RF and Microwave Engineering Fundamentals of Wireless Communications,9781119951711

RF and Microwave Engineering Fundamentals of Wireless Communications

by
Edition: 1st
ISBN13: 9781119951711
ISBN10: 1119951712
Format: Paperback
Pub. Date: 2012-08-13
Publisher(s): Wiley
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Summary

This book discusses a wide range of RF topics with emphasis on physical aspects, including EM and voltage waves, transmission lines, passive circuits, antennas. New coverage includes the consistent use of modern RF tools such as RF circuit simulation, EM simulation, computerized smith chart in various examples that show how the methods can be applied productively in RF engineering practice. Examples that illustrate the theoretical parts are close to real world problems, so readers can directly use the methods in their own work context.

Author Biography

Prof. Frank Gustrau, University of Applied Sciences and Arts, Germany
Frank Gustrau has worked as an RF engineer in academia and industry. In 2003 he became professor at the University of Applied Sciences and Art in Dortmund, Germany. Throughout his career Frank has supervised students in their project work, given lectures on different RF related topics and worked extensively with EM and RF circuit simulation tools.

Table of Contents

Prefacep. xiii
List of Abbreviationsp. xv
List of Symbolsp. xvii
Introductionp. 1
Radiofrequency and Microwave Applicationsp. 1
Frequency Bandsp. 2
Physical Phenomena in the High Frequency Domainp. 4
Electrically Short Transmission Linep. 4
Transmission Line with Length Greater than One-Tenth of Wavelengthp. 6
Radiation and Antennasp. 7
Outline of the Following Chaptersp. 8
Referencesp. 9
Electromagnetic Fields and Wavesp. 11
Electric and Magnetic Fieldsp. 11
Electrostatic Fieldsp. 11
Steady Electric Current and Magnetic Fieldsp. 18
Differential Vector Operationsp. 23
Maxwell's Equationsp. 24
Differential Form in the Time Domainp. 25
Differential Form for Harmonic Time Dependencep. 26
Integral Formp. 27
Constitutive Relations and Material Propertiesp. 29
Interface Conditionsp. 32
Classification of Electromagnetic Problemsp. 34
Static Fieldsp. 34
Quasi-Static Fieldsp. 34
Coupled Electromagnetic Fieldsp. 35
Skin Effectp. 36
Electromagnetic Wavesp. 39
Wave Equation and Plane Wavesp. 39
Polarization of Wavesp. 43
Reflection and Refractionp. 46
Spherical Wavesp. 53
Summaryp. 55
Problemsp. 55
Referencesp. 57
Further Readingp. 57
Transmission Line Theory and Transient Signals on Linesp. 59
Transmission Line Theoryp. 59
Equivalent Circuit of a Line Segmentp. 59
Telegrapher's Equationp. 61
Voltage and Current Waves on Transmission Linesp. 63
Load-Terminated Transmission Linep. 67
Input Impedancep. 69
Loss-less Transmission Linesp. 71
Low-loss Transmission Linesp. 74
Transmission Line with Different Terminationsp. 75
Impedance Transformation with Loss-less Linesp. 83
Reflection Coefficientp. 84
Smith Chartp. 87
Transient Signals on Transmission Linesp. 91
Step Functionp. 91
Rectangular Functionp. 101
Eye Diagramp. 102
Summaryp. 104
Problemsp. 106
Referencesp. 107
Further Readingp. 107
Transmission Lines and Waveguidesp. 109
Overviewp. 109
Coaxial Linep. 112
Specific Inductance and Characteristic Impedancep. 112
Attenuation of Low-loss Transmission Linesp. 115
Technical Frequency Rangep. 117
Areas of Applicationp. 119
Microstrip Linep. 119
Characteristic Impedance and Effective Permittivityp. 119
Dispersion and Technical Frequency Rangep. 123
Areas of Applicationp. 124
Striplinep. 124
Characteristic Impedancep. 124
Technical Frequency Rangep. 125
Coplanar Linep. 126
Characteristic Impedance and Effective Permittivityp. 127
Coplanar Waveguide over Groundp. 128
Coplanar Waveguides and Air Bridgesp. 129
Technical Frequency Rangep. 130
Areas of Applicationp. 130
