Permanent Magnet Motor Technology: Design and Applications, Second Edition,Co-authored by a world-renowned expert in the field, Permanent Magnet Motor Technology: Design and Applications, Second Edition demonstrates the construction of PM motor drives and supplies ready-to-implement solutions for common roadblocks. The author presents fundamental equations and calculations to determine and evaluate system performance, efficiency, and reliability; explores modern computer-aided design of PM motors, including the finite element approach; and covers how to select PM motors to meet the specific requirements of electrical drives. The numerous examples, models, and diagrams provided in each chapter give the reader a clear understanding of motor operations and characteristics. |
Contents
CLVII | 68 |
CLIX | 70 |
CLXI | 72 |
CLXII | 75 |
CLXIII | 79 |
CLXV | 79 |
CLXVI | 79 |
CLXVII | 79 |
xxi | |
xxi | |
xxi | |
XVII | xxiii |
XVIII | 1 |
XIX | 5 |
XX | 5 |
XXI | 5 |
XXII | 5 |
XXIII | 5 |
XXIV | 5 |
XXV | 5 |
XXVI | 5 |
XXVII | 5 |
XXVIII | 5 |
XXIX | 5 |
XXX | 5 |
XXXI | 5 |
XXXIII | 5 |
XXXV | 5 |
XXXVI | 5 |
XXXVII | 5 |
XXXVIII | 5 |
XXXIX | 5 |
XL | 5 |
XLI | 9 |
XLIII | 9 |
XLIV | 9 |
XLV | 9 |
XLVI | 9 |
XLVII | 9 |
XLVIII | 9 |
XLIX | 9 |
L | 9 |
LI | 9 |
LII | 9 |
LIII | 9 |
LIV | 9 |
LVI | 9 |
LVII | 9 |
LIX | 9 |
LX | 9 |
LXI | 9 |
LXII | 9 |
LXIV | 9 |
LXVII | 9 |
LXVIII | 10 |
LXXI | 12 |
LXXII | 19 |
LXXIII | 22 |
LXXIV | 23 |
LXXV | 24 |
LXXVII | 25 |
LXXVIII | 25 |
LXXIX | 25 |
LXXXI | 25 |
LXXXII | 25 |
LXXXIII | 25 |
LXXXIV | 25 |
LXXXVI | 25 |
LXXXVII | 25 |
LXXXIX | 25 |
XCII | 26 |
XCIII | 27 |
XCIV | 28 |
XCVII | 29 |
XCVIII | 30 |
XCIX | 31 |
C | 31 |
CIII | 31 |
CIV | 31 |
CV | 31 |
CX | 31 |
CXI | 31 |
CXIII | 31 |
CXV | 31 |
CXVII | 32 |
CXVIII | 35 |
CXIX | 37 |
CXX | 37 |
CXXI | 37 |
CXXIII | 37 |
CXXIV | 37 |
CXXV | 37 |
CXXVI | 38 |
CXXVII | 39 |
CXXIX | 53 |
CXXX | 54 |
CXXXII | 55 |
CXXXIV | 55 |
CXXXV | 55 |
CXXXVI | 55 |
CXXXVIII | 55 |
CXXXIX | 56 |
CXL | 57 |
CXLI | 57 |
CXLII | 57 |
CXLIII | 57 |
CXLIV | 64 |
CXLV | 65 |
CXLVII | 65 |
CXLVIII | 65 |
CXLIX | 65 |
CL | 65 |
CLII | 65 |
CLIII | 65 |
CLIV | 65 |
CLV | 65 |
CLVI | 67 |
CLXVIII | 87 |
CLXIX | 90 |
CLXXI | 92 |
CLXXII | 94 |
CLXXIII | 98 |
CLXXIV | 100 |
CLXXV | 105 |
CLXXVI | 107 |
CLXXVIII | 107 |
CLXXIX | 107 |
CLXXX | 107 |
CLXXXI | 107 |
CLXXXII | 119 |
CLXXXIII | 121 |
CLXXXIV | 122 |
CLXXXV | 125 |
CLXXXVI | 126 |
CLXXXVIII | 127 |
CLXXXIX | 129 |
CXC | 129 |
CXCII | 129 |
CXCIV | 129 |
CXCV | 129 |
CXCVI | 129 |
CXCVII | 129 |
CXCVIII | 129 |
CC | 129 |
CCI | 131 |
CCII | 132 |
CCIII | 134 |
CCIV | 135 |
CCVII | 139 |
CCVIII | 143 |
CCIX | 143 |
CCX | 157 |
CCXIII | 161 |
CCXIV | 163 |
CCXV | 165 |
CCXVI | 167 |
CCXVII | 170 |
CCXVIII | 172 |
CCXX | 175 |
CCXXI | 176 |
CCXXIII | 178 |
CCXXIV | 179 |
CCXXV | 182 |
CCXXVI | 184 |
CCXXVII | 185 |
CCXXIX | 191 |
CCXXXII | 192 |
CCXXXIII | 193 |
CCXXXVI | 195 |
CCXXXVII | 195 |
CCXXXVIII | 195 |
CCXXXIX | 195 |
CCXL | 195 |
CCXLII | 195 |
CCXLIII | 195 |
CCXLIV | 195 |
CCXLV | 195 |
CCXLVI | 195 |
CCXLVII | 196 |
CCXLVIII | 197 |
CCXLIX | 198 |
CCL | 200 |
CCLI | 200 |
CCLII | 200 |
CCLIII | 200 |
CCLV | 200 |
CCLVI | 200 |
CCLVII | 201 |
CCLVIII | 202 |
CCLIX | 204 |
CCLXI | 205 |
CCLXII | 206 |
CCLXIII | 207 |
CCLXIV | 208 |
CCLXV | 215 |
CCLXVIII | 216 |
CCLXIX | 217 |
CCLXX | 217 |
CCLXXI | 217 |
CCLXXII | 217 |
CCLXXIII | 217 |
CCLXXIV | 217 |
CCLXXV | 217 |
CCLXXVII | 217 |
CCLXXIX | 217 |
CCLXXXI | 217 |
CCLXXXII | 217 |
CCLXXXIII | 217 |
CCLXXXIV | 217 |
CCLXXXV | 217 |
CCLXXXVIII | 217 |
CCLXXXIX | 217 |
CCXC | 217 |
CCXCII | 217 |
CCXCIII | 217 |
CCXCIV | 217 |
CCXCV | 217 |
CCXCVI | 217 |
CCXCVII | 217 |
CCXCIX | 217 |
CCC | 217 |
CCCII | 217 |
CCCIII | 217 |
CCCIV | 233 |
Other editions - View all
Permanent Magnet Motor Technology: Design and Applications, Second Edition, Jacek F. Gieras No preview available - 2002 |
Common terms and phrases
according to eqn air gap magnetic Alnico angle applications armature current armature reaction armature winding coefficient cogging torque coil conductors converter d-axis d.c. brushless motors d.c. commutator motor d.c. link d.c. motor damper demagnetization curve diameter efficiency electromagnetic electromagnetic power electromagnetic torque electromechanical drives equation excitation ferrite ferrite magnets ferromagnetic Figure frequency gap magnetic flux harmonic induction motors input inverter laminated leakage permeance load commutated machines magnetic circuit magnetic field magnetic flux density Maxwell stress tensor module motor drives NdFeB number of poles Numerical examples operation output power permanent magnets permeance PM brushless motors PM motor PM synchronous motor pole pairs pole shoes Pout q-axis reactance recoil line rotation rotor rotor position servo shaft shown in Fig sinusoidal square wave stator stator core stator slots stator winding steel stepping motors synchronous reactance temperature three-phase thyristors torque torque ripple V₁ voltage waveforms winding losses