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Analysis and Design of Linear Circuits 7th Edition [Kõva köide]

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  • Formaat: Hardback, 944 pages, kõrgus x laius x paksus: 261x206x38 mm, kaal: 1798 g
  • Sari: Delisted
  • Ilmumisaeg: 27-Dec-2011
  • Kirjastus: John Wiley & Sons Inc
  • ISBN-10: 1118065581
  • ISBN-13: 9781118065587
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Analysis and Design of Linear Circuits 7th EditionSuurem pilt
  • Formaat: Hardback, 944 pages, kõrgus x laius x paksus: 261x206x38 mm, kaal: 1798 g
  • Sari: Delisted
  • Ilmumisaeg: 27-Dec-2011
  • Kirjastus: John Wiley & Sons Inc
  • ISBN-10: 1118065581
  • ISBN-13: 9781118065587
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781118065587.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 section of 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.
Chapter 1 Introduction
1(14)
1-1 About This Book
2(1)
1-2 Symbols and Units
3(2)
1-3 Circuit Variables
5(5)
1-4 Computational Software Introduction
10(5)
Summary
11(1)
Problems
12(2)
Integrating Problems
14(1)
Chapter 2 Basic Circuit Analysis
15(58)
2-1 Element Constraints
16(5)
2-2 Connection Constraints
21(7)
2-3 Combined Constraints
28(8)
2-4 Equivalent Circuits
36(8)
2-5 Voltage and Current Division
44(8)
2-6 Circuit Reduction
52(4)
2-7 Computer-Aided Circuit Analysis
56(17)
Summary
60(1)
Problems
61(9)
Integrating Problems
70(3)
Chapter 3 Circuit Analysis Techniques
73(81)
3-1 Node-Voltage Analysis
74(18)
3-2 Mesh-Current Analysis
92(8)
3-3 Linearity Properties
100(9)
3-4 Thevenin and Norton Equivalent Circuits
109(13)
3-5 Maximum Signal Transfer
122(3)
3-6 Interface Circuit Design
125(29)
Summary
138(1)
Problems
139(12)
Integrating Problems
151(3)
Chapter 4 Active Circuits
154(85)
4-1 Linear Dependent Sources
155(1)
4-2 Analysis of Circuits with Dependent Sources
156(21)
4-3 The Operational Amplifier
177(7)
4-4 OP AMP Circuit Analysis
184(17)
4-5 OP AMP Circuit Design
201(7)
4-6 OP AMP Circuit Applications
208(31)
Summary
226(1)
Problems
226(8)
Application Problems
234(2)
Integrating Problems
236(3)
Chapter 5 Signal Waveforms
239(41)
5-1 Introduction
240(1)
5-2 The Step Waveform
241(5)
5-3 The Exponential Waveform
246(5)
5-4 The Sinusoidal Waveform
251(7)
5-5 Composite Waveforms
258(8)
5-6 Waveform Partial Descriptors
266(14)
Summary
273(1)
Problems
274(4)
Integrating Problems
278(2)
Chapter 6 Capacitance and Inductance
280(33)
6-1 The Capacitor
281(6)
6-2 The Inductor
287(6)
6-3 Dynamic OP AMP Circuits
293(8)
6-4 Equivalent Capacitance and Inductance
301(12)
Summary
305(1)
Problems
305(5)
Integrating Problems
310(3)
Chapter 7 First-and Second-Order Circuits
313(66)
7-1 RC and RL Circuits
314(10)
7-2 First-Order Circuit Step Response
324(8)
7-3 Initial and Final Conditions
332(6)
7-4 First-Order Circuit Response to Exponential and Sinusoidal Inputs
338(7)
7-5 The Series RLC Circuit
345(10)
7-6 The Parallel RLC Circuit
355(5)
7-7 Second-Order Circuit Step Response
360(19)
Summary
367(1)
Problems
368(8)
Integrating Problems
376(3)
Chapter 8 Sinusoidal Steady-State Response
379(68)
8-1 Sinusoids and Phasors
380(5)
8-2 Phasor Circuit Analysis
385(6)
8-3 Basic Phasor Circuit Analysis and Design
391(15)
8-4 Circuit Theorems with Phasors
406(13)
8-5 General Circuit Analysis with Phasors
419(12)
8-6 Energy and Power
431(16)
Summary
436(1)
Problems
437(8)
Integrating Problems
445(2)
Chapter 9 Laplace Transforms
447(43)
9-1 Signal Waveforms and Transforms
448(3)
9-2 Basic Properties and Pairs
451(9)
9-3 Pole-Zero Diagrams
460(3)
