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E-raamat: RF Circuit Design Techniques for MF-UHF Applications

(Purdue University, Fort Wayne, USA)
  • Formaat: 358 pages
  • Ilmumisaeg: 19-Dec-2017
  • Kirjastus: CRC Press Inc
  • Keel: eng
  • ISBN-13: 9781439861660
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RF Circuit Design Techniques for MF-UHF ApplicationsSuurem pilt
  • Formaat: 358 pages
  • Ilmumisaeg: 19-Dec-2017
  • Kirjastus: CRC Press Inc
  • Keel: eng
  • ISBN-13: 9781439861660
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Magnetic resonance imaging, semiconductor processing, and RFID are some of the critical applications within the medium frequency (MF) to ultrahigh frequency (UHF) range that require RF designers to have a solid understanding of analytical and experimental RF techniques. Designers need to be able to design components and devices cost effectively, and integrate them with high efficiency, minimal loss, and required power. Computer-aided design (CAD) tools also play an important part in helping to reduce costs and improve accuracy through optimization. RF Circuit Design Techniques for MF-UHF Applications explains how to design, simulate, and implement RF/microwave components and devices for applications within the medium frequency (MF) to ultrahigh frequency (UHF) range. The book makes RF design simple by expertly blending theory, simulation, and practical application examples.

A Practical Guide to RF Circuit Design in the MF-UHF Range: Theory, Simulation, and Real-World Application Examples

After a review of network parameters used in the analysis of RF components and devices, the book examines MF-UHF design techniques in detail. These include techniques for designing high-power microstrip circuits, directional couplers, transformers, composite and multilayer inductors, filters, combiners/dividers, and RFID systems. For every device, the book gives the required theory and then explains the verification process with CAD tools. In addition, each design is illustrated with real-life implementation examples that use a variety of CAD tools such as MATLAB®, Mathcad, HFSS, Ansoft Designer®, Sonnet®, and PSpice®. Design tables, curves, and charts are included to demonstrate an efficient design process. Throughout, the book also offers practical hints to help engineers shorten the design time.

Design MF-UHF Devices More Cost-Effectively

The book reflects the optimum design methodology used in RF engineering, from the application of theory, to simulation for verification, to experimentation. Packed with useful techniques, tips, and examples, it is an invaluable resource for engineers, researchers, and students working in the MF-UHF range.

Arvustused

"Throughout, the book contains practical methods to help designers reduce design time. It is an outstanding resource for RF component designers in the MF and UHF range and for engineering students interested in RF design and theory. It reflects the best design methodology used in RF engineering available today, from the application of theory to modeling for verification, optimization, and experimentation. It is filled with useful methods, tips, and techniques and will be an invaluable reference book for those working in the MF and UHF field." --John J. Shea, IEEE Electrical Insulation Magazine, May/June 2014 - Vol. 30, No. 3

