|
wireless power transfer (wpt) |
10 |
|
wireless power transfer |
9 |
|
electric vehicle |
8 |
|
climatic changes -- china -- hong kong |
6 |
|
environmental protection -- china -- hong kong |
6 |
|
magnetic resonance |
6 |
|
power resources -- china -- hong kong |
6 |
|
renewable energy sources -- technological innovations -- china -- hong kong |
6 |
|
magnetic resonant coupling (mrc) |
5 |
|
receivers |
5 |
|
transmitters |
5 |
|
wireless communication |
5 |
|
wireless lighting |
5 |
|
wireless sensor networks |
5 |
|
direct-drive |
4 |
|
electric vehicle (ev) |
4 |
|
energy encryption |
4 |
|
induction heating |
4 |
|
multilevel inverter |
4 |
|
permanent magnet (pm) |
4 |
|
security |
4 |
|
bang-bang pulse magnitude modulation |
3 |
|
burst firing control (bfc) |
3 |
|
capacitor voltage balance |
3 |
|
charging navigation |
3 |
|
coils |
3 |
|
communication system security |
3 |
|
continuous frequency-and-duration adjustment |
3 |
|
control strategies |
3 |
|
dc grid |
3 |
|
dc micro-grid |
3 |
|
dimming control |
3 |
|
double-stator |
3 |
|
doubly-salient machine |
3 |
|
drones |
3 |
|
dynamic wireless charging |
3 |
|
electric vehicles |
3 |
|
energy delivery |
3 |
|
energy-on-demand |
3 |
|
finite element method |
3 |
|
finite-element-method (fem) |
3 |
|
flux control |
3 |
|
flux regulation |
3 |
|
flux-modulation |
3 |
|
frequency modulation |
3 |
|
frequency-and-duration chaos |
3 |
|
grid systems |
3 |
|
harmonic analysis |
3 |
|
high intensity discharge lamps |
3 |
|
high quality power |
3 |
|
high temperature superconductor |
3 |
|
high-intensity discharge (hid) lamp |
3 |
|
ignition |
3 |
|
inverters |
3 |
|
lcc-compensated network |
3 |
|
magnetic quasi-resonant coupling (mqrc) |
3 |
|
magnetic resonant coupling |
3 |
|
magnetic-geared machine |
3 |
|
multi-phase |
3 |
|
permanent magnet machine |
3 |
|
permanent-magnet machine |
3 |
|
plug-in electric vehicle |
3 |
|
pulse increment modulation |
3 |
|
reinforcement learning |
3 |
|
reluctance motors |
3 |
|
separately excited dc motor |
3 |
|
servomotors |
3 |
|
smart city |
3 |
|
smart energy delivery |
3 |
|
smart grid |
3 |
|
static variable capacitor |
3 |
|
three-level full-bridge inverter |
3 |
|
time-division multiplexing (tdm) |
3 |
|
topology |
3 |
|
urban electrified transportation network |
3 |
|
variable-power variable-frequency control (vpvf) |
3 |
|
vernier machine |
3 |
|
vernier structure |
3 |
|
wireless energy security |
3 |
|
wireless power and drive transfer (wpdt) |
3 |
|
zero voltage switching |
3 |
|
3d finite element method (3d-fem) |
2 |
|
all-metal induction heating (ih) |
2 |
|
all-utensil induction heating |
2 |
|
alnico |
2 |
|
analytical modeling |
2 |
|
axial flux |
2 |
|
axial-flux |
2 |
|
axial-flux (af) machine |
2 |
|
battery management |
2 |
|
bipolar operation |
2 |
|
boron compounds |
2 |
|
burst firing control |
2 |
|
capacitance |
2 |
|
chaos |
2 |
|
charging (batteries) |
2 |
|
charging infrastructure |
2 |
|
