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1545 مرتبه مشاهده شده
Nonlinear microwave and RF circuits
Maas, Stephen A.
- ISBN:1580534848
- Call Number : TK 7876 .M284 2003
- Main Entry: Maas, Stephen A.
- Title:Nonlinear microwave and RF circuits / Stephen A. Maas.
- Edition:2nd ed.
- Publisher:Boston : Artech House, 2003.
- Physical Description:xx, 582 p.: ill.; 24 cm
- Notes:Rev. and updated ed. of: Nonlinear microwave circuits, 1988 and reprinted in 1997
- Notes:"Also in electronic format is available"
- Notes:Includes bibliographical references and index
- Subject:Microwave circuits.
- Added Entry:Maas, Stephen A, Nonlinear microwave circuits.
- Added Entry:Title.
Nonlinear microwave and RF circuits محتواي کتاب
- Nonlinear Microwave and RF Circuits
- Nonlinear Microwave and RF Circuits
- Chapter 1 Introduction, Fundamental Concepts, and Definitions
- Chapter 2 Solid-State Device Modeling for Quasistatic Analysis
- 2.1 NONLINEAR DEVICE MODELS
- 2.2 NONLINEAR LUMPED CIRCUIT ELEMENTS AND CONTROLLED SOURCES
- 2.2.1 The Substitution Theorem
- 2.2.2 Large- Signal Nonlinear Resistive Elements
- 2.2.3 Small- Signal Nonlinear Resistive Elements
- 2.2.4 Large- Signal Nonlinear Capacitance
- 2.2.5 Small- Signal Nonlinear Capacitance
- 2.2.6 Relationship Between I/ V, Q/ V and G/ V, C/ V Expansions
- 2.2.7 Multiply Controlled Nonlinear Capacitors
- 2.2.8 Nonlinear Inductance
- 2.3 NUMERICAL AND HUMAN REQUIREMENTS FOR DEVICE MODELS
- 2.3.1 Continuous Derivatives in I/ V or Q/ V Expressions
- 2.3.2 Accuracy of Derivatives
- 2.3.3 Range of Expressions
- 2.3.4 Transient- Analysis Models in Harmonic- Balance Analysis
- 2.3.5 Matrix Conditioning
- 2.3.6 Limiting the Range of Control Voltages
- 2.3.7 Use of Polynomials
- 2.3.8 Loops of Control Voltages
- 2.3.9 Default Parameters
- 2.3.10 Error Trapping
- 2.3.11 Lucidity of Models and Parameters
- 2.3.12 Does Complexity Improve a Model?
- 2.4 SCHOTTKY- BARRIER AND JUNCTION DIODES
- 2.5 FET DEVICES
- 2.6 BIPOLAR DEVICES
- 2.7 THERMAL MODELING
- 2.8 PARAMETER EXTRACTION
- References
- Chapter 3 Harmonic-Balance Analysis and Related Methods
- 3.1 WHY USE HARMONIC- BALANCE ANALYSIS?
- 3.2 AN HEURISTIC INTRODUCTION TO HARMONICBALANCE ANALYSIS
- 3.3 SINGLE- TONE HARMONIC- BALANCE ANALYSIS
- 3.3.1 Circuit Partitioning
- 3.3.2 The Nonlinear Subcircuit
- 3.3.3 The Linear Subcircuit
- 3.3.4 Solution Algorithms
- 3.3.5 Newton Solution of the Harmonic- Balance Equation
- 3.3.6 Selecting the Number of Harmonics and Time Samples
- 3.3.7 Matrix Methods for Solving ( 3.37)
- 3.3.8 Norm Reduction
- 3.3.9 Optimizing Convergence and Efficiency
- 3.4 LARGE- SIGNAL/ SMALL- SIGNAL ANALYSIS USING CONVERSION MATRICES
- 3.5 MULTITONE EXCITATION AND INTERMODULATION IN TIME- VARYING CIRCUITS
- 3.6 MULTITONE HARMONIC- BALANCE ANALYSIS
- 3.7 MODULATED WAVEFORMS AND ENVELOPE ANALYSIS
- References
- Chapter 4 Volterra-Series and Power-Series Analysis
- 4.1 POWER- SERIES ANALYSIS
- 4.2 VOLTERRA- SERIES ANALYSIS
- 4.2.1 Introduction to the Volterra Series
- 4.2.2 Volterra Functionals and Nonlinear Transfer Functions
- 4.2.3 Determining Nonlinear Transfer Functions by the Harmonic Input Method
- 4.2.4 Applying Nonlinear Transfer Functions
- 4.2.5 The Method of Nonlinear Currents
- 4.2.6 Application to Large Circuits
- 4.2.7 Controlled Sources
- 4.2.8 Spectral Regrowth and Adjacent- Channel Power
- References
- Chapter 5 Balanced and Multiple-Device Circuits
- Chapter 6 Diode Mixers
- Chapter 7 Diode Frequency Multipliers
- Chapter 8 Small-Signal Amplifiers
- Chapter 9 Power Amplifiers
- Chapter 10 Active Frequency Multipliers
- Chapter 11 Active Mixers and FET Resistive Mixers
- Chapter 12 Transistor Oscillators
- About the Author
- Index