Handbook of electric motors:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
New York [u.a.]
Dekker
2004
|
| Ausgabe: | 2. ed., rev. and expanded |
| Schriftenreihe: | Electrical and computer engineering
120 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXI, 805 S. Ill., graph. Darst. |
| ISBN: | 0824741056 |
Internformat
MARC
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| 245 | 1 | 0 | |a Handbook of electric motors |c ed. by Hamid A. Toliyat ... |
| 250 | |a 2. ed., rev. and expanded | ||
| 264 | 1 | |a New York [u.a.] |b Dekker |c 2004 | |
| 300 | |a XXI, 805 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a Electrical and computer engineering |v 120 | |
| 650 | 4 | |a Moteurs électriques | |
| 650 | 4 | |a Electric driving |v Handbooks, manuals, etc | |
| 650 | 4 | |a Electric motors |v Handbooks, manuals, etc | |
| 650 | 0 | 7 | |a Elektromotor |0 (DE-588)4014315-6 |2 gnd |9 rswk-swf |
| 689 | 0 | 0 | |a Elektromotor |0 (DE-588)4014315-6 |D s |
| 689 | 0 | |C b |5 DE-604 | |
| 700 | 1 | |a Toliyat, Hamid A. |e Sonstige |4 oth | |
| 830 | 0 | |a Electrical and computer engineering |v 120 |w (DE-604)BV013113869 |9 120 | |
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| 999 | |a oai:aleph.bib-bvb.de:BVB01-012864324 | ||
Datensatz im Suchindex
| _version_ | 1804132856445796352 |
|---|---|
| adam_text | HANDBOOK OF ELECTRIC MOTORS SECOND EDITION, REVISED AND EXPANDED EDITED
BY HAMID A. TOLIYAT TEXAS A&M UNIVERSITY COLLEGE STATION, TEXAS, U.S.A.
GERALD B. KLIMAN RENSSELAER POLYTECHNIC INSTITUTE TROY, NEW YORK, U.S.A,
MARCEL DEKKER, INC. NEW YORK * BASEL CONTENTS PREFACE TO THE SECOND
EDITION Y PREFACE TO THE FIRST EDITION VII ACKNOWHDGMENTS IX
CONTRIBUTORS XIX 1. PRINCIPLES OF ENERGY CONVERSION 1 1.1 GENERAL
BACKGROUND 2 1.2 MAGNETIC MATERIALS 4 1.2.1 PROPERLIES OF FCRROMAGNETIC
MATERIALS 5 1.2.2 BOUNDARY CONDITIONS FORSS ANDH 6 1.3 SOME BASTC
FUNCTIONS RELATED TO ELECTROMAGNETIC FIELDS 6 1.3.1 SEALAR POTENTIAL 7
VECTOR POTENTIAL 7 ELECTROMAGNETIC LNDUCTION 8 ENERGY IN AN
ELECTROMAGNETIC FIELD 8 SELF-LNDUCTANCE AND MUTUAL INDUCTANCE 8 ENERGY
STORED IN CURRCNT-CARRYING COIL 9 1.4 MAGNETIC C1RCUITS 9 1.4.1 CONCEPT
OF A MAGNETIC CIRCUIT 9 1.4.2 TWO-DIMENSIONAL FIELD PROBLEMS 12 1.5
FINITE ELEMENT ANALYSIS OF MAGNETIC FIELDS 15 1.5.1 MOTIVATION 15 ENERGY
FUNCTIONALS 15 FINITE ELEMENT FORMULATION 16 BOUNDARY CONDITIONS 17 17
1.3.2 1.3.3 1.3.4 1.3.5 1.3.6 1.5.2 1.5.3 1.5.4 1.5.5 SOLUTION
TECHNIQUES 1.5.6 PARAMETERS FROM FIELDS 19 1.5.7 APPLICATIONS IN TWO AND
THREE DIMENSIONS 19 1.5.8 FINITE ELEMENTS COMPUTE EQUIVALENT CIRCUIT
PARAMETERS 19 1.5.9 FINITE ELEMENTS DIRECTLY COMPUTE MOTOR PERFORMANCE
20 1.6 ENERGY STORED IN MAGNETICALLY COUPLED MULTIPLE-LOOP SYSTEMS 2 F
1.7 FORCES AND TORQUES IN THE SYSTEM 21 REFERENCES 23 TYPES OF MOTORS
AND THEIR CHARACTERISTICS 25 2.0 INTRODUCTION 26 2.1 POLYPHASE
SYNCHRONOUS MOTORS 28 2.1.1 SYNCHRONOUS MACHINE PERFORMANCE
