Muutke küpsiste eelistusi

Analysis and Design of Linear Circuits 6th Revised edition [Kõva köide]

3.95/5 (64 hinnangut Goodreads-ist)
, ,
  • Formaat: Hardback, 928 pages, kõrgus x laius x paksus: 263x213x38 mm, kaal: 1706 g
  • Ilmumisaeg: 30-Jan-2009
  • Kirjastus: John Wiley & Sons Ltd
  • ISBN-10: 0470383305
  • ISBN-13: 9780470383308
Teised raamatud teemal:
  • Kõva köide
  • Hind: 226,00 €*
  • * saadame teile pakkumise kasutatud raamatule, mille hind võib erineda kodulehel olevast hinnast
  • See raamat on trükist otsas, kuid me saadame teile pakkumise kasutatud raamatule.
  • Kogus:
  • Lisa ostukorvi
  • Tasuta tarne
  • Lisa soovinimekirja
Analysis and Design of Linear Circuits 6th Revised editionSuurem pilt
  • Formaat: Hardback, 928 pages, kõrgus x laius x paksus: 263x213x38 mm, kaal: 1706 g
  • Ilmumisaeg: 30-Jan-2009
  • Kirjastus: John Wiley & Sons Ltd
  • ISBN-10: 0470383305
  • ISBN-13: 9780470383308
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780470383308.html
Märksõnad:
The Analysis and Design of Linear Circuits, 6e gives the reader the opportunity to not only analyze, but also design and evaluate linear circuits as early as possible. The text's abundance of problems, applications, pedagogical tools, and realistic examples helps engineers develop the skills needed to solve problems, design practical alternatives, and choose the best design from several competing solutions. Engineers searching for an accessible introduction to resistance circuits will benefit from this book that emphasizes the early development of engineering judgment.
Introduction
1(15)
About This Book
2(1)
Symbols and Units
3(2)
Circuit Variables
5(6)
Computational Software Introduction
11(5)
Summary
12(1)
Problems
12(2)
Integrating Problems
14(2)
Basic Circuit Analysis
16(54)
Element Constraints
17(5)
Connection Constraints
22(8)
Combined Constraints
30(6)
Equivalent Circuits
36(6)
Voltage and Current Division
42(8)
Circuit Reduction
50(5)
Computer-Aided Circuit Analysis
55(15)
Summary
61(1)
Problems
61(7)
Integrating Problems
68(2)
Circuit Analysis Techniques
70(73)
Node-Voltage Analysis
71(16)
Mesh-Current Analysis
87(9)
Linearity Properties
96(7)
Thevenin and Norton Equivalent Circuits
103(12)
Maximum Signal Transfer
115(4)
Interface Circuit Design
119(24)
Summary
131(1)
Problems
131(10)
Integrating Problems
141(2)
Active Circuits
143(76)
Linear Dependent Sources
144(3)
Analysis of Circuits with Dependent Sources
147(15)
The Operational Amplifier
162(7)
OP AMP Circuit Analysis
169(15)
OP AMP Circuit Design
184(7)
OP AMP Circuit Applications
191(28)
Summary
208(1)
Problems
208(9)
Integrating Problems
217(2)
Signal Waveforms
219(52)
Introduction
220(1)
The Step Waveform
221(5)
The Exponential Waveform
226(5)
The Sinusoidal Waveform
231(7)
Composite Waveforms
238(8)
Waveform Partial Descriptors
246(8)
Signals and Software Tools
254(17)
Summary
265(1)
Problems
266(3)
Integrating Problems
269(2)
Capacitance and Inductance
271(34)
The Capacitor
272(7)
The Inductor
279(7)
Dynamic OP AMP Circuits
286(9)
Equivalent Capacitance and Inductance
295(10)
Summary
298(1)
Problems
299(4)
Integrating Problems
303(2)
First- and Second-Order Circuits
305(70)
RC and RL Circuits
306(8)
First-Order Circuit Step Response
314(9)
Initial and Final Conditions
323(7)
First-Order Circuit Response to Exponential and Sinusoidal Inputs
330(7)
The Series RLC Circuit
337(10)
The Parallel RLC Circuit
347(6)
Second-Order Circuit Step Response
353(22)
Summary
364(1)
Problems
364(7)
Integrating Problems
371(4)
Sinusoidal Steady-State Response
375(64)
Sinusoids and Phasors
376(5)