charging strategy |
2 |
|
coil design |
2 |
|
computer applications |
2 |
|
computer graphics. |
2 |
|
conferences |
2 |
|
contactless charging |
2 |
|
controllability |
2 |
|
controllable output |
2 |
|
cooking |
2 |
|
cosimulation |
2 |
|
cost effectiveness |
2 |
|
cost-effectiveness |
2 |
|
cost-effectiveness comparison |
2 |
|
cost-emission optimization |
2 |
|
costeffectiveness comparison |
2 |
|
coupled magnetic resonance |
2 |
|
cup rotor |
2 |
|
dc-field excitation |
2 |
|
dc-field generator |
2 |
|
dc-to-dc converters - design and construction - data processing. |
2 |
|
direct drive |
2 |
|
directdrive |
2 |
|
domestic appliances |
2 |
|
double stator |
2 |
|
double-stator (ds) |
2 |
|
double-stator machine |
2 |
|
doubly salient |
2 |
|
doubly salient machine |
2 |
|
doubly-excited machine |
2 |
|
doubly-salient |
2 |
|
dual-memory |
2 |
|
dual-memory machine |
2 |
|
dual-memory machine. |
2 |
|
dual-resonant |
2 |
|
dual-resonating-frequency (drf) compensation |
2 |
|
dynamic regulation |
2 |
|
eddy currents |
2 |
|
electric machine |
2 |
|
electric motors, synchronous - automation. |
2 |
|
electric propulsion |
2 |
|
electric variable transmission (evt) |
2 |
|
electric vehicles (evs) |
2 |
|
electrical-offset |
2 |
|
electrically controlled gear ratio |
2 |
|
electromagnetic field effects |
2 |
|
electromagnetic gear (emg) |
2 |
|
electronic differential |
2 |
|
emc |
2 |
|
emi |
2 |
|
energy management |
2 |
|
energy securit |
2 |
|
energy security |
2 |
|
energy transfer |
2 |
|
fault signature |
2 |
|
fault tolerance |
2 |
|
fault-tolerant |
2 |
|
fault-tolerant network |
2 |
|
fault-tolerant operation |
2 |
|
field current control |
2 |
|
field modulation |
2 |
|
field modulation effect |
2 |
|
finite element analysis |
2 |
|
finite element analysis (fea) |
2 |
|
finite-element method (fem) |
2 |
|
flux leakage |
2 |
|
flux switching |
2 |
|
flux-mnemonic machine |
2 |
|
flux-mnemonic machine. |
2 |
|
flux-reversal |
2 |
|
flux-switching |
2 |
|
flux-switching machine |
2 |
|
flux-weakening |
2 |
|
fractional-slot |
2 |
|
free-piston generator |
2 |
|
frequency regulation |
2 |
|
gear-ratio-changing |
2 |
|
gear-shifting ability |
2 |
|
gearless |
2 |
|
generator |
2 |
|
genetic algorithm |
2 |
|
gridable electric vehicles (gevs) |
2 |
|
gridable vehicle |
2 |
|
gridable vehicles |
2 |
|
harmonic-shift |
2 |
|
high coercivity |
2 |
|
high-frequency-resonating (hfr) |
2 |
|
high-order compensation |
2 |
|
high-order lcc transformation |
2 |
|
high-temperature superconducting |
2 |
|
homogeneous heating |
2 |
|
hts |
2 |
|
hts capacitor |
2 |
|
hts inductor |
2 |
|
hybrid electric vehicle |
2 |
|
hybrid electric vehicle (hev) |
2 |
|
hybrid ev (hev) |
2 |
|
hybrid excitation |
2 |
|
hybrid excited machine |
2 |
|
hybrid field excitation |
2 |
|
hybrid frequency pacing (hfp) |
2 |
|
hybrid machine |
2 |
|
hybrid machine, permanent magnet (pm) machine |
2 |
|
hybrid motor |
2 |
|
hybrid propulsion |
2 |
|
