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RF and Microwave Transmitter Design is unique in itscoverage of both historical transmitter design and cuttingedge technologies. This text explores the results ofwell-known and new theoretical analyses, while informing readersof modern radio transmitters' pracitcal designs and theircomponents. Jam-packed with information, this book broadcasts andstreamlines the author's considerable experience in RFand microwave design and development.…mehr

Produktbeschreibung
RF and Microwave Transmitter Design is unique in itscoverage of both historical transmitter design and cuttingedge technologies. This text explores the results ofwell-known and new theoretical analyses, while informing readersof modern radio transmitters' pracitcal designs and theircomponents. Jam-packed with information, this book broadcasts andstreamlines the author's considerable experience in RFand microwave design and development.

Dieser Download kann aus rechtlichen Gründen nur mit Rechnungsadresse in A, D ausgeliefert werden.

  • Produktdetails
  • Verlag: John Wiley & Sons
  • Seitenzahl: 848
  • Erscheinungstermin: 13. September 2011
  • Englisch
  • ISBN-13: 9780470929292
  • Artikelnr.: 37300368
Autorenporträt
Andrei Grebennikov is a Member of the Technical Staff at Bell Laboratories, Alcatel-Lucent, in Ireland. His responsibilities include the design and development of advanced highly efficient and linear transmitter architectures for base station cellular applications. He has taught at the University of Linz in Austria, the Institute of Microelectronics in Singapore, and the Moscow Technical University of Communications and Informatics. He has written over eighty scientific papers, has written four books, and is a Senior Member of IEEE.
Inhaltsangabe
Preface Introduction References 1 Passive Elements and Circuit Theory 1.1 Immittance Two
Port Network Parameters 1.2 Scattering Parameters 1.3 Interconnections of Two
Port Networks 1.4 Practical Two
Port Networks 1.5 Three
Port Network with Common Terminal 1.6 Lumped Elements 1.7 Transmission Line 1.8 Types of Transmission Lines 1.9 Noise References 2 Active Devices and Modeling 2.1 Diodes 2.2 Varactors 2.3 MOSFETs 2.4 MESFETs and HEMTs 2.5 BJTs and HBTs References 3 Impedance Matching 3.1 Main Principles 3.2 Smith Chart 3.3 Matching with Lumped Elements 3.4 Matching with Transmission Lines 3.5 Matching Networks with Mixed Lumped and Distributed Elements References 4 Power Transformers, Combiners, and Couplers 4.1 Basic Properties 4.2 Transmission
Line Transformers and Combiners 4.3 Baluns 4.4 Wilkinson Power Dividers/Combiners 4.5 Microwave Hybrids 4.6 Coupled
Line Directional Couplers References 5 Filters 5.1 Types of Filters 5.2 Filter Design Using Image Parameter Method 5.3 Filter Design Using Insertion Loss Method 5.4 Bandpass and Bandstop Transformation 5.5 Transmission
Line Low
Pass Filter Implementation 5.6 Coupled
Line Filters 5.7 SAW and BAW Filters References 6 Modulation and Modulators 6.1 Amplitude Modulation 6.2 Single
Sideband Modulation 6.3 Frequency Modulation 6.4 Phase Modulation 6.5 Digital Modulation 6.6 Class
S Modulator 6.7 Multiple Access Techniques References 7 Mixers and Multipliers 7.1 Basic Theory 7.2 Single
Diode Mixers 7.3 Balanced Diode Mixers 7.4 Transistor Mixers 7.5 Dual
Gate FET Mixer 7.6 Balanced Transistor Mixers 7.7 Frequency Multipliers References 8 Oscillators 8.1 Oscillator Operation Principles 8.2 Oscillator Configurations and Historical Aspect 8.3 Self
Bias Condition 8.4 Parallel Feedback Oscillator 8.5 Series Feedback Oscillator 8.6 Push
Push Oscillators 8.7 Stability of Self
Oscillations 8.8 Optimum Design Techniques 8.9 Noise in Oscillators 8.10 Voltage
Controlled Oscillators 8.11 Crystal Oscillators 8.12 Dielectric Resonator Oscillators References 9 Phase
Locked Loops 9.1 Basic Loop Structure 9.2 Analog Phase
Locked Loops 9.3 Charge
Pump Phase
Locked Loops 9.4 Digital Phase
Locked Loops 9.5 Loop Components 9.6 Loop Parameters 9.7 Phase Modulation Using Phase
Locked Loops 9.8 Frequency Synthesizers References 10 Power Amplifier Design Fundamentals 10.1 Power Gain and Stability 10.2 Basic Classes of Operation: A, AB, B, and C 10.3 Linearity 10.4 Nonlinear Effect of Collector Capacitance 10.5 DC Biasing 10.6 Push
Pull Power Amplifiers 10.7 Broadband Power Amplifiers 10.8 Distributed Power Amplifiers 10.9 Harmonic Tuning Using Load
Pull Techniques 10.10 Thermal Characteristics References 11 High
Efficiency Power Amplifiers 11.1 Class D 11.2 Class F 11.3 Inverse Class F 11.4 Class E with Shunt Capacitance 11.5 Class E with Finite dc
Feed Inductance 11.6 Class E with Quarterwave Transmission Line 11.7 Class FE 11.8 CAD Design Example: 1.75 GHz HBT Class E MMIC Power Amplifier References 12 Linearization and Efficiency Enhancement Techniques 12.1 Feedforward Amplifier Architecture 12.2 Cross Cancellation Technique 12.3 Reflect Forward Linearization Amplifier 12.4 Predistortion Linearization 12.5 Feedback Linearization 12.6 Doherty Power Amplifier Architectures 12.7 Outphasing Power Amplifiers 12.8 Envelope Tracking 12.9 Switched Multipath Power Amplifiers 12.10 Kahn EER Technique and Digital Power Amplification References 13 Control Circuits 13.1 Power Detector and VSWR Protection 13.2 Switches 13.3 Phase Shifters 13.4 Attenuators 13.5 Variable Gain Amplifiers 13.6 Limiters References 14 Transmitter Architectures 14.1 Amplitude
Modulated Transmitters 14.2 Single
Sideband Transmitters 14.3 Frequency
Modulated Transmitters 14.4 Television Transmitters 14.5 Wireless Communication Transmitters 14.6 Radar Transmitters 14.7 Satellite Transmitters 14.8 Ultra
Wideband Communication Transmitters References Index