CONSIDERATIONS 32 2.2 INDUCTION MOTORS*POLYPHASE AND SINGLE-PHASE 35
2.2.1 GENERAL THEORY AND DEFINITION OF TERMS USED 35 2.2.2
CLASSIFICATION OF MOTOR.S ACCORDING TO SIZE 38 2.2.3 POWER REQUIREMENTS,
MECHANICAL, AND THERMAL DESIGN CONSIDERATIONS 38 2.2.4
STANDARD-EFFICIENCY MOTORS VS. HIGH-EFFICIENCY MOTORS 41 2.2.5
ELECTRICAL DESIGN OPLIONS* POLYPHASE 41 2.2.6 ELECTRICAL DESIGN OPTIONS*
SINGLE-PHASE 42 XI XII CONTENTS 2.2.7 PERFORMANCE ON VARIABLE-FREQ UENEY
SOURCES 2.2.8 LINEAR INDUCTION MOTORS 2.2.9 DOUBLY FED INDUCTION MOTORS
2.3 DIRECT-CURRENT MOTORS 2.3.1 INTRODUETION 2.3.2 GENERAL DCSERIPTION
2.3.3 TESTS 2.3.4 SHUNT MOTORS 2.3.5 SERIES MOTORS 2.3.6 COMPOUND-WOUND
DC MOTORS 2.3.7 PERMANENT MAGNET MOTORS 2.3.8 BRUSHLESS DC MOTORS 2.3.9
IRONLESS ARMATURE DC MOTORS 2.4 ELECTRIC TRACTION 2.4.1 EXTERNALLY
POWERED VEHICLES 2.4.2 INTERNAL COMBUSTION POWERED VEHICLES 2.4.3
BATTERY POWERED VEHICLES 2.4.4 DESIGN CONSIDERALIONS 2.5 MOTORS FOR
SPECIAL APPLICATIONS 2.5.1 STEPPER MOTORS 2.5.2 400-HZ MOTORS 2.5.3 DEEP
WELL TURBINE PUMP MOTORS 2.5.4 SUBMCRSIBLC MOTORS 2.5.5 SOLID-ROTOR
INDUCTION MOTORS 2.5.6 SYNCHRONOUS RELUCTANCE MOTORS 2.5.7 ACROSPAEC
MOTORS 2.5.8 SUPERCONDUCTING SYNCHRONOUS MOTOR 2.5.9 UNIVERSAL MOTORS
2.5.10 LINE-START SYNCHRONOUS RELUCTANCE AND PERMANENT MAGNET MOTORS
2.5.11 WATTHOUR METERS REFERENCES 3. MOTOR SELECTION 3.1 STANDARDS 3.1.1
ENCLOSURES 3.1.2 DIMENSIONS 3.1.3 PERFORMANCE 3.2 CHARACTERISTICS OF
DRIVEN EQU1PMENT 3.2.1 INERLIAL TORQUES 3.2.2 VISCOUS FRICLION TORQUE
3.2.3 STICKING FRICTION 3.2.4 COULOMB FRICTION 3.2.5 FLUID LOADS 3.2.6
UNUSUAL LOAD SITUATIONS 3.3 INITIAL MOTOR SELECTION 184 43 46 54 58 58
58 62 64 66 68 68 70 71 77 78 87 94 98 109 109 123 126 133 134 142 153
153 156 159 160 162 167 168 168 175 176 181 182 182 182 183 183 183 3.4
3.5 3.6 3.7 3.8 3.3.1 3.3.2 STEADY-STALE SOLUTIONS DYNAMIC ANALYSIS
MOTOR EFFICIENCY AND ENERGY CONSIDERATIONS 3.4.1 3.4.2 EFFICIENCY
CONSIDERATIONS ENERGY CONSIDERATIONS PAYBACK ANALYSIS AND LIFE- CYCLE
COSTING OF MOTORS AND CONTROLS 3.5.1 GENERAL-PURPOSC VS. SPECIAL
MACHINES SAFETY CONSIDERATIONS 3.6.1 3.6.2 APPLICATION INFORMATION
INSTALLATION HOW TO SPECIFY A MOTOR 3.7.1 3.7.2 3.7.3 3.7.4 3.7.5 3.7.6
3.7.7 3.7.8 3.7.9 3.7.10 3.7.11 3.7.12 3.7.13 3.7.14 3.7.15 SCOPC CODES
AND STANDARDS SERVICE CONDITIONS SLARTING REQUIREMENTS RATING
CONSTRUCTION FEATURES ACCESSORIES BALANCE AND VIBRATION SOUND LEVELS
PAINT NAMEPLATES PERFORMANCE TESTS QUALITY ASSURANCE PREPARATION FOR
SHIPMENT AND STORAGE DATA AND DRAWINGS SPECIAL APPLICATIONS 3.8.1 3.8.2
REFERENCES HERMETICALLY SEALED REFRIGCRATION MOTORS SELECTION OF DC
MOTORS WITH CHOPPER DRIVES FOR BATTERY POWERED VEHICLES 4. INDUCTION
MOTOR ANALYSIS AND DESIGN 4.0 4.1 INTRODUCTION INDUCTION MOTOR FIELD
ANALYSIS 4.1.1 4.1.2 4.1.3 4.1.4 4.1.5 GENERATION OF THE ROTATING FIELD
WINDING OF THE STATOR SPALIAL HANNONICS IN THE FIELD CURVE RCACTANCCS OF
