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設計分析:EricssonのW-CDMA/LTE向け2100MHz遠隔無線装置 (RRUS) 120W (2x60W) KRC 161 349/2 R1B、モデルRRUS12 B4

Design Analysis - Ericsson W-CDMA/LTE 2100MHz Remote Radio Unit, 120W (2 x 60W), KRC 161 349/2 R1B, Model RRUS12 B4

発行 EJL Wireless Research 商品コード 328158
出版日 ページ情報 英文 159 Pages
納期: 即日から翌営業日
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設計分析:EricssonのW-CDMA/LTE向け2100MHz遠隔無線装置 (RRUS) 120W (2x60W) KRC 161 349/2 R1B、モデルRRUS12 B4 Design Analysis - Ericsson W-CDMA/LTE 2100MHz Remote Radio Unit, 120W (2 x 60W), KRC 161 349/2 R1B, Model RRUS12 B4
出版日: 2015年04月13日 ページ情報: 英文 159 Pages
概要

当レポートでは、Ericsson社製のW-DCMA向けRBS6601主力/遠隔基地局プラットフォームの一部を構成している、W-CDMA/LTE向け2100MHz RRUS12 B4 2x60W 遠隔無線装置の設計について分析しております。

エグゼクティブ・サマリー

  • 能動/受動素子の概要
  • 重要な注記

第1章 ERICSSON RBS6000 BTS SYSTEM

  • RBS6601製品の概要

第2章 RRUS 12の機械分析

  • 機械分析
  • RRUS 12 デュプレクサ (送受切替機) のフィルターカバー
  • RRUS 12 トップフレーム
  • RRUS 12 DC・RFケーブル
  • RRUS 12 リアフレーム

第3章 RRUS 12 インターフェース・サブシステム

第4章 RRUS 12 電力サージ保護装置 (SPD) 用プリント基板 (PCB)

第5章 RRUS 12 TRX/PAサブシステム

  • デジタルプロセッサ・TRx・パワーアンプ用PCB
  • エリアA:ベースライン信号処理
  • エリアA1 & A2:電源サポート回路網
  • エリアB:送電経路B
  • エリアC:DC-DCコンバータ
  • エリアD:パワーアンプA向け電力供給
  • エリアE1 & E2:DPDフィードバックループ
  • エリアF:パワーアンプA & B
  • エリアG & O:エリアB & N向けサポート回路網
  • エリアH:ROR 101 0002/AA向けサポート回路網
  • エリアI:ROR 101 0014/BA向けサポート回路網
  • エリアJ:電力供給
  • エリアK:電力供給
  • エリアL:エリアAおよび外部RFクロスコネクト向けサポート回路網
  • エリアM:パワーアンプA向け電力供給
  • エリアN:送電経路A
  • エリアP1 & P2:パワーアンプA & B向けサポート回路網
  • エリアQ:TxフィードバックおよびRXA/RXB
  • エリアR:デュアルチャネルRF/IFダウンコンバート受信機
  • エリアS:システムタイミング
  • ROR 101 0001/BB R1B
  • ROR 101 0002/AA R1C
  • ROR 101 0003/BA R1D
  • ROR 101 0009/AA R1D
  • ROR 101 0010/BA R1E
  • ROR 101 0014/BA R1C
  • PA9F73周波数シンセサイザーモジュール
  • PV1F01周波数シンセサイザーモジュール
  • E-H14A周波数シンセサイザーモジュール
  • E-H03B周波数シンセサイザーモジュール
  • E-H03B周波数シンセサイザーモジュール

第6章 RRUS 12 デュプレクサ空胴フィルターRFサブシステム

  • VSWR PCB
  • RRUS 12 デュプレクサ用フィルターの導波管/共振機の分析
  • TXサンプリング回路

付録A:受動素子の市場シェア/ケースサイズの分析

付録B:能動素子の市場シェアの分析

図表一覧

目次

This report covers the design analysis of an Ericsson W-CDMA/LTE 2100MHz RRUS12 B4 2x60W remote radio unit. This unit is part of the RBS6601 main/remote base station platform for Ericsson supporting GSM/W-CDMA/LTE. The unit was manufactured in Q4 2013.

