Skip to main content
Back to top
Ctrl
+
K
Structured Electronics Design
Preface
Structured Electronics Design
About the author
Acknowledgments
Introduction
Electronics
Selected topics from systems engineering
Electronic information processing
Structured Electronics Design
This book
Modeling and specification of amplifiers
Introduction to amplifier design
Amplifier port requirements
Modeling of the ideal behavior
Modeling of the non-ideal behavior
Cascaded Amplifiers
Amplifier requirement specification
Amplification Mechanism
Introduction
Two-terminal resistive elements
Multi-terminal resistive elements
Introduction to biasing
Conclusions
Active Devices
Introduction
Bipolar transistors
Junction Field Effect Transistors
MOS transistors
SLiCAP device models
Conclusions
Basic amplification: CS stage
Introduction
The intrinsic CS stage
Small-signal behavior of CS stage between source and load
Optimization of the noise performance of a CS stage
Conclusions
Balancing techniques
Introduction
Balancing of two-terminal devices
Balancing of two-ports
Balanced CE and CS stages
Conclusions
Design of feedback amplifier configurations
Introduction
Design of feedback configurations
Implementation of negative feedback
Nonenergic feedback
Passive feedback
Active feedback
Design of balanced amplifiers
Indirect feedback
Application and specification of operational amplifiers
Introduction
Characterization of operational amplifiers
Modeling of the operational amplifier
Design of feedback configurations with Op-Amps
Introduction to amplifier biasing
Introduction
Basic techniques
Evaluation of biasing errors
Application of error reduction techniques
Common-mode biasing
Modeling of negative feedback circuits
Introduction
Black’s feedback model
Asymptotic gain model
Amplifier performance and controller requirements
Introduction
Accuracy design considerations
Nonlinearity design consideration
Bandwidth design considerations
Stability of negative feedback amplifiers
Frequency compensation
Introduction
Phantom zero compensation
Pole-splitting
Pole-zero canceling
Resistive broadbanding
Phase margin design
Reduction of the servo bandwidth
Feedback biasing frequency compensation
Nested control
Compensation for open and shorted ports
Influence of non dominant poles
Local feedback stages
Introduction
Direct feedback stages
Application of balancing
Indirect feedback stages
Multi-stage Feedback Amplifiers
Introduction
Controller design considerations
Amplifier Biasing
Introduction
Setting up the initial biasing scheme
Signal Modeling (selected topics)
Introduction
Deterministic signal modeling
Random signal modeling
Signals, data and information
System Modeling (selected topics)
Introduction
Classification of systems
Linear stationary instantaneous systems
Linear stationary dynamic systems
Fixed instantaneous nonlinear systems
Linear time-variant instantaneous systems
Modeling of nonlinear dynamic systems
Network Theory (selected topics)
Introduction
Nodal Analysis
Modified Nodal Analysis
Implementation of transfer functions
Determination of poles and zeros
Two-ports
Noise in electronic systems
Introduction
Noise-modeling in two-ports
Noise performance characterization
Bibliography
.md
.pdf
Modeling and specification of amplifiers
Modeling and specification of amplifiers
#