Rectangular Waveguidep. 130
Electromagnetic Waves between Electric Side Wallsp. 131
Dominant Mode (TE10)p. 135
Higher Order Modesp. 138
Areas of Applicationp. 139
Excitation of Waveguide Modesp. 140
Cavity Resonatorsp. 141
Circular Waveguidep. 143
Two-Wire Linep. 147
Characteristic Impedancep. 148
Areas of Applicationp. 148
Three-Conductor Transmission Linep. 149
Even and Odd Modesp. 149
Characteristic Impedances and Propagation Constantsp. 152
Line Termination for Even and Odd Modesp. 154
Problemsp. 154
Referencesp. 155
Scattering Parametersp. 157
Multi-Port Network Representationsp. 157
Normalized Power Wavesp. 159
Scattering Parameters and Powerp. 161
S-Parameter Representation of Network Propertiesp. 164
Matchingp. 164
Complex Conjugate Matchingp. 165
Reciprocityp. 167
Symmetryp. 168
Passive and Loss-less Circuitsp. 168
Unilateral Circuitsp. 169
Specific Characteristics of Three-Port Networksp. 169
Calculation of S-Parametersp. 170
Reflection Coefficientsp. 170
Transmission Coefficientsp. 170
Renormalizationp. 173
Signal Flow Methodp. 175
One-Port Network/Load Terminationp. 176
Sourcep. 176
Two-Port Networkp. 176
Three-Port Networkp. 177
Four-Port Networkp. 178
S-Parameter Measurementp. 181
Problemsp. 184
Referencesp. 186
Further Readingp. 186
RF Components and Circuitsp. 187
Equivalent Circuits of Concentrated Passive Componentsp. 187
Resistorp. 187
Capacitorp. 189
Inductorp. 191
Transmission Line Resonatorp. 192
Half-Wave Resonatorp. 193
Quarter-Wave Resonatorp. 194
Impedance Matchingp. 196
LC-Networksp. 196
Matching Using Distributed Elementsp. 199
Filterp. 203
Classical LC-Filter Designp. 203
Butterworth Filterp. 205
Transmission Line Filterp. 211
Edge-Coupled Line Filterp. 212
Hairpin Filterp. 212
Stepped Impedance Filterp. 218
Parasitic Box Resonancep. 219
Waveguide Filterp. 220
Circulatorp. 222
Power Dividerp. 223
Wilkinson Power Dividerp. 223
Unequal Split Power Dividerp. 224
Branchline Couplerp. 227
Conventional 3 dB Couplerp. 227
Unequal Split Branchline Couplerp. 229
Rat Race Couplerp. 231
Directional Couplerp. 231
Balanced-to-Unbalanced Circuitsp. 234
Electronic Circuitsp. 236
Mixersp. 238
Amplifiers and Oscillatorsp. 240
RF Design Softwarep. 242
RF Circuit Simulatorsp. 242
Problemsp. 246
Referencesp. 247
Further Readingp. 248
Antennasp. 249
Fundamental Parametersp. 249
Nearfield and Farfieldp. 249
Isotropic Radiatorp. 252
Radiation Pattern and Related Parametersp. 252
Impedance Matching and Bandwidthp. 257
Standard Types of Antennasp. 259
Mathematical Treatment of the Hertzian Dipolep. 262
Wire Antennasp. 266
Half-Wave Dipolep. 266
Monopolep. 268
Concepts for Reducing Antenna Heightp. 270
Planar Antennasp. 271
Rectangular Patch Antennap. 272
Circularly Polarizing Patch Antennasp. 278
Planar Dipole and Inverted-F Antennap. 280
Antenna Arraysp. 280
Single Element Radiation Pattern and Array Factorp. 280
Phased Array Antennasp. 285
Beam Formingp. 290
Modern Antenna Conceptsp. 293
Problemsp. 293
Referencesp. 294
Further Readingp. 294
Radio Wave Propagationp. 295
Propagation Mechanismsp. 295
Reflection and Refractionp. 295
Absorptionp. 296
Diffractionp. 296
Scatteringp. 298
Doppler Effectp. 300
Basic Propagation Modelsp. 302
Free Space Lossp. 302
Attenuation of Airp. 305
Plane Earth Lossp. 305
Point-to-Point Radio Linksp. 310
Layered Mediap. 312
Path Loss Modelsp. 314
Multipath Environmentp. 314
Clutter Factor Modelp. 317
Okumura-Hata Modelp. 317
Physical Models and Numerical Methodsp. 319
Problemsp. 321
Referencesp. 321
Further Readingp. 322
p. 323
Coordinate Systemsp. 323
Cartesian Coordinate Systemp. 323
Cylindrical Coordinate Systemp. 324
Spherical Coordinate Systemp. 325
Logarithmic Representationp. 326
Dimensionless Quantitiesp. 326
Relative and Absolute Ratiosp. 327
Link Budgetp. 328
Indexp. 331
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