Key Findings:

  • The remote radio unit uses an innovative heat dissipation system to keep the high power amplifiers from overheating.
  • Ericsson has switched to a new transceiver architecture that increases integration of semiconductor and passive components to reduce overall system size.

Component and semiconductor suppliers mentioned in this report include: Analog Devices, Altera, Anaren Microwave, Coilcraft, Epson Toyocom, Fairchild Semiconductor, Hittite Microwave, Infineon Technologies, Integrated Device Technology, Kemet, Maxim Integrated Products, Micron, Murata, National Semiconductor, NDK, Nippon Chemi-Con, NXP Semiconductors, ON Semiconductor, Panasonic, Peregrine Semiconductor, Pulse Engineering, RF MicroDevices, Skyworks Solutions, STMicroelectronics, TDK-Epcos, Texas Instruments, TriQuint Semiconductors and Vishay Semiconductors.

Features:

  • Complete Part Number/Marking
  • Component Manufacturer Identification
  • Function Component Description
  • Package Type

Table of Contents

EXECUTIVE SUMMARY

  • Active/Passive Component Summary
  • Important Note:

CHAPTER 1: ERICSSON RBS6000 BTS SYSTEM

  • Overview of RBS6601 Product Offering

CHAPTER 2: RRUS 12 MECHANICAL ANALYSIS

  • Mechanical Analysis
  • RRUS 12 Duplexer Filter Cover
  • RRUS 12 Top Frame
  • RRUS 12 DC and RF Cables
  • RRUS 12 Rear Frame

CHAPTER 3: RRUS 12 INTERFACE SUBSYSTEM

CHAPTER 4: RRUS 12 POWER SURGE PROTECTION DEVICE (SPD) PCB

CHAPTER 5: RRUS 12 TRX/PA SUBSYSTEM

  • Digital Processor, TRx, Power Amplifier PCB
  • Area A: Baseband Signal Processing
  • Areas A1 & A2: Power Supply Support Circuitry
  • Area B: Transmit Path B
  • Area C: DC-DC Converter
  • Area D: Power Supply for Power Amplifier A
  • Areas E1 & E2: DPD Feedback Loop
  • Area F: Power Amplifiers A & B
  • Areas G & O: Support Circuitry for Areas B & N
  • Area H: Support Circuitry for ROR 101 0002/AA
  • Area I: Support Circuitry for ROR 101 0014/BA
  • Area J: Power Supply
  • Area K: Power Supply
  • Area L: Support Circuitry for Area A and External RF Cross Connects
  • Area M: Power Supply for Power Amplifier A
  • Area N: Transmit Path A
  • Areas P1 & P2: Support Circuitry for Power Amplifier A & B
  • Area Q: Tx Feedback and RXA/RXB
  • Area R: Dual Channel RF/IF Downconversion Receiver
  • Area S: System Timing
  • ROR 101 0001/BB R1B
  • ROR 101 0002/AA R1C
  • ROR 101 0003/BA R1D
  • ROR 101 0009/AA R1D
  • ROR 101 0010/BA R1E
  • ROR 101 0014/BA R1C
  • PA9F73 Frequency Synthesizer Module
  • PV1F01 Frequency Synthesizer Module
  • E-H14A Frequency Synthesizer Module
  • E-H03B Frequency Synthesizer Module
  • E-H03B Frequency Synthesizer Module

CHAPTER 6: RRUS 12 DUPLEXER CAVITY FILTER RF SUBSYSTEM

  • VSWR PCB
  • RRUS 12 Duplexer Filter Waveguide/Resonator Analysis
  • TX Sampling Circuit