Phaser Circuit Analysis
381(5)
Basic Circuit Analysis with Phasors
386(17)
Circuit Theorems with Phasors
403(10)
General Circuit Analysis with Phasors
413(11)
Energy and Power
424(15)
Summary
429(1)
Problems
430(6)
Integrating Problems
436(3)
Laplace Transforms
439(46)
Signal Waveforms and Transforms
440(4)
Basic Properties and Pairs
444(8)
Pole-Zero Diagrams
452(6)
Inverse Laplace Transforms: Classical Approach
458(9)
Inverse Laplace Transforms: Software Approach
467(2)
Circuit Response Using Laplace Transforms
469(8)
Initial Value and Final Value Properties
477(8)
Summary
479(1)
Problems
480(4)
Integrating Problems
484(1)
S-Domain Circuit Analysis
485(54)
Transformed Circuits
486(9)
Basic Circuit Analysis in the s Domain
495(5)
Circuit Theorems in the s Domain
500(8)
Node-Voltage Analysis in the s Domain
508(12)
Mesh-Current Analysis in the s Domain
520(6)
Summary of s-Domain Circuit Analysis
526(13)
Summary
531(1)
Problems
531(7)
Integrating Problems
538(1)
Network Functions
539(60)
Definition of a Network Function
540(3)
Network Functions of One- and Two-Port Circuits
543(12)
Network Functions and Impulse Response
555(3)
Network Functions and Step Response
558(6)
Network Functions and Sinusoidal Steady-State Response
564(5)
Impulse Response and Convolution
569(6)
Network Function Design
575(24)
Summary
591(1)
Problems
592(5)
Integrating Problems
597(2)
Frequency Response
599(68)
Frequency-Response Descriptors
600(1)
Bode Diagrams
601(3)
First-Order Low-Pass and High-Pass Responses
604(13)
Bandpass and Bandstop Responses
617(8)
The Frequency Response of RLC Circuits
625(10)
Bode Diagrams with Real Poles and Zeros
635(11)
Bode Diagrams with Complex Poles and Zeros
646(6)
Frequency Response and Step Response
652(15)
Summary
658(1)
Problems
658(7)
Integrating Problems
665(2)
Fourier Analysis
667(61)
Overview of Fourier Analysis
668(1)
Fourier Coefficients
669(9)
Waveform Symmetries
678(3)
Circuit Analysis Using the Fourier Series
681(7)
RMS Value and Average Power
688(3)
Fourier Transforms
691(15)
Circuit Analysis Using Fourier Transforms
706(3)
Impulse Response and Convolution
709(3)
Parseval's Theorem
712(16)
Summary
720(1)
Problems
720(6)
Integrating Problems
726(2)
Active Filter Design
728(61)
Active Filters
729(1)
Second-Order Low-Pass and High-Pass Filters
730(10)
Second-Order Bandpass and Bandstop Filters
740(6)
Low-Pass Filter Design
746(18)
Low-Pass Filter Evaluation
764(4)
High-Pass Filter Design
768(10)
Bandpass and Bandstop Filter Design
778(11)
Summary
782(1)
Problems
783(4)
Integrating Problems
787(2)
Mutual Inductance and Transformers
789(26)
Coupled Inductors
790(2)
The Dot Convention
792(3)
Energy Analysis
795(1)
The Ideal Transformer
796(6)
Linear Transformers
802(5)
Transformer Equivalent Circuits
807(8)
Summary
810(1)
Problems
810(4)
Integrating Problems
814(1)
AC Power Systems
815(1)
Average and Reactive Power
816(2)
Complex Power
818(3)
Single-Phase Circuit Analysis
821(4)
Single-Phase Power Flow
825(5)
Balanced Three-Phase Circuits
830(6)
Three-Phase Circuit Analysis
836(9)
Three-Phase Power Flow
845(4)
Summary
849(1)
Problems
850(5)
Integrating Problems
855
Two-Port Networks (on Web)
1(1)
Introduction
2(1)
Impedance Parameters
3(2)
Admittance Parameters
5(2)
Hybrid Parameters
7(2)
Transmission Parameters
9(3)
Two-Port Conversions and Connections
12
Summary
15(1)
Problems
16(2)
Integrating Problems
18
Appendix A --- Complex Numbers 1(4)
Appendix B --- Computational Tools 5(4)
Answers to Selected Problems 9
Photo Credits 1(1)
Index 1(18)
Web Appendix A --- Solution of Linear Equations 19(8)
Web Appendix B --- Butterworth and Chebychev Poles 27