Electromagnetic foundations of electrical engineering:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Chichester
Wiley
2008
|
| Ausgabe: | 1st ed. |
| Schlagworte: | |
| Online-Zugang: | Cover Inhaltsverzeichnis |
| Beschreibung: | XX, 399 S. Ill., graph. Darst. |
| ISBN: | 9780470727096 0470727098 |
Internformat
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Datensatz im Suchindex
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| adam_text | ELECTROMAGNETIC FOUNDATIONS OF ELECTRICAL ENGINEERING J. A. BRANCLAO
FARIA INSTITUTO SUPERIOR TECNICO - TECHNICAL UNIVERSITY OF LISBON,
PORTUGAL WILEY A JOHN WILEY AND SONS, LTD, PUBLICATION CONTENTS ABOUT
THE AUTHOR PREFACE FOR ELECTRICAL ENGINEERS/PRACTITIONERS FOR STUDENTS
FOR INSTRUCTORS ACKNOWLEDGEMENTS PROJECT PORTFOLIO PI ANALYSIS OF A
POWER DELIVERY SYSTEM P2 CYLINDRICAL TYPE TRANSMISSION LINES P3 DC
TRANSDUCER P4 DETERMINATION OF THE CONDUCTIVITY OF A CIRCULAR CONDUCTING
DISK P5 DIRECTIONAL COUPLER ANALYSIS P6 ILL-DEFINED GROUNDING PROBLEMS
P7 INDUCTION MACHINE ANALYSIS P8 LINE-MATCHING TECHNIQUE USING AN
EXPONENTIAL TRANSMISSION-LINE SECTION P9 LINEAR VARIABLE DIFFERENTIAL
TRANSFORMER P10 MAGNETIC ACTUATOR AND SENSOR DEVICE PI 1 OVERHEAD-LINE
PROTECTION BY GROUND WIRES PI 2 POWER LINE CARRIER COMMUNICATION P13
PSEUDO-BALANCED THREE-PHASE LINES PI4 SCREENED HIGH-VOLTAGE THREE-PHASE
INSTALLATION P15 SHIELDED THREE-PHASE CABLE ANALYSIS P16 THREE-ROUTE
MICROWAVE SPLITTER PI7 TRANSMISSION-LINE SYSTEM WITH BALUN TRANSFORMER
FOR EVEN- TO ODD-MODE CONVERSION PI8 TRANSMISSION-LINE SYSTEM WITH
TRANSFORMER-STAGE MATCHING PI9 TWO-WAY LOUDSPEAKER ANALYSIS P20 VARIABLE
RELUCTANCE TRANSFORMER VIII CONTENTS PART I A BRIEF OVERVIEW 85
INTRODUCTION 87 1 BASIC FIELD VECTORS 89 1.1 THE ELECTRIC AND MAGNETIC
FIELD VECTORS 89 1.2 CONSTITUTIVE RELATIONS 90 1.3 UNITS AND NOTATION 91
1.4 FUNDAMENTAL CONCEPTS OF VOLTAGE AND CURRENT INTENSITY 92 PART II
STATIONARY FIELD PHENOMENA 95 INTRODUCTION 97 2 ELECTROSTATICS 99 2.1
FUNDAMENTAL EQUATIONS 99 2.2 GRADIENT ELECTRIC FIELD, ELECTRIC
POTENTIAL, VOLTAGE, KIRCHHOFF S VOLTAGE LAW 99 2.3 ELECTRIC CHARGE,
ELECTRIC DISPLACEMENT VECTOR 102 2.4 DIELECTRIC MEDIA, PERMITTIVITY,
POLARIZATION, DIELECTRIC STRENGTH 103 2.5 CONDUCTORS IN ELECTROSTATIC
EQUILIBRIUM 105 2.6 APPLICATION EXAMPLE (FILAMENT OF CHARGE) 107 2.7
CAPACITOR, CAPACITANCE, ELECTRIC ENERGY 108 2.8 APPLICATION EXAMPLE
(TWO-WIRE TRANSMISSION LINE) 112 2.9 MULTIPLE CONDUCTOR SYSTEMS 117
