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Analysis and Design of Linear Circuits 8th edition [köitmata]

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(Emeritus, United States Air Force Academy), (University of Denver), (Air Force Institute of Technology)
  • Formaat: Loose-leaf, 912 pages, kõrgus x laius x paksus: 249x198x31 mm, kaal: 1361 g
  • Ilmumisaeg: 05-Jan-2016
  • Kirjastus: John Wiley & Sons Inc
  • ISBN-10: 1119235383
  • ISBN-13: 9781119235385
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Analysis and Design of Linear Circuits 8th editionSuurem pilt
  • Formaat: Loose-leaf, 912 pages, kõrgus x laius x paksus: 249x198x31 mm, kaal: 1361 g
  • Ilmumisaeg: 05-Jan-2016
  • Kirjastus: John Wiley & Sons Inc
  • ISBN-10: 1119235383
  • ISBN-13: 9781119235385
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781119235385.html
Märksõnad:
"The new edition of Thomas' Analysis and Design of Linear Circuits features more skill examples, exercises, and associated problems. Specific topics emphasized are Thevenin Equivalent Circuits, Nodal and Mesh Analysis, Op-Amp Circuits, and Phasor Analysis. Furthermore the text is enhanced with great support to developing fundamental skills by adding similar-type skill problems. New and additional features include: additions to the IM containing worked-out solutions to many exercises; updated ABET sectionof the IM to reflect the latest changes to Criteria 2000; improved SM to include worked-out solutions showing key intermediate steps with rationale, and where appropriate, METLAB solutions"--

The Analysis and Design of Linear Circuits, 8th Edition provides an introduction to the analysis, design, and evaluation of electric circuits, focusing on developing the learners design intuition. The text emphasizes the use of computers to assist in design and evaluation. Early introduction to circuit design motivates the student to create circuit solutions and optimize designs based on real-world constraints. This text is an unbound, three hole punched version.
Chapter 1 Introduction 1(15)
1-1 About This Book
2(1)
1-2 Symbols And Units
3(2)
1-3 Circuit Variables
5(5)
1-4 Computational And Simulation Software Introduction
10(2)
Summary
12(1)
Problems
12(3)
Integrating Problems
15(1)
Chapter 2 Basic Circuit Analysis 16(56)
2-1 Element Constraints
17(5)
2-2 Connection Constraints
22(6)
2-3 Combined Constraints
28(6)
2-4 Equivalent Circuits
34(8)
2-5 Voltage And Current Division
42(8)
2-6 Circuit Reduction
50(4)
2-7 Computer-Aided Circuit Analysis
54(5)
Summary
59(1)
Problems
59(10)
Integrating Problems
69(3)
Chapter 3 Circuit Analysis Techniques 72(78)
3-1 Node-Voltage Analysis
73(16)
3-2 Mesh-Current Analysis
89(8)
3-3 Linearity Properties
97(10)
3-4 Thevenin And Norton Equivalent Circuits
107(11)
3-5 Maximum Signal Transfer
118(3)
3-6 Interface Circuit Design
121(12)
Summary
133(1)
Problems
133(14)
Integrating Problems
147(3)
Chapter 4 Active Circuits 150(83)
4-1 Linear Dependent Sources
151(1)
4-2 Analysis Of Circuits With Dependent Sources
152(19)
4-3 The Operational Amplifier
171(7)
4-4 OP AMP Circuit Analysis
178(15)
4-5 OP AMP Circuit Design
193(6)
4-6 OP AMP Circuit Applications
199(18)
Summary
217(1)
Problems
218(13)
Integrating Problems
231(2)
Chapter 5 Signal Waveforms 233(41)
5-1 Introduction
234(1)
5-2 The Step Waveform
235(5)
5-3 The Exponential Waveform
240(5)
5-4 The Sinusoidal Waveform
245(7)
5-5 Composite Waveforms
252(7)
5-6 Waveform Partial Descriptors
259(6)
Summary
265(1)
Problems
266(6)
Integrating Problems
272(2)
Chapter 6 Capacitance And Inductance 274(35)
6-1 The Capacitor
275(7)
6-2 The Inductor
282(6)
6-3 Dynamic OP AMP Circuits
288(8)
6-4 Equivalent Capacitance And Inductance
296(4)
Summary
300(1)
Problems
300(6)
Integrating Problems
306(3)
Chapter 7 First- And Second-Order Circuits 309(73)
7-1 RC And RL Circuits
310(11)
7-2 First-Order Circuit Step Response
321(8)
7-3 Initial And Final Conditions
