The Circuits and Filters Handbook, 2nd Edition

Provides the most up-to-date and comprehensive coverage of electrical circuits and filters
Comprises objective, refereed contributions from more than 100 leading experts from around the world
Devotes an entire section to key mathematical formulas, concepts, definitions, and derivatives
Covers both analog and digital circuits and filters, from the classical to the state-of-the-art
Focuses on professional applications, omitting extensive theory and proofs in favor of numerous examples

A bestseller in its first edition, The Circuits and Filters Handbook has been thoroughly updated to provide the most current, most comprehensive information available in both the classical and emerging fields of circuits and filters, both analog and digital. This edition contains 29 new chapters, with significant additions in the areas of computer-aided design, circuit simulation, VLSI circuits, design automation, and active and digital filters. It will undoubtedly take its place as the engineer's first choice in looking for solutions to problems encountered in the design, analysis, and behavior prediction of large-scale circuits, devices, filters, and systems.

SECTION I.MATHEMATICS
Linear Operators and Matrices
Bilinear Operators and Matrices
The Laplace Transformation
Fourier Series, Fourier Transforms and the Discrete Fourier Transform
z-Transform
Wavelet Transforms
Graph Theory
Signal Flow Graphs
Theory of Two-Dimensional Hurwitz Polynomials
SECTION II. CIRCUIT ELEMENTS, DEVICES AND THEIR MODELS
Passive Circuit Elements
RF Passive IC Components
Circuit Elements, Modeling and Equation Formulation
Controlled Circuit Elements
Bipolar Transistors (BJT) Circuits
Operational Amplifiers
High-Frequency Amplifiers
SECTION III. LINEAR CIRCUIT ANALYSIS
Fundamental Circuit Concepts
Network Laws and Theorems
Kirchhoff's Voltage and Current Laws
Network Theorems
Terminal and Port Representation
Signal Flow Graphs in Filter Analysis and Synthesis
Analysis in the Frequency Domain
Tableau and Modified Nodal Formulations
Frequency Domain Methods
Symbolic Analysis
Analysis in the Time Domain
State-Variable Techniques
SECTION IV. FEEDBACK CIRCUITS
Feedback Amplifier Theory
Feedback Amplifier Configurations
General Feedback Theory
The Network Functions and Feedback
Measurement of Return Difference
Multiple-Loop Feedback Amplifiers
SECTION V. NONLINEAR CIRCUITS
Qualitative Analysis
Synthesis and Design of Nonlinear Circuits
Manual Delgado
Representation, Approximation and Identification
Transformation and Equivalence
Piecewise-Linear Circuits and Piecewise-Linear Analysis
Simulation
Cellular Neural Networks
Bifurcation and Chaos
PART VI. DISTRIBUTED CIRCUITS
Transmission Lines
Multiconductor Tranmission Lines
Time and Frequency Domain Responses
Distributed RC Networks
Synthesis of Distributed Circuits
PART VII. COMPUTER-AIDED DESIGN AND OPTIMIZATION
Modeling of Circuit Performances
Symbolic Analysis Methods
Numerical Analysis Methods
Design by Optimization
Statistical Design Optimization
Physical Design Automation
Design Automation Technology
Computer-Aided Analysis
Analog Circuits Simulation
PART VIII. ANALOG INTERGRATED CIRCUITS
Monolithic Device Models
Analog Circuit Cells
Redman-White
High Performance Analog Circuits
Broadband Bipolar Networks
RF Communication Circuits
PLL Circuits
PART IX. THE VLSI CIRCUITS
Digital Circuits
61, Digital Systems, Festus Gail Gray
Data Convertors
PART X. DESIGN AUTOMATION
Modeling Languages for AMS, RF & MW Modeling
Internet Based Micro-Electronic Design Automation (IMEDA) Framework
System-Level Design
Synthesis at the Register Transfer Level and the Behavioural Level
Embedded Computing Systems and Hardware/Software Co-Design
Design Automation Technology Roadmap
Performance Modeling and Analysis in VHDL
PART XI. PASSIVE FILTERS
General Characteristics of Filters
Approximation
Frequency Transformations
Sensitivity and Selectivity
Passive Immittances and Positive-Real Functions
Passive Cascade Synthesis
Synthesis of LCM and RC One-Port Networks
Two-Port Synthesis by Ladder Development
Design of Resistively Terminated Networks
Design of Broadband Matching Networks
PART XII. ACTIVE FILTERS
Low-Gain Active Filters
Single-Amplifier Multiple-Feedback Filters
Multiple-Amplifier Biquads
The Current Generalized Immittance Converter (CGIC) Biquads
Higher-Order Filters
Continuous-Time Integrated Filters
Switched Capacitor Filters
PART XIII. DIGITAL FILTERS
FIR Filters
IIR Filters, Sawasd Tantaratana
Finite Wordlength Effects
Aliasing-Free Reconstruction Filter Bank
VLSI Implementation of Digital Filters
Two-Dimensional FIR Filters
Two-Dimensional IIR Filters
Symmetry and 2-D Filter Design