Microstrip Filters for Rf/Microwave Applications,9780471388777

Microstrip Filters for Rf/Microwave Applications

by ;
ISBN13: 9780471388777
ISBN10: 0471388777
Format: Hardcover
Pub. Date: 2001-07-01
Publisher(s): Wiley-Interscience
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Summary

Advanced, specialized coverage of microstrip filter design Microstrip Filters for RF/Microwave Applications is the only professional reference focusing solely on microstrip filters. It offers a unique and comprehensive treatment of filters based on the microstrip structure and includes full design methodologies that are also applicable to waveguide and other transmission line filters. The authors include coverage of new configurations with advanced filtering characteristics, new design techniques, and methods for filter miniaturization. The book utilizes numerous design examples to illustrate and emphasize computer analysis and synthesis while also discussing the applications of commercially available software. Other highlights include: Lowpass and bandpass filters Highpass and bandstop filters Full-wave electromagnetic simulation Advanced materials and technologies Coupled resonator circuits Computer-aided design for low-cost/high-volume production Compact filters and filter miniaturization Microstrip Filters for RF/Microwave Applications is not only a valuable design resource for practitioners, but also a handy reference for students and researchers in microwave engineering.

Author Biography

JIA-SHENG HONG, PhD, teaches in the Department of Computing and Electrical Engineering at Heriot-Watt University in Edinburgh, Scotland.