2.9.1 CAPACITANCE MATRIX 118 2.9.2 PARTIAL CAPACITANCES SCHEME 122 2.10
APPLICATION EXAMPLE (ELECTRIC COUPLING IN PRINTED CIRCUIT BOARDS) 124
2.11 ELECTRIC FORCES AND TORQUES 125 2.12 PROPOSED HOMEWORK PROBLEMS 129
3 STATIONARY CURRENTS 139 3.1 FUNDAMENTAL EQUATIONS 139 3.2
CONDUCTIVITY, CURRENT DENSITY, ELECTRIC CIRCUITS 139 3.3 CURRENT
INTENSITY, KIRCHHOFF S CURRENT LAW 142 3.4 RESISTOR, CONDUCTANCE,
RESISTANCE, OHM S LAW 144 3.5 APPLICATION EXAMPLE (THE POTENTIOMETER)
146 3.6 APPLICATION EXAMPLE (THE WHEATSTONE BRIDGE) 148 3.7 JOULE
LOSSES, GENERATOR APPLIED FIELD 149 3.8 GENERATOR ELECTROMOTIVE FORCE,
POWER BALANCE 151 3.9 PROPOSED HOMEWORK PROBLEMS * 153 4 MAGNETIC FIELD
OF STATIONARY CURRENTS 161 4.1 FUNDAMENTAL EQUATIONS 161 4.2 AMPERE S
LAW, MAGNETOMOTIVE FORCE, MAGNETIC VOLTAGE 161 4.3 MAGNETIC INDUCTION
FIELD, MAGNETIC INDUCTION FLUX 164 4.4 APPLICATION EXAMPLE (POWER LINE
MAGNETIC FIELDS) 165 4.5 MAGNETIC MATERIALS, FERROMAGNETIC MEDIA,
SATURATION AND HYSTERESIS 168 4.6 MAGNETIC CIRCUITS 169 4.7 APPLICATION
EXAMPLE (THREE-LEGGED TRANSFORMER) 170 4.8 MAGNETIC RELUCTANCE 173 4.9
INDUCTOR, INDUCTANCE, MAGNETIC FLUX LINKAGE, MAGNETIC ENERGY 174 4.10
APPLICATION EXAMPLE (COAXIAL CABLE) 179 CONTENTS IX 4.11 HYSTERESIS
LOSSES 182 4.12 MULTIPLE CIRCUIT SYSTEMS 183 4.13 MAGNETIC FORCES AND
TORQUES 187 4.14 APPLICATION EXAMPLE (U-SHAPED ELECTROMAGNET) 188 4.15
PROPOSED HOMEWORK PROBLEMS 189 PART III SLOW TIME-VARYING FIELDS 203
INTRODUCTION 205 5 MAGNETIC INDUCTION PHENOMENA / 207 5.1 FUNDAMENTAL
EQUATIONS 207 5.2 GRADIENT AND INDUCTION ELECTRIC FIELDS, POTENTIAL
VECTOR 207 5.3 REVISITING THE VOLTAGE CONCEPT 208 5.4 INDUCTION LAW 210
5.5 APPLICATION EXAMPLE (MAGNETIC NOISE EFFECTS) 210 5.6 VOLTAGES AND
CURRENTS IN MAGNETICALLY MULTICOUPLED SYSTEMS 211 5.7 APPLICATION
EXAMPLE (MAGNETIC COUPLING IN PRINTED CIRCUIT BOARDS) 217 5.8 EDDY
CURRENTS 219 5.9 GENERALIZATION OF THE INDUCTION LAW TO MOVING CIRCUIT
SYSTEMS 220 5.10 APPLICATION EXAMPLE (ELECTROMECHANICAL ENERGY
CONVERSION) 221 5.11 DC VOLTAGE GENERATION 223 5.12 AC VOLTAGE
GENERATION 224 5.13 PROPOSED HOMEWORK PROBLEMS 226 6 ELECTRIC INDUCTION
PHENOMENA 237 6.1 FUNDAMENTAL EQUATIONS 237 6.2 DISPLACEMENT CURRENT,
GENERALIZED AMPERE S LAW 237 6.3 CHARGE CONTINUITY EQUATION 238 6.4
REVISITING THE CURRENT INTENSITY CONCEPT 240 6.5 APPLICATION EXAMPLE
(CAPACITOR SELF-DISCHARGE) 241 6.6 VOLTAGES AND CURRENTS IN ELECTRICALLY
MULTICOUPLED SYSTEMS 242 6.7 PROPOSED HOMEWORK PROBLEMS 244 7 LUMPED
