|
wireless power transfer |
16 |
|
wireless power transfer (wpt) |
16 |
|
electric spring |
12 |
|
capacitors |
10 |
|
power electronics |
10 |
|
receivers |
10 |
|
soft switching |
10 |
|
resonant frequency |
8 |
|
switches |
8 |
|
voltage control |
8 |
|
active power decoupling |
7 |
|
coils |
7 |
|
light emitting diodes |
7 |
|
llc resonant converter |
7 |
|
single-phase converters |
7 |
|
smart grids |
7 |
|
stability |
7 |
|
voltage |
7 |
|
electric spring (es) |
6 |
|
electric springs |
6 |
|
electric springs (ess) |
6 |
|
genetic algorithms |
6 |
|
inductors |
6 |
|
light-emitting diode |
6 |
|
lighting |
6 |
|
magnetic resonance |
6 |
|
microgrids |
6 |
|
nonlinear control |
6 |
|
rectifiers |
6 |
|
resistance |
6 |
|
reverse electrodialysis |
6 |
|
reverse electrodialysis (red) |
6 |
|
smart loads |
6 |
|
buck converter |
5 |
|
capacitance |
5 |
|
color chromaticity |
5 |
|
couplings |
5 |
|
demand-side management (dsm) |
5 |
|
distribution system |
5 |
|
efficiency |
5 |
|
facts |
5 |
|
gallium nitride (gan) |
5 |
|
high efficiency |
5 |
|
inverters |
5 |
|
light-emitting diode (led) |
5 |
|
light-emitting diodes |
5 |
|
mathematical model |
5 |
|
mathematical models |
5 |
|
maximum energy efficiency tracking (meet) |
5 |
|
monolithic integration |
5 |
|
photodetector |
5 |
|
planar magnetics |
5 |
|
power conversion |
5 |
|
power decoupling |
5 |
|
power system stability |
5 |
|
sliding mode control |
5 |
|
smart load |
5 |
|
sustainable lighting technology |
5 |
|
transmitters |
5 |
|
voltage regulation |
5 |
|
wireless communication |
5 |
|
algebraic estimation |
4 |
|
automatic power decoupling |
4 |
|
circuit theory |
4 |
|
coatings |
4 |
|
consumer electronics |
4 |
|
control |
4 |
|
coupling coefficient |
4 |
|
decoupled control |
4 |
|
demand response |
4 |
|
demand-side management |
4 |
|
distributed power systems |
4 |
|
distribution network |
4 |
|
electric springs (es) |
4 |
|
estimation |
4 |
|
frequency |
4 |
|
inductance |
4 |
|
led |
4 |
|
lighting control |
4 |
|
lighting systems |
4 |
|
luminous flux |
4 |
|
magnetic induction |
4 |
|
microgrid |
4 |
|
mid-range wireless power transfer |
4 |
|
monitoring |
4 |
|
phase shift control |
4 |
|
phosphors |
4 |
|
power control |
4 |
|
power imbalance |
4 |
|
primary-side control |
4 |
|
regulation |
4 |
|
renewable energy |
4 |
|
resonant power conversion |
4 |
|
sensor reduction |
4 |
|
synchronization |
4 |
|
three-level flying capacitor |
4 |
|
transient stability |
4 |
|
wind power |
4 |
|
wireless power receiver |
4 |
|
ac-ac power convertors |
3 |
|
ac-dc conversion |
3 |
|
ac-dc rectifier |
3 |
|
adaptive systems |
3 |
|
air core |
3 |
|
analytical models |
3 |
|
automatic-power-decoupling control |
3 |
|
back-to-back converters |
3 |
|
battery management system |
3 |
|
beat frequency |
3 |
|
buck power-factor-correction (pfc) rectifier |
3 |
|
capacitor voltage balance |
3 |
|
charging infrastructure |
3 |
|
circuit faults |
3 |
|
circuit stability |
3 |
|
class e rectifier |
3 |
|
color control |
3 |
|
color coordinates |
3 |
|
common mode (cm) inductor |
3 |
|
consensus control |
3 |
|
constant frequency |
3 |
|
constant power |
3 |
|
contactless power |
3 |
|
continuous mode |
3 |
|
continuous output current |
3 |
|
cooperative control |
3 |
|
coupled mode theory |
3 |
|