hybrid-excitation machine |
2 |
|
hybrid-excited |
2 |
|
hybrid-structure machine |
2 |
|
hysteresis model |
2 |
|
implants |
2 |
|
in-pipe pumping |
2 |
|
in-wheel direct drive |
2 |
|
in-wheel motor drive |
2 |
|
inductance |
2 |
|
inductive power transfer |
2 |
|
integrated starter generator (isg) |
2 |
|
integrated starter-generator (isg) |
2 |
|
integrated startergenerator (isg) |
2 |
|
integrated-starter- generator |
2 |
|
key word efficiency optimization |
2 |
|
linear machine |
2 |
|
linear machines |
2 |
|
linear magnetic gear |
2 |
|
linear magnetic-geared machine |
2 |
|
load regulation |
2 |
|
loss analysis |
2 |
|
low-frequency-switching (lfs) |
2 |
|
machine analysis |
2 |
|
machine design |
2 |
|
magnet proportioning |
2 |
|
magnetic differential (magd) |
2 |
|
magnetic extender |
2 |
|
magnetic field analysis |
2 |
|
magnetic field editing |
2 |
|
magnetic field editing (mfe) |
2 |
|
magnetic field measurement |
2 |
|
magnetic gear |
2 |
|
magnetic inductive coupling |
2 |
|
magnetic leakage |
2 |
|
magnetic resonant modulation (mrm) |
2 |
|
magnetic sensors |
2 |
|
magnetic steering (ms) |
2 |
|
magnetic variable gear (mvg) |
2 |
|
magnetic vibration |
2 |
|
magnetics |
2 |
|
magnetless |
2 |
|
magnetless machine |
2 |
|
magnets, permanent. |
2 |
|
mars rover |
2 |
|
maximum power tracking |
2 |
|
maximum-power-point tracking (mppt) |
2 |
|
mechanical offset |
2 |
|
mechanical variable gear |
2 |
|
mechanical-offset |
2 |
|
medical sciences |
2 |
|
memory machine |
2 |
|
memory machine. |
2 |
|
microcomputers. |
2 |
|
model predictive control (mpc) |
2 |
|
modulation-ring |
2 |
|
motor drives |
2 |
|
multi-coil system |
2 |
|
multi-frequency |
2 |
|
multi-input |
2 |
|
multi-resonating |
2 |
|
multi-topologies |
2 |
|
multicurrent control |
2 |
|
multifrequency |
2 |
|
multimode operation |
2 |
|
multiphase |
2 |
|
multiple receivers |
2 |
|
multiple transmitters |
2 |
|
multiple-coil system |
2 |
|
multitoothed / torque ripple reduction |
2 |
|
multitoothed structure |
2 |
|
mutual inductance calculation |
2 |
|
neodymium iron borons |
2 |
|
noise analysis |
2 |
|
non- rare-earth |
2 |
|
non-rare-earth |
2 |
|
non-rare-earth element |
2 |
|
nonrare earth |
2 |
|
omnidirectional energy harvester |
2 |
|
omnidirectional wireless power transfer (wpt) |
2 |
|
on-off keying modulation (ook) |
2 |
|
open circuit fault |
2 |
|
optimal current vector |
2 |
|
optimization |
2 |
|
optimized efficiency |
2 |
|
orthogonal bipolar coupler |
2 |
|
outer rotor |
2 |
|
outer-rotor |
2 |
|
parallel-hybrid-excited |
2 |
|
parity-time (pt) symmetry |
2 |
|
partitioned stator |
2 |
|
permanent magnet |
2 |
|
permanent magnet (pm) machine |
2 |
|
permanent magnet machine. |
2 |
|
permanent magnets |
2 |
|
permanent magnets (pms) machine |
2 |
|
permanent-magnet (pm) brushless (bl) drives |
2 |
|
permanent-magnet (pm) brushless machine |
2 |
|
permanent-magnet (pm) machine |
2 |
|
permanent-magnet (pm) motor |
2 |
|
permanent-magnet motor |