APPENDIX A - PASSIVE COMPONENT MARKET SHARE/CASE SIZE ANALYSIS

APPENDIX B - ACTIVE COMPONENT MARKET SHARE ANALYSIS

TABLES

  • Table 1: RRUS 12 Interface Connector/Cable Assembly Bill of Materials
  • Table 2: Interface PCB Top, Bill of Materials
  • Table 3: Interface PCB Bottom, Bill of Materials
  • Table 4: Power SPD PCB Bill of Materials
  • Table 5: Area A Bill of Materials
  • Table 6: Area A1 Bill of Materials
  • Table 7: Area A2 Bill of Materials
  • Table 8: Area B Bill of Materials
  • Table 9: Area C Bill of Materials
  • Table 10: Area D Bill of Materials
  • Table 11: Area E1 Bill of Materials
  • Table 12: Area E2 Bill of Materials
  • Table 13: Area F1 Bill of Materials
  • Table 14: Area F2 Bill of Materials
  • Table 15: Area G Bill of Materials
  • Table 16: Area O Bill of Materials
  • Table 17: Area H Bill of Materials
  • Table 18: Area I Bill of Materials
  • Table 19: Area J Bill of Materials
  • Table 20: Area K Bill of Materials
  • Table 21: Area L Bill of Materials
  • Table 22: Area M Bill of Materials
  • Table 23: Area N Bill of Materials
  • Table 24: Area P1 Bill of Materials
  • Table 25: Area P2 Bill of Materials
  • Table 26: Area Q Bill of Materials
  • Table 27: Area R Bill of Materials
  • Table 28: Area S Bill of Materials
  • Table 29: ROR 101 0001/BB Bill of Materials
  • Table 30: ROR 101 0002/AA Bill of Materials
  • Table 31: ROR 101 0003/BA Bill of Materials
  • Table 32: ROR 101 0009/AA Bill of Materials
  • Table 33: ROR 101 0010/BA Bill of Materials
  • Table 34: ROR 101 0014/BA Bill of Materials
  • Table 35: PA9F73 Module Bill of Materials
  • Table 36: PV1F01 Module Bill of Materials
  • Table 37: E-H14A Module Bill of Materials
  • Table 38: E-H03B Module Bill of Materials
  • Table 39: E-H32A Module Bill of Materials
  • Table 40: VSWR PCB Top Bill of Materials
  • Table 41: VSWR PCB Bottom Bill of Materials
  • Table 42: Passive Component Case Size Distribution by System Subsection
  • Table 43: Passive Component Case Size Distribution by System Subsection (Modules)
  • Table 44: Identified Passive Component Supplier Distribution by System Subsection
  • Table 45: Identified Passive Component Supplier Distribution by System Subsection (Modules)
  • Table 46: Active/Passive Component Distribution by System Subsection
  • Table 47: Active Semiconductor/Component Vendor Distribution by System Subsection
  • Table 48: Active Semiconductor/Component Vendor Distribution by System Subsection (Modules)

