The design and implementation of low-power CMOS radio receivers /

The design and implementation of low-power CMOS radio receivers / Derek K. Shaeffer, Thomas H. Lee.

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The primary goal of The Design and Implementation of Low-Power CMOS Radio Receivers is to explore techniques for implementing wireless receivers in an inexpensive complementary metal-oxide-semiconductor (CMOS) technology. Although the techniques developed apply somewhat generally across many classes...

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Bibliographic Details
Online Access: Full Text (via Springer)
Main Author: Shaeffer, Derek K.
Other Authors: Lee, Thomas H., 1959-
Other title:Low-power CMOS radio receivers.
Format: eBook
Language:English
Published: Boston : Kluwer Academic, ©1999.
Subjects:
Radio > Receivers and reception > Design and construction.
Low voltage integrated circuits > Design and construction.
Metal oxide semiconductors, Complementary > Design and construction.
Table of Contents:
  • Cover
  • Table of Contents
  • List of Figures
  • List of Tables
  • Foreword
  • Acknowledgments
  • Introduction
  • 1. RADIO RECEIVER ARCHITECTURES
  • 1. The Radio Spectrum
  • 2. Classical Receiver Architectures
  • 3. Summary
  • 2. FUNDAMENTALS OF RADIO RECEPTION
  • 1. Noise in Radio Receivers
  • 2. Signal Distortion and Dynamic Range
  • 3. Frequency Conversion and Frequency Planning
  • 4. Cascaded Systems
  • 5. Integrated Receivers
  • 6. Review of Recent CMOS Receivers
  • 7. Summary
  • 3. A GLOBAL POSITIONING SYSTEM RECEIVER ARCHITECTURE
  • 1. The Global Positioning System
  • 2. Typical GPS Receiver Architectures
  • 3. Opportunities for a Low-IF Architecture
  • 4. GPS Receiver Architecture
  • 5. Summary
  • 4. LOW-NOISE AMPLIFICATION IN CMOS AT RADIO FREQUENCIES
  • 1. Recent LNA Research
  • 2. LNA Architectural Analysis
  • 3. LNA Design Considerations
  • 4. Summary
  • 5. CMOS MIXERS
  • 1. Review of Mixer Architectures
  • 2. The Double-Balanced CMOS Voltage Mixer
  • 3. Summary
  • 6. POWER-EFFICIENT ACTIVE FILTERS
  • 1. Passive and Active Filter Techniques
  • 2. Dynamic Range of the Active Gm-C Filter
  • 3. Power-Efficient Transconductors
  • 4. Summary
  • 7. AN EXPERIMENTAL CMOS GLOBAL POSITIONING SYSTEM RECEIVER
  • 1. Low-Noise Amplifier
  • 2. Voltage-Switching Mixer and LO Drivers
  • 3. Intermediate Frequency Amplifier
  • 4. Active Filter
  • 5. Limiting Amplifier and Comparator
  • 6. Biasing Details
  • 7. Experimental Results
  • 8. Summary
  • 8. CONCLUSIONS
  • 1. Summary
  • 2. Recommendations for Future Work
  • Appendices
  • A ... Cross-correlation Properties of Limited Gaussian Noise Channels
  • B ... Classical MOSFET Noise Analysis
  • C ... Experimental CMOS Low-Noise Amplifiers
  • D ... Measurement Techniques
  • References.

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