9-4 Inverse Laplace Transforms
463(10)
9-5 Circuit Response Using Laplace Transforms
473(7)
9-6 Initial and Final Value Properties
480(10)
Summary
483(1)
Problems
483(5)
Integrating Problems
488(2)
Chapter 10 S-Domain Circuit Analysis
490(55)
10-1 Transformed Circuits
491(10)
10-2 Basic Circuit Analysis in the s Domain
501(5)
10-3 Circuit Theorems in the s Domain
506(10)
10-4 Node-Voltage Analysis in the s Domain
516(9)
10-5 Mesh-Current Analysis in the s Domain
525(6)
10-6 Summary of s-Domain Circuit Analysis
531(14)
Summary
535(1)
Problems
536(7)
Integrating Problems
543(2)
Chapter 11 Network Functions
545(61)
11-1 Definition of a Network Function
546(3)
11-2 Network Functions of One- and Two-Port Circuits
549(12)
11-3 Network Functions and Impulse Response
561(3)
11-4 Network Functions and Step Response
564(4)
11-5 Network Functions and Sinusoidal Steady-State Response
568(7)
11-6 Impulse Response and Convolution
575(6)
11-7 Network Function Design
581(25)
Summary
597(1)
Problems
597(7)
Integrating Problems
604(2)
Chapter 12 Frequency Response
606(67)
12-1 Frequency-Response Descriptors
607(2)
12-2 Bode Diagrams
609(2)
12-3 First-Order Low-Pass and High-Pass Responses
611(14)
12-4 Bandpass and Bandstop Responses
625(6)
12-5 The Frequency Response of RLC Circuits
631(9)
12-6 Bode Diagrams with Real Poles and Zeros
640(11)
12-7 Bode Diagrams with Complex Poles and Zeros
651(5)
12-8 Frequency Response and Step Response
656(17)
Summary
662(1)
Problems
662(9)
Integrating Problems
671(2)
Chapter 13 Fourier Analysis
673(62)
13-1 Overview of Fourier Analysis
674(1)
13-2 Fourier Coefficients
675(9)
13-3 Waveform Symmetries
684(2)
13-4 Circuit Analysis Using the Fourier Series
686(8)
13-5 RMS Value and Average Power
694(3)
13-6 Fourier Transforms
697(15)
13-7 Circuit Analysis Using Fourier Transforms
712(3)
13-8 Impulse Response and Convolution
715(3)
13-9 Parseval's Theorem
718(17)
Summary
725(1)
Problems
726(7)
Integrating Problems
733(2)
Chapter 14 Active Filter Design
735(68)
14-1 Active Filters
736(1)
14-2 Second-Order Low-Pass and High-Pass Filters
737(11)
14-3 Second-Order Bandpass and Bandstop Filters
748(10)
14-4 Low-Pass Filter Design
758(18)
14-5 Low-Pass Filter Evaluation
776(4)
14-6 High-Pass Filter Design
780(11)
14-7 Bandpass and Bandstop Filter Design
791(12)
Summary
795(1)
Problems
796(4)
Integrating Problems
800(3)
Chapter 15 Mutual Inductance and Transformers
803(25)
15-1 Coupled Inductors
804(2)
15-2 The Dot Convention
806(2)
15-3 Energy Analysis
808(2)
15-4 The Ideal Transformer
810(6)
15-5 Linear Transformers
816(12)
Summary
823(1)
Problems
823(4)
Integrating Problems
827(1)
Chapter 16 AC Power Systems
828(40)
16-1 Average and Reactive Power
829(2)
16-2 Complex Power
831(3)
16-3 Single-Phase Circuit Analysis
834(4)
16-4 Single-Phase Power Flow
838(5)
16-5 Balanced Three-Phase Circuits
843(6)
16-6 Three-Phase Circuit Analysis
849(9)
16-7 Three-Phase Power Flow
858(10)
Summary
861(1)
Problems
862(5)
Integrating Problems
867(1)
Chapter 17 Two-Port Networks
868(21)
17-1 Introduction
869(1)
17-2 Impedance Parameters
870(2)
17-3 Admittance Parameters
872(2)
17-4 Hybrid Parameters
874(2)
17-5 Transmission Parameters
876(3)
17-6 Two-Port Conversions and Connections
879(10)
Summary
885(1)
Problems
885(3)
Integrating Problems
888(1)
Appendix A Complex Numbers 889(4)
Answers to Selected Problems 893
Index 917
Roland E. Thomas is the author of The Analysis and Design of Linear Circuits, 7th Edition, published by Wiley.



Albert J. Rosa is the author of The Analysis and Design of Linear Circuits, 7th Edition, published by Wiley.