EXHIBITS

  • Exhibit 1: Ericsson RBS6601 Main-Remote BTS System (L), RRUS 12 (R)
  • Exhibit 2: RBS6601 Configurations (Star/Cascade)
  • Exhibit 3: Ericsson RRUS 12 B4 System Block Diagram
  • Exhibit 4: RBS6601 Main Unit with DUL
  • Exhibit 5: RRUS 12 Connection Interfaces
  • Exhibit 6: RRUS 12 with Solar Shield Front (L), Front Opened (C) and Solar Shield Back (R)
  • Exhibit 7: RRUS 12 Front View with Solar Shield, (External (L) and Internal (R)
  • Exhibit 8: RRUS 12 Rear View with Solar Shield, External (L) and Internal (R)
  • Exhibit 9: RRUS 12 Front View with Solar Shield Removed
  • Exhibit 10: RRUS 12 Front Solar Shield Guide Rails
  • Exhibit 11: RRUS 12 Rear View with Solar Shield Removed, Side Strips
  • Exhibit 12: Side Solar Shield Strips
  • Exhibit 13: RRUS 12 Duplexer Filter Cover, External View
  • Exhibit 14: RRUS 12 Duplexer Filter Cover, Internal View
  • Exhibit 15: RRUS 12 Status Indicator Flex Cable
  • Exhibit 16: RRUS 12 Top Frame, External View, Filter Cover Removed
  • Exhibit 17: RRUS 12 Top Frame, External View, Filter Removed
  • Exhibit 18: RRUS 12 Top Frame, External View
  • Exhibit 19: RRUS 12 Duplexer Filter/Transceiver Connector Interfaces
  • Exhibit 20: RRUS 12 Top Frame, Internal View with PCBs
  • Exhibit 21: RRUS 12 Top Frame, Internal View without Interface and SPD PCBs
  • Exhibit 22: RRUS 12 Top Frame, Internal View without Transceiver/Power Amplifier PCB
  • Exhibit 23: RRUS 12 Top Frame, Internal View
  • Exhibit 24: RRUS 12 Interface Connector/Cable Assembly Location Diagram
  • Exhibit 25: RRUS 12 Cables/Connectors System Block Diagram
  • Exhibit 26: RRUS 12 Rear Frame, External View
  • Exhibit 27: RRUS 12 Rear Frame, Internal View
  • Exhibit 28: RRUS 12 Rear Frame, Internal View of Thermal Pads/Pedestals
  • Exhibit 29: Interface PCB Dimensions
  • Exhibit 30: Interface PCB Component Diagram. Top
  • Exhibit 31: Interface PCB Component Diagram. Bottom
  • Exhibit 32: Power SPD PCB Dimensions
  • Exhibit 33: Power SPD PCB Component Diagram. Top
  • Exhibit 34: Power SPD PCB Component Diagram. Bottom
  • Exhibit 35: RRUS 12 TRx PCB, Top View
  • Exhibit 36: RRUS 12 TRx PCB, Bottom View
  • Exhibit 37: RRUS 12 TRx PCB with RF/Digital Connectors, Top View
  • Exhibit 38: RRUS 12 TRx PCB with RF/Digital Connectors, Bottom View
  • Exhibit 39: RRUS 12 TRx PCB Areas A-I
  • Exhibit 40: RRUS 12 TRx PCB Areas J-S
  • Exhibit 41: RRUS 12 TRx PCB with Ericsson Modules, Top View
  • Exhibit 42: RRUS 12 TRx PCB with Ericsson Modules, Bottom View
  • Exhibit 43: Area A Component Diagram
  • Exhibit 44: Area A1 Component Diagram
  • Exhibit 45: Area A2 Component Diagram
  • Exhibit 46: Area B Component Diagram
  • Exhibit 47: Area B Block Diagram
  • Exhibit 48: Area C Component Diagram
  • Exhibit 49: Area D Component Diagram
  • Exhibit 50: Area E1 Component Diagram
  • Exhibit 51: Area E1 Block Diagram, FB-A1 & FB-A2
  • Exhibit 52: Area E1 Block Diagram, RXA
  • Exhibit 53: Area E2 Component Diagram
  • Exhibit 54: Area E2 Block Diagram, FB-B1 & FB-B2
  • Exhibit 55: Area E1 Block Diagram, RXB
  • Exhibit 56: Area F1 Component Diagram
  • Exhibit 57: Area F2 Component Diagram
  • Exhibit 58: Area F1 TXA Block Diagram
  • Exhibit 59: Area F2 TXB Path Block Diagram
  • Exhibit 60: Area G Component Diagram
  • Exhibit 61: Area O Component Diagram
  • Exhibit 62: Area H Component Diagram
  • Exhibit 63: Area I Component Diagram
  • Exhibit 64: Area J Component Diagram
  • Exhibit 65: Area K Component Diagram
  • Exhibit 66: Area L Component Diagram
  • Exhibit 67: Area M Component Diagram
  • Exhibit 68: Area N Component Diagram
  • Exhibit 69: Area N Block Diagram
  • Exhibit 70: Area P1 Component Diagram
  • Exhibit 71: Area P2 Component Diagram
  • Exhibit 72: Area Q Component Diagram
  • Exhibit 73: Area R Component Diagram
