Design, Simulation and Applications of Inductors and Transformers for Si Rf Ics,9780792379867

Design, Simulation and Applications of Inductors and Transformers for Si Rf Ics

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ISBN13: 9780792379867
ISBN10: 0792379861
Format: Hardcover
Pub. Date: 2000-09-01
Publisher(s): Kluwer Academic Pub
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Summary

Wireless RF and microwave ICs depend critically on passive devices, such as inductors, capacitors, and transformers. Passive devices allow the optimization of key RF circuit building blocks by minimizing noise, maximizing gain and frequency of operation, and minimizing power. The integration of passive devices on the Si IC substrate requires a critical understanding of substrate coupling and loss, including electrically induced conductive and displacement current flowing in the substrate as well as magnetically induced eddy currents. Design, Simulation and Applications of Inductors and Transformers for Si RF ICs provides a deep understanding of the physics involved in the operation of these devices at microwave frequencies. Additionally, the book tackles two critical blocks that depend critically on the passive devices, the voltage-controlled oscillator and a distributed amplifier. Design, Simulation and Applications of Inductors and Transformers for Si RF ICs will be of interest to RF and microwave integrated circuit engineers, computer aided designers, device physicists, and electromagnetic researchers, as well as power electronics engineers.

Table of Contents

List of Figures
ix
List of Tables
xv
Preface xvii
Acknowledgments xix
Part I Analysis and Simulation of Passive Devices
Introduction
3(8)
Introduction
3(1)
Passive Devices in Early Integrated Circuits
3(1)
Applications of Passive Devices
4(2)
Wireless Communication
6(2)
Si Integrated Circuit Technology
8(1)
Contributions of this Research
9(2)
Problem Description
11(28)
Definition of Passive Devices
11(4)
Loss Mechanisms
15(6)
Device Layout
21(14)
Substrate Coupling
35(4)
Previous Work
39(6)
Early Work
39(1)
Passive-Devices on the GaAs substrate
40(1)
Passive Devices on the Si Substrate
40(3)
Passive Devices on Highly Conductive Si Substrate
43(2)
Electromagnetic Formulation
45(14)
Introduction
45(1)
Maxwell's Equations
45(3)
Calculating Substrate Induced Losses
48(2)
Inversion of Maxwell's Differential Equations
50(2)
Numerical Solutions of Electromagnetic Fields
52(1)
Discretization of Maxwell's Equations
53(6)
Inductance Calculations
59(16)
Introduction
59(1)
Definition of Inductance
60(5)
Parallel and Series Inductors
65(1)
Filamental Inductance Formulae for Common Configurations
66(1)
Calculation of Self and Mutual Inductance for Conductors
67(1)
High Frequency Inductance Calculation
68(7)
Calculation of Eddy Current Losses
75(22)
Introduction
75(1)
Electromagnetic Formulation
76(8)
Eddy Current Losses at Low Frequency
84(4)
Eddy Currents at High Frequency
88(5)
Examples
93(4)
Asitic
97(12)
Introduction
97(2)
ASITIC Organization
99(1)
Numerical Calculations
100(1)
Circuit Analysis
101(8)
Experimental Study
109(16)
Measurement Results
109(1)
Device Calibration
110(3)
Single Layer Inductor
113(6)
Multi-Layer Inductor
119(6)
Part II Applications of Passive Devices
Voltage Controlled Oscillators
125(24)
Introduction
125(2)
Motivation
127(1)
Passive Device Design and Optimization
128(6)
VCO Circuit Design
134(7)
VCO Implementation
141(3)
Measurements
144(2)
Conclusion
146(3)
Distributed Amplifiers
149(14)
Introduction
149(1)
Image Parameter Method
150(6)
Distributed Amplifier Gain
156(7)
Conclusion
163(4)
Future Research
164(3)
Appendix A-- Distributed Capacitance 167

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