329(7)
7-4 First-Order Circuit Response To Exponential And Sinusoidal Inputs
336(8)
7-5 The Series RLC Circuit
344(9)
7-6 The Parallel RLC Circuit
353(6)
7-7 Second-Order Circuit Step Response
359(9)
Summary
368(1)
Problems
369(9)
Integrating Problems
378(4)
Chapter 8 Sinusoidal Steady-State Response 382(71)
8-1 Sinusoids And Phasors
383(6)
8-2 Phasor Circuit Analysis
389(5)
8-3 Basic Phasor Circuit Analysis And Design
394(15)
8-4 Circuit Theorems With Phasors
409(13)
8-5 General Circuit Analysis With Phasors
422(13)
8-6 Energy And Power
435(5)
Summary
440(1)
Problems
441(10)
Integrating Problems
451(2)
Chapter 9 Laplace Transforms 453(45)
9-1 Signal Waveforms And Transforms
454(4)
9-2 Basic Properties And Pairs
458(8)
9-3 Pole-Zero Diagrams
466(3)
9-4 Inverse Laplace Transforms
469(11)
9-5 Circuit Response Using Laplace Transforms
480(8)
9-6 Initial And Final Value Properties
488(2)
Summary
490(1)
Problems
491(5)
Integrating Problems
496(2)
Chapter 10 S-Domain Circuit Analysis 498(56)
10-1 Transformed Circuits
499(9)
10-2 Basic Circuit Analysis In The S Domain
508(5)
10-3 Circuit Theorems In The S Domain
513(10)
10-4 Node-Voltage Analysis In The S Domain
523(9)
10-5 Mesh-Current Analysis In The S Domain
532(6)
10-6 Summary Of S-Domain Circuit Analysis
538(4)
Summary
542(1)
Problems
542(10)
Integrating Problems
552(2)
Chapter 11 Network Functions 554(62)
11-1 Definition Of A Network Function
555(3)
11-2 Network Functions Of One- And Two-Port Circuits
558(11)
11-3 Network Functions And Impulse Response
569(3)
11-4 Network Functions And Step Response
572(4)
11-5 Network Functions And Sinusoidal Steady-State Response
576(7)
11-6 Impulse Response And Convolution
583(6)
11-7 Network Function Design And Evaluation
589(12)
Summary
601(4)
Problems
605(8)
Integrating Problems
613(3)
Chapter 12 Frequency Response 616(70)
12-1 Frequency-Response Descriptors
617(2)
12-2 Bode Diagrams
619(2)
12-3 First-Order Low-Pass And High-Pass Responses
621(16)
12-4 Bandpass And Bandstop Responses
637(6)
12-5 The Frequency Response Of RLC Circuits
643(9)
12-6 Bode Diagrams With Real Poles And Zeros
652(9)
12-7 Bode Diagrams With Complex Poles And Zeros
661(6)
12-8 Frequency Response And Step Response
667(6)
Summary
673(1)
Problems
673(10)
Integrating Problems
683(3)
Chapter 13 Fourier Series 686(33)
13-1 Overview Of Fourier Series
687(1)
13-2 Fourier Coefficients
688(3)
13-3 Waveform Symmetries
691(8)
13-4 Circuit Analysis Using The Fourier Series
699(7)
13-5 RMS Value And Average Power
706(6)
Summary
712(1)
Problems
712(5)
Integrating Problems
717(2)
Chapter 14 Active Filter Design 719(66)
14-1 Active Filters
720(1)
14-2 Second-Order Low-Pass And High-Pass Filters
721(9)
14-3 Second-Order Bandpass And Bandstop Filters
730(9)
14-4 Low-Pass Filter Design
739(18)
14-5 Low-Pass Filter Evaluation
757(3)
14-6 High-Pass Filter Design
760(12)
14-7 Bandpass And Bandstop Filter Design
772(4)
Summary
776(1)
Problems
777(5)
Integrating Problems
782(3)
Chapter 15 Mutual Inductance And Transformers 785(26)
15-1 Coupled Inductors
186(595)
15-2 The Dot Convention
781(9)
15-3 Energy Analysis
790(2)
15-4 The Ideal Transformer
792(7)
15-5 Linear Transformers
799(7)
Summary
806(1)
Problems
806(3)
Integrating Problems
809(2)
Chapter 16 AC Power Systems 811(39)
16-1 Average And Reactive Power
812(2)
16-2 Complex Power
814(3)
16-3 Single-Phase Circuit Analysis
817(4)
16-4 Single-Phase Power Flow
821(4)
16-5 Balanced Three-Phase Circuits
825(5)
16-6 Three-Phase Circuit Analysis
830(11)
16-7 Three-Phase Power Flow
841(2)
Summary
843(1)
Problems
844(5)
Integrating Problems
849(1)
Appendix A Complex Numbers 850(4)
Answers To Selected Problems 854(27)
Index 881
Roland E. Thomas is the author of The Analysis and Design of Linear Circuits, Binder Ready Version, 8th Edition, published by Wiley. Albert J. Rosa is the author of The Analysis and Design of Linear Circuits, Binder Ready Version, 8th Edition, published by Wiley.