Analog Signals and Systems (United States ed)

Analog Signals and Systems (United States ed)

By: David Munson (author), Erhan Kudeki (author)Hardback

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Description

For courses in Signals and Systems offered in departments of Electrical Engineering. This book focuses on the mathematical analysis and design of analog signal processing using a "just in time" approach - new ideas and topics relevant to the narrative are introduced only when needed, and no chapters are "stand alone." Topics are developed throughout the narrative, and individual ideas appear frequently as needed.

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Contents

Chapter 0 Analog Signals and Systems-- The Scope and Study Plan 1 Chapter 1 Circuit Fundamentals 6 1.1 Voltage, Current, and Power 7 1.2 Kirchhoff's Voltage and Current Laws: KVL and KCL 15 1.3 Ideal Circuit Elements and Simple Circuit Analysis Examples 17 1.4 Complex Numbers 26 Exercises 26 Chapter 2 Analysis of Linear Resistive Circuits 31 2.1 Resistor Combinations and Source Transformations 31 2.2 Node-Voltage Method 38 2.3 Loop-Current Method 43 2.4 Linearity, Superposition, and Thevenin and Norton Equivalents 48 2.5 Available Power and Maximum Power Transfer 60 Exercises 63 Chapter 3 Circuits for Signal Processing 68 3.1 Operational Amplifiers and Signal Arithmetic 68 3.2 Differentiators and Integrators 80 3.3 Linearity, Time Invariance, and LTI Systems 87 3.4 First-Order RC and RL Circuits 93 3.5 nth-Order LTI Systems 111 Exercises 115 Chapter 4 Phasors and Sinusoidal Steady State 121 4.1 Phasors, Co-Sinusoids, and Impedance 122 4.2 Sinusoidal Steady-State Analysis 136 4.3 Average and Available Power 143 4.4 Resonance 150 Exercises 154 Chapter 5 Frequency Response H(omega) of LTI Systems 158 5.1 The Frequency Response H(omega) of LTI Systems 159 5.2 Properties of Frequency Response H(omega) of LTI Circuits 164 5.3 LTI System Response to Co-Sinusoidal Inputs 166 5.4 LTI System Response to Multifrequency Inputs 176 5.5 Resonant and Non-Dissipative Systems 181 Exercises 182 Chapter 6 Fourier Series and LTI System Response to Periodic Signals 185 6.1 Periodic Signals 186 6.2 Fourier Series 189 6.3 System Response to Periodic Inputs 208 Exercises 218 Chapter 7 Fourier Transform and LTI System Response to Energy Signals 223 7.1 Fourier Transform Pairs f (t) <-> F(omega) and Their Properties 226 7.2 Frequency-Domain Description of Signals 240 7.3 LTI Circuit and System Response to Energy Signals 247 Exercises 255 Chapter 8 Modulation and AM Radio 259 8.1 Fourier Transform Shift and Modulation Properties 260 8.2 Coherent Demodulation of AM Signals 265 8.3 Envelope Detection of AM Signals 267 8.4 Superheterodyne AM Receivers with Envelope Detection 273 Exercises 278 Chapter 9 Convolution, Impulse, Sampling, and Reconstruction 281 9.1 Convolution 282 9.2 Impulse delta(t) 301 9.3 Fourier Transform of Distributions and Power Signals 314 9.4 Sampling and Analog Signal Reconstruction 325 9.5 Other Uses of the Impulse 332 Exercises 333 Chapter 10 Impulse Response, Stability, Causality, and LTIC Systems 337 10.1 Impulse Response h(t) and Zero-State Response y(t) = h(t) f (t) 338 10.2 BIBO Stability 346 10.3 Causality and LTIC Systems 351 10.4 Usefulness of Noncausal System Models 357 10.5 Delay Lines 357 Exercises 359 Chapter 11 Laplace Transform, Transfer Function, and LTIC System Response 361 11.1 Laplace Transform and its Properties 363 11.2 Inverse Laplace Transform and PFE 381 11.3 s-Domain Circuit Analysis 389 11.4 General Response of LTIC Circuits and Systems 396 11.5 LTIC System Combinations 412 Exercises 419 Chapter 12 Analog Filters and Low-Pass Filter Design 426 12.1 Ideal Filters: Distortionless and Nondispersive 427 12.2 1st- and 2nd-Order Filters 430 12.3 Low-Pass Butterworth Filter Design 437 Exercises 447 Appendix A Complex Numbers and Functions 450 A.1 Complex Numbers as Real Number Pairs 450 A.2 Rectangular Form 452 A.3 Complex Plane, Polar and Exponential Forms 454 A.4 More on Complex Conjugate 461 A.5 Euler's Identity 463 A.6 Complex-Valued Functions 465 A.7 Functions of Complex Variables 468 Appendix B Labs 471 Lab 1: RC-Circuits 472 Lab 2: Op-Amps 481 Lab 3: Frequency Response and Fourier Series 488 Lab 4: Fourier Transform and AM Radio 493 Lab 5: Sampling, Reconstruction, and Software Radio 499 Appendix C Further Reading 507 INDEX 509

Product Details

  • publication date: 29/02/2008
  • ISBN13: 9780131435063
  • Format: Hardback
  • Number Of Pages: 528
  • ID: 9780131435063
  • weight: 1073
  • ISBN10: 013143506X
  • edition: United States ed

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  • 1st Class Delivery: Yes
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