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The analysis & design of linier circuits

Terdapat bibliografi dan indeks.

CONTENTS:

1. Introduction

1.1 About this book

1.2 Symbols and units

1.3 Circuit variables

1.4 Computational software introduction


2. Basic circuit alanysis

2.1 Element constraints

2.2 Connection constraints

2.3 Combined constraints

2.4 Equivalent circuits

2.5 Voltage and current division

2.6 Circuit reduction

2.7 Computer-aided circuit analysis


3. Circuit analysis techniques

3.1 Node-voltage analysis

3.2 Mesh-current analysis

3.3 Linearity properties

3.4 Thevenin and Norton equivalent circuits

3.5 Maximum signal transfer

3.6 Interface circuit design


4. Active circuits

4.1 Linear dependent sources

4.2 Analysis of circuits with dependent sources

4.3 The operational amplifier

4.4 OP AMP circuit analysis

4.5 OP AMP circuit design

4.6 OP AMP circuit applications


5. Signal waveforms

5.1 Introduction

5.2 The step waveform

5.3 The exponential waveform

5.4 The sinusoidal waveform

5.5 Composite waveform

5.6 Waveform partial descriptors

5.7 Signal and software tools


6. Capacitance and inductance

6.1 The capacitor

6.2 The inductor

6.3 Dynamic OP AMP circuits

6.4 Equivalent capacitance and inductance


7. First and second-order circuits

7.1 RC and RL circuits

7.2 First-order circuit step response

7.3 Initial and final coditions

7.4 First-order circuit response to exponential and sinusoidal inputs

7.5 The series RLC circuit

7.6 The parallel RLC circuit

7.7 Second-order circuit step response


8. Sinusoidal steady-state response

8.1 Sinusoids and phasors

8.2 Phasor circuit analysis with phasors

8.3 Circuit theorems with phasors

8.4 General circuit analysis with phasors

8.5 Energy and power


9. Laplace transforms

9.1 Signal waveforms and transforms

9.2 Basic properties and pairs

9.3 Pole-zero diagrams

9.4 Inverse laplace transforms: classical approach

9.5 Inverse laplace transforms: software approach

9.6 Circuit response using laplace transforms

9.7 Initial value and final value properties


10. S-Domain circuit analysis

10.1 Transformed circuits

10.2 Basic circuit analysis in the s domain

10.3 Circuit theorems in the s domain

10.4 Node-voltage analysis in the s domain

10.5 Mesh-current analysis in the s domain

10.6 Summary of s-domain circuit analysis


11. Network function

11.1 Definition of a network function

11.2 Network functions of one-and two-port circuits

11.3 Network functions and impulse response

11.4 Network functions and step response

11.5 Network functions and sinusoidal steady-state response

11.6 Impulse response and convolution

11.7 Network function and design


12. Frequency response

12.1 Frequency-response descriptors

12.2 Bode diagrams

12.3 First-order low-pass and high-pass responses

12.4 Bandpass and bandstop of RLC circuits

12.5 Bode diagrams with real poles and zeros

12.6 Bode diagrams with complex poles and zeros

12.7 Frequency response and step response


13. Fourier analysis

13.1 Overview of fourier analysis

13.2 Fourier coefficients

13.3 Waveform symmetries

13.4 Circuit analysis using the fourier series

13.5 RMS value and average power

13.6 Fourier transforms

13.7 Circuit analysis using fourier transforms

13.8 Impulse response and convolution

13.9 Parseval

Availability
#
Perpustakaan Poltek SSN (Rak 600) 621.3815 THO a
00000470
Available
Detail Information
Series Title
null
Call Number
621.3815 THO a
Publisher
New Jersey : John Wiley & Sons.,
Collation
xx, 856 hlm.; ilus.; 26 cm.
Language
English
ISBN/ISSN
9780470383308
Classification
621.3815
Content Type
-
Media Type
-
Carrier Type
-
Edition
Sixth Edition
Subject(s)
Ilmu Sosial
Electric Circuit Analysis
Rangkaian Listrik
Electric Circuits, Linear
Humaniora
Specific Detail Info
-
Statement of Responsibility
Other version/related

No other version available

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