2 |
|
permanent-magnet motor drive |
2 |
|
phase-shift control (psc) |
2 |
|
photovoltaic (pv) |
2 |
|
pipelines |
2 |
|
piping network |
2 |
|
plug-in hybrid electric vehicle |
2 |
|
pole-changing |
2 |
|
power adaption |
2 |
|
power densities |
2 |
|
power distribution |
2 |
|
power grid |
2 |
|
power loss minimization |
2 |
|
pulse frequency modulation |
2 |
|
pulse frequency modulation (pfm) |
2 |
|
pwm |
2 |
|
quantitative comparison |
2 |
|
rails |
2 |
|
range-extended electric vehicle (re-ev) |
2 |
|
rare earth |
2 |
|
rare-earth |
2 |
|
rare-earth element |
2 |
|
rechargeable batteries |
2 |
|
regenerative shock absorber (rsa) |
2 |
|
relative positions |
2 |
|
reluctance machine |
2 |
|
remedial operation |
2 |
|
renewable energy |
2 |
|
renewable generation |
2 |
|
resistance |
2 |
|
ropeless elevator |
2 |
|
rotors |
2 |
|
sandwiched-coil structure |
2 |
|
selectability |
2 |
|
selectivity |
2 |
|
self-searching control (ssc |
2 |
|
sensor arrays |
2 |
|
separately excited modulation (sem) |
2 |
|
short circuit fault |
2 |
|
smart home |
2 |
|
stator windings |
2 |
|
superconducting machine |
2 |
|
superconducting magnetic energy storage |
2 |
|
superconducting magnetic energy storage (smes) |
2 |
|
switched reluctance machine |
2 |
|
switches |
2 |
|
time-stepping finite element method |
2 |
|
topology-reconfigurable |
2 |
|
traffic energy internet |
2 |
|
transceiver |
2 |
|
transportation |
2 |
|
tunneling magnetoresistance |
2 |
|
turning |
2 |
|
underground drainage system |
2 |
|
unit commitment |
2 |
|
unite element method |
2 |
|
variable gear ratio |
2 |
|
variable reluctance machine |
2 |
|
vehicle to grid (v2g) |
2 |
|
vehicle to home (v2h) |
2 |
|
vehicle to vehicle (v2v) |
2 |
|
vehicle-to-grid |
2 |
|
vehicle-to-grid framework |
2 |
|
vehicle-togrid (v2g) |
2 |
|
wind power |
2 |
|
wind power generation |
2 |
|
windings |
2 |
|
wireless charging |
2 |
|
wireless direct-drive motor control (wdmc) |
2 |
|
wireless energy router |
2 |
|
wireless energy trading (wet) |
2 |
|
wireless motor |
2 |
|
wireless pipeline network |
2 |
|
wireless power drive |
2 |
|
wireless power transmission (wpt) |
2 |
|
wireless switch |
2 |
|
zero-voltage switching (zvs) |
2 |
|
ac loss |
1 |
|
ac motor drive |
1 |
|
ac/dc converters |
1 |
|
adaptive neuro-fuzzy inference system |
1 |
|
adaptive time-delayed feedback control (atdfc) |
1 |
|
aeronautics |
1 |
|
aeronautics and space flight |
1 |
|
air gaps |
1 |
|
air-gap flux |
1 |
|
analytical calculation |
1 |
|
analytical method |
1 |
|
analytical model |
1 |
|
analytical solution |
1 |
|
anticontrol of chaos |
1 |
|
automotive |
1 |
|
axial-field flux-switching machine |
1 |
|
backstepping control |
1 |
|
battery available capacity |
1 |
|
battery capacity estimation |
1 |
|
battery capacity indicator |
1 |
|
battery charging |
1 |
|
battery energy storage |
1 |
|
battery modeling |
1 |
|
battery residual capacity |
1 |
|
battery residual capacity (bpc) |