THE INDUCTION MOTOR RADIAL FORCE WAVES 184 184 185 185 188 188 189 190
190 190 190 191 191 191 191 192 193 197 198 198 198 198 199 199 199 200
200 200 209 214 215 216 219 219 223 237 241 245 4.1.6 HOMOPOLAR FLUX AND
UNBALANCED MAGNCTIC PULL IN THE TWO-POLE INDUCTION MOTOR 4.1.7
TANGENTIAL FORCES CAUSED BY HARMONICS 4.1.8 COMPONENTS OF AIR GAP FLUX
CAUSED BY INVERTER SUPPLIES 4.1.9 SWITCHING TRANSIENTS 4.2 ROTOR
CONSTRUCTION 4.2.1 INTRODUCTION 4.2.2 SQUIRREL-CAGE DESIGN 4.2.3
WOUND-ROTOR DESIGN 4.3 INDUCTION MOTOR EQUIVALENT CIRCUITS 4.3.1
INTRODUCTION 4.3.2 STEADY-STATE EQUIVALENT CIRCUIT 4.3.3 TRANSIENT OR
DYNAMIC EQUIVALENT CIRCUIT 4.4 EQUIVALENT CIRCUITS FOR VARIABLE
FREQUENCY 4.4.1 INTRODUCTION 4.4.2 ROTOR DEEP-BAR EFFECT 4.4.3 SOLUTION
OF EQUIVALENT CIRCUITS 4.5 IMPORTANT DESIGN EQUATIONS 4.5.1 OUTPUT
EQUATION AND MAIN DIMENSIONS 4.5.2 DESIGN OF STATOR WINDING 4.5.3
FRACTIONAL SLOT WINDING 4.5.4 SQUIRREL-CAGE ROTOR DESIGN 4.6 SPECIAL
INDUCTION MOTOR DESIGNS 4.6.1 LINEAR INDUCTION MOTOR DESIGN 4.6.2
SOLID-ROTOR INDUCTION MOTOR DESIGN 4.7 MECHANICAL DESIGN 4.7.1 CRAWUENG
AND COGGING 4.7.2 VIBRATION AND NOISE 4.7.3 LAMINATION FATIGUE
MECHANISMS 4.8 THERMAL DESIGN 4.8.1 METHODS OF COOLING 4.8.2 DESIGN OF
THE VENTILATION CIRCUIT 4.9 COMPUTER-AIDED DESIGN OF ELECTRIC MACHINES
4.9.1 WHY WE NEED COMPUTERS IN THE DESIGN OF ELECTRIC MACHINES 4.9.2 THE
NATURE OF THE DESIGN PROCESS 4.9.3 STEPS NEEDED TO DESIGN AN ELECTRIC
MACH INE 4.9.4 EXAMPLES OF SPECIALIZED COMPUTER ANALYSIS 4.9.5
AUTOMATION OF THE DESIGN PROCESS 4.10 FIN1TE ELEMENT ANALYSIS 247 249
251 252 256 256 257 257 258 258 258 260 261 261 262 263 263 263 264 265
265 271 271 273 277 277 278 279 282 283 284 284 284 285 286 290 292 OF
INDUCTION MOTORS 4.10.1 MOTIVATION FOR INDUCTION MOTOR FINITE ELEMENT
ANALYSIS 4.10.2 THREE-PHASE INDUCTION MOTOR FINITE ELEMENT ANALYSIS
4.10.3 SINGLE-PHASE INDUCTION MOTOR FINITE ELEMENT ANALYSIS RELERCNCES
5. SYNCHRONOUS MOTOR ANALYSIS AND DESIGN 5.0 INTRODUCTION 5.1 5.2 5.3
5.4 5.5 5.6 5.7 5.8 FLUX AND FLUX DISTRIBUTION ARMATURE WINDINGS 5.2.1
ARMATURE INDUCTANCE 5.2.2 SLOT LEAKAGE 5.2.3 HARMONICS IN THE FLUX
DISTRIBUTION 5.2.4 EFFECTS OF INVERTERS FIELD WINDINGS 5.3.1 LEAKAGE
FLUX 5.3.2 FIELD WINDING AMPERE-TURNS DAMPER WINDINGS 5.4.1 LEAKAGE FLUX
EQUIVALENT CIRCUITS 5.5.1 STEADY- S TAETE OPERATION 5.5.2 V-CURVES 5.5.3
EQUIVALENT CIRCUITS DURING TRANSIENTS 5.5.4 STARTING EQUIVALENT CIRCUITS
LINEAR SYNCHRONOUS MOTORS 5.6.1 DEFINITIONS, GEOMETRICS, AND PRINCIPLE
OF OPERATION 5.6.2 TOPOLOGIES 5.6.3 PERFORMANCE CALCULATION 5.6.4
APPLICATIONS DESIGN EQUATIONS FORA SYNCHRONOUS MACHINE 5.7.1 MAGNETIC
AND ELECTRIC LOADING 5.7.2 MAIN DIMENSIONS AND STATOR WINDINGS 5.7.3
CYLINDRICAL ROTOR DESIGN 5.7.4 SALIENT-POLE ROTORS 5.7.5 FIELD WINDING
DESIGN 5.7.6 FULL-LOAD FIELD AMPERC-TURNS 5.7.7 MACHINE OSCILLATIONS AND
THE DAMPER WINDING FINITE ELEMENT ANALYSIS OF SYNCHRONOUS MOTORS 5.8.1