current balancing |
3 |
|
current transformer |
3 |
|
dc grids |
3 |
|
dc microgrids |
3 |
|
decomposed voltage control |
3 |
|
differential resonant class e rectifier |
3 |
|
differential resonant rectifier |
3 |
|
dimmable electronic ballasts |
3 |
|
direct power control |
3 |
|
discontinuous current mode |
3 |
|
discrete sliding mode control (dsmc) |
3 |
|
distributed control |
3 |
|
distributed renewable generations |
3 |
|
domino resonator system |
3 |
|
droop control |
3 |
|
dual active bridge converters |
3 |
|
dynamic performance |
3 |
|
dynamic response |
3 |
|
electric circuit theory |
3 |
|
electric network analysis |
3 |
|
electric potential |
3 |
|
electric vehicle |
3 |
|
electric vehicle (ev) charging |
3 |
|
electric vehicles (ev) charging |
3 |
|
electrolytic capacitor |
3 |
|
electromagnetic coupling |
3 |
|
electromagnetic fields |
3 |
|
electromagnetic interference (emi) |
3 |
|
electronic ballast |
3 |
|
energy saving |
3 |
|
equivalent circuit model |
3 |
|
ev charging |
3 |
|
fault tolerant systems |
3 |
|
fault-tolerant |
3 |
|
feedback linearization |
3 |
|
frequency control |
3 |
|
frequency measurement |
3 |
|
fuzzy logic control |
3 |
|
generalized hybrid model |
3 |
|
high power density |
3 |
|
high-gain step-up dc/dc converter |
3 |
|
hill-climbing-search-based phase angle control |
3 |
|
hooke's law |
3 |
|
human exposure |
3 |
|
hybrid modulation |
3 |
|
impedance |
3 |
|
inductive power transmission |
3 |
|
inductive-boosting |
3 |
|
input current control |
3 |
|
integrated circuit modeling |
3 |
|
interleaved operation |
3 |
|
inverter |
3 |
|
light-emitting diodes (leds) |
3 |
|
lighting system |
3 |
|
load monitoring |
3 |
|
low computational cost |
3 |
|
low thd |
3 |
|
mains-frequency synchronous rectifiers |
3 |
|
maximum efficiency |
3 |
|
maximum efficiency operation |
3 |
|
maximum energy efficiency (mee) |
3 |
|
maximum power generation (mpg) |
3 |
|
maximum power injection (mpi) |
3 |
|
maximum power transfer |
3 |
|
mechanical springs |
3 |
|
modified llc resonant converter |
3 |
|
modulation |
3 |
|
multilevel converter |
3 |
|
negative impedance converter (nic) |
3 |
|
neutral-point-clamped converter |
3 |
|
nickel |
3 |
|
optimal allocation |
3 |
|
oscillation |
3 |
|
output regulation |
3 |
|
parity-time symmetry |
3 |
|
passive led drivers |
3 |
|
pcb planar transformer |
3 |
|
peer-to-peer charging |
3 |
|
pfc rectifier |
3 |
|
phase shift (ps) |
3 |
|
phase-shift control |
3 |
|
phase-shift regulation |
3 |
|
phase-shift time |
3 |
|
photo-electro-thermal theory |
3 |
|
photovoltaic (pv) power generations |
3 |
|
photovoltaic (pv) system |
3 |
|
power balance |
3 |
|
power compensation |
3 |
|
power factor control |
3 |
|
power grids |
3 |
|
power inductors |
3 |
|
power quality |
3 |
|
power system stability and control |
3 |
|
printed-circuit-board (pcb) resonators |
3 |
|
pulsating power buffer |
3 |
|
pulsating power buffer (ppb) |
3 |
|
pulsating power buffering |
3 |
|
pulse width modulation |
3 |
|
random processes |
3 |
|
reactive power |
3 |
|
real-time estimation |
3 |
|
real-time systems |
3 |
|
receiver |
3 |
|
recycle mode |
3 |
|
red–green–blue (rgb) light-emitting diode (led) system |
3 |
|
relay resonator |
3 |
|
renewable energy source |
3 |
|
renewable sources |
3 |
|
resilience |
3 |
|
resonance |
