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Wireless Radio-Frequency Standards and System Design

Book Description

Radio-frequency (RF) integrated circuits in CMOS technology are gaining increasing popularity in the commercial world, and CMOS technology has become the dominant technology for applications such as GPS receivers, GSM cellular transceivers, wireless LAN, and wireless short-range personal area networks based on IEEE 802.15.1 (Bluetooth) or IEEE 802.15.4 (ZigBee) standards. Furthermore, the increasing interest in wireless technologies and the widespread of wireless communications has prompted an ever increasing demand for radio frequency transceivers.Wireless Radio-Frequency Standards and System Design: Advanced Techniques provides perspectives on radio-frequency circuit and systems design, covering recent topics and developments in the RF area. Exploring topics such as LNA linearization, behavioral modeling and co-simulation of analog and mixed-signal complex blocks for RF applications, integrated passive devices for RF-ICs and baseband design techniques and wireless standards, this is a comprehensive reference for students as well as practicing professionals.

Table of Contents

  1. Cover
  2. Title Page
  3. Copyright Page
  4. Preface
  5. Acknowledgment
  6. Section 1: Novel Techniques, Design and Simulation
    1. Chapter 1: Optimization of Linearity in CMOS Low Noise Amplifier
      1. ABSTRACT
      2. INTRODUCTION
      3. IIP3 ANALYSIS
      4. CIRCUIT DESIGN
      5. DIGITAL CONTROL
      6. MEASUREMENT RESULTS
      7. CONCLUSION
    2. Chapter 2: An All-Inversion-Region gm/ID Based Design Methodology for Radiofrequency Blocks in CMOS Nanometer Technologies
      1. ABSTRACT
      2. INTRODUCTION
      3. MOS TRANSISTOR ANALYSIS AND GM/ID TOOL
      4. PASSIVE COMPONENT ANALYSIS
      5. PROPOSED DESIGN METHODOLOGY
      6. CONCLUSION
    3. Chapter 3: Wireless Interface at 5.7 GHz for Intra-Vehicle Communications
      1. ABSTRACT
      2. INTRODUCTION
      3. THE STATE OF THE ART AND SYSTEM OVERVIEW
      4. RF CMOS TRANSCEIVER DESIGN
      5. RESULTS
      6. CONCLUSION
    4. Chapter 4: Simulation Techniques for Improving Fabrication Yield of RF-CMOS ICs
      1. ABSTRACT
      2. INTRODUCTION
      3. TRANSMISSION LINE THEORY
      4. RF BEHAVIOR OF TYPICAL PASSIVE COMPONENTS
      5. ELECTROMAGNETIC SIMULATIONS
      6. VCO EXAMPLE
      7. ELECTROMAGNETIC CO-SIMULATIONS
      8. CONCLUSION
    5. Chapter 5: Σ-Δ Fractional-N Phase-Locked Loop Design Using HDL and Transistor-Level Models for Wireless Communications
      1. ABSTRACT
      2. 1. INTRODUCTION
      3. 2. FREQUENCY SYNTHESIZERS IN RADIO TRANSCEIVERS
      4. 3. FREQUENCY SYNTHESIS TECHNIQUES
      5. 4. FRACTIONAL-N PLL FREQUENCY SYNTHESIZER
      6. 5. DESCRIPTIONS AND BEHAVIORAL MODELS OF FRACTIONAL-N PLL BUILDING BLOCKS
      7. 6. PLL SYSTEM-LEVEL DESIGN
      8. 7. SYSTEM-LEVEL SIMULATIONS RESULTS
      9. 8. CONCLUSION
  7. Section 2: RF MEMS and Passive Devices
    1. Chapter 6: RF-MEMS Based Oscillators
      1. ABSTRACT
      2. OSCILLATOR FUNDAMENTALS
      3. RF-MEMS DEVICES
      4. RF-MEMS-BASED OSCILLATORS
      5. CONCLUSION
    2. Chapter 7: RF-MEMS Components for Wireless Transceivers
      1. ABSTRACT
      2. INTRODUCTION
      3. RF-MEMS COMPONENTS
      4. RF-MEMS APPLICATIONS IN WIRELESS TRANSCEIVERS
      5. CONCLUSION
    3. Chapter 8: Passive Components for RF-ICs
      1. ABSTRACT
      2. INTRODUCTION
      3. MONOLITHIC CAPACITORS
      4. MONOLITHIC INDUCTORS AND TRANSFORMERS
      5. CONCLUSION
  8. Section 3: Baseband Processing and Wireless Standards
    1. Chapter 9: Frequency Synchronization for OFDM/OFDMA Systems
      1. ABSTRACT
      2. INTRODUCTION
      3. FREQUENCY SYNCRONIZATION IN OFDM SYSTEMS
      4. FREQUENCY SYNCRONIZATION IN OFDMA SYSTEMS
      5. CONCLUSION
    2. Chapter 10: Design Issues for Multi-Mode Multi-Standard Transceivers
      1. ABSTRACT
      2. 1. INTRODUCTION
      3. 2. CONVENTIONAL AND MULTI-STANDARD TRANSCEIVER ARCHITECTURE
      4. 3. DESIGN CONSIDERATIONS IN BANDPASS SAMPLING RADIOS
      5. 4. MULTIRATE SIGNAL PROCESSING
      6. 5. CONCLUSION AND FUTURE TRENDS
    3. Chapter 11: Design and Implementation of Hardware Modules for Baseband Processing in Radio Transceivers
      1. ABSTRACT
      2. 1. INTRODUCTION
      3. 2. BASEBAND HARDWARE DESIGN
      4. 3. FIXED-POINT OPTIMIZATION
      5. 4. CASE STUDY: EQUALIZER FOR 4G MIMO COMMUNICATIONS
      6. 5. FIXED-POINT OPTIMIZATION OF THE EQUALIZER
      7. 6. IMPLEMENTATION AND RESULTS
      8. 7. CONCLUSION
    4. Chapter 12: System Design Perspective
      1. ABSTRACT
      2. INTRODUCTION TO WIMAX
      3. COMPONENT DESIGN FOR MULTIHOP WIMAX (IEEE 802.16j BASED NETWORKS)
      4. MULTIHOPPING IN WIMAX NETWORKS (IEEE802.16j CELLULAR ARCHITECTURE)
      5. VIDEO TRANSMISSION OVER MULTIHOP WIMAX NETWORKS
      6. CONCLUSION
  9. Compilation of References
  10. About the Contributors