Handbook of Microwave Technology (eBook)
679 Seiten
Elsevier Science (Verlag)
978-0-08-096237-5 (ISBN)
Handbook of Microwave Technology
Front Cover 1
Handbook of Microwave Technology, Volume 2 4
Copyright Page 5
Contents of Volume 2 6
Contributors 22
Preface 24
Chapter 1. Klystrons 26
1. Klystron Characteristics 26
2. Klystron Applications 33
3. Klystron Specification 37
4. Design and Fabrication of Klystrons 47
5. Noise and Stability Characteristics 50
6. Klystron Protection 53
References 55
Chapter 2. Magnetrons 58
1. Introduction 58
2. Microwaves 60
3. Components of the Magnetron 61
4. Space Charge 68
5. Magnetic Field 71
6. Power Adjustment 71
7. Rieke Diagram 75
8. Power Supplies 76
9. Magnetron–System Interface 78
Additional Reading 80
Chapter 3. Traveling-Wave Thermionic Devices 82
1. Introduction 82
2. Cathodes 82
3. Electron Guns 85
4. Electron Beam Focusing 87
5. Linear-Beam Traveling-Wave Tubes 89
6. Linear-Beam Backward-Wave Devices 102
7. Magnetrons 104
8. Crossed-Field Amplifiers 109
9. Crossed-Field Backward-Wave Oscillators 112
References 115
Chapter 4. Gyrotrons, Magnicons, and Ubitrons 122
1. Introduction 122
2. Gyrotron Principles of Operation 123
3. Gyrotron Design 128
4. Gyrotron Structure 129
5. Gyrotron Fabrication 133
6. Gyrotron Performance 135
7. Prebunched Gyrotrons and the Magnicon 136
8. Gyrotron Applications 137
9. Gyrotron Mode Purity 139
10. Ubitron Principles 139
11. Ubitron Structure 140
12. Ubitron Performance 141
References 141
Chapter 5. The Peniotron 146
1. Introduction 146
2. The Traditional Peniotron 148
3. Nontraditional Peniotrons 155
References 158
Chapter 6. Thermodynamics of Microwave Devices 162
Nomenclature 162
1. Introduction 163
2. Conductive Heat Transfer 164
3. Convective Heat Transfer 170
4. Heat Transfer by Radiation 176
5. Measurement of the Thermal Resistance 180
6. Thermal Enhancement Techniques 181
7. Thermal Properties of Electronic Materials 188
References 189
Chapter 7. Microwave Antennas 192
1. Antenna Defined 193
2. Microwave Integrated Circuit (MIC) and Monolithic Microwave Integrated Circuit (MMIC) Antennas 212
3. Radiation Pattern Synthesis 218
4. Antennas for Missiles 220
5. Measuring RF Leakage of Test Couplers 224
6. Materials 226
References 229
Chapter 8. Propagation at Microwave Frequencies 232
1. Introduction 232
2. Attenuation Mechanisms 240
3. Terrestrial Line-of-Sight Propagation 253
4. Propagation beyond the Horizon 255
5. Earth–Space Propagation 257
6. Mobile Propagation Effects 265
7. Short-Path Propagation 265
8. Noise 266
References 267
Chapter 9. Consumer Applications of Microwaves: Microwave Ovens and Accessories 274
1. Microwave Oven Design Fundamentals [I] 274
2. Microwave Field Visualization 277
3. Microwave Leakage Minimization Design 281
4. Operation and Maintenance [24] 296
5. Microwave Oven Accessories and Containers 296
References 299
Chapter 10. Industrial Applications of Microwaves 302
1. Microwave Heating 302
2. Microwave Curing 306
3. Microwave Material Processing 309
4. Microwave Applications in Agricultural Industries 318
5. Microwave Applications on Forest Products 321
6. Microwave Application on Sensing 322
7. Microwave Object Identification 325
8. Microwave Data Communications 325
References 328
Chapter 11. Biomedical Applications of Microwave Engineering 334