  • Exhibit 74: Area R Block Diagram
  • Exhibit 75: Area S Component Diagram
  • Exhibit 76: ROR 101 0001/BB R1B Component Diagram
  • Exhibit 77: ROR 101 0001/BB R1B Block Diagram
  • Exhibit 78: ROR 101 0002/AA R1C Block Diagram
  • Exhibit 79: ROR 101 0002/AA R1C Component Diagram
  • Exhibit 80: ROR 101 0003/BA R1D Block Diagram
  • Exhibit 81: ROR 101 0003/BA R1D Component Diagram
  • Exhibit 82: ROR 101 0009/AA R1D Block Diagram
  • Exhibit 83: ROR 101 0009/AA R1D Component Diagram
  • Exhibit 84: ROR 101 0010/BA R1E Block Diagram, TXA
  • Exhibit 85: ROR 101 0010/BA R1E Block Diagram, TXB
  • Exhibit 86: ROR 101 0010/BA R1E Component Diagram
  • Exhibit 87: ROR 101 0014/BA Block Diagram, TXA
  • Exhibit 88: ROR 101 0014/BA Block Diagram, TXB
  • Exhibit 89: ROR 101 0014/BA Component Diagram
  • Exhibit 90: PA9F73 Module Component Diagram
  • Exhibit 91: PV1F01 Module Component Diagram
  • Exhibit 92: E-H14A Module Component Diagram
  • Exhibit 93: E-H03B Module Component Diagram
  • Exhibit 94: E-H32A Module Component Diagram
  • Exhibit 95: RRUS 12 Duplexer Filter, Top View
  • Exhibit 96: RRUS 12 Duplexer Filter, Bottom View
  • Exhibit 97: RRUS 12 Duplexer Filter, Side View
  • Exhibit 98: RRUS 12 Duplexer Filter, Front View
  • Exhibit 99: RRUS 12 Duplexer Filter Block Diagram
  • Exhibit 100: RRUS 12 Duplexer Filter RF Shield, External View
  • Exhibit 101: RRUS 12 Duplexer Filter RF Shield, Internal View
  • Exhibit 102: RRUS 12 Duplexer Filter SMP Connector Locations
  • Exhibit 103: RRUS 12 Duplexer Filter Resonator Locations
  • Exhibit 104: RRUS 12 Duplexer Filter Tx/Rx A and B Paths
  • Exhibit 105: RRUS 12 Duplexer Filter VSWR PCB
  • Exhibit 106: RRUS 12 VSWR Cavity Metal Wall Divider, Top View
  • Exhibit 107: RRUS 12 VSWR Cavity Metal Wall Divider, Side View
  • Exhibit 108: RRUS 12 VSWR PCB Component Diagram, Top View
  • Exhibit 109: RRUS 12 VSWR PCB Component Diagram, Bottom View
  • Exhibit 110: RRUS 12 Duplexer Filter VSWR Signal/Power Connector Dimensions
  • Exhibit 111: RRUS 12 Duplexer Filter VSWR Block Diagram
  • Exhibit 112: RRUS 12 Duplexer Filter 7/16 DIN Connector Gasket/Washer/Nut
  • Exhibit 113: RRUS 12 Duplexer Filter Resonator Type Locations
  • Exhibit 114: RRUS 12 Duplexer Filter with Waveguide Coupler Locations
  • Exhibit 115: RRUS 12 Duplexer Filter Waveguide Coupler Dimensions, Side View
  • Exhibit 116: RRUS 12 Duplexer Filter Waveguide Coupler Dimensions, Top View
  • Exhibit 117: RRUS 12 Duplexer Filter Waveguide Coupler Type A & B Locations
  • Exhibit 118: RRUS 12 Duplexer Filter Waveguide Coupler Type C Locations
  • Exhibit 119: RRUS 12 Duplexer Filter Tx and Rx Launcher Tabs
  • Exhibit 120: RRUS 12 Duplexer Filter Tx Sampling Circuit
  • Exhibit 121: RRUS 12 Duplexer Filter Tx Sampling Circuit Shield, External View
  • Exhibit 122: RRUS 12 Duplexer Filter Tx Sampling Circuit Shield, External View
  • Exhibit 123: RRUS 12 Duplexer Filter Tx Sampling Circuit, Shield Removed
  • Exhibit 124: RRUS 12 Duplexer Filter TxA Sampling Circuit
  • Exhibit 125: RRUS 12 Duplexer Filter TxB Sampling Circuit, Top View
  • Exhibit 126: RRUS 12 Duplexer Filter TxB Sampling Circuit, Bottom View
  • Exhibit 127: RRUS 12 Duplexer Filter TxA Sampling Circuit PCB, Top View
  • Exhibit 128: RRUS 12 Duplexer Filter TxA Sampling Circuit PCB, Bottom View
  • Exhibit 129: RRUS 12 Duplexer Filter TxA Sampling Circuit PCB, Coupling Path Locations
  • Exhibit 130: Passive Component Case Size Distribution
  • Exhibit 131: Identified Passive Component Market Share by Vendor
  • Exhibit 132: Active Semiconductor Component Share
  • Exhibit 133: High Pin Count IC vs. Discretes
  • Exhibit 134: Active Semiconductor Market Share by Vendor
  • Exhibit 135: High Pin Count (64+) Active Semiconductor Market Share by Vendor
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