Digital Signal Processing Laboratory, Second Edition

Published:
January 27, 2005 by CRC Press - 280 Pages
Author(s):
B. Preetham Kumar, California State University, Sacramento, USA
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ISBN 9780849327841
Cat# 2784
 

Features

  • Integrates DSP theory with practical hardware/software applications
  • Contains problems and exercises, along with tutorials for designing software models and using hardware
  • Covers basic concepts, such as Z-transform, system function, discrete-time convolution, and difference equations
  • Reviews sampling, quantization (uniform and non-uniform), and binary encoding in the PCM process
  • Includes appendices that give detailed hardware descriptions, user instructions for the equipment described in the text, and brief descriptions of alternate equipment and manufacturers
  • Provides numerous homework problems, case studies, and examplesSolutions Manual available with qualifying course adoptions

    • Summary

    Given the rapid software and hardware developments in DSP, it is vital for students to complement their theoretical learning with practical applications. Digital Signal Processing Laboratory is a practical, readily understandable text for those studying DSP for the first time. The author acquaints students with an integrated approach consisting of side-by-side training in theory and hardware/software aspects of DSP, making it ideal for the companion laboratory to a class in DSP theory.

    To execute this approach, each chapter consists of a brief section on theory to explain the underlying mathematics and principles, a problem solving section, and a computer laboratory section with programming examples and exercises using MATLAB and Simulink. Applicable chapters include a hardware laboratory section composed of exercises using test and measuring equipment. The author discusses the theory of DSP applications and systems, LTI discrete-time signals and systems, practical time and frequency analysis of discrete-time signals, Analog-to-Digital (A/D) process, design and application of digital filters, and the application of practical DSP processes through the DSP hardware, along with software models of these systems.

    This textbook/lab manual offers a concise, easily understood presentation that makes the information accessible to senior undergraduate and graduate students while building their proficiency with the software, the hardware, and the theory of DSP. Students can easily adapt the concepts for different software/hardware conditions than those presented within, making this an extremely versatile and valuable resource.

    Table of Contents

    INTRODUCTION TO DIGITAL SIGNAL PROCESSING
    Brief Theory of DSP Concepts
    Problem Solving
    Computer Laboratory: Introduction to MATLAB®/SIMULINK®
    Hardware Laboratory: Working with Oscilloscopes, Spectrum Analyzers, Signal Sources
    Digital Signal Processors (DSPs)
    References
    DISCRETE-TIME LTI SIGNALS AND SYSTEMS
    Brief Theory of Discrete-Time Signals and Systems
    Problem Solving
    Computer Laboratory: Simulation of Continuous Time and Discrete-Time Signals and Systems
    References
    TIME AND FREQUENCY ANALYSIS OF COMMUNICATION SIGNALS
    Brief Theory of Discrete-Time Fourier Transform (DTFT), Discrete Fourier Transform (DFT), and Fast Fourier Transform (FFT)
    Problem Solving
    Computer Laboratory
    Hardware Laboratory
    References
    ANALOG TO DIGITAL (A/D) AND DIGITAL TO ANALOG (D/A) CONVERSION
    Brief Theory of A/D Conversion
    Problem Solving
    Computer Laboratory
    Hardware Laboratory
    References
    DIGITAL FILTER DESIGN I: THEORY AND SOFTWARE TOOLS
    Brief Theory of Digital Filter Design
    Problem Solving
    Computer Laboratory: Design of FIR and IIR Digital Filters Using Computer Aided Design (CAD) Techniques
    References
    DIGITAL FILTER DESIGN II: APPLICATIONS
    Introduction to Digital Filtering Applications
    Problem Solving
    Computer Laboratory
    References
    DSP HARDWARE DESIGN I
    Background of Digital Signal Processors (DSPs)
    Software/Hardware Laboratory Using the TI TMS320C6711 DSK (or 'C6711 DSK)
    End Notes
    References
    DSP HARDWARE DESIGN II
    Overview of Practical DSP Applications in Communication Engineering
    Filtering Application to Extract Sinusoidal Signal from a Combination of Two Sinusoidal Signals
    Filtering Application to Extract Sinusoidal Signal from a Noisy Signal
    Comparative Study of Using Different Filters on Input Radio Receiver Signal
    References
    APPENDIX A: HP/AGILENT 3324A/33250A SYNTHESIZED FUNCTION/SWEEP GENERATORS
    Introduction
    Technical Specifications of the Agilent HP3325A
    Operating Instructions Of HP 3324A Synthesized Function/Sweep Generator
    Reference
    APPENDIX B: HP/AGILENT 8590L RF SPECTRUM ANALYZER
    Introduction
    Technical Specifications
    Operating Principle Of HP 8590L RF Spectrum Analyzer
    Reference
    APPENDIX C: HP/AGILENT 35665A/35670A DYNAMIC SIGNAL ANALYZERS
    Introduction
    Technical Specifications of the Agilent HP35670A
    General Specifications
    Operating Principle of HP 35665A Dynamic Signal Analyzer
    Reference
    APPENDIX D: HP/AGILENT 54500/54600 SERIES DIGITIZING OSCILLOSCOPES
    Introduction
    Performance Characteristics of the Agilent 54600 Series Digitizing Oscilloscopes
    Operating Principle of HP 54510A Digitizing Oscilloscope
    Reference
    APPENDIX E: TEXAS INSTRUMENTS DSPS AND DSKS
    Introduction to Digital Signal Processors (DSPs
    Texas Instruments DSP Product Tree
    TMS320C6000™ Platform Overview Page
    TMS320C6711 DSP Chip
    TMS320C6711 Digital Signal Processing Starter Kit (DSK)
    C Files for Practical Applications Using the 'C6711 DSK
    References
    APPENDIX F: LIST OF DSP LABORATORY EQUIPMENT MANUFACTURERS
    Introduction to DSP Laboratory Equipment
    . Digitizing Oscilloscopes
    Synthesizes Signal Generators
    Dynamic Signal Analyzers
    Spectrum Analyzers
    References
    INDEX

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