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Microwave Devices, Circuits and Subsystems for Communications Engineering
Ian A. Glover (Edited by), IA Glover (Author), Steve Pennock (Edited by), Peter Shepherd (Edited by)
9780471899648, Wiley
Hardback, published 24 March 2005
560 pages
25.2 x 17.4 x 3.7 cm, 1.162 kg
"... this book is a good reference for [the] microwave engineering community." (IEEE Circuits & Devices Magazine, November/December 2006)
Das einzige wirklich umfassende Nachschlagewerk zu modernen mikrowellengestützten Kommunikationssystemen! Beiträge führender Experten aus Großbritannien, Italien, Spanien und Griechenland beantworten in diesem 1. Band alle Fragen zu Bauelementen, zur Auslegung von Schaltkreisen und zur Implementation von Subsystemen. Band 1 und 2 dieses Werkes bilden die Basis für einen transeuropäischen MSc Abschluß in Mikrowellenkommunikationstechnik, der gegenwärtig von vier Universitäten im Rahmen des EU SOCRATES Programms entwickelt wird. Band 1 liefert wichtiges Informationsmaterial für die Fernstudiengangvariante dieses Abschlusses.
List of Contributors xv 1 Overview 1 1.1 Introduction 1 2 RF Devices: Characteristics and Modelling 9 2.1 Introduction 9 3 Signal Transmission, Network Methods and Impedance Matching 91 3.1 Introduction 91 4 Amplifier Design 209 4.1 Introduction 209 5 Mixers: Theory and Design 311 5.1 Introduction 311 6 Filters 379 6.1 Introduction 379 7 Oscillators, Frequency Synthesisers and PLL Techniques 461 7.1 Introduction 461 References 518
Preface xvii
I. A. Glover, S. R. Pennock and P. R. Shepherd
1.2 RF Devices 2
1.3 Signal Transmission and Network Methods 4
1.4 Amplifiers 5
1.5 Mixers 6
1.6 Filters 7
1.7 Oscillators and Frequency Synthesisers 7
A. Suarez and T. Fernandez
2.2 Semiconductor Properties 10
2.3 P-N Junction 18
2.4 The Schottky Diode 32
2.5 PIN Diodes 40
2.6 Step-Recovery Diodes 51
2.7 Gunn Diodes 52
2.8 IMPATT Diodes 59
2.9 Transistors 65
2.10 Problems 88
N. J. McEwan, T. C. Edwards, D. Dernikas and I. A. Glover
3.2 Transmission Lines: General Considerations 92
3.3 The Two-Conductor Transmission Line: Revision of Distributed Circuit Theory 95
3.4 Loss, Dispersion, Phase and Group Velocity 99
3.5 Field Theory Method for Ideal TEM Case 113
3.6 Microstrip 126
3.7 Coupled Microstrip Lines 148
3.8 Network Methods 163
3.9 Impedance Matching 176
3.10 Network Analysers 195
3.11 Summary 207
N. J. McEwan and D. Dernikas
4.2 Amplifier Gain Definitions 209
4.3 Stability 223
4.4 Broadband Amplifier Design 239
4.5 Low Noise Amplifier Design 246
4.6 Practical Circuit Considerations 256
4.7 Computer Aided Design (CAD) 290
L. de la Fuente and A. Tazon
5.2 General Properties 311
5.3 Devices for Mixers 313
5.4 Non-Linear Analysis 322
5.5 Diode Mixer Theory 331
5.6 FET Mixers 341
5.7 Double–Gate FET Mixers 349
5.8 Single-Balanced FET Mixers 358
5.9 Double-Balanced FET Mixers 359
5.10 Harmonic Mixers 360
5.11 Monolithic Mixers 364
A. Mediavilla
6.2 Filter Fundamentals 379
6.3 Mathematical Filter Responses 385
6.4 Low Pass Prototype Filter Design 393
6.5 Filter Impedance and Frequency Scaling 405
6.6 Elliptic Filter Transformation 423
6.7 Filter Normalisation 429
E. Artal, J. P. Pascual and J. Portilla
7.2 Solid State Microwave Oscillators 461
7.3 Negative Resistance Diode Oscillators 467
7.4 Transistor Oscillators 469
7.5 Voltage-Controlled Oscillators 481
7.6 Oscillator Characterisation and Testing 484
7.7 Microwave Phase Locked Oscillators 489
7.8 Subsystems for Microwave Phase Locked Oscillators (PLOs) 493
7.9 Phase Noise 509
7.10 Examples of PLOs 514
Index 519
Subject Areas: Electronics & communications engineering [TJ]
