1.

Record Nr.

UNINA9910142501003321

Autore

Hong Jia-Sheng

Titolo

Microstrip filters for RF/microwave applications [[electronic resource] /] / Jia-Sheng G. Hong, M.J. Lancaster

Pubbl/distr/stampa

New York, : Wiley, 2001

ISBN

1-280-36755-5

9786610367559

0-470-24552-2

0-471-46420-1

0-471-22161-9

Descrizione fisica

1 online resource (487 p.)

Collana

Wiley series in microwave and optical engineering

Altri autori (Persone)

LancasterM. J

Disciplina

621.3813

Soggetti

Microwave circuits

Strip transmission lines

Electric filters

Lingua di pubblicazione

Inglese

Formato

Materiale a stampa

Livello bibliografico

Monografia

Note generali

"A Wiley-Interscience publication."

Nota di bibliografia

Includes bibliographical references and index.

Nota di contenuto

Microstrip Filters for RF/Microwave Applications; Contents; Preface; 1. Introduction; 2. Network Analysis; 2.1 Network Variables; 2.2 Scattering Parameters; 2.3 Short-Circuit Admittance Parameters; 2.4 Open-Circuit Impedance Parameters; 2.5 ABCD Parameters; 2.6 Transmission Line Networks; 2.7 Network Connections; 2.8 Network Parameter Conversions; 2.9 Symmetrical Network Analysis; 2.10 Multi-Port Networks; 2.11 Equivalent and Dual Networks; 2.12 Multi-Mode Networks; References; 3. Basic Concepts and Theories of Filters; 3.1 Transfer Functions; 3.1.1 General Definitions

3.1.2 The Poles and Zeros on the Complex Plane3.1.3 Butterworth (Maximally Flat) Response; 3.1.4 Chebyshev Response; 3.1.5 Elliptic Function Response; 3.1.6 Gaussian (Maximally Flat Group-Delay) Response; 3.1.7 All-Pass Response; 3.2 Lowpass Prototype Filters and Elements; 3.2.1 Butterworth Lowpass Prototype Filters; 3.2.2 Chebyshev Lowpass Prototype Filters; 3.2.3 Elliptic Function Lowpass Prototype Filters; 3.2.4 Gaussian Lowpass Prototype Filters; 3.2.5 All-Pass Lowpass Prototype Filters; 3.3 Frequency and Element Transformations;



3.3.1 Lowpass Transformation; 3.3.2 Highpass Transformation

3.3.3 Bandpass Transformation3.3.4 Bandstop Transformation; 3.4 Immittance Inverters; 3.4.1 Definition of Immittance, Impedance and Admittance Inverters; 3.4.2 Filters with Immittance Inverters; 3.4.3 Practical Realization of Immittance Inverters; 3.5 Richards' Transformation and Kuroda Identities; 3.5.1 Richards' Transformation; 3.5.2 Kuroda Identities; 3.5.3 Coupled-Line Equivalent Circuits; 3.6 Dissipation and Unloaded Quality Factor; 3.6.1 Unloaded Quality Factors of Lossy Reactive Elements; 3.6.2 Dissipation Effects on Lowpass and Highpass Filters

3.6.3 Dissipation Effects on Bandpass and Bandstop FiltersReferences; 4. Transmission Lines and Components; 4.1 Microstrip Lines; 4.1.1 Microstrip Structure; 4.1.2 Waves in Microstrip; 4.1.3 Quasi-TEM Approximation; 4.1.4 Effective Dielectric Constant and Characteristic Impedance; 4.1.5 Guided Wavelength, Propagation Constant, Phase Velocity, and Electrical Length; 4.1.6 Synthesis of W/h; 4.1.7 Effect of Strip Thickness; 4.1.8 Dispersion in Microstrip; 4.1.9 Microstrip Losses; 4.1.10 Effect of Enclosure; 4.1.11 Surface Waves and Higher-Order Modes; 4.2 Coupled Lines

4.2.1 Even- and Odd-Mode Capacitances4.2.2 Even- and Odd-Mode Characteristic Impedances and Effective Dielectric Constants; 4.2.3 More Accurate Design Equations; 4.3 Discontinuities and Components; 4.3.1 Microstrip Discontinuities; 4.3.2 Microstrip Components; 4.3.3 Loss Considerations for Microstrip Resonators; 4.4 Other Types of Microstrip Lines; References; 5. Lowpass and Bandpass Filters; 5.1 Lowpass Filters; 5.1.1 Stepped-Impedance L-C Ladder Type Lowpass Filters; 5.1.2 L-C Ladder Type of Lowpass Filters using Open-Circuited Stubs

5.1.3 Semilumped Lowpass Filters Having Finite-Frequency Attenuation Poles

Sommario/riassunto

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 desig