3 |
|
resonant converter |
3 |
|
resonant rectifier |
3 |
|
right-half-plane zero |
3 |
|
right-half-plane zero (rhp) |
3 |
|
salinity gradient power |
3 |
|
salinity gradient power (sgp) |
3 |
|
self-driven synchronous rectifiers |
3 |
|
self-oscillation |
3 |
|
sensors |
3 |
|
series resonant inverter |
3 |
|
series-series compensated wireless power transfer (wpt) system |
3 |
|
single-inductor multiple-output (simo) |
3 |
|
single-inductor three-output (sito) led driver |
3 |
|
single-input multi-output converter |
3 |
|
single-input triple-output converter |
3 |
|
single-phase |
3 |
|
single-phase converter |
3 |
|
single-switch |
3 |
|
sliding mode control (smc) |
3 |
|
smart grid |
3 |
|
smart lampposts |
3 |
|
solid-state transformer |
3 |
|
stability analysis |
3 |
|
state of charge |
3 |
|
state-of-charge (soc) estimation |
3 |
|
static compensator (statcom) |
3 |
|
static var compensator |
3 |
|
steady-state |
3 |
|
storage reduction |
3 |
|
street lighting |
3 |
|
switching circuits |
3 |
|
tesla's resonator coils |
3 |
|
tesla’s resonators |
3 |
|
thin-film |
3 |
|
three-phase electric springs |
3 |
|
topology |
3 |
|
transceiver |
3 |
|
two-stage wireless power receiver |
3 |
|
upfc |
3 |
|
vehicles |
3 |
|
very high voltage gain |
3 |
|
voltage balancing |
3 |
|
voltage stabilization |
3 |
|
voltage violation risk |
3 |
|
voltage-balancing control |
3 |
|
wide input voltage range |
3 |
|
wide load power range |
3 |
|
wind energy conversion system (wecs) |
3 |
|
zcs |
3 |
|
zero-phase-angle |
3 |
|
zero-voltage-switching (zvs) |
3 |
|
zvs |
3 |
|
$n$-level driving |
2 |
|
3-ph es |
2 |
|
ac/dc converter |
2 |
|
ac/dc power system |
2 |
|
acoustic resonance |
2 |
|
active filter |
2 |
|
active filter integration |
2 |
|
active filtering |
2 |
|
active filters |
2 |
|
active power filter (apf) |
2 |
|
adaptive building energy modeling |
2 |
|
adaptive reference model predictive control (armpc) |
2 |
|
adaptive weighting factors |
2 |
|
application requirements |
2 |
|
automatic power decoupling control |
2 |
|
automotive led lighting |
2 |
|
ballasts |
2 |
|
batteries |
2 |
|
battery |
2 |
|
battery chargers |
2 |
|
battery charging |
2 |
|
battery energy storage |
2 |
|
bicolor light-emitting diode (led) lamp |
2 |
|
bipolar transistors |
2 |
|
boundary control |
2 |
|
buck converter control |
2 |
|
buck-boost |
2 |
|
capacitance measurement |
2 |
|
capacitance reduction |
2 |
|
capacitive power transfer (cpt) |
2 |
|
cascade inverter |
2 |
|
central dimming systems |
2 |
|
centralized model predictive control (cmpc) |
2 |
|
charging speed |
2 |
|
circuit board inductors |
2 |
|
circuit simulation |
2 |
|
closedloop nonlinear approach |
2 |
|
compensation identification |
2 |
|
composite insulator |
2 |
|
computer simulation |
2 |
|
constant switching frequency |
2 |
|
contactless battery charging |
2 |
|
contactless transformer |
2 |
|
continuous conduction mode (ccm) |
2 |
|
coreless planar spiral winding |
2 |
|
coreless printed-circuit-board transformers |
2 |
|
coreless transformer |
2 |
|
correlated color control (cct) |
2 |
|
correlated color temperature (cct) |
2 |
|
couplers |
2 |
|
cross-regulation |
2 |
|
current balance |
2 |
|
current mirrors |
2 |
|
damping |
2 |
|
dc electric springs (dces) |
2 |
|
dc grids / smart grid |
2 |
|
