Detailansicht
RF / Microwave Circuit Design for Wireless Applications
eBook
ISBN/EAN: 9781118431481
Umbreit-Nr.: 3877344
Sprache:
Englisch
Umfang: 920 S., 30.15 MB
Format in cm:
Einband:
Keine Angabe
Erschienen am 07.01.2013
Auflage: 2/2013
E-Book
Format: EPUB
DRM: Adobe DRM
- Zusatztext
- <p><b>Provides researchers and engineers with a complete set of modeling, design, and implementation tools for tackling the newest IC technologies</b></p><p>Revised and completely updated,<i>RF/Microwave Circuit Design for Wireless Applications, Second Edition</i> is a unique, state-of-the-art guide to wireless integrated circuit design that provides researchers and engineers with a complete set of modeling, design, and implementation tools for tackling even the newest IC technologies. It emphasizes practical design solutions for high-performance devices and circuitry, incorporating ample examples of novel and clever circuits from high-profile companies.</p><p>Complete with excellent appendices containing working models and CAD-based applications, this powerful one-stop resource:</p><ul><li>Covers the entire area of circuit design for wireless applications</li><li>Discusses the complete system for which circuits are designed as well as the device technologies on which the devices and circuits are based</li><li>Presents theory as well as practical issues</li><li>Introduces wireless systems and modulation types</li><li>Takes a systematic approach that differentiates between designing for battery-operated devices and base-station design</li></ul><p><i>RF/Microwave Circuit Design for Wireless Applications, Second Edition</i>is an indispensable tool for circuit designers; engineers who design wireless communications systems; and researchers in semiconductor technologies, telecommunications, and wireless transmission systems.</p>
- Kurztext
- Inhaltsangabe<p>Foreword xiii</p><p>Preface xv</p><p><b>1 Introduction to Wireless Circuit Design 1</b></p><p>1.1 Introduction 1</p><p>1.2 System Functions 3</p><p>1.3 The Radio Channel and Modulation Requirements 5</p><p>1.4 About Bits, Symbols, and Waveforms 29</p><p>1.5 Analysis of Wireless Systems 50</p><p>1.6 Building Blocks 78</p><p>1.7 System Specifications and Their Relationship to Circuit Design 79</p><p>1.8 Testing 108</p><p>1.9 Converting C/N or SNR to EB/N0 123</p><p><b>2 Models for Active Devices 127</b></p><p>2.1 Diodes 128</p><p>2.2 Bipolar Transistors 203</p><p>2.3 Field-Effect Transistors 239</p><p>2.4 Large-Signal Behavior of JFETs 248</p><p>2.5 Parameter Extraction of Active Devices 324</p><p><b>3 Amplifier Design with BJTs and FETs 359</b></p><p>3.1 Properties of Amplifiers 359</p><p>3.2 Amplifier Gain, Stability, and Matching 423</p><p>3.3 Single-Stage Feedback Amplifiers 484</p><p>3.4 Two-Stage Amplifiers 490</p><p>3.5 Amplifiers with Three or More Stages 499</p><p>3.6 A Novel Approach to Voltage-Controlled Tuned Filters Including CAD Validation 505</p><p>3.7 Differential Amplifiers 514</p><p>3.8 Frequency Doublers 518</p><p>3.9 Multistage Amplifiers with Automatic Gain Control (AGC) 524</p><p>3.10 Biasing 524</p><p>3.11 Push–Pull/Parallel Amplifiers 539</p><p>3.12 Power Amplifiers 542</p><p><b>4 Mixer Design 637</b></p><p>4.1 Introduction 637</p><p>4.2 Properties of Mixers 640</p><p>4.3 Diode Mixers 654</p><p>4.4 Transistor Mixers 685</p><p><b>5 RF/Wireless Oscillators 727</b></p><p>5.1 Introduction of Frequency Control 727</p><p>5.2 Background 727</p><p>5.3 Oscillator Design 728</p><p>5.4 Oscillator Circuits 744</p><p>5.5 Design of RF Oscillators 746</p><p>5.6 Noise in Oscillators 781</p><p>5.7 Oscillators in Practice 803</p><p>5.8 Phase-Noise Improvements of Integrated RF and Millimeterwave Oscillators 814</p><p><b>6 Wireless Synthesizers 831</b></p><p>6.1 Introduction 831</p><p>6.2 Phase-Locked Loops 831</p><p>6.3 How to Do a Practical PLL Design Using CAD 859</p><p>6.4 Fractional-N-Division PLL Synthesis 864</p><p>6.5 Direct Digital Synthesis 871</p><p>References 879</p><p>Interesting Patents 880</p><p>Further Reading 881</p><p>Index 883</p>
- Autorenportrait
- <p><b>ULRICH L. ROHDE, PhD, Dr.-ing habil.,</b> is Chairman of Synergy Microwave Corporation; a partner of Rohde& Schwarz; and Professor of Microwave and RF Technology at the Brandenburgische Technische Universität Cottbus, Germany. He is a Fellow of the IEEE.</p><p><b>MATTHIAS RUDOLPH, PhD, Dr.-ing,</b> is the Ulrich L. Rohde Professor for RF and Microwave Techniques at Brandenburgische Technische Universität Cottbus, Germany. He worked previously at the Ferdinand-Braun-Institut, Leibniz-Institut für Höchstfrequenztechnik (FBH) in charge of GaAs semiconductor nonlinearity and noise modeling.</p>