PARAMETERS CIRCUIT ANALYSIS 249 7.1 INTRODUCTION 249 7.2 STEADY-STATE
HARMONIC REGIMES 250 7.2.1 CHARACTERIZATION OF SINUSOIDAL QUANTITIES 251
7.2.2 COMPLEX AMPLITUDES OR PHASORS 254 7.2.3 APPLICATION EXAMPLE (RLC
CIRCUIT) 255 7.2.4 INSTANTANEOUS POWER, ACTIVE POWER, POWER BALANCE
EQUATION 257 7.2.5 COMPLEX POWER, COMPLEX POYNTING THEOREM 26 0 7.2.6
IMPEDANCE AND ADMITTANCE OPERATORS 262 7.2.7 RESONANCE 263 7.2.8
APPLICATION EXAMPLE (RL || * CIRCUIT) 264 7.3 TRANSFORMER ANALYSIS 267
7.3.1 THE IDEAL TRANSFORMER 269 7.3.2 TRANSFORMER IMPEDANCE, PSEUDO
LENZ S LAW 270 7.3.3 EQUIVALENT CIRCUITS 271 7.3.4 APPLICATION EXAMPLE
(CAPACITIVELY LOADED TRANSFORMER) 274 CONTENTS 7.4 TRANSIENT REGIMES 276
7.4.1 FREE-REGIME AND STEADY-STATE SOLUTIONS 276 7.4.2 INITIAL
CONDITIONS 278 7.4.3 ANALYSIS OF THE CAPACITOR CHARGING PROCESS 278
7.4.4 CONNECTING AN INDUCTIVE LOAD TO AN AC GENERATOR 282 7.4.5
DISCONNECTING AN INDUCTIVE LOAD 284 7.4.6 APPLICATION EXAMPLE (SWITCHING
OFF A TRANSFORMER PROTECTED BY A CAPACITOR) 286 7.5 PROPOSED HOMEWORK
PROBLEMS 290 PART IV RAPID TIME-VARYING FIELDS 305 INTRODUCTION 307 8
ELECTROMAGNETIC FIELD PHENOMENA 309 8.1 ELECTROMAGNETIC WAVES 309 8.2
POYNTING THEOREM, POYNTING VECTOR, POWER FLOW 311 8.3 TIME-HARMONIC
FIELDS, FIELD POLARIZATION, RMS FIELD VALUES 315 8.4 PHASOR-DOMAIN
MAXWELL S EQUATIONS, MATERIAL MEDIA CONSTITUTIVE RELATIONS 317 8.5
APPLICATION EXAMPLE (UNIFORM PLANE WAVES) 318 8.6 COMPLEX POYNTING
VECTOR 320 8.7 APPLICATION EXAMPLE (SKIN EFFECT) 322 8.8 PROPOSED
HOMEWORK PROBLEMS 326 9 TRANSMISSION-LINE ANALYSIS 335 9.1 INTRODUCTION
335 9.2 TIME-DOMAIN TRANSMISSION-LINE EQUATIONS FOR LOSSLESS LINES 337
9.2.1 WAVE PARAMETERS, PROPAGATION VELOCITY, CHARACTERISTIC WAVE
RESISTANCE 340 9.2.2 PULSE PROPAGATION, PULSE REFLECTION 342 9.3
APPLICATION EXAMPLE (PARALLEL-PLATE TRANSMISSION LINE) 345 9.4
FREQUENCY-DOMAIN TRANSMISSION-LINE EQUATIONS FOR LOSSY LINES 349 9.4.1
PER-UNIT-LENGTH LONGITUDINAL IMPEDANCE, PER-I]NIT-LENGTH TRANSVERSE
ADMITTANCE 350 9.4.2 PROPAGATION CONSTANT, PHASE VELOCITY,
CHARACTERISTIC WAVE IMPEDANCE 351 9.4.3 TRANSFER MATRIX, NON-UNIFORM
LINE ANALYSIS 354 9.5 FREQUENCY-DOMAIN TRANSMISSION-LINE EQUATIONS FOR
LOSSLESS LINES 356 9.5.1 TERMINATED LINE, LOAD REFLECTION COEFFICIENT,
LINE INPUT IMPEDANCE 356 9.5.2 MATCHED LINE, OPEN LINE, SHORT-CIRCUITED
LINE 358 9.5.3 STANDING WAVE PATTERN, STANDING WAVE RATIO, ACTIVE POWER
362 9.5.4 THE LOW-FREQUENCY LIMIT CASE, SHORT LINES 364 9.6 APPLICATION