dc microgrids (mgs) |
2 |
|
dc-ac power conversion |
2 |
|
dc-dc power conversion |
2 |
|
dc-link |
2 |
|
demand side management |
2 |
|
different rectifiers and inverters |
2 |
|
differential rectifiers/inverters |
2 |
|
digital feedback control |
2 |
|
digital signal processing |
2 |
|
dimmable electromagnetic ballasts |
2 |
|
dimming |
2 |
|
diode-clamped converter (dcc) |
2 |
|
discharge lamps |
2 |
|
discontinuous conduction mode (dcm) |
2 |
|
distributed power system |
2 |
|
distribution power loss |
2 |
|
domain of attraction |
2 |
|
domino wireless power transfer (wpt) |
2 |
|
double-line frequency |
2 |
|
dynamic modeling |
2 |
|
e-capless |
2 |
|
eeak grid |
2 |
|
electric converters |
2 |
|
electric currents |
2 |
|
electric impedance |
2 |
|
electric inverters |
2 |
|
electric network synthesis |
2 |
|
electric power supplies to apparatus |
2 |
|
electric switches |
2 |
|
electric windings |
2 |
|
electromagnetic field solver |
2 |
|
electromagnetic interference |
2 |
|
electromagnetic wave interference |
2 |
|
electronic ballasts |
2 |
|
emi filter |
2 |
|
emi filters |
2 |
|
energy audit |
2 |
|
energy efficiency |
2 |
|
energy harvesting |
2 |
|
energy storage |
2 |
|
energy storage reduction |
2 |
|
enhanced multiple harmonic analysis (emha) |
2 |
|
extra-high-voltage gain |
2 |
|
finite element simulation |
2 |
|
first harmonic analysis (fha) |
2 |
|
flexible ac transmission |
2 |
|
flexible loads |
2 |
|
flexible transformer |
2 |
|
fluorescent lamp characteristics |
2 |
|
fluorescent lamp modeling |
2 |
|
fluorescent lamps |
2 |
|
frequencies |
2 |
|
frequency modulation |
2 |
|
front-end monitoring |
2 |
|
gallium nitride |
2 |
|
gas discharge |
2 |
|
gas discharge devices |
2 |
|
gates (transistor) |
2 |
|
gto |
2 |
|
h-bridge |
2 |
|
hardware-in-the-loop |
2 |
|
harmonic analysis |
2 |
|
harmonics |
2 |
|
heating systems |
2 |
|
high-frequency hybrid converter |
2 |
|
high-frequency inverter |
2 |
|
high-voltage conversion ratio |
2 |
|
hybrid ac-dc systems |
2 |
|
hybrid converter |
2 |
|
hybrid power systems |
2 |
|
hybrid system |
2 |
|
impedance emulation |
2 |
|
inductive power transfer |
2 |
|
inductive power transfer (ipt) |
2 |
|
inductor cores |
2 |
|
instantaneous power theory |
2 |
|
integrated magnetics |
2 |
|
interior angle control |
2 |
|
islanding |
2 |
|
isolated power grids |
2 |
|
japan electronics and information technology industries association (jeita) guideline |
2 |
|
lamp detection |
2 |
|
led driver |
2 |
|
light control |
2 |
|
light sources |
2 |
|
light-emitting diodes (led) |
2 |
|
linear system |
2 |
|
load estimation,magnetic resonance |
2 |
|
local hierarchical control (lhc) |
2 |
|
low cost |
2 |
|
low-frequency integrated magnetics |
2 |
|
low-frequency ripple |
2 |
|
low-voltage (lv) network |
2 |
|
magnetic cores |
2 |
|
mains-frequency synchronous rectifiers (srs) |
2 |
|
maximum power flow |
2 |
|
metallic object |
2 |
|
micro-grid |
2 |
|
mini-grids |
2 |
|
model predictive contro (mpc) |
2 |
|
model predictive control |
2 |
|
model predictive control (mpc) |
2 |
|
mosfet |
2 |
|
mosfet devices |
2 |
|
mpc with integrator |
2 |
|
mppt |
2 |
|
multi-frequency wpt |
2 |
|
multi-hysteresis |
2 |
|
multi-level inverter |
2 |
|
multifunctional control |
2 |
|
multilevel converters |
2 |
|
multilevel inverter |
