionControl Channel Locate Channel Receiver Sector Sector U22Cell Site Layouts Block diagram of a 60 Stsr Metrocell with two RF Frames 24Cell Site Layouts Block diagram of a 60 Stsr Metrocell with four RF Frames 26Cell Site Layouts Transmit cabling 28Cell Site Layouts TRU/DPA 30Cell Site Layouts Port2 ATC3 Port DPA Port1 RF Frame 32Cell Site Layouts Receive cabling 34Cell Site Layouts Sector Y 36Cell Site Layouts Component requirement 38Cell Site Layouts Standard 01.01 June Major components of a DualMode Metrocell Description Cell Site ComponentsNTAX98AA FRU Customer Service Operations 4Cell Site Components Standard 01.01 June Safety requirements Power and Grounding RequirementsPower and grounding requirements Power and Grounding Requirements 4Power and Grounding Requirements Power distribution for the CE and RF Frames in a Metrocell Frame power distributionGrounding UL/CSA approval System power protectionCEC par DC coupled signals Cable Identification 10Power and Grounding Requirements Standard 01.01 June Datafill Overview Datafilling a Metro Cell SiteTable Acualm Table ClliCavities Fan Pwr Alarm PointsMetro RF Frame ATC Hsmo +27V a Port # Rip Connector J206Table VCHINV, CCHINV, Lcrinv Example of Metro TRU datafill Frequency Assignment ExampleIcrm Example of Metro ICRM/TRU hardwire configuration8Datafilling a Metro Cell Site Standard 01.01 June Radio Frequency Appendix a DualMode Metrocell Cell Site SpecificationsSystem Configuration Audio Interface AlarmsMechanical DC Power RequirementsPower Distribution Requirements Environmental PackagingTelecom Compliance Regulatory Electromagnetic EmissionsRadiated Emissions Product Safety =7 Frequency plan Band a Appendix B Frequency Plans=7 Frequency plan Band B =4 Frequency plan Band B =4 Frequency plan Band a10Frequency Plans Standard 01.01 June Page Cell Site Description
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