1 |
|
bearingless machine |
1 |
|
bi-directional |
1 |
|
bidirectional grid-connected converter |
1 |
|
bifurcation |
1 |
|
bipolar drive |
1 |
|
blac |
1 |
|
boost converter |
1 |
|
brushless |
1 |
|
brushless ac (blac) |
1 |
|
brushless dc (bldc) |
1 |
|
brushless dc machine |
1 |
|
brushless dc machines |
1 |
|
brushless dc motor |
1 |
|
brushless dc motors |
1 |
|
brushless machine |
1 |
|
brushless machines |
1 |
|
chaoization |
1 |
|
chaotic |
1 |
|
chaotic behavior in systems |
1 |
|
chaotic pwm |
1 |
|
chaotification |
1 |
|
charger and infrastructure |
1 |
|
charging |
1 |
|
co-ordinated control |
1 |
|
coaxial magnetic gear |
1 |
|
common-mode voltage (cmv) |
1 |
|
compacted machine |
1 |
|
comparative study |
1 |
|
compensation networks |
1 |
|
complex-conjugate control |
1 |
|
compliance |
1 |
|
computer graphics |
1 |
|
computers |
1 |
|
connection |
1 |
|
continuously variable transmission |
1 |
|
control |
1 |
|
control strategy |
1 |
|
controllable loads |
1 |
|
converter capability |
1 |
|
converterless |
1 |
|
cooling dewar |
1 |
|
current balancing |
1 |
|
current control |
1 |
|
current harmonic suppression |
1 |
|
d-q frame |
1 |
|
dc microgrid |
1 |
|
dc-excited |
1 |
|
degree of freedom |
1 |
|
design |
1 |
|
design and analysis |
1 |
|
direct torque control |
1 |
|
direct torque control (dtc) |
1 |
|
direct-drive machine |
1 |
|
direct-driven |
1 |
|
distributed computing |
1 |
|
distribution grid |
1 |
|
double stator machine |
1 |
|
double vector |
1 |
|
double-rotor machine (drm) |
1 |
|
double-stator cup-rotor permanent magnet machine |
1 |
|
double-stator permanent magnet brushless (ds-pmbl) machine |
1 |
|
doubly fed |
1 |
|
doubly salient (ds) motor drive |
1 |
|
doubly salient motor |
1 |
|
doubly salient motors |
1 |
|
doubly salient permanent magnet (dspm) |
1 |
|
doubly-fed stator |
1 |
|
drive |
1 |
|
drive system |
1 |
|
driving pattern |
1 |
|
ds-pmbl machine |
1 |
|
dual three-phase permanent-magnet synchronous machine (pmsm) |
1 |
|
dual-magnet |
1 |
|
dual-mode operation |
1 |
|
dynamic performance |
1 |
|
eddy-current loss |
1 |
|
electric chaoization |
1 |
|
electric compaction |
1 |
|
electric drive vehicles |
1 |
|
electric drives |
1 |
|
electric driving -- automatic control |
1 |
|
electric machinery |
1 |
|
electric machines |
1 |
|
electric motor |
1 |
|
electric motors |
1 |
|
electric power transmission |
1 |
|
electric variable transmission |
1 |
|
electric vehicles -- dynamics |
1 |
|
electric vehicles -- motors |
1 |
|
electric vehicles power electronics |
1 |
|
electric vehicles. |
1 |
|
electrical engineering |
1 |
|
electrical engineering education |
1 |
|
electrical machine design |
1 |
|
electromagnetic characteristic |
1 |
|
electromagnetic characteristics |
1 |
|
electromagnetic compatibility |
1 |
|
electromagnetic field analysis |
1 |
|
electromagnetic interference |
1 |
|
electromagnetic noise (em) |
1 |
|
electromagnetics |
1 |
|
electronic ballasts |
1 |
|