2 |
|
multiple receivers |
2 |
|
n levels |
2 |
|
negative-sequence currents |
2 |
|
neutral current |
2 |
|
non-adaptive weighting factors |
2 |
|
non-communication-based |
2 |
|
non-linear feedback control |
2 |
|
nonidentical leds |
2 |
|
noninverting four-switch buck-boost converter |
2 |
|
nonlinear system |
2 |
|
numerical methods |
2 |
|
optical variables measurement |
2 |
|
optimal tuning |
2 |
|
optimization |
2 |
|
organic light-emitting diodes (oleds) |
2 |
|
parabolic modulation |
2 |
|
parabolic modulation (pm) |
2 |
|
parameter estimation |
2 |
|
passive filtering |
2 |
|
passive led systems |
2 |
|
permanent magnet synchronous motor (pmsm) |
2 |
|
phosphor-coated white leds |
2 |
|
photo-detector systems |
2 |
|
photo-electro-thermal (pet) |
2 |
|
photo-electro-thermal (pet) theory |
2 |
|
photo-electro-thermal theory for led systems |
2 |
|
photo-electrothermal theory |
2 |
|
photoelectrothermal theory (pet) |
2 |
|
photovoltaic |
2 |
|
photovoltaic (pv) battery system |
2 |
|
photovoltaic panel |
2 |
|
pi control |
2 |
|
pi controller |
2 |
|
planar contactless battery charger |
2 |
|
planar coreless transformer |
2 |
|
planar magnetic device |
2 |
|
planar spiral inductance |
2 |
|
planar wireless charging technology |
2 |
|
plug and play |
2 |
|
plug-and-play ripple mitigation |
2 |
|
position estimation |
2 |
|
power amplifiers |
2 |
|
power converters |
2 |
|
power density |
2 |
|
power efficiency analysis |
2 |
|
power factor correction |
2 |
|
power grid |
2 |
|
power integrated circuits |
2 |
|
power inverters |
2 |
|
power smoothing |
2 |
|
power supply circuits |
2 |
|
power system |
2 |
|
power-density |
2 |
|
power-factor-correction rectifier |
2 |
|
predictive control |
2 |
|
primary side monitoring |
2 |
|
printed circuit board |
2 |
|
printed circuit board (pcb) resonator |
2 |
|
printed circuit board inductors |
2 |
|
printed circuit boards |
2 |
|
printed circuits |
2 |
|
printed-circuit-board (pcb)-based self-resonators |
2 |
|
programmable impedance |
2 |
|
pseudo-continuous conduction mode (pccm) |
2 |
|
pulse-width-modulated (pwm) dimming |
2 |
|
pulsewidth modulation converters |
2 |
|
pulsewidth-modulated (pwm) dimming |
2 |
|
pv system |
2 |
|
pwm dimming |
2 |
|
pwm driving |
2 |
|
qi wireless power standard |
2 |
|
quality factor |
2 |
|
radial-chordal decomposition |
2 |
|
radial-chordal decomposition (rcd) |
2 |
|
random pwm methods |
2 |
|
reactive power control |
2 |
|
receiver resonant frequency |
2 |
|
rectifier |
2 |
|
red-green-blue (rgb) light-emitting diodes (led) system |
2 |
|
relays |
2 |
|
reliability |
2 |
|
renewable energy sources |
2 |
|
renewable power sources |
2 |
|
renewables |
2 |
|
reset-sensing quasi-v2 control |
2 |
|
resonant converters |
2 |
|
resonators |
2 |
|
ripple pacifier |
2 |
|
rlc circuits |
2 |
|
self capacitance |
2 |
|
self-driven srs (sdsrs) |
2 |
|
sensorless control |
2 |
|
shielding |
2 |
|
simulation |
2 |
|
single-inductor multiple output (simo) |
2 |
|
single-inductor three-output (sito) |
2 |
|
single-inductor-multiple-output |
2 |
|
single-phase ac-to-dc converters |
2 |
|
single-phase ac/dc converter |
2 |
|
single-sensor method |
2 |
|
single-stage |
2 |
|
single-switch resonant inverter |
2 |
|
small-signal model |
2 |
|
smart gird |
2 |
|
smart-load unit |
2 |
|