ADVANTAGES OF FINITE ELEMENT ANALYSIS OF SYNCHRONOUS MOTORS 293 293 293
296 297 299 300 300 300 301 301 302 302 302 302 302 303 303 303 303 304
304 305 305 305 306 313 317 318 318 318 319 320 320 320 321 321 321 XIV
CONTENTS 5.8.2 MOTORS WITH PERMANENT MAGNET ROTORS 5.8.3
VARIABLE-RELUCTANEE SLCPPER MOTORS 5.8.4 AXIAL FLUX MACHINES REFERENCES
DIRECT-CURRENT MOTOR ANALYSIS AND DESIGN 6.0 INTRODUCTION 6.1 ARMATURE
WINDINGS 6.1.1 WAVE WINDINGS 6.L.2 EQUALIZERS 6.1.3 LAP WINDINGS 6.1.4
MACHINES WITH REDUCED NUMBERS OF SLOTS 6.2 COMMUTATORS 6.2.1 COMMUTATOR
CONSTRUCTION 6.2.2 BRUSHES AND HOLDERS 6.3 F1ELD POLES AND WINDINGS
6.3.1 POLE LAMINATIONS 6.3.2 MAIN FIELD WINDINGS 6.3.3 COMMUTATING POLES
AND WINDINGS 6.3.4 POLE FACE WINDINGS 6.4 EQUIVALENT CIRCUIT 6.4.1
STEADY-STATE ANALYSIS 6.4.2 TRANSIENT ANALYSIS 6.5 DESIGN EQUATIONS
6.5.1 MAGNETIC CIRCUIT 6.5.2 SATURATION 6.5.3 DETAILED MAGNETIC CIRCUIT
CALCULATIONS 6.6 DC MOTORS IN CONTROL SYSTEMS 6.6.1 BASIC MOTOR
EQUATIONS 6.6.2 BASIC MECHANICAL EQUATION 6.6.3 BLOCK DIAGRAMS 6.6.4
TYPICAL MOTOR CHARACTCRISTICS AND STABILITY CONSIDERATIONS 6.6.5 FIELD
CONTROL 6.7 DC MOTORS SUPPLIED BY RECTIFIER OR CHOPPER SOURCES 6.7.1
LIST OF SYMBOLS 6.7.2 ANALYSIS 6.7.3 RECTIFIER SOURCES 6.7.4 CHOPPER
SOURCES 6.8 PERMANENT MAGNET DC MOTORS 6.8.1 MAGNETIC MATERIALS 6.8.2
DESIGN FEATURES 6.8.3 SERVO AND CONTROL MOTORS 6.9 FIN1TE ELEMENT
ANALYSIS OF DC MOTORS 321 323 323 325 327 328 328 328 328 329 330 331
331 331 332 332 332 332 333 334 334 334 334 335 335 335 338 338 339 340
341 341 343 343 343 344 347 349 349 351 354 354 6.9. I 6.9.2 6.9.3 6.9.4
6.9.5 REFERENCES ADVANLAGES OF FEA OF DC MOTORS PERMANENT MAGNET BRUSH
DC MOTORS MAGNETIZATION OF PERMANENT MAGNETS WOUND-FIELD BRUSH DC MOTORS
UNIVERSAL MOTORS 7. TESTING FOR PERFORMANCE 7.0 7.1 7.2 7.3 7.4 7.5 7.6
INTRODUCTION POLYPHASE INDUCTION MOTOR TESTING 7.1.1 7.1.2 7.1.3 7.1.4
7.1.5 ELECTRICAL TEST STANDARDS TYPES OF TESTS SAMPLE CALCULATIONS
VARIATION IN TESTING MISCCLLANEOUS TESTS SINGLE-PHASE INDUCTION MOTORS
7.2.1 7.2.2 7.2.3 7.2.4 7.2.5 7.2.6 ELECTRICAL TEST STANDARDS TYPES OF
TESTS CHOICES OF TESTS VARIATIONS DUE TO UNCONTROLLED FACTORS CURVE
FITTING OF PERFORMANCE DATA MISCELLANEOUS TESTS SYNCHRONOUS MOTOR TESTS
7.3.1 7.3.2 7.3.3 7.3.4 7.3.5 7.3.6 ELECTRICAL TEST STANDARDS TYPES OF
TESTS CHOICES OF TESTS VARIATIONS DUE TO UNCONTROLLED FACTORS CURVE
FITTING OF PERFORMANCE DATA MISCELLANEOUS TESTS DC MOTOR TESTS 7.4.1
7.4.2 7.4.3 7.4.4 ELECTRICAL TEST STANDARDS PREPARATION FOR TESTS
PERFORMANCE TESTS SPECIAL TESTS HERMETICALLY SEALED REFRIGERATION MOTORS
7.5.1 7.5.2 7.5.3 7.5.4 7.5.5 7.5.6 ELECTRICA! TEST STANDARDS TYPES OF
TESTS CHOICES OF TESTS VARIATIONS DUE TO UNCONTROLLED FACTORS CURVE
FITTING OF PERFORMANCE DATA MISCELLANEOUS TESTS SPECIALTY TESTING 7.6.1
7.6.2 INDUCTION MOTOR STATORS INDUCTION MOTOR ROTORS 354 355 355 356 356
364 365 366 366 366 366 369 369 371 371 371 371 371 372 373 373 374 374
