Description |
1 online resource (xi, 221 pages) : illustrations |
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data file rda |
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Bibliography |
Series |
Wiley Series in Microwave and Optical Engineering |
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Wiley series in microwave and optical engineering.
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Bibliography |
Includes bibliographical references and index. |
Contents |
Introduction -- Transmission line concepts and networks -- Conventional parallel-coupled line filter -- Planar transmission line resonators -- MMR-based UWB bandpass filters -- Synthesis approach for UWB filters -- Other types of UWB filters. |
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Machine generated contents note: 1. Introduction -- 1.1. Background on UWB Technology -- 1.2. UWB Regulations -- 1.2.1. FCC Radiation Masks -- 1.2.2. ECC Radiation Masks -- 1.2.3. UWB Definition and Bandwidth -- 1.3. UWB Bandpass Filters -- 1.4. Organization of the Book -- References -- 2. Transmission Line Concepts and Networks -- 2.1. Introduction -- 2.2. Transmission Line Theory -- 2.2.1. Basic Transmission Line Model -- 2.2.2. Lossless Terminated Transmission Lines -- 2.3. Microwave Network Parameters -- 2.3.1. Scattering Parameters for Two-Port Network -- 2.3.2. [Z] and [Y] Matrices -- 2.3.3. ABCD Parameters -- 2.3.4. Conversions between S-, Z-, Y-, and ABCD-Matrix Parameters -- 2.4. Relative Theories of Network Analysis -- 2.4.1. Even-and Odd-Mode Network Analysis -- 2.4.2. Image Parameter Method -- 2.5. Summary -- References -- 3. Conventional Parallel-Coupled Line Filter -- 3.1. Introduction -- 3.2. Lumped-Element Lowpass Filter Prototype -- 3.2.1. Maximally Flat and Chebyshev Characteristics -- 3.2.2. Lumped-Element Ladder Network -- 3.3. Impedance and Frequency Transformation -- 3.3.1. Lowpass to Lowpass Transformation -- 3.3.2. Lowpass to Highpass Transformation -- 3.3.3. Lowpass to Bandpass Transformation -- 3.3.4. Lowpass to Bandstop Transformation -- 3.4. Immittance Inverters -- 3.5. Lowpass Prototype Filter with Immittance Inverter -- 3.6. Parallel-Coupled Line Bandpass Filter -- 3.7. Summary -- References -- 4. Planar Transmission Line Resonators -- 4.1. Introduction -- 4.2. Uniform Impedance Resonator -- 4.2.1. Short-Circuited λg/2 Transmission Line -- 4.2.2. Open-Circuited λg/2 Transmission Line -- 4.2.3. Short-Circuited λg/4 Transmission Line -- 4.2.4. Open-Circuited λg/4 Transmission Line -- 4.3. Stepped Impedance Resonators -- 4.3.1. Fundamental Properties of SIR -- 4.3.2. Slope Parameters of SIR -- 4.3.3. Design of the Parallel-Coupled Line Bandpass Filters with SIR -- 4.4. Multiple-Mode Resonator -- 4.4.1. Open-Circuited Multiple-Mode Resonator -- 4.4.2. Short-Circuited Multiple-Mode Resonator -- 4.4.3. Design of the Parallel-Coupled Line Bandpass Filters with MMRs -- 4.5. Summary -- References -- 5. MMR-Based UWB Bandpass Filters -- 5.1. Introduction -- 5.2. Initial MMR-Based UWB Bandpass Filter -- 5.3. UWB Bandpass Filters with Varied Geometries -- 5.3.1. Aperture-Backed PCML -- 5.3.2. Broadside Microstrip/CPW -- 5.3.3. Inductive Coupling Element on CPW -- 5.4. UWB Filters with Improved Out-of-Band Performance -- 5.4.1. Capacitive-Ended Interdigital Coupled Lines -- 5.4.2. Coupling between Two Feed Lines -- 5.4.3. Stub-Loaded MMR -- 5.4.4. Lowpass Embedded MMR -- 5.5. UWB Bandpass Filter with a Notch Band -- 5.6. Summary -- References -- 6. Synthesis Approach for UWB Filters -- 6.1. Introduction -- 6.2. Transfer Function -- 6.3. Transmission Line Network with Pure Shunt/Series Stubs -- 6.4. Transmission Line Network with Hybrid Series and Shunt Stubs -- 6.5. MMR-Based UWB Filter with Parallel-Coupled Lines -- 6.6. Summary -- References -- 7. Other Types of UWB Filters -- 7.1. Introduction -- 7.2. UWB Filters with Highpass and Lowpass Filters -- 7.3. UWB Filters with Optimum Shunt Short-Circuited Stubs -- 7.3.1. UWB Filter with Extended Upper Stopband -- 7.3.2. UWB Filter with Enhanced Selectivity -- 7.4. UWB Filters with Quasi-Lumped Elements -- 7.4.1. UWB Filter Implemented with Suspended Strip Line -- 7.4.2. UWB Filter Implemented on Liquid Crystal Polymer (LCP) -- 7.5. UWB Filters with Composite CPW and Microstrip Structure -- 7.6. UWB Filter with Microstrip Ring Resonator -- 7.7. UWB Filter using Multilayer Structures -- 7.8. UWB Filter with Substrate Integrated Waveguide (SIW) -- 7.9. UWB Filter with Notch Band -- 7.10. Summary -- References. |
Summary |
This book will appeal to scientists and engineers who are concerned with the design of microwave wideband devices and systems. For advanced (ultra)-wideband wireless systems, the necessity and design methodology of wideband filters will be discussed with reference to the inherent limitation in fractional bandwidth of classical bandpass filters. Besides the detailed working principles, a large number of design examples are demonstrated, which can be easily followed and modified by the readers to achieve their own desired specifications. |
Language |
English. |
Subject |
Broadband communication systems.
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Ultra-wideband devices.
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Broadband communication systems. |
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Ultra-wideband devices. |
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Engineering. |
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Electrical engineering. |
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Systèmes de télécommunications à large bande. |
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Dispositifs à ultralarge bande. |
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TECHNOLOGY & ENGINEERING -- Mobile & Wireless Communications. |
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TECHNOLOGY & ENGINEERING -- Radio. |
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Broadband communication systems |
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Ultra-wideband devices |
Added Author |
Sun, Sheng, 1980-
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Li, Rui, 1981-
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Other Form: |
Print version: Zhu, Lei, 1963- Microwave bandpass filters for wideband communications. Hoboken : John Wiley, ©2012 (DLC) 2011034132 |
ISBN |
9781118197981 (electronic bk.) |
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1118197984 (electronic bk.) |
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9781118197950 (e-book) |
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111819795X (e-book) |
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0470876611 (pbk.) |
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9780470876619 (pbk.) |
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9781118197974 |
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1118197976 |
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(pbk.) |
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1280590203 |
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9781280590207 |
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9786613620033 |
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6613620033 |
Standard No. |
9786613620033 |
Music No. |
EB00062973 Recorded Books |
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