EXAMPLE (LINE-MATCHING TECHNIQUES) 365 9.7 MULTICONDUCTOR TRANSMISSION
LINES 369 9.8 APPLICATION EXAMPLE (EVEN AND ODD MODES) _ 372 9.9
PROPOSED HOMEWORK PROBLEMS 375 APPENDIX A FORMULAS FROM VECTOR ANALYSIS
387 APPENDIX * LORENTZ TRANSFORMATION 389 APPENDIXC ELEMENTS OF COMPLEX
ALGEBRA 391 APPENDIX D ELEMENTS OF FOURIER ANALYSIS 393 BIBLIOGRAPHY 395
INDEX 397
|
| any_adam_object | 1 |
| author | Faria, Jose A. Brandão 1952- |
| author_GND | (DE-588)137085613 |
| author_facet | Faria, Jose A. Brandão 1952- |
| author_role | aut |
| author_sort | Faria, Jose A. Brandão 1952- |
| author_variant | j a b f jab jabf |
| building | Verbundindex |
| bvnumber | BV035823981 |
| classification_rvk | ZN 3240 |
| ctrlnum | (OCoLC)637225476 (DE-599)BSZ285368257 |
| dewey-full | 621.3 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.3 |
| dewey-search | 621.3 |
| dewey-sort | 3621.3 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | 1st ed. |
| format | Book |
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| spelling | Faria, Jose A. Brandão 1952- Verfasser (DE-588)137085613 aut Electromagnetic foundations of electrical engineering J.A. Brandão Faria 1st ed. Chichester Wiley 2008 XX, 399 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Electric engineering Electromagnetic fields Electromagnetism DE-576;wiley image/jpeg http://swbplus.bsz-bw.de/bsz285368257cov.htm 20090320131405 Cover GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018682676&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Faria, Jose A. Brandão 1952- Electromagnetic foundations of electrical engineering Electric engineering Electromagnetic fields Electromagnetism |
| title | Electromagnetic foundations of electrical engineering |
| title_auth | Electromagnetic foundations of electrical engineering |
| title_exact_search | Electromagnetic foundations of electrical engineering |
| title_full | Electromagnetic foundations of electrical engineering J.A. Brandão Faria |
| title_fullStr | Electromagnetic foundations of electrical engineering J.A. Brandão Faria |
| title_full_unstemmed | Electromagnetic foundations of electrical engineering J.A. Brandão Faria |
| title_short | Electromagnetic foundations of electrical engineering |
| title_sort | electromagnetic foundations of electrical engineering |
| topic | Electric engineering Electromagnetic fields Electromagnetism |
| topic_facet | Electric engineering Electromagnetic fields Electromagnetism |
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