374 388 388 388 390 391 391 391 392 393 394 394 394 394 396 397 397 397
397 398 CONTENTS XV 7.6.3 PERMANENT MAGNET MOTORS 7.7 SELECTION AND
APPLICATION OF TEST EQUIPMENT 7.7.1 REASONS FOR TCSTING 7.7.2 FUNCLIONAL
SPCCIFICATIONS OF TEST EQUIPMENT 7.7.3 RECOMMENDED STEPS IN PURCHASING
TEST EQUIPMENT 7.7.4 TYPCSOF TESTS 7.7.5 TYPCS OF DATA RECORDING DEVICES
7.7.6 MCCHANICAL AND ELECTRICAL LOADING DEVICES 7.7.7 INSTRUMENTATION
REFERENCES 8. MOTOR INSULATION SYSTEMS 8.1 INTRODUCTION 8.1.1 INSULATION
AND RATINGS 8.1.2 INFLUCNCE OF INSULATION ON MOTOR EFFICIENCY 8.1.3
INFLUENCE OF INSULATION ON MOTOR LI L E 8.1.4 RANDOM- AND FORM-WOUND
MOTORS 8.2 RANDOM-WOUND MOTORS 8.2.1 INSULATION SYSTEM OL RANDOM- WOUND
MOTORS 8.2.2 INSULATION TESTING OF RANDOM- WOUND MOTORS 8.2.3 CAUSES OF
INSULATION FAILURE 8.3 FORM-WOUND MOTORS 8.3.1 INSULATION SYSTEMS 8.3.2
FACTORS AFFECTING INSULATION SYSTEM DESIGN 8.3.3 INSULATION TESTING 8.4
EFFECT OF INVERTER DRIVES ON STATOR INSULATION 8.4.1 SURGC VOLTAGE
ENVIRONMENT 8.4.2 DISTRIBUTION OF VOLTAGE SURGES WITHIN STATOR WINDINGS
8.4.3 MECHANISMS OF INSULATION DETERIORATION REFERENCES GENERAL
REFERENCES 9. MOTOR CONTROL 9.0 INTRODUCTION 9.1 INDUCTION MOTORS 9.1.1
ELECTRICAL VOLTAGE SURGES 9.1.2 VOLTAGE DROP DURING START-UP 9.1.3
STARTING TORQUE CHARACTERISTICS 9.1.4 REDUCED STARTING DUTY SCHEMES 400
400 400 400 401 401 401 402 403 404 407 407 408 408 408 409 410 410 412
415 416 416 419 422 427 427 428 429 429 430 431 432 432 432 437 447 451
10. 9.2 9.3 9.4 9.5 9.6 9.7 9.1.5 9.1.6 9.1.7 9.1.8 9.1.9 9.1.IC
ACCELERATING TORQUE AND MULTISPEED APPLICATIONS STARTING DUTY THERMAL
LIMITATIONS MISCELLANEOUS INDUCTION MOTOR STARTING TOPICS BUS TRANSFER
AND RECLOSING OF INDUCTION MACHINES INDUCTION MOTOR SPEED CONTROL L
INDUCTION MOTOR BRAKING D1RECT-CURRENT MOTORS 9.2.1 9.2.2 9.2.3 DC MOTOR
STARTING DC MOTOR SPEED CONTROL BRAKING OF DIRECT-CURRENT MOTORS GENERAL
CONSIDERAETIONS CONCERNING SOLID-STATE CONVERTERS AND CONTROLLERS 9.3.1
9.3.2 CONVERTERS CONTROLLERS POWER ELECTRONIC DEVICES 9.4.1 9.4.2 9.4.3
9.4.4 9.4.5 9.4.6 9.4.7 DIODES THYRISTORS GATE TUM-OFF THYRISTORS
BIPOLAR TRANSISTORS METAL OXIDE SCMICONDUCLOR FIELD-EFFECT TRANSISTORS
INSULATED-GATE BIPOLAR TRANSISTORS INTEGRATED GATE-COMMUTATED THYRISTOR
CONVERTER CIRCUITS 9.5.1 9.5.2 9.5.3 9.5.4 9.5.5 9.5.6 RECTIFIER
CIREUITS CYCLOCONVERTERS CHOPPER CIREUITS SIX-STEP INVCRTERS PULSE-WIDTH
MODULATION INVCRTERS MULTILEVE! CONVERTERS CONTROLLERS OPE3S
F-ANDCLOSED-LOOP CONTROL OFA PERMANENT MAGNET STEPPER MOTOR 9.7.1 9.7.2
9.7.3 REFERENCES OPEN-LOOP OPERATION OF THE STEPPER MOTOR CLOSED-LOOP
CONTROL OF A STEPPER MOTOR EXPERIMENTAL RESUTTS MOTOR PROTECTION PARTA
OVERVIEW 10.1 10.2 INTRODUCTION PROTECTION AGAINST OVERLOADS 456 461 464
467 473 474 475 475 477 480 482 482 483 483 484 484 485 486 487 488 488
488 489 492 493 493 495 498 498 500 501 503 509 511 515 516 516 CONTENTS
10.3 10.4 10.5 10.6 10.7 10.2.1 FUSES 10.2.2 THERMAL OVERLOAD RELAYS