Preface xi
Acknowledgments xiii
Chapter 1 Network Parameters in RF Circuit Design
1(20)
1.1 Introduction
1(1)
1.2 Network Parameters
1(8)
1.2.1 Z-Impedance Parameters
2(1)
1.2.2 Y-Admittance Parameters
2(1)
1.2.3 ABCD Parameters
3(1)
1.2.4 h-Hybrid Parameters
4(5)
1.3 Network Connections
9(7)
1.4 S-Scattering Parameters
16(5)
References
19(2)
Chapter 2 MF-UHF Inductor Design Techniques
21(46)
2.1 Introduction
21(1)
2.2 Air Core Inductor Design and Examples
22(7)
2.3 Toroidal Inductor Design and Examples
29(15)
2.4 Toroidal Inductor Characterization Program
44(2)
2.5 High-Power Inductor Design
46(5)
2.6 Planar Inductor Design and Examples
51(9)
2.6.1 Analytical Design Method for Spiral Inductor at HF Range
51(4)
2.6.2 Material Design
55(1)
2.6.2.1 Design Examples: Spiral Inductor Design with Alumina Substrate
56(1)
2.6.2.2 Simulation Results
57(2)
2.6.2.3 Experimental Results
59(1)
2.7 Multilayer and Composite Inductor Design and Examples
60(7)
References
65(2)
Chapter 3 MF-UHF Transformer Design Techniques
67(74)
3.1 Introduction
67(11)
3.2 Autotransformer Design
78(7)
3.3 Transmission Line Transformers
85(4)
3.4 High-Current Transmission Line Transformer
89(8)
3.5 Arbitrary Turns Ratio Transmission Line Transformers
97(8)
3.6 TLT Design Using Series Configuration with Filars: n2:1 Impedance Ratio
105(12)
3.6.1 TLT Design Using Series Configuration with Filars: n2:n22 Arbitrary Impedance Ratio
109(8)
3.7 Analysis and Design of Balun Using TLT
117(24)
References
138(3)
Chapter 4 MF-UHF Combiner, Divider, and Phase Inverter Design Techniques
141(74)
4.1 Introduction
141(1)
4.2 Analysis of Combiners and Dividers
141(13)
4.3 Analysis of Dividers with Different Source Impedance
154(18)
4.4 Microstrip Implementation of Power Combiners/Dividers
172(21)
4.5 Measurement Setup for Combiner/Divider Response
193(2)
4.6 Implementation of Power Combiners/Dividers Using Transformer Techniques
195(14)
4.7 Analysis and Design of Phase Inverter Using TLT
209(6)
References
213(2)
Chapter 5 MF-UHF Directional Coupler Design Techniques
215(36)
5.1 Introduction
215(2)
5.2 Microstrip Directional Couplers
217(14)
5.3 Multilayer Directional Couplers
231(5)
5.4 Transformer Directional Couplers
236(15)
References
249(2)
Chapter 6 MF-UHF Filter Design Techniques
251(58)
6.1 Introduction
251(1)
6.2 Filter Design Procedure
251(12)
6.3 Filter Design by Insertion Loss Method
263(25)
6.3.1 Low-Pass Filters
264(1)
6.3.1.1 Binomial Filter Response
265(5)
6.3.1.2 Chebyshev Filter Response
270(9)
6.3.2 High-Pass Filters
279(3)
6.3.3 Bandpass Filters
282(5)
6.3.4 Bandstop Filters
287(1)
6.4 Stepped Impedance Low-Pass Filters
288(10)
6.5 Stepped Impedance Resonator Bandpass Filters
298(11)
References
308(1)
Chapter 7 MF-UHF RFID System Design Techniques
309(25)
7.1 Introduction
309(1)
7.2 Basic RFID System Design
310(6)
7.3 RFID Microstrip Patch Antenna Design
316(7)
7.4 RFID Microstrip Patch Antenna Design with EBG Structures
323(11)
References 334(1)
Index 335
Abdullah Eroglu, Ph.D., is an associate professor of electrical engineering in the Engineering Department at Indiana UniversityPurdue University Fort Wayne, USA. From 2000 to 2008 he worked as RF senior design engineer at MKS Instruments, where he was involved with the design of RF power amplifiers and systems. His teaching and research interests include RF circuit design, microwave engineering, development of nonreciprocal devices, electromagnetic fields, wave propagation, radiation, and scattering in anisotropic and gyrotropic media. He has published more than 70 peer reviewed journal and conference papers and has authored two books. Dr. Eroglu is a reviewer of several journals and on the editorial board of the Journal of Communications and Network. He is the recipient of the 2013 IPFW Featured Faculty Award, 2011 Sigma Xi Researcher of the Year Award, 2010 ETCS Excellence in Research Award, and 2004 Outstanding Graduate Student award from the Electrical Engineering and Computer Science Department at Syracuse University, USA.

For more information, see Dr. Eroglus profile at IPFW.
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