electronic continuously variable transmission |
1 |
|
electronic-geared (eg) |
1 |
|
electronics |
1 |
|
electronics engineering - electrical engineering |
1 |
|
em2-electric machines applications |
1 |
|
energy recovery |
1 |
|
energy sources |
1 |
|
energy storage |
1 |
|
energy-efficient technologies |
1 |
|
engineering |
1 |
|
equivalent reluctance |
1 |
|
ev configuration |
1 |
|
ev drivetrain |
1 |
|
ev parameter |
1 |
|
ev powertrain |
1 |
|
ev propulsion |
1 |
|
excitation |
1 |
|
fault-tolerant control |
1 |
|
fault-tolerant machine |
1 |
|
fault-tolerant motors |
1 |
|
fea |
1 |
|
fem |
1 |
|
field-modulated machine |
1 |
|
field-modulated permanent magnet (fmpm) machine |
1 |
|
field-oriented control |
1 |
|
field-oriented control (foc) |
1 |
|
finite element method (fem) |
1 |
|
finite element methods |
1 |
|
finite-element analysis |
1 |
|
finite-element method |
1 |
|
fluorescent lamps |
1 |
|
flux concentrating |
1 |
|
flux mnemonic |
1 |
|
flux modulation |
1 |
|
flux reversal |
1 |
|
flux switching permanent magnet (fspm) machine |
1 |
|
flux-mnemonic |
1 |
|
flux-modulated permanent-magnet compact in-wheel (fmpmcw) |
1 |
|
flux-modulated wheel motor |
1 |
|
flux-swiching permanent-magnet motor |
1 |
|
flux-switching pm motor |
1 |
|
flywheel |
1 |
|
force |
1 |
|
forging |
1 |
|
four-quadrant transducer (4qt) |
1 |
|
frequency stabilization |
1 |
|
fspm |
1 |
|
fully-decoupled |
1 |
|
fullydecoupled |
1 |
|
generators |
1 |
|
halbach arrays |
1 |
|
halbach pm array |
1 |
|
hardware implementation |
1 |
|
harmonic current |
1 |
|
harmonic currents |
1 |
|
harmonic extraction |
1 |
|
harmonic machine |
1 |
|
harmonic reduction |
1 |
|
hev |
1 |
|
hevs |
1 |
|
hierarchical structures |
1 |
|
high speed machine |
1 |
|
high temperature superconducting |
1 |
|
high thrust force |
1 |
|
high-temperature superconducting (hts) field winding |
1 |
|
high-temperature superconductor |
1 |
|
high-temperature superconductor (hts) |
1 |
|
homopolar machine |
1 |
|
homopolar topology |
1 |
|
ht smes |
1 |
|
hts bulk |
1 |
|
hts machine |
1 |
|
hybrid approach |
1 |
|
hybrid electric vehicles |
1 |
|
hybrid electric vehicles (hevs) |
1 |
|
hybrid electrical vehicle |
1 |
|
hybrid energy source |
1 |
|
hybrid energy system |
1 |
|
hybrid excitation vernier machine |
1 |
|
hybrid field |
1 |
|
hybrid system |
1 |
|
hybrid vehicles |
1 |
|
hybrid-excitation |
1 |
|
in-wheel motor (iwm) |
1 |
|
indicator |
1 |
|
inductance measurement |
1 |
|
induction motor |
1 |
|
induction motor drives |
1 |
|
inset-type |
1 |
|
instruments |
1 |
|
integrated machine |
1 |
|
integrated starter-generator |
1 |
|
integrated-starter-generator |
1 |
|
inverter |
1 |
|
josephson junction |
1 |
|
lcl compensation |
1 |
|
lead-acid battery |
1 |
|
leakage flux |
1 |
|
linear generator |
1 |
|
linear motor |
1 |
|
linear permanent magnet |
1 |
|
linear permanent magnet generator |
1 |
|
linear synchronous machine |
1 |
|
lithium-ion battery |
1 |
