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Microwave Circuit Design: A Practical Approach Using ADS |  |
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Microwave Circuit Design: A Practical Approach Using ADS | |
Today’s Up-to-Date, Step-by-Step Guide to Designing Active Microwave Circuits
Microwave Circuit Design is a complete guide to modern circuit design, including simulation tutorials that demonstrate Keysight Technologies’ Advanced Design System (ADS), one of today’s most widely used electronic design automation packages. And the software-based circuit design techniques that Yeom presents can be easily adapted for any modern tool or environment.
Throughout, author Kyung-Whan Yeom uses the physical interpretation of basic concepts and concrete examples—not exhaustive calculations—to clearly and concisely explain the essential theory required to design microwave circuits, including passive and active device concepts, transmission line theory, and the basics of high-frequency measurement.
To bridge the gap between theory and practice, Yeom presents real-world, hands-on examples focused on key elements of modern communication systems, radars, and other microwave transmitters and receivers.
Practical coverage includes
Up-to-date microwave simulation design examples based on ADS and easily adaptable to any simulator Detailed, step-by-step derivations of key design parameters related to procedures, devices, and performance Relevant, hands-on problem sets in every chapter Clear discussions of microwave IC categorization and roles; passive device impedances and equivalent circuits; coaxial and microstrip transmission lines; active devices (FET, BJT, DC Bias); and impedance matching A complete, step-by-step introduction to circuit simulation using the ADS toolset and window framework Low noise amplifier (LNA) design: gains, stability, conjugate matching, and noise circles Power amplifier (PA) design: optimum load impedances, classification, linearity, and composite PAs Microwave oscillator design: oscillation conditions, phase noise, basic circuits, and dielectric resonators Phase lock loops (PLL) design: configuration, operation, components, and loop filters Mixer design: specifications, Schottky diodes, qualitative analysis of mixers (SEM, SBM, DBM), and quantitative analysis of single-ended mixer (SEM)Microwave Circuit Design brings together all the practical skills graduate students and professionals need to successfully design today’s active microwave circuits.
Files now updated to accommodate the latest, 2014 version of the ADS. To download the update, please visit the Downloads section on the book's site: http://www.informit.com/title/9780134086781.
作者简介Kyung-Whan Yeom was born in Seoul, Korea, in 1957. He received a B.S. degree in electronics from Seoul National University in 1980 and M.S. and Ph.D. degrees in electrical engineering from the Korea Advanced Institute of Science and Technology (KAIST), Daejeon, Korea, in 1982 and 1988, respectively.
From 1985 to 1991, he worked at LG Precision as a principal engineer. He worked on the MIC team as a team leader and was later involved in the military electronics division for EW Equipment. When he was at LG Precision, he received a technical achievement award for the ABEK program from Teledyne Microelectronics.
From 1991 to 1995, he worked at LTI on power amplifier modules for analog cellular phones. He joined the Chungnam National University as assistant professor in 1995 and is currently a professor in the Department of Radio Science and Engineering, Chungnam National University, Daejeon, Korea. His research interests are in the design of hybrid and monolithic microwave circuits and microwave systems.
Professor Yeom has been a member of the Korean Institute of Electromagnetic Engineering and Science (KIEES) and the Institute of Electrical and Electronics Engineers (IEEE) since 1995. He was the editor-in-chief of KIEES from 2004 to 2006. He received the IR-52 Jang Youg-Sil Prize from the Ministry of Science and Technology (MOST) of Korea for his work on cell phone power amplifiers in 1994. He received an academic award from KIEES for the design and fabrication of a novel 60 GHz GaAs pHEMT resistive double balanced star MMIC mixer in 2004. He also received the best paper award from the Korean Federation of Science and Technology Societies (KOFST) for his work, “A Novel Design Method of Direct Coupled Bandpass Filter Based on EM Simulation of Individual Resonator.”