10.2.3 SWITCHGEAR-TYPE THERMAL RELAYS 10.2.4 IMBEDDED TEMPERATURE
DETECTORS 10.2.5 MICROPROCESSOR MOTOR PROTECTION RELAYS 10.2.6 DAMPER
BAR PROTECTION 10.2.7 SPECIAL CURRENT DETECTION 10.2.8 PULL-OUT
PROTECTION UNBALANCED VOLTAGE PROTECTION 10.3.1 PHASE LOSS RELAYS 10.3.2
NEGATIVE-SEQUENCE VOL TAGE RELAYS 10.3.3 CURRENT UNBALANCE RELAYS 10.3.4
MICROPROCESSOR DEVICES PROTECTION FOR INTERNAL ELECTRICAL FA1LURES
10.4.1 STATOR INSULATION FAILURE PROTECTION 10.4.2 MICROPROCESSOR
PROTECTION FOR INTERNAL FAULTS SELECTION OF SWITCHING DEVICES 10.5.1
CONTACTORS 10.5.2 ELECTRICALLY OPERATED CIRCUIT BREAKERS MECHANICAL
PROTECTION 10.6.) VIBRATION DETECTORS 10.6.2 BEARING TEMPERATURE
MONITORS 10.6.3 MICROPROCESSOR PROTECTION ACCESSORIES 10.7.1 FILTERS
10.7.2 VENTILATION OPENING GUARDS 10.7.3 SPACE HEATERS PART B FUSES AND
PROTECTION COORDINATION 10.8 INTRODUCTION 10.8.1 SINGLE-ELEMENT FUSES
10.8.2 PROTECTION COORDINATION WITH SINGLE-ELEMENT FUSES 10.8.3
DUAL-ELEMENT FUSES 10.8.4 PROTECTION COORDINATION WITH DUAL-ELEMENT
FUSES 10.8.5 SINGLE-PHASING PROTECTION PART C BIMETALLIC THERMAL
PROTEETORS 10.9 INTRODUCTION 10.9.1 DEFINITIONS 10.9.2 TYPICAL DEVICES
10.9.3 CONSIDERATIONS IN DEVICE SELECTION 517 517 517 517 518 520 520
520 520 521 521 521 521 521 521 522 522 522 522 523 523 523 524 524 524
524 524 524 525 525 527 528 529 532 532 533 535 11. 10.9.4 10.9.5 10.9.6
10.9.7 SELECTION OF BIMETALLIC THERMAL PROTECTORS FOR SHADED-POLE,
PERMANENT-SPLIT CAPACITOR, AND OTHER SLOW HEAT RISE SINGLE- PHASE MOTORS
SELECTION OF BIMETALLIC THERMAL PROTECTORS FOR SINGLE-VOLTAGE
SPLIT-PHASE, CAPACITOR-START, CAPACITOR-START/CAPACITOR-RUN, AND OTHER
SINGLE-PHASE MOTORS SELECTION OF BIMETALLIC THERMAL PROTECTORS FOR
DUAL-VOLTAGE SPLIT-PHASE, CAPACITOR-START, CAPACITOR-START/CAPACITOR-RUN
SINGLE-PHASE MOTORS SELECTION OF BIMETALLIC THERMAL PROTECTORS FOR
THREE-PHASE MOTORS 10.10 TESTING AGENCY REQUIREMENTS FOR MOTOR THERMAL
PROTECTORS 10.10.1 10.10.2 10.10.3 10.10.4 10.10.5 10.10.6 10.10.7
10.10.8 GENERAL PROTECTION TYPES TEST VOLTAGES AND FREQUENCIES PROTECTOR
CALIBRATION RANGES TEMPERATURE MEASUREMENTS AMBIENT TEMPERATURE
MULTISPEED MOTORS MOTOR MOUNTINGS 10.11 PERFORMANCE REQU IREMENTS AND
TESTS 10.11.1 10.11.2 10.11.3 10.11.4 10.11.5 10.11.6 REFERENCES RUNNING
HEATING TESTS RUNNING OVERLOAD TESTS LOCKED-ROTOR TESTS LOCKED-ROTOR
ENDURANCE TEST DIELECTRIC TESTS LIMITED SHORT-CIRCUIT TESTS MECHANICAL
CONSIDERATIONS 11.1 NOISE 11.1.1 11.1.2 11.1.3 11.1.4 11.1.5 NOISES OF
ELECTROMAGNETIC ORIGIN INFLUENCE OF MOTOR CONFIGURATION AND DESIGN
REGULATION OF NOISE: TYPICAL LEVELS REDUCTION OF NOISE LEVELS: SPECIAL
TREATMENT EXPERIMENTAL INVESTIGATION OF NOISE 11.2 VIBRATION 536 537 540
541 542 542 542 542 543 543 543 543 543 543 543 543 544 544 544 544 545
547 548 551 554 555 560 561 566 .1.2.1 VIBRATION MEASUREMENT AND
EVALUATION 568 11.2.2 HOUSING AND SHAFT VIBRATION 11.2.3 MOUNTING 1!