|
litz wire |
1 |
|
loss |
1 |
|
low pass filter (lpf)-free |
1 |
|
low speed |
1 |
|
low voltage regulation |
1 |
|
low-frequency |
1 |
|
low-order |
1 |
|
low-speed machine |
1 |
|
lyapunov exponents |
1 |
|
machinery |
1 |
|
machinery andengineering |
1 |
|
machines |
1 |
|
magnetic circuit |
1 |
|
magnetic circuits |
1 |
|
magnetic cores |
1 |
|
magnetic field distribution |
1 |
|
magnetic gearing |
1 |
|
magnetic gearing principle |
1 |
|
magnetic gears |
1 |
|
magnetic shielding |
1 |
|
magnets |
1 |
|
maximum power point tracking |
1 |
|
memory motor |
1 |
|
mgb2 |
1 |
|
misalignment |
1 |
|
mixing |
1 |
|
mnemonic motor |
1 |
|
mode harmonic |
1 |
|
model |
1 |
|
modeling |
1 |
|
motion control |
1 |
|
motor control |
1 |
|
motor design |
1 |
|
motor drive |
1 |
|
motor-drives |
1 |
|
motors |
1 |
|
move-and-charge |
1 |
|
multiple input converter |
1 |
|
multiple synchronous reference frame |
1 |
|
multiple-channel csc |
1 |
|
multiple-frequency |
1 |
|
multiple-input converter |
1 |
|
multivector |
1 |
|
negative-sequence current suppression |
1 |
|
neural network |
1 |
|
neural network (nn) |
1 |
|
neural network model |
1 |
|
neuro-fuzzy |
1 |
|
neuro-fuzzy control |
1 |
|
nf-ts-fem |
1 |
|
nickel-metal hydride (ni-mh) |
1 |
|
nickel-metal hydride battery |
1 |
|
nine-phase |
1 |
|
nine-phase fspm |
1 |
|
nodal method |
1 |
|
non-resonant converters |
1 |
|
observers |
1 |
|
open slot |
1 |
|
operating cost minimization |
1 |
|
operation modes |
1 |
|
optimal algorithm |
1 |
|
optimal charging |
1 |
|
optimal design |
1 |
|
outer-rotor (or) |
1 |
|
pacemakers |
1 |
|
parallel hybrid excitaiton |
1 |
|
parallel hybrid excitation |
1 |
|
paralleled magnetic sub-path |
1 |
|
paralleled vsis |
1 |
|
partial charging |
1 |
|
partitioned-stator |
1 |
|
pd-pmsm |
1 |
|
permanent magnet (pm) motor |
1 |
|
permanent magnet brushless dc machine |
1 |
|
permanent magnet machines |
1 |
|
permanent magnet motor |
1 |
|
permanent magnet motors |
1 |
|
permanent magnet synchronous machine (pmsm) |
1 |
|
permanent magnet synchronous motor (pmsm) drive |
1 |
|
permanent-magnet (pm) machines |
1 |
|
permanent-magnet (pm) motor drive |
1 |
|
permanent-magnet (pm) motors |
1 |
|
permanent-magnet brushless machine |
1 |
|
permanent-magnet machines |
1 |
|
permanent-magnet motor drives |
1 |
|
permanent-magnet synchronous machine (pmsm) |
1 |
|
permanent-magnetic (pm) motor |
1 |
|
permanentmagnet |
1 |
|
permeance calculation |
1 |
|
phase-loss |
1 |
|
phase-shift |
1 |
|
phev |
1 |
|
photovoltaic |
1 |
|
physics |
1 |
|
physics engineering |
1 |
|
pi-based |
1 |
|
piezoelectric |
1 |
|
piezoelectric motor |
1 |
|
plug-in hybrid vehicle |
1 |
|
pm machine |
1 |
|
poincaré map |
1 |
|
pole changing |
1 |
|
policy |
1 |
|
position measurement |
1 |
|
power conditioning |
1 |
|
power convertors |
1 |
|
power factor (pf) |
1 |
|
power generation |
1 |
|
power management |
1 |
|
power network |
1 |
|
power quality |
1 |
|
power splitting |