sockets |
2 |
|
space vector control |
2 |
|
spectrum analysis |
2 |
|
speed estimation |
2 |
|
spiral winding |
2 |
|
springs |
2 |
|
stability criteria |
2 |
|
standalone dc microgrid |
2 |
|
standards |
2 |
|
statcom |
2 |
|
state space methods |
2 |
|
state-variable feedback |
2 |
|
static synchronous series compensators |
2 |
|
statistical methods |
2 |
|
steady-state errors |
2 |
|
svc |
2 |
|
swireless power transfer (wpt) |
2 |
|
switching frequency |
2 |
|
switching regulators |
2 |
|
symmetrical components |
2 |
|
technological challenges |
2 |
|
temperature measurement |
2 |
|
temperature-regulated current control (trcc) |
2 |
|
tesla's resonators |
2 |
|
thermal model |
2 |
|
thermal storage |
2 |
|
three-level inverters |
2 |
|
topology transition control |
2 |
|
trajectory sensitivity |
2 |
|
transformer windings |
2 |
|
two-switch rectifier |
2 |
|
universal wireless charging system |
2 |
|
variable structure control |
2 |
|
variable structure control (vsc) |
2 |
|
vectors |
2 |
|
virtual multiple-input multiple-output (mimo) system |
2 |
|
virtual reference |
2 |
|
virtual references |
2 |
|
visible light communication (vlc) |
2 |
|
voltage and frequency (v & f) control |
2 |
|
voltage boosting |
2 |
|
voltage management |
2 |
|
voltage measurement |
2 |
|
voltage multiplier |
2 |
|
voltage sensorless control |
2 |
|
voltage source inverter (vsi) |
2 |
|
waveform control |
2 |
|
wearable electronics |
2 |
|
white led |
2 |
|
wide output voltage range |
2 |
|
winding |
2 |
|
windings |
2 |
|
zero-voltage switching (zvs) |
2 |
|
2-d |
1 |
|
ac motor drives |
1 |
|
ac motors |
1 |
|
ac-ac power conversion |
1 |
|
ac-dc power conversion |
1 |
|
ac/dc conversion |
1 |
|
ac/dc led drivers |
1 |
|
acoustic noise |
1 |
|
acoustic resonators |
1 |
|
acoustic wave effects |
1 |
|
acoustic wave velocity |
1 |
|
acoustic waves |
1 |
|
acoustics resonance |
1 |
|
active power filters (apfs) |
1 |
|
adaptive and nonlinear estimation |
1 |
|
adaptive observers |
1 |
|
aggregates |
1 |
|
algorithms |
1 |
|
approximation theory |
1 |
|
arc lamps |
1 |
|
automatic voltage control |
1 |
|
ball-joint structure |
1 |
|
ballast |
1 |
|
ballast circuit parameters |
1 |
|
ballasts (lamp) |
1 |
|
bandpass filters |
1 |
|
battery charger |
1 |
|
bessel functions |
1 |
|
bidirectional converter |
1 |
|
bidirectional power converters |
1 |
|
boundary conditions |
1 |
|
bridge circuits |
1 |
|
buck converter in discontinuous-capacitor-voltage mode operation |
1 |
|
buck converter in discontinuous-input-voltage mode operation |
1 |
|
busbars |
1 |
|
carbon arc |
1 |
|
carrier communication |
1 |
|
central dimming system |
1 |
|
chaos theory |
1 |
|
chaotic switching |
1 |
|
chaotic switching techniques |
1 |
|
charge pump |
1 |
|
charge-pump |
1 |
|
charging (batteries) |
1 |
|
chebyshev approximation |
1 |
|
chromaticity |
1 |
|
circuit optimization |
1 |
|
circuit resonance |
1 |
|
color rendering index (cri) |
1 |
|
compact fluorescent lamp |
1 |
|
compact fluorescent lamp (cfl) |
1 |
|
comparator circuits |
1 |
|
computational linguistics |
1 |
|
computational methods |
1 |
|
computer aided analysis |
1 |
|
computer aided design |
1 |
|
computer aided network analysis |
1 |
|
computer software |
1 |
|
computer systems, digital - applications |
1 |
|
computer-aided design |