1. Electrical Properties of Biological Materials 334
2. Heat Deposition in Biological Material, Particularly Man 340
3. Exposure Guides and Standards 348
4. Microwave Hyperthermia for Cancer Treatment 352
5. Microwave Monitoring, Imaging, and Sensing 357
References 365
Chapter 12. Chemical Applications of Microwaves 372
1. Microwave Absorption Spectroscopy 372
2. Nuclear Magnetic Resonance Spectroscopy 378
3. Electron Spin Resonance Spectroscopy 384
4. Chemical Synthesis and Analysis Using Microwave-Produced Plasmas 385
5. Thermal Effects 387
References 388
Chapter 13. Electron Paramagnetic Resonance 390
1. Introduction 390
2. Continuous Wave Bridges: 0.5 – 35 GHz 393
3. Resonators for EPR Spectroscopy 409
References 424
Chapter 14. Microwave Navigational Aides 428
Part A: THE GLOBAL POSITIONING SYSTEM 428
1. General Description 429
2. Position Fixing 430
3. Time Measurement 433
4. Velocity Measurement 434
5. Signal Structure 435
6. Navigation Message 435
7. Navigation Solution and Dilution of Precision 436
8. Error Sources 439
9. Differential GPS 440
10. Summary 441
Part B: DOPPLER NAVIGATION SYSTEM 442
1. General Description 442
2. Fundamental Principles of Doppler Radar 443
3. Functional Description of Doppler Radar 446
4. Doppler-Radar Performance and Errors 448
5. The Navigation Computer 450
Additional Reading 450
Chapter 15. Microwave Applications for Law Enforcement 454
1. Introduction 454
2. Historical 456
3. Moving Radar 457
4. Mechanical Errors 458
5. Mechanical Interference 459
6. Photo Radar 460
7. Testing for Accuracy 461
8. Does Radar Increase Safety? 473
Additional Reading 473
Chapter 16. Microwave Radio Communication 474
1. Introduction 474
2. Equipment-Dependent Radio Performance 476
3. Transmission-Path-Dependent Radio Performance 490
4. Path Availability Calculations 517
5. Conclusion 526
References 527
Chapter 17. Microwave Instrumentation and Measurements 530
1. Scattering Parameters 530
2. Transmission Measurements 539
3. Reflection Measurements 545
4. Electrical Delay 550
5. Group Delay 550
6. Noise Figure/Noise Temperature Measurements 552
7. Microwave Power Measurements 562
8. Microwave Frequency Measurements (CW and Pulsed) 570
9. Measurement of Phase Noise Power Spectral Density 583
Chapter 18. Microwave Mathematics 594
1. Preliminary Definitions 594
2. Mathematical Functions for Microwave Engineering 596
3. Vectors and Matrices 601
4. Vector Spaces 604
5. Linear Operator Theory 606
6. Function Spaces 610
7. Vector Fields 611
8. Differential Equations and Their Solutions 614
9. Integral Equations and Their Solution 624
References 627
Chapter 19. Microwave Materials 630
1. Introduction 630
2. Dielectric Properties of Compounds 633
3. Properties of Manufactured Special-Purpose Compounds 651
4. Thin Films 660
5. Electromagnetic Properties of Metals 660
6. Physical and Electromagnetic Properties of Bulk and Thin-Film Superconductors 663
References 667
Index 670
| Erscheint lt. Verlag | 16.10.1995 |
|---|---|
| Sprache | englisch |
| Themenwelt | Naturwissenschaften ► Physik / Astronomie ► Elektrodynamik |
| Technik ► Elektrotechnik / Energietechnik | |
| ISBN-10 | 0-08-096237-8 / 0080962378 |
| ISBN-13 | 978-0-08-096237-5 / 9780080962375 |
| Haben Sie eine Frage zum Produkt? |
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