Microwave RF Antennas and Circuits (eBook)
XVII, 1052 Seiten
Springer International Publishing (Verlag)
978-3-319-45427-6 (ISBN)
This book describes a new concept for analyzing RF/microwave circuits, which includes RF/microwave antennas. The book is unique in its emphasis on practical and innovative microwave RF engineering applications. The analysis is based on nonlinear dynamics and chaos models and shows comprehensive benefits and results. All conceptual RF microwave circuits and antennas are innovative and can be broadly implemented in engineering applications.
Given the dynamics of RF microwave circuits and antennas, they are suitable for use in a broad range of applications. The book presents analytical methods for microwave RF antennas and circuit analysis, concrete examples, and geometric examples. The analysis is developed systematically, starting with basic differential equations and their bifurcations, and subsequently moving on to fixed point analysis, limit cycles and their bifurcations.
Engineering applications include microwave RF circuits and antennas in a variety of topological structures, RFID ICs and antennas, microstrips, circulators, cylindrical RF network antennas, Tunnel Diodes (TDs), bipolar transistors, field effect transistors (FETs), IMPATT amplifiers, Small Signal (SS) amplifiers, Bias-T circuits, PIN diode circuits, power amplifiers, oscillators, resonators, filters, N-turn antennas, dual spiral coil antennas, helix antennas, linear dipole and slot arrays, and hybrid translinear circuits. In each chapter, the concept is developed from the basic assumptions up to the final engineering outcomes. The scientific background is explained at basic and advanced levels and closely integrated with mathematical theory.
The book also includes a wealth of examples, making it ideal for intermediate graduate level studies. It is aimed at electrical and electronic engineers, RF and microwave engineers, students and researchers in physics, and will also greatly benefit all engineers who have had no formal instruction in nonlinear dynamics, but who now desire to bridge the gap between innovative microwave RF circuits and antennas and advanced mathematical analysis methods.
Dr. Ofer Aluf is a graduate of Ben-Gurion University (Israel), and holds a BSc degree in Electrical Engineering and an MSc in Physics. He has many years of experience on the high tech market in the following areas: system and integration engineering; application and support; wafers testing; chip design; RF and microwave systems verification; and semiconductors. His specialties include: circuits and systems; RF and microwave systems; RF and microwave antennas - design, simulation and analysis; RFID systems - design and simulation; electro-optics; non-linear dynamics; optical and electro-optical systems; RF/RFIC circuits - simulation and analysis; and biological systems analysis. He has published numerous refereed papers in professional and IEEE journals.
Dr. Ofer Aluf is a graduate of Ben-Gurion University (Israel), and holds a BSc degree in Electrical Engineering and an MSc in Physics. He has many years of experience on the high tech market in the following areas: system and integration engineering; application and support; wafers testing; chip design; RF and microwave systems verification; and semiconductors. His specialties include: circuits and systems; RF and microwave systems; RF and microwave antennas – design, simulation and analysis; RFID systems – design and simulation; electro-optics; non-linear dynamics; optical and electro-optical systems; RF/RFIC circuits – simulation and analysis; and biological systems analysis. He has published numerous refereed papers in professional and IEEE journals.
Preface 5
Contents 11
Introduction 14
1 RFID Antennas Systems Descriptions and Analysis 17
1.1 Active RFID TAGs System Analysis of Energy Consumption as Excitable Linear Bifurcation System 18
1.2 RFID TAG’s Dimensional Parameters Optimization as Excitable Linear Bifurcation Systems 30
1.3 RFID TAGs Coil’s System Stability Optimization Under Delayed Electromagnetic Interferences 38
1.4 Semi-Passive RFID Tags with Double Loop Antennas Arranged as a Shifted Gate System for Stability Optimization Under Delayed Electromagnetic Interferences 60
1.5 RFID TAGs Detectors Stability Analysis Under Delayed Schottky Diode’s Internal Elements in Time 88
1.6 RFID System Burst Switch Stability Analysis Under Delayed Internal Diode Circuitry Parasitic Effects in Time 120
Exercises 160