Table of Contents

Preface xi
Introduction
1(6)
Network Analysis
7(22)
Network Variables
7(1)
Scattering Parameters
8(3)
Short-Circuit Admittance Parameters
11(1)
Open-Circuit Impedance Parameters
11(1)
ABCD Parameters
12(1)
Transmission Line Networks
12(2)
Network Connections
14(3)
Network Parameter Conversions
17(1)
Symmetrical Network Analysis
18(3)
Multi-Port Networks
21(3)
Equivalent and Dual Networks
24(2)
Multi-Mode Networks
26(3)
References
28(1)
Basic Concepts and Theories of Filters
29(48)
Transfer Functions
29(9)
General Definitions
29(1)
The Poles and Zeros on the Complex Plane
30(1)
Butterworth (Maximally Flat) Response
31(1)
Chebyshev Response
32(2)
Elliptic Function Response
34(2)
Gaussian (Maximally Flat Group-Delay) Response
36(1)
All-Pass Response
37(1)
Lowpass Prototype Filters and Elements
38(10)
Butterworth Lowpass Prototype Filters
41(1)
Chebyshev Lowpass Prototype Filters
41(3)
Elliptic Function Lowpass Prototype Filters
44(2)
Gaussian Lowpass Prototype Filters
46(1)
All-Pass Lowpass Prototype Filters
47(1)
Frequency and Element Transformations
48(6)
Lowpass Transformation
49(2)
Highpass Transformation
51(1)
Bandpass Transformation
51(2)
Bandstop Transformation
53(1)
Immittance Inverters
54(7)
Definition of Immittance, Impedance and Admittance Inverters
54(2)
Filters with Immittance Inverters
56(4)
Practical Realization of Immittance Inverters
60(1)
Richards' Transformation and Kuroda Identities
61(8)
Richards' Transformation
61(5)
Kuroda Identities
66(1)
Coupled-Line Equivalent Circuits
66(3)
Dissipation and Unloaded Quality Factor
69(8)
Unloaded Quality Factors of Lossy Reactive Elements
70(1)
Dissipation Effects on Lowpass and Highpass Filters
71(2)
Dissipation Effects on Bandpass and Bandstop Filters
73(2)
References
75(2)
Transmission Lines and Components
77(32)
Microstrip Lines
77(7)
Microstrip Structure
77(1)
Waves in Microstrip
77(1)
Quasi-TEM Approximation
78(1)
Effective Dielectric Constant and Characteristic Impedance
78(2)
Guided Wavelength, Propagation Constant, Phase Velocity, and Electrical Length
80(1)
Synthesis of W/h
80(1)
Effect of Strip Thickness
81(1)
Dispersion in Microstrip
82(1)
Microstrip Losses
83(1)
Effect of Enclosure
84(1)
Surface Waves and Higher-Order Modes
84(1)
Coupled Lines
84(5)
Even- and Odd-Mode Capacitances
85(2)
Even- and Odd-Mode Characteristic Impedances and Effective Dielectric Constants
87(1)
More Accurate Design Equations
87(2)
Discontinuities and Components
89(15)
Microstrip Discontinuities
89(4)
Microstrip Components
93(9)
Loss Considerations for Microstrip Resonators
102(2)
Other Types of Microstrip Lines
104(5)
References
106(3)
Lowpass and Bandpass Filters
109(52)
Lowpass Filters
109(12)
Stepped-Impedance L-C Ladder Type Lowpass Filters
109(3)
L-C Ladder Type of Lowpass Filters using Open-Circuited Stubs
112(4)
Semilumped Lowpass Filters Having Finite-Frequency Attenuation Poles
116(5)
Bandpass Filters
121(40)
End-Coupled, Half-Wavelength Resonator Filters
121(6)
Parallel-Coupled, Half-Wavelength Resonator Filters
127(2)
Hairpin-Line Bandpass Filters
129(4)
Interdigital Bandpass Filters
133(9)
Combine Filters
142(6)
Pseudocombline Filters
148(3)
Stub Bandpass Filters
151(7)
References
158(3)
Highpass and Bandstop Filters
161(30)
Highpass Filters
161(7)
Quasilumped Highpass Filters
161(4)
Optimum Distributed Highpass Filters
165(3)
Bandstop Filters
168(23)
Narrow-Band Bandstop Filters
168(8)
Bandstop Filters with Open-Circuited Stubs
176(6)
Optimum Bandstop Filters
182(6)
Bandstop Filters for RF Chokes
188(2)
References
190(1)
Advanced Materials and Technologies
191(44)
Superconducting Filters
191(13)
Superconducting Materials
191(1)
Complex Conductivity of Superconductors
192(1)
Penetration Depth of Superconductors
193(1)
Surface Impedance of Superconductors
194(3)
Nonlinearity of Superconductors
197(2)
Substrates for Superconductors
199(1)
HTS Microstrip Filters
200(1)
High-Power HTS Filters
201(3)
Ferroelectric Tunable Filters
204(7)
Ferroelectric Materials
205(1)
Dielectric Properties
206(2)
Tunable Microstrip Filters
208(3)
Micromachined Filters
211(4)
MEMS and Micromachining
211(1)
Micromachined Microstrip Filters
211(4)
MMIC Filters
215(2)
MMIC Technology
215(1)
MMIC Microstrip Filters
216(1)
Active Filters
217(4)
Active Filter Methodologies