.2.4 VARIABLC-SPEED MOTORS 11.2.5 STANDARDS 11.3 BALANCING THE ROTOR
11.3.1 RIGID ROTORS 11.3.2 FLEXIBLE ROTORS 11.3.3 UNBALANCE QUALITY 11.4
BEAR1NGS 11.4.1 SLEEVE BEARINGS 11.4.2 ANTIL RICTION BEARINGS 11.5
BRUSHES 1 1.5.1 INTRODUCTION 11.5.2 GRADE CHARACTERISTIC DCFINITIONS
11.5.3 SPECIALTY BRUSHES ) 1.5.4 SUMMARY 11.6 MOTOR HANDLING, MOUNTING,
AND MECHANICAL CONNECTION 11.6.1 MOTOR HANDLING 11.6.2 MOTOR MOUNTING
DIMCNSIONS 11.6.3 SHAFT CONNECTIONS*BELTS 11.6.4 SHAFT CONNECTIONS*CHAIN
AND SPROCKET DRIVES AND FIAT BCJT DRIVES SHAFT CONNECTIONS*COUPLINGS
SHAFT CONNECTIONS*SPLINCS INITIAL OPERATION 11.6.5 11.6.6 11.6.7
REFERENCES ENVIRONMENTAL CONSIDERATIONS 12.1 INTRODUCTION 12.2 HEAT
TRANSFER 12.2.1 MODES OF HEAT TRANSFER 12.2.2 VENTILATION 12.3 COOLING
OF BASIC MOTOR TYPES 12.3.1 INDUCTION MOTORS 12.3.2 SYNCHRONOUS MOTORS
12.3.3 DC MOTORS 12.3.4 SPECIAL COOLING 12.4 ENCLOSURES 12.4.1 IEC
ENCLOSURCS 12.4.2 NEMA ENCLOSURES 12.5 THERMAL CIRCUITS 12.5.1
SLEADY-STATE CIRCUITS 12.5.2 TIME-VARYING CIRCUITS 12.5.3 SIMPLIFIED
CIRCUITS 12.6 DUTYCYCLES 12.6.1 RMS LOADING ANALYSIS 12.6.2
TIME-CONSTANT ANALYSIS 12.7 AMBIENT AND ENVIRONMENTAL EFFECTS 571 572
572 573 575 575 575 576 576 576 591 596 596 597 601 602 602 602 603 610
613 613 614 614 614 617 618 619 620 623 626 626 627 627 627 628 628 628
629 630 632 633 636 636 638 639 12.7.1 AMBIENT TEMPERATURE 12.7.2
ALTITUDE 12.7.3 MOISTURE 12.7.4 SOLID CONTAMINANTS 12.7.5 CHEMICALS
12.7.6 HAZARDOUS LOCATIONS 12.7.7 SEISMIC ACTIVITY 12.7.8 NUCLEAR PLANT
SAFETY 12.8 POWER SYSTEM QUALITY 12.8.1 PARAMETERS OF POWER SYSTEM
QUALITY 12.8.2 ADJUSTABLE SPEED DRIVES REFERENCES 13. RELIABILITY 13.1
RELIABILITY OF LARGE MOTORS 13.1.1 INTRODUCTION 13.1.2 IEEE 1983-1985
SURVEY 13.1.3 FAILURE RATE AND DOWNTIME DATA 13.1.4 DATA ON FAILED
COMPONENTS 13.1.5 CAUSCS OF FAILURE 13.1.6 COMPARISON: 1973-1974 AND
1983-1985 IEEE SURVEYS 13.1.7 COMPARISON: AIEE 1962 AND 1983-1985 IEEE
SURVEYS 13.1.8 COMPARISON: 1983 EPRI AND 1983-1985 IEEE SURVEYS 13.2
RELIABILITY OF ANTIFRICTION BEARINGS 13.2.1 FAILURE MODES OFROLLING
BEARINGS 13.2.2 DAMAGE PROGRESSION TO FAILURE 13.2.3 STATISTICAL
VARIATION OF BEARING LIFE 13.3 GUIDELINES FOR SUCCESSFUL COMMUTATION AND
BRUSH OPERATION 13.3.1 SUMMARY INTRODUCTION 13.3.2 13.3.3 ACCEPTABLE
COMMUTATOR CONDITIONS 13.4 640 640 641 641 642 642 643 643 644 644 650
653 655 656 656 656 656 657 658 659 659 660 660 660 662 663 663 663 663
663 13.3.4 DESTRUCTIVE COMMUTATOR CONDITIONS 13.3.5 CONCLUSION 13.3.6
REFERENCE NOTE MONITORING FOR SIGNS OF WEAROUT 13.4.1 INTRODUCTION
13.4.2 ON-LINE TESTS 13.4.3 OFF-LINE TESTS 13.4.4 CONTINUOUS (ON-LINE)
OR PERIODIC (O IT-LINE) ? 664 669 669 669 669 669 670 672 CONTENTS 13.5
RELIABILITY IMPACTOF ADJUSTABLE SPEED DRIVES (ASDS) ON BEAR1NGS 13.5.1
INTRODUCTION 13.5.2 BEARING CURRENL INDUCED BY SUPPLY VOLTAGE ! 3.5.3 AN
EQUIVALENT CIRCUIT FOR BEARING DISPLACEMENT AND EDM CURRENTS 13.5.4
MCTHODS (O MITIGATE BEARING CURRENTS AND THCIR COSL 13.6 RELIABILITY
IMPACT OF ADJUSTABLE SPEED DRIVES (ASDS) ON INSULATION REFERENCES
MAINTENANCE 14.1 LUBRICATION 14.1.1 LUBRICATION AND MAINTCNANCE OF
SLEEVE BEARINGS 14.1.2 LUBRICATION AND MAINTENANCE OF ANTIFRICTION
BEARINGS 14.2 IMPLEMENTATION OF A RELIABILITY BASED MAINTENANCE PROGRAM
14.3 MAINTENANCE AND REPAIR OF CO MM UTATORS 14.3.1 CAUSES OF POOR
COMMUTATION 14.3.2 ORDERING NEW PARTS 14.4 BRUSH REPLACEMENT 14.4.1
INTRODUCTION 14.4.2 WHEN TO REPLACE BRUSHES 14.4.3 INSTALLATION OF
BRUSHES 14.4.4 SUMMARY 14.5 MAINTENANCE AND REPAIR OF WINDINGS 14.5.1
INSTALLATION OF NEW EQUIPMENT 14.5.2 ESTABLISHING A MAINTENANCE SCHEDULE
14.5.3 CHOOSING TEST EQUIPMENT 14.5.4 PERFORMING PREVENTATIVE
MAINTENANCE 14.5.5 EVALUATING WINDING FAILURES 14.5.6 CHOOSING REPAIR
FACILITIES 14.5.7 SELECTING REPAIR METHODS 14.5.8 TESTING RCPAIRED
WINDINGS 14.5.9 EVALUATING RCPAIRED EQUIPMENT 14.5.10 GENERAL REFERENCCS
ON MAINTENANCE AND REPAIR OF WINDINGS 672 672 673 677 688 690 690 693
694 694 694 698 14.6 CORE TESTING 14.6.1 LOOP TEST PHYSICAL ARRANGEMENT
14.6.2 THERMOVISION MONITORING DURING THE LOOP TEST OTHER CORE TEST
FACTORS CORE HOT SPOT REPAIRS EL CID TEST 14.6.3 14.6.4 14.6.5
REFERENCES 15. ELECTRONIC MOTORS 15.1 ALTERNATING CURRENT MOTOR SPEED
