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Analog MOS Integrated Circuits for Signal Processing

Book Description

Describes the operating principles of analog MOS integrated circuits and how to design and use such circuits. The initial section explores general properties of analog MOS integrated circuits and the math and physics background required. The remainder of the book is devoted to the design of circuits. Includes such devices as switched-capacitor filters, analog-to-digital and digital-to-analog converters, amplifiers, modulators, oscillators, and others. Tables and numerical design examples clarify the step-by-step processes involved.

An Instructor's Manual presenting detailed solutions to all the problems in the book is available from the Wiley editorial department.

Table of Contents

  1. Cover Page
  2. Title Page
  3. Copyright
  4. Dedication
  5. SERIES PREFACE
  6. PREFACE
  7. Contents
  8. Chapter One: INTRODUCTION
    1. 1.1. THE USE OF ANALOG MOS INTEGRATED CIRCUITS FOR SIGNAL PROCESSING.
    2. 1.2. COMPARISON OF ANALOG MOS SIGNAL PROCESSORS WITH OTHER IMPLEMENTATIONS
    3. 1.3. EXAMPLES OF ANALOG MOS SIGNAL PROCESSING CIRCUITS AND SYSTEMS
    4. PROBLEMS
    5. REFERENCES
  9. Chapter Two: TRANSFORMATION METHODS
    1. 2.1. ANALOG, DIGITAL, AND SAMPLED-ANALOG SIGNALS AND SYSTEMS
    2. 2.2. THE LAPLACE TRANSFORMATION
    3. 2.3. THE FOURIER TRANSFORMATION
    4. 2.4. SAMPLING AND THE z-TRANSFORM
    5. 2.5. THE SPECTRA OF SAMPLED-DATA SIGNALS
    6. 2.6. THE DESIGN OF SAMPLED-DATA FILTERS FROM CONTINUOUS-TIME MODELS
    7. PROBLEMS
    8. REFERENCES
  10. Chapter Three: MOS DEVICES AS CIRCUIT ELEMENTS
    1. 3.1. SEMICONDUCTORS
    2. 3.2. THE MOS TRANSISTOR
    3. 3.3. MOS TRANSISTOR TYPES; BODY EFFECT
    4. 3.4. SMALL-SIGNAL OPERATION AND EQUIVALENT CIRCUIT OF MOSFETS
    5. 3.5. MOS CAPACITORS
    6. 3.6. THE MOS SWITCH
    7. 3.7. NOISE IN MOSFETS
    8. 3.8. ANALOG MOS TECHNOLOGY
    9. PROBLEMS
    10. REFERENCES
  11. Chapter Four: MOS OPERATIONAL AMPLIFIERS
    1. 4.1. OPERATIONAL AMPLIFIERS
    2. 4.2. BIAS CIRCUITS IN MOS TECHNOLOGY
    3. 4.3. MOS GAIN STAGES
    4. 4.4. MOS SOURCE FOLLOWERS AND OUTPUT BUFFERS
    5. 4.5. MOS DIFFERENTIAL AMPLIFIERS
    6. 4.6. THE FREQUENCY RESPONSE OF MOS AMPLIFIER STAGES
    7. 4.7. UNCOMPENSATED CMOS OPERATIONAL AMPLIFIERS
    8. 4.8. STABILITY THEORY AND COMPENSATION OF CMOS AMPLIFIERS
    9. 4.9. FREQUENCY RESPONSE, TRANSIENT RESPONSE, AND SLEW RATE OF THE COMPENSATED CMOS OP-AMP
    10. 4.10. NOISE PERFORMANCE OF CMOS AMPLIFIERS
    11. 4.11. AN ENHANCEMENT-MODE NMOS OP-AMP
    12. 4.12. NMOS OP-AMPS WITH DEPLETION LOADS
    13. 4.13. THE NOISE PERFORMANCE OF NMOS OP-AMPS
    14. 4.14. PRACTICAL CONSIDERATIONS IN MOS OP-AMP DESIGN
    15. 4.15. OP-AMP DESIGN TECHNIQUES AND EXAMPLES
    16. 4.16. HIGH-PERFORMANCE CMOS OP-AMPS
    17. PROBLEMS
    18. REFERENCES
  12. Chapter Five: SWITCHED-CAPACITOR FILTERS
    1. 5.1. INTEGRATED FILTERS
    2. 5.2. SWITCHED-CAPACITOR INTEGRATORS
    3. 5.3. STRAY-INSENSITIVE INTEGRATORS
    4. 5.4. SECOND-ORDER SECTIONS; CASCADE FILTER DESIGN
    5. 5.5. SWITCHED-CAPACITOR LADDER FILTERS
    6. 5.6. THE SCALING OF SWITCHED-CAPACITOR FILTERS
    7. 5.7. DESIGN EXAMPLES
    8. 5.8. SWITCHED-CAPACITOR AM>ATH FILTERS
    9. 5.9. INTEGRATED ACTIVE-RCFILTERS USING MOSFET RESISTORS
    10. PROBLEMS
    11. REFERENCES
  13. Chapter Six: NONFILTERING APPLICATIONS OF SWITCHED-CAPACITOR CIRCUITS
    1. 6.1. SWITCHED-CAPACITOR GAIN STAGES
    2. 6.2. PROGRAMMABLE CAPACITOR ARRAYS: DIGITAL-TO-ANALOG AND ANALOG-TO-DIGITAL CONVERTERS
    3. 6.3. MOS COMPARATORS
    4. 6.4. MODULATORS, RECTIFIERS, AND DETECTORS
    5. 6.5. SWITCHED-CAPACITOR OSCILLATORS
    6. PROBLEMS
    7. REFERENCES
  14. Chapter Seven: NONIDEAL EFFECTS IN SWITCH ED-CAPACITOR CIRCUITS
    1. 7.1. NONIDEAL EFFECTS IN THE SWITCHES
    2. 7.2. CAPACITANCE INACCURACIES
    3. 7.3. NONIDEAL OP-AMP circuit EFFECTS
    4. 7.4. NOISE GENERATED IN SWITCHED-CAPACITOR CIRCUITS
    5. 7.5. LAYOUT CONSIDERATIONS IN SWITCHED-CAPACITOR CIRCUITS
    6. PROBLEMS
    7. REFERENCES
  15. Chapter Eight: SYSTEM CONSIDERATIONS AND APPLICATIONS
    1. 8.1. PREFILTERING REQUIREMENTS FOR SWITCHED-CAPACITOR FILTERS
    2. 8.2. POSTFILTERING FOR SWITCHED-CAPACITOR FILTERS
    3. 8.3. THE APPLICATION OF SWITCHED-CAPACITOR CIRCUITS IN DIGITAL VOICETRANSMISSION SYSTEMS
    4. 8.4. THE APPLICATION OF SWITCHED-CAPACITOR CIRCUITS IN DATA MODEMS
    5. 8.5. THE APPLICATION OF SWITCHED-CAPACITOR FILTERS IN TONE RECEIVERS
    6. 8.6. PROGRAMMABLE SWITCHED-CAPACITOR FILTERS
    7. 8.7. THE APPLICATION OF SWITCHED-CAPACITOR CIRCUITS IN SPEECH PROCESSING
    8. PROBLEMS
    9. REFERENCES
  16. INDEX