2 Microwave Elements Description and Stability Analysis 170
2.1 Microstrip Transmission Lines Delayed in Time Power Limiters Stability Analysis 171
2.2 Three Ports Active Circulator’s Reflection Type Phase Shifter (RTPS) Circuit Transmission Lines Delayed in Time System Stability Analysis 186
2.3 Cylindrical RF Network Antennas for Coupled Plasma Sources Copper Legs Delayed in Time System Stability Analysis 211
2.4 Tunnel Diode (TD) as a Microwave Oscillator System Cavity Parasitic Elements Stability Analysis 236
Exercises 282
3 Microwave Semiconductor Amplifiers Analysis 293
3.1 Bipolar Transistor at Microwave Frequencies Description and Stability Analysis 293
3.2 Field Effect Transistor (FETs) at Microwave Frequencies Description 313
3.3 Field Effect Transistor (FETs) at Microwave Frequencies Stability Analysis 332
3.4 IMPATT Amplifier Stability Analysis 347
3.5 Multistage IMPATT Amplifier System Microstrip Delayed in Time Stability Switching Analysis 387
3.6 FET Combined Biasing and Matching Circuit Stability Analysis 396
Exercises 406
4 Small Signal (SS) Amplifiers and Matching Network Stability Analysis 418
4.1 Small Signal (SS) Amplifiers and Matching Network 419
4.2 Small Signal (SS) Amplifiers PI & T’s Matching Network and Transformation
4.3 Small Signal (SS) Amplifiers Matching Network Stability Analysis Under Microstrip Parasitic Parameters Variation 448
4.4 Bias—T Three Port Network Stability Switching Under Delayed Micro Strip in Time 473
4.5 PIN Diode Stability Analysis Under Parameters Variation 502
Exercises 514
5 Power Amplifier (PA) System Stability Analysis 525
5.1 Class AB Push-Pull Power Amplifiers Stability Analysis Under Parameters Variation 526
5.2 Class C Power Amplifier (PA) with Parallel Resonance Circuit Stability Analysis Under Parameters Variation 540
5.3 Single Ended Class B Amplifier Gummel-Poon Model Analysis Under Parameters Variation 571
5.4 Wideband Low Noise Amplifier (LNA) with Negative Feedback Circuit Stability Analysis Under Circuit’s Parameters Variation 585
Exercises 599
6 Microwave/RF Oscillator Systems Stability Analysis 613
6.1 A Resonator Circuit 180° Phase Shift from Its Input to Output Stability Analysis Under Delayed Variables in Time 614
6.2 Closed Loop Functioning Oscillator Stability Analysis Under Parameters Variations 629
6.3 Hartley Oscillator Stability Analysis 642
6.4 Colpitts Oscillator Stability Analysis 656
Exercises 673
7 Filters Systems Stability Analysis 685
7.1 BPF Diplexer Without a Series Input Stability Analysis 686
7.2 Dual Band Diplexer Filter Stability Analysis Under Parameters Variation 709
7.3 A Crystal-Lattice BPF Circuit Stability Analysis 723
7.4 A Tunable BPF Employing Varactor Diodes Stability Analysis 757
Exercises 780
8 Antennas System Stability Analysis 794
8.1 N-Turn Multilayer Circular Coil Antennas Transceiver System Stability Optimization Under Delayed Electromagnetic Interferences 796
8.2 Double Rectangular Spiral Coils Antennas System Stability Optimization Under Delayed Electromagnetic Interferences and Parasitic Effects 829
8.3 Single-Turn Square Planar Straight Thin Film Inductors Antenna System Stability Optimization Under Microstrip Delayed in Time 860
8.4 Helix Antennas System Stability Analysis Under Parameters Variation 884
Exercises 896
9 Microwave RF Antennas and Circuits Bifurcation Behavior, Investigation, Comparison and Conclusion 914
Appendix A: RFID LF TAG 125 kHz/134 kHz Design and Analysis 923
A.1 LF TAG 125 kHz/134 kHz Design and Analysis 923
A.2 LF TAG 125 kHz/134 kHz Two Rectangular Spiral Antennas Design Analysis 933
Appendix B: RF Amplifiers Basic and Advance Topics and Design Methods 951
B.1 Amplifier Design Concepts and Matching Guidelines 951
B.2 Amplifier Distortion and Noise Products 961
B.3 Small Signal (SS) Amplifier Design & Matching Network
Appendix C: BJT Transistor Ebers-Moll Model and MOSFET Model 1002
References 1043
Index 1049
| Erscheint lt. Verlag | 1.12.2016 |
|---|---|
| Zusatzinfo | XVII, 1052 p. 130 illus., 110 illus. in color. |
| Verlagsort | Cham |
| Sprache | englisch |
| Themenwelt | Technik ► Elektrotechnik / Energietechnik |
| Technik ► Nachrichtentechnik | |
| Schlagworte | Dedicated Short Range Communication (DSRC) technology • Delay Differential Equations (DDE) • Iterated Maps • Lorenz Equations • Microwave/RF, Antenna Circuit • Microwave/RF Antenna Systems • Period Doubling |
| ISBN-10 | 3-319-45427-7 / 3319454277 |
| ISBN-13 | 978-3-319-45427-6 / 9783319454276 |
| Haben Sie eine Frage zum Produkt? |
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