1 |
|
computers, digital |
1 |
|
computers, microcomputer |
1 |
|
conductive materials |
1 |
|
contactless battery charging platform |
1 |
|
contactless charging |
1 |
|
control equipment |
1 |
|
control nonlinearities |
1 |
|
control of power electronic circuits |
1 |
|
copper |
1 |
|
core losses |
1 |
|
coreless pcb transformers |
1 |
|
coreless printed circuit board transformer |
1 |
|
current mirror circuits |
1 |
|
current sensing |
1 |
|
current sharing |
1 |
|
current sharing methods |
1 |
|
current voltage characteristics |
1 |
|
current-mode control |
1 |
|
data acquisition |
1 |
|
dc-dc power converters |
1 |
|
dc/ac conversion |
1 |
|
dc/acpower conversion |
1 |
|
dc/dc conversion |
1 |
|
dc/dc power conversion |
1 |
|
decoupled simulation |
1 |
|
detector circuits |
1 |
|
differential equations |
1 |
|
differentiating circuits |
1 |
|
digital control |
1 |
|
dimmable magnetic ballast systems |
1 |
|
dimmable road lighting system |
1 |
|
dimming (lamps) |
1 |
|
dimming control |
1 |
|
dimming methods |
1 |
|
diodes |
1 |
|
discharge |
1 |
|
discharge lamp model |
1 |
|
discontinuous-capacitor-voltage mode operation of converters |
1 |
|
discontinuous-input-voltage mode operation of converters |
1 |
|
discrete time control systems |
1 |
|
distributed parameter networks |
1 |
|
distributed sliding mode observer (dsmo) |
1 |
|
distributed system |
1 |
|
double-layer shield |
1 |
|
drives |
1 |
|
dynamic voltage restorers (dvr) |
1 |
|
dynamics |
1 |
|
eddy currents |
1 |
|
eigenvalues and eigenfunctions |
1 |
|
electric batteries |
1 |
|
electric charge |
1 |
|
electric connectors |
1 |
|
electric converters, static |
1 |
|
electric current control |
1 |
|
electric current measurement |
1 |
|
electric discharges |
1 |
|
electric distortion |
1 |
|
electric drive |
1 |
|
electric drive--control |
1 |
|
electric drives |
1 |
|
electric filters |
1 |
|
electric frequency control |
1 |
|
electric inductors |
1 |
|
electric lines |
1 |
|
electric load flow |
1 |
|
electric loads |
1 |
|
electric losses |
1 |
|
electric machine theory |
1 |
|
electric network parameters |
1 |
|
electric network topology |
1 |
|
electric networks - topology |
1 |
|
electric networks, switching - transmission line theory |
1 |
|
electric power factor |
1 |
|
electric power factor correction |
1 |
|
electric power systems |
1 |
|
electric power transmission |
1 |
|
electric power transmission--mathematical models |
1 |
|
electric rectifiers |
1 |
|
electric resistance |
1 |
|
electric traction |
1 |
|
electric transformers |
1 |
|
electric variables control |
1 |
|
electric variables measurement |
1 |
|
electric vehicles (evs) |
1 |
|
electric waveforms |
1 |
|
electrical power measurements |
1 |
|
electrochemical electrodes |
1 |
|
electrode power control |
1 |
|
electrodes |
1 |
|
electrolytic capacitors |
1 |
|
electromagnetic compatibility |
1 |
|
electronic ballast environment |
1 |
|
electronic circuits--switching |
1 |
|
electronic equipment |
1 |
|
electrostatic devices |
1 |
|
emc |
1 |
|
emerging technology |
1 |
|
energy transfer |
1 |
|
energy-saving and environmental issues |
1 |
|
energy-saving issues |
1 |
|
environmental |
1 |
|
environmental and energy-saving issues |
1 |
|
equations of state |
1 |
|
equivalent circuits |
1 |
|
error analysis |
1 |
|