217(2)
Active Microstrip Filters
219(2)
Photonic Bandgap (PBG) Filters
221(3)
PBG Structures
221(1)
PBG Microstrip Filters
222(2)
Low-Temperature Cofired Ceramic (LTCC) Filters
224(11)
LTCC Technology
224(1)
Miniaturized LTCC Filters
225(2)
References
227(8)
Coupled Resonator Circuits
235(38)
General Coupling Matrix for Coupled-Resonator Filters
236(8)
Loop Equation Formulation
236(4)
Node Equation Formulation
240(3)
General Coupling Matrix
243(1)
General Theory of Couplings
244(13)
Synchronously Tuned Coupled-Resonator Circuits
245(6)
Asynchronously Tuned Coupled-Resonator Circuits
251(6)
General Formulation for Extracting Coupling Coefficient k
257(1)
Formulation for Extracting External Quality Factor Qe
258(6)
Singly Loaded Resonator
259(3)
Doubly Loaded Resonator
262(2)
Numerical Examples
264(9)
Extracting k (Synchronous Tuning)
265(2)
Extracting k (Asynchronous Tuning)
267(3)
Extracting Qe
270(1)
References
271(2)
CAD for Low-Cost and High-Volume Production
273(42)
Computer-Aided Design Tools
274(1)
Computer-Aided Analysis
274(11)
Circuit Analysis
274(5)
Electromagnetic Simulation
279(4)
Artificial Neural Network Modeling
283(2)
Optimization
285(14)
Basic Concepts
285(1)
Objective Functions for Filter Optimization
286(2)
One-Dimensional Optimization
288(1)
Gradient Methods for Optimization
288(3)
Direct Search Optimization
291(4)
Optimization Strategies Involving EM Simulations
295(4)
Filter Synthesis by Optimization
299(16)
General Description
299(1)
Synthesis of a Quasielliptic Function Filter by Optimization
299(1)
Synthesis of an Asynchronously Tuned Filter by Optimization
300(2)
Synthesis of a UMTS Filter by Optimization
302(4)
CAD Examples
306(6)
References
312(3)
Advanced RF/Microwave Filters
315(64)
Selective Filters with a Single Pair of Transmission Zeros
315(10)
Filter Characteristics
315(2)
Filter Synthesis
317(3)
Filter Analysis
320(1)
Microstrip Filter Realization
321(4)
Cascaded Quadruplet (CQ) Filters
325(3)
Microstrip CQ Filters
326(1)
Design Example
326(2)
Trisection and Cascaded Trisection (CT) Filters
328(13)
Characteristics of CT Filters
328(3)
Trisection Filters
331(4)
Microstrip Trisection Filters
335(5)
Microstrip CT Filters
340(1)
Advanced Filters with Transmission Line Inserted Inverters
341(9)
Characteristics of Transmission Line Inserted Inverters
341(3)
Filtering Characteristics with Transmission Line Inserted Inverters
344(4)
General Transmission Line Filter
348(2)
Linear Phase Filters
350(9)
Prototype of Linear Phase Filter
350(5)
Microstrip Linear Phase Bandpass Filters
355(4)
Extract Pole Filters
359(12)
Extracted Pole Synthesis Procedure
360(6)
Synthesis Example
366(2)
Microstrip Extracted Pole Bandpass Filters
368(3)
Canonical Filters
371(8)
General Coupling Structure
371(2)
Elliptic Function/Selective Linear Phase Canonical Filters
373(2)
References
375(4)
Compact Filters and Filter Miniaturization
379(54)
Ladder Line Filters
379(4)
Ladder Microstrip Line
379(2)
Ladder Microstrip Line Resonators and Filters
381(2)
Pseudointerdigital Line Filters
383(6)
Filtering Structure
383(2)
Pseudointerdigital Resonators and Filters
385(4)
Miniature Open-Loop and Hairpin Resonator Filters
389(3)
Slow-Wave Resonator Filters
392(12)
Capacitively Loaded Transmission Line Resonator
392(4)
End-Coupled Slow-Wave Resonator Filters
396(1)
Slow-Wave, Open-Loop Resonator Filters
396(8)
Miniature Dual-Mode Resonator Filters
404(6)
Microstrip Dual-Mode Resonators
404(4)
Miniaturized Dual-Mode Resonator Filters
408(2)
Multilayer Filters
410(10)
Wider-Band Multilayer Filters
411(1)
Narrow-Band Multilayer Filters
412(8)
Lumped-Element Filters
420(6)
Miniaturized Filters Using High Dielectric Constant Substrates
426(7)
References
428(5)
Case Study for Mobile Communications Applications
433(26)
HTS Subsystems and RF Modules for Mobile Base Stations
433(3)
HTS Microstrip Duplexers
436(10)
Duplexer Principle
438(1)
Duplexer Design
439(5)
Duplexer Fabrication and Test
444(2)
Preselect HTS Microstrip Bandpass Filters
446(13)
Design Considerations
446(2)
Design of the Preselect Filter
448(1)
Sensitivity Analysis
448(2)
Evaluation of Quality Factor
450(4)
Filter Fabrication and Test
454(2)
References
456(3)
Appendix: Useful Constants and Data 459(2)
Index 461

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