Feedback Amplifiers,9780792376439

Feedback Amplifiers

by ;
ISBN13: 9780792376439
ISBN10: 0792376439
Format: Hardcover
Pub. Date: 2002-01-01
Publisher(s): Kluwer Academic Pub
List Price: $230.99

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Summary

Feedback Amplifiers: Theory and Design deals with feedback and feedback amplifiers. Although this topic has been extensively investigated over the years, theoretically exact and at the same time sufficiently simple and well organized material is not, to the authors' judgement, present today in literature. After describing the fundamental properties of feedback, the book illustrates techniques of analysis for greater insight into feedback amplifiers and design strategies to optimise their performance. The book has two main targets 1) a tutorial purpose since its aim is first to introduce and then to bring the reader to in-depth analysis and design of feedback circuits; 2) to present original material on the topic of feedback circuits. In particular, a new comprehensive approach for the frequency compensation of two-stage and three-stage amplifiers is adopted, and insightful new results are reported for harmonic distortion in the frequency domain.

Table of Contents

Acknowledgements xi
Preface xiii
Introduction to Device Modeling
1(36)
Gianluca Giustolisi
Doped Silicon
1(1)
Diodes
2(7)
Reverse Bias Condition
5(1)
Graded Junctions
6(1)
Forward Bias Condition
7(2)
Diode Small Signal Model
9(1)
Mos Transistors
9(20)
Basic Operation
10(2)
Triode or Linear Region
12(2)
Saturation or Active Region
14(1)
Body Effect
15(1)
p-channel Transistors
16(1)
Saturation Region Small Signal Model
16(5)
Triode Region Small Signal Model
21(2)
Cutoff Region Small Signal Model
23(1)
Second Order Effects in MOSFET Modeling
24(4)
Sub-threshold Region
28(1)
Bipolar-Junction Transistors
29(8)
Basic Operation
31(1)
Early Effect or Base Width Modulation
32(1)
Saturation Region
33(1)
Charge Stored in the Active Region
33(1)
Active Region Small Signal Model
34(2)
References
36(1)
Single Transistor Configurations
37(26)
The Generic Active Component
37(2)
AC Schematic Diagram and Linear Analysis
39(2)
Common X (Emitter/Source) Configuration
41(1)
Common X With Degenerative Resistance Rx
42(6)
Common Y (Base/Gate)
48(3)
Common Z (Collector/Drain)
51(3)
Frequency Response of Single Transistor Configurations
54(9)
Common X Configuration
55(1)
Common X with a Degenerative Resistance
56(5)
Common Y and Common Z Configurations
61(2)
Feedback
63(14)
Method of Analysis of Feedback Circuits
64(3)
Signal Flow Graph Analysis
67(2)
The Rosenstark Method
69(3)
The Choma Method
72(2)
The Blackman Theorem
74(3)
Stability - Frequency and Step Response
77(26)
One-Pole Feedback Amplifiers
78(4)
Two-Pole Feedback Amplifiers
82(10)
Two-Pole Feedback Amplifiers with a Polezero Doublet
92(5)
Three-Pole Feedback Amplifiers with Real Poles
97(1)
Three-Pole Feedback Amplifiers with a Pair of Complex and Conjugate Poles
98(2)
Two-Pole Feedback Amplifiers with a Zero
100(3)
Frequency Compensation Techniques
103(34)
Dominant-Pole Compensation
104(2)
Miller (Pole-Splitting) Compensation
106(3)
Compensation of the Miller RHP Zero
109(7)
Nulling Resistor
110(1)
Voltage Buffer
111(3)
Current Buffer
114(2)
Nested Miller Compensation
116(10)
General Features
116(4)
RHP Cancellation With Nulling Resistors
120(6)
Reversed Nested Miller Compensation
126(11)
General Features
126(4)
RHP Cancellation with Nulling Resistors
130(1)
RHP Cancellation with One Real voltage Buffer
131(3)
RHP Cancellation with One Real Current Buffer
134(3)
Fundamental Feedback Configurations
137(36)
Series-Shunt Amplifier
137(11)
Series-shunt Amplifier with Buffer
146(2)
Shunt-Series Amplifier
148(7)
Shunt-Shunt Amplifier
155(3)
Series-Series Amplifier
158(4)
A General View of Single-Loop Amplifiers
162(3)
Frequency Compensation of the Fundamental Configurations
165(8)
Frequency Compensation of the Series-Shunt Amplifier
166(3)
Frequency Compensation of the Shunt-Series Amplifier
169(2)
Frequency Compensation of the Shunt- Shunt Amplifier
171(1)
Frequency Compensation of the Series-Series Amplifier
172(1)
Harmonic Distortion
173(34)
Harmonic Distortion at Low Frequency
176(6)
Nonlinear Amplifier with Linear Feedback
176(2)
Nonlinear Amplifier with Nonlinear Feedback
178(4)
Harmonic Distortion in the Frequency Domain
182(9)
Open-loop Amplifiers
182(3)
Closed-loop Amplifiers
185(6)
Harmonic Distortion and Compensation
191(14)
Two-stage Amplifier with Dominant-Pole Compensation
191(2)
Two-stage Amplifier with Miller Compensation
193(6)
Single-stage Amplifiers
199(6)
An Alternative Frequency Analysis
205(2)
Noise
207(14)
Basic Concepts
207(2)
Equivalent Input Noise Generators
209(3)
Noise Models of Circuit Components
212(2)
Effect of Feedback
214(7)
Examples of Feedback in Integrated Circuits
221(22)
The Output Resistance of a Differential Amplifier with Current-Mirror Load
221(3)
The Wilson Current Mirror
224(4)
The Cascode Current Mirror
228(1)
The Current Feedback Operational Amplifier and Its High-Level Characteristics
229(3)
Transistor-Level Architecture, Small-Signal Model, and Frequency Compensation of CFOAS
232(4)
Integrators and Differentiators With CFOAS
236(2)
CFOA Versus VOA
238(5)
APPENDIX: FREQUENCY ANALYSIS OF RC NETWORKS 243(8)
A.1 Transfer Function of a Generic RC Network
243(4)
A.2 Approximated Poles
247(4)
References 251(12)
About the Authors 263

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