estimation methods |
1 |
|
estimation of multi-sinusoidal signals |
1 |
|
estimation technique |
1 |
|
etching |
1 |
|
extra-high-frequency electronic ballast |
1 |
|
false data injection (fdi) attacks |
1 |
|
feedback circuits |
1 |
|
feedback control |
1 |
|
ferrite |
1 |
|
ferrite devices |
1 |
|
ferromagnetic materials |
1 |
|
finite element analysis |
1 |
|
finite element method |
1 |
|
fluorescent lamp |
1 |
|
flyback converter |
1 |
|
frequency detection |
1 |
|
friction |
1 |
|
front-end |
1 |
|
fundamental extraction |
1 |
|
fuzzy control |
1 |
|
fuzzy logic controller |
1 |
|
fuzzy sets |
1 |
|
fuzzy-logic controller |
1 |
|
general photo-electrothermal theory |
1 |
|
graphic methods |
1 |
|
harmonic compensation |
1 |
|
harmonic generation |
1 |
|
harmonics detection |
1 |
|
heat losses |
1 |
|
hid lamps |
1 |
|
high frequency magnetics |
1 |
|
high frequency transformer |
1 |
|
high frequency transformers |
1 |
|
high intensity light |
1 |
|
high power converters |
1 |
|
high-frequency |
1 |
|
high-intensity discharge lamps |
1 |
|
high-intensity-discharge (hid) lamps |
1 |
|
high-intensity-discharge lamps |
1 |
|
high-voltage insulation (hvi) string |
1 |
|
hvdc |
1 |
|
hysteresis |
1 |
|
illumination |
1 |
|
illumination control |
1 |
|
impedance formula |
1 |
|
impedance formulas |
1 |
|
impedance spectrum, |
1 |
|
inductance measurement |
1 |
|
induction motors |
1 |
|
inductive power |
1 |
|
industrial application |
1 |
|
integrated circuit manufacture |
1 |
|
integrated circuits |
1 |
|
integrodifferential equations |
1 |
|
interference suppression |
1 |
|
isolation amplifier |
1 |
|
isolation technology |
1 |
|
iterative methods |
1 |
|
ladder networks |
1 |
|
lamp ageing |
1 |
|
lamp arc |
1 |
|
lamp models |
1 |
|
lamps |
1 |
|
laplace transforms |
1 |
|
least squares approximations |
1 |
|
led system theory |
1 |
|
lemniscate of bernoulli curve |
1 |
|
lifetime |
1 |
|
light-emitting diode technology |
1 |
|
light-emitting diodes (led) system theory |
1 |
|
lighting emitting diodes |
1 |
|
linear network analysis |
1 |
|
linear networks |
1 |
|
linear programming |
1 |
|
link model |
1 |
|
load estimation |
1 |
|
load modeling |
1 |
|
loading |
1 |
|
low pass filters |
1 |
|
low-power converters |
1 |
|
low-profile converter |
1 |
|
low-profile converters |
1 |
|
machine design |
1 |
|
magnetic amplifier |
1 |
|
magnetic couplings |
1 |
|
magnetic field vector |
1 |
|
magnetic fields |
1 |
|
magnetic flux sensing |
1 |
|
magnetic hysteresis |
1 |
|
magnetic hysteresis measurement |
1 |
|
magnetic hysteresis modeling |
1 |
|
magnetic instruments |
1 |
|
magnetic leakage |
1 |
|
magnetic saturation |
1 |
|
magnetic variables measurement |
1 |
|
mathematical techniques |
1 |
|
mathematical techniques - algorithms |
1 |
|
mathematical techniques - time domain analysis |
1 |
|
mathematical techniques--integrodifferential equations |
1 |
|
mathematical techniques--matrix algebra |
1 |
|
mathematical transformations |
1 |
|
mathematical transformations--laplace transforms |
1 |
|
matlab/simulink |
1 |
|
matrix algebra |
1 |
|
maximum-power-point tracking |
1 |
|
maximum-power-point-tracking |
1 |
|
maximum-powerpoint tracking (mppt) |
1 |
|
measurement errors |
1 |
|
megahertz switching |
1 |
|
membership functions |
1 |
|
memristor |
1 |
|
memristors |
1 