目录Preface xiii
Acknowledgments xv
About the Author xvii
Chapter 1: Microwave Integrated Circuits 1
1.1 Classification of Microwave Integrated Circuits 1
1.2 Microwave Circuits in a Communication System 6
1.3 Summary 9
Chapter 2: Passive Devices 11
2.1 Impedances 11
2.2 Classification 12
2.3 Equivalent Circuits 16
2.4 Impedance Measurements 22
2.5 Summary 26
Chapter 3: Transmission Lines 29
3.1 Introduction 29
3.2 Parameters 30
3.3 Coaxial and Microstrip Lines 40
3.4 Sinusoidal Responses 50
3.5 Applications 60
3.6 Discontinuities 76
3.7 Summary 80
Chapter 4: S-Parameters and Noise Parameters 87
4.1 S-Parameters 87
4.2 Noise Parameters 112
4.3 File Formats 140
4.4 Summary 142
Chapter 5: Introduction to Microwave Active Devices 149
5.1 Introduction 149
5.2 Field Effect Transistor (FET) 151
5.3 Bipolar Junction Transistor (BJT) 162
5.4 DC-Bias Circuits 173
5.5 Extraction of Equivalent Circuits 181
5.6 Summary 195
Chapter 6: Impedance Matching 201
6.1 Introduction 201
6.2 Maximum Power Transfer Theorem 202
6.3 Discrete Matching Circuits 205
6.4 Transmission-Line Matching Circuits 219
6.5 Summary 224
Chapter 7: Simulation and Layout 227
7.1 Simulation in ADS 227
7.2 Circuit Simulations 230
7.3 Layout 248
7.4 Momentum 264
7.5 Summary 276
Chapter 8: Low-Noise Amplifiers 279
8.1 Introduction 279
8.2 Gains 281
8.3 Stability and Conjugate Matching 292
8.4 Gain and Noise Circles 306
8.5 Summary of Gains and Circles 311
8.6 Design Example 314
8.7 Summary 345
Chapter 9: Power Amplifiers 351
9.1 Introduction 351
9.2 Active Devices for Power Amplifiers 355
9.3 Optimum Load Impedances 361
9.4 Classification 374
9.5 Design Example 410
9.6 Power Amplifier Linearity 432
9.7 Composite Power Amplifiers 455
9.8 Summary 473
Chapter 10: Microwave Oscillators 479
10.1 Introduction 479
10.2 Oscillation Conditions 480
10.3 Phase Noise 506
10.4 Basic Oscillator Circuits 515
10.5 Oscillator Design Examples 534
10.6 Dielectric Resonators 552
10.7 Dielectric Resonator Oscillators (DRO) 560
10.8 Summary 576
Chapter 11: Phase-Locked Loops 581
11.1 Introduction 581
11.2 Configuration and Operation of a PLL 582
11.3 PLL Components 590
11.4 Loop Filters 606
11.5 PLL Simulation in ADS 625
11.6 Summary 634
Chapter 12: Mixers 639
12.1 Introduction 639
12.2 Specifications 640
12.3 Schottky Diodes 652
12.4 Qualitative Analysis 664
12.5 Quantitative Analysis of the SEM 704
12.6 Summary 720
Appendix 727
A. Units 727
B. Cascaded Structure 729
C. Half-Wave Rectifier Analysis Using Mathcad 736
D. Large-Signal Impedance and Reflection Coefficient 739
E. Mathematical Analysis of Negative Resistance 744
F. Oscillation Conditions Based on Reflection Coefficients 751
Index 759
网友对Microwave Circuit Design: A Practical Approach Using ADS的评论
The book gets some points for being unique in a way that it incorporates ADS during the entire development of the topics. However there is a downside, first it wont teach you ADS from the ground up, meaning you need to at least know the basics of ADS. Second, and this is the real deal breaker, every example and tutorial is based on ADS 2009, and it is completely different from the most recent versions, and im not just talking about menus being placed somewhere else, but drastically different, unless you are doing a basic example its practically impossible to follow the longer tutorials, since ADS 2011 every layer has different labels, some menus no longer exist, etc... I cant understand how is it possible that a book released in 2014 uses ADS 2009. Do yourself a favor and stick to David Pozar's book for microwave theory and youtube tutorials to learn ADS.
This is really fantastic. It provides you with very practical and useful ways to design a variety of microwave circuits. If you are using the Keysight software of Advanced Design System, you can find many practical examples for circuit design and get design tips for your circuits and systems. This book stands out clearly from other recently-released microwave circuit design books.
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