Circuit analysis essentials : a signal processing approach /
James S. Bryant.
- xv, 506 pages : illustrations ; 29 cm. + 1 CD-ROM (4 3/4 in.)
Includes index.
Preface xi An Introduction to Electronic Signals 1 (14) The World of Electronic Signals 2 (1) An Introduction to Current and Voltage 2 (3) The Electronic Signal as a Function of Time 5 (1) Creating and Transmitting Electronic Signals 6 (1) Measuring Electronic Signals 7 (1) Units and Notation 8 (2) Software Utilized in Circuit Analysis 10 (5) Essentials of DC Circuit Analysis 15 (50) The DC Circuit 16 (1) The Resistor 16 (1) The DC Voltage Source 17 (1) The Resistor and Ohm's Law 18 (2) Kirchhoff's Voltage Law (KVL) 20 (4) The Series DC Circuit 24 (5) The Voltage Divider Rule 29 (2) Measuring Voltage with Respect to Circuit Ground 31 (2) The Single Line Circuit Diagram 33 (2) The Parallel DC Circuit 35 (1) Kirchhoff's Current Law (KCL) 35 (1) Total Equivalent Resistance and Conductance 36 (3) Analysis of a Parallel DC Circuit 39 (3) The Current Divider Rule 42 (23) Analysis of DC Combination Circuits 65 (44) The Combination DC Circuit 66 (1) Determining Total Equivalent Resistance 66 (1) Ohm's Law and the Combination DC Circuit 66 (1) Kirchhoff's Laws and the Combination DC Circuit 66 (1) Current and Voltage Division in a Combination DC Circuit 67 (1) Voltage with Respect to Circuit Ground 67 (1) Voltage Difference between Two Points 67 (1) Analysis of Combination DC Circuits 67 (14) The DC Voltage Divider Circuit 81 (2) The DC Voltage Divider Circuit with Load 83 (1) Analysis of Combination DC Circuits with Opens and Shorts 84 (8) Analysis of the Bridge Circuit 92 (17) The Sine Wave and Linear Response 109 (48) The Sine Wave as a Function of Time 110 (1) Sine Wave Parameters 111 (8) Instantaneous Value 119 (2) Adding Sine Waves in the Time Domain 121 (1) The Sine Wave in the Phasor Domain 122 (1) Phasor Mathematics 123 (4) The Phasor in Rectangular Form 127 (3) Plotting Sine Waves with MATLAB 130 (1) The Resistor in the Time Domain 131 (4) The Resistor in the Phasor Domain 135 (3) The Inductor in the Time Domain 138 (4) The Inductor in the Phasor Domain 142 (3) The Capacitor in the Time Domain 145 (5) The Capacitor in the Phasor Domain 150 (7) Essentials of AC Circuit Analysis 157 (36) The Series Resistive Circuit in the Phasor Domain 158 (3) The Series R-L Circuit in the Phasor Domain 161 (3) The Series R-C Circuit in the Phasor Domain 164 (4) The Series R-L-C Circuit in the Phasor Domain 168 (2) The Series R-L-C Circuit in the Time Domain 170 (2) The Parallel R-L-C Circuit in the Phasor Domain 172 (4) The Combination R-L-C Circuit in the Phasor Domain 176 (17) Signal Processing Circuit Analysis and Design 193 (58) An Introduction to Signal Processing Concepts 194 (1) Voltage Gain and the Decibel 195 (2) The Attenuator Circuit 197 (2) Concepts of Frequency Response 199 (1) An Overview of Filters 200 (1) The R-C Low-Pass Filter 201 (5) Computer Analysis of the R-C Low-Pass Filter 206 (6) The R-C High-Pass Filter 212 (4) Computer Analysis of the R-C High-Pass Filter 216 (2) The R-L Low-Pass Filter 218 (4) The R-L High-Pass Filter 222 (3) The Series Resonant Band-Pass Filter 225 (6) Computer Analysis of the Series Resonant Band-Pass Filter 231 (3) A Three-Way Crossover Network 234 (2) The Parallel Resonant Band-Pass Filter 236 (15) Transient Circuit Analysis 251 (50) Steady-State and Transient Response 252 (1) The Switched DC Waveform 252 (1) The Capacitor Storing Energy 253 (8) The Capacitor Releasing Energy 261 (8) The Capacitor Storing and Releasing Energy 269 (3) Total Equivalent Capacitance 272 (1) The Inductor Storing Energy 273 (5) The Inductor Releasing Energy 278 (4) Total Equivalent Inductance 282 (1) An Introduction to the Rectangular Pulse Waveform 283 (3) The Integrator and Differentiator 286 (2) Computer Analysis of the R-C Response to a Pulse Waveform 288 (13) Network Analysis and Selected Theorems 301 (50) Format Mesh Analysis 302 (9) Format Nodal Analysis 311 (3) The Superposition Theorem 314 (8) Thevenin's Theorem 322 (10) Norton's Theorem 332 (6) Alternate Methods of Solving Networks 338 (13) Power Considerations in Electronic Circuits 351 (52) The General Power Equation 352 (2) Real Power 354 (2) Reactive Power 356 (6) Apparent Power 362 (6) Power in Complex AC Circuits 368 (2) Power Factor and the Power Triangle 370 (2) The Ideal Transformer 372 (2) Voltage and Current Transformation 374 (2) Maximum Power Transfer 376 (2) Maximum AC Signal Power Transfer 378 (2) Transformer Impedance Matching 380 (4) Maximum Power and Thevenin's Theorem 384 (3) Maximum Power Ratings 387 (5) Power Derating 392 (11) Analysis of Nonlinear Analog Circuits 403 (44) The P-N Junction 404 (1) The P-N Junction Diode 404 (2) The Diode Half-Wave Rectifier 406 (8) The Diode Limiter 414 (5) A Diode Logic Circuit 419 (5) The Junction Transistor 424 (1) Analysis of a Fixed Bias Network 425 (2) Analysis of a Voltage Divider Bias Network 427 (3) Design of a Fixed Bias Network 430 (2) Analysis of a Transistor Logic Circuit 432 (2) Analysis of Circuits That Contain ``Black Box'' Devices 434 (13) An Introduction to Nonsinusoidal Signals 447 (22) An Introduction to Fourier Series 448 (1) The Square Wave 448 (4) The Frequency Spectrum Diagram 452 (1) The Sawtooth Wave 453 (4) The Rectified Sine Wave 457 (2) Circuit Analysis Using Fourier Series 459 (10) APPENDIX A 469 (26) Complete Solutions to Practice Exercises 469 (12) Answers to Odd-Numbered Essential Learning Exercises 481 (1) Answers to Selected Challenging Learning Exercises 482 (13) APPENDIX B 495 (8) Source Conversions 495 (5) Mathematical Derivation of the Maximum Power Transfer Theorem 500 (3) Index 503
Circuit Analysis Essentials: A Signal Processing Approach presents fundamentals of DC and AC circuit analysis, using a signal processing approach that is relevant to a contemporary electronics curriculum. The book's focus on signal processing circuits emphasizes the practicality and usefulness of circuit analysis in the design of electronic circuits used to create and process electronic signals. MATLAB and MultiSIM illustrations throughout provide a visual component to the learning process, while well-designed end-of-chapter exercises develop critical thinking and problem solving skills.
1401850413 9781401850418
2005025290
Electric circuit analysis. Electronic circuit design--Data processing. Signal processing.