CONTROL 15.1.1 INTRODUCTION THYRISTOR-BASED VOLTAGE- CONTROLLED DRIVES
THYRISTOR-BASED LOAD- COMMUTATED INVERTER SYNCHRONOUS MOTOR DRIVES
TRANSISTOR-BASED VARIABLE- FREQUENCY LNDUCTION MOTOR DRIVES FIELD
ORIENTATION LNDUCTION MOTOR OBSERVER PERMANENT MAGNET ALTERNATING
CURRENT MACHINE CONTROL 15.1.2 15.1.3 15.1.4 15.1.5 15.1.6 15.1.7 719
719 720 721 721 721 727 731 732 732 733 736 740 746 752 754 700 701 702
702 702 702 702 704 704 704 705 705 707 711 715 716 718 718 719 15.2
15.3 SWITCHED-RELUCTANCE MACHINES 15.2.1 15.2.2 15.2.3 15.2.4
DEFINITION, HISTORY, AND PROPERTICS THEORY OF OPERATION CONTROLLER
ARCHILECTURE APPLICATIONS BRUSHLESS DC MOTORS 15.3.1 15.3.2 15.3.3
15.3.4 15.3.5 15.3.6 15.3.7 15.3.8 15.3.9 REFERENCES APPENDIXES A
EQUIVALENT B ASSOCIATIOR INDEX INTRODUCTION ROTOR CONSTRUCTION MAGNETS
AND THE MAGNETIC CIRCUIT ARMATURE WINDINGS TORQUE ANALYSIS VOLTAGE
ANALYSIS EQUIVALENT CIRCUIT MOTOR DRIVE CIRCUIT PERFORMANCE UNITS I AND
INATITUTE ADDRESSES 759 759 760 763 763 763 763 764 765 768 769 770 770
770 771 772 775 777 779
|
| any_adam_object | 1 |
| building | Verbundindex |
| bvnumber | BV019402048 |
| callnumber-first | T - Technology |
| callnumber-label | TK2514 |
| callnumber-raw | TK2514 |
| callnumber-search | TK2514 |
| callnumber-sort | TK 42514 |
| callnumber-subject | TK - Electrical and Nuclear Engineering |
| classification_rvk | ZN 8200 |
| ctrlnum | (OCoLC)53030053 (DE-599)BVBBV019402048 |
| dewey-full | 621.46 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.46 |
| dewey-search | 621.46 |
| dewey-sort | 3621.46 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Maschinenbau / Maschinenwesen Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | 2. ed., rev. and expanded |
| format | Book |
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| id | DE-604.BV019402048 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T19:59:28Z |
| institution | BVB |
| isbn | 0824741056 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-012864324 |
| oclc_num | 53030053 |
| open_access_boolean | |
| owner | DE-1050 DE-83 DE-29T DE-706 |
| owner_facet | DE-1050 DE-83 DE-29T DE-706 |
| physical | XXI, 805 S. Ill., graph. Darst. |
| publishDate | 2004 |
| publishDateSearch | 2004 |
| publishDateSort | 2004 |
| publisher | Dekker |
| record_format | marc |
| series | Electrical and computer engineering |
| series2 | Electrical and computer engineering |
| spelling | Handbook of electric motors ed. by Hamid A. Toliyat ... 2. ed., rev. and expanded New York [u.a.] Dekker 2004 XXI, 805 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Electrical and computer engineering 120 Moteurs électriques Electric driving Handbooks, manuals, etc Electric motors Handbooks, manuals, etc Elektromotor (DE-588)4014315-6 gnd rswk-swf Elektromotor (DE-588)4014315-6 s b DE-604 Toliyat, Hamid A. Sonstige oth Electrical and computer engineering 120 (DE-604)BV013113869 120 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012864324&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Handbook of electric motors Electrical and computer engineering Moteurs électriques Electric driving Handbooks, manuals, etc Electric motors Handbooks, manuals, etc Elektromotor (DE-588)4014315-6 gnd |
| subject_GND | (DE-588)4014315-6 |
| title | Handbook of electric motors |
| title_auth | Handbook of electric motors |
| title_exact_search | Handbook of electric motors |
| title_full | Handbook of electric motors ed. by Hamid A. Toliyat ... |
| title_fullStr | Handbook of electric motors ed. by Hamid A. Toliyat ... |
| title_full_unstemmed | Handbook of electric motors ed. by Hamid A. Toliyat ... |
| title_short | Handbook of electric motors |
| title_sort | handbook of electric motors |
| topic | Moteurs électriques Electric driving Handbooks, manuals, etc Electric motors Handbooks, manuals, etc Elektromotor (DE-588)4014315-6 gnd |
| topic_facet | Moteurs électriques Electric driving Handbooks, manuals, etc Electric motors Handbooks, manuals, etc Elektromotor |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012864324&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV013113869 |
| work_keys_str_mv | AT toliyathamida handbookofelectricmotors |