1 |
|
powertrain |
1 |
|
preisach hysteresis |
1 |
|
pricing |
1 |
|
primary pm machine |
1 |
|
proportional-integral (pi) control |
1 |
|
pseudo-direct-drive |
1 |
|
pulse width modulation |
1 |
|
pulsewidth modulation (pwm) |
1 |
|
pwm inverter |
1 |
|
range-extended electric vehicle |
1 |
|
rebco |
1 |
|
rectifiers |
1 |
|
reluctance motor drives |
1 |
|
remedial strategies |
1 |
|
resonant frequency |
1 |
|
resonant inverters |
1 |
|
robots |
1 |
|
robustness |
1 |
|
scalar control |
1 |
|
selective resonant circuits |
1 |
|
self-inductance |
1 |
|
self-locking |
1 |
|
shaded-pole |
1 |
|
ship propulsion |
1 |
|
short cylinder |
1 |
|
simulated discharge pattern |
1 |
|
simulation tool |
1 |
|
single-phase |
1 |
|
sizing equation |
1 |
|
sliding discrete fourier transform |
1 |
|
sliding mode observer (smo) |
1 |
|
space flight |
1 |
|
spectral analysis |
1 |
|
speed control |
1 |
|
split ratio |
1 |
|
spoke magnet |
1 |
|
square wave |
1 |
|
stability |
1 |
|
stabilization |
1 |
|
standing wave |
1 |
|
state of available capacity |
1 |
|
state space reconstruction |
1 |
|
static characteristics |
1 |
|
stator permanent magnet (pm) machine |
1 |
|
stator pm |
1 |
|
stator pm machine |
1 |
|
stator-flux oriented (sfo) |
1 |
|
steering system |
1 |
|
stepping motor |
1 |
|
subharmonics |
1 |
|
super-conducting machines |
1 |
|
surface-inset permanent magnet motors |
1 |
|
switched capacitor |
1 |
|
switched mode power supplies |
1 |
|
switched reluctance (sr) |
1 |
|
switched reluctance (sr) motor |
1 |
|
switched reluctance motors |
1 |
|
switched-capacitor |
1 |
|
switched-flux |
1 |
|
switching frequency |
1 |
|
synchronization |
1 |
|
synchronous reluctance motors |
1 |
|
system topology |
1 |
|
t-a homogenized formulation |
1 |
|
taveling-wave |
1 |
|
teaching methods and curriculum |
1 |
|
thermoelectric |
1 |
|
thermoelectric generator |
1 |
|
thermoelectric systems |
1 |
|
three-level inverter |
1 |
|
time stepping finite element method |
1 |
|
time-delay feedback |
1 |
|
time-stepping finite element method (ts-fem) |
1 |
|
time-stepping finite-element method |
1 |
|
topics |
1 |
|
torque |
1 |
|
torque control |
1 |
|
torque ripple |
1 |
|
torque ripples |
1 |
|
torque transmission |
1 |
|
transportation systems |
1 |
|
transverse flux |
1 |
|
transverse flux permanent magnet motor |
1 |
|
two-phase operation |
1 |
|
ultracapacitor |
1 |
|
ultrasonic motor |
1 |
|
ultrasonic motor (usm) |
1 |
|
ultrasonic stepping motor |
1 |
|
v2g |
1 |
|
variable discharge current |
1 |
|
variable-structure systems |
1 |
|
vehicle-to-grid operation |
1 |
|
vernier motor |
1 |
|
vernier reluctance linear machine |
1 |
|
voltage level |
1 |
|
washing |
1 |
|
waste heat |
1 |
|
waste heat recovery |
1 |
|
wave energy |
1 |
|
wave energy conversion |
1 |
|
wave energy harvesting |
1 |
|
wave power generation |
1 |
|
wind energy conversion |
1 |
|
winding configuration design |
1 |
|
y/δ |
1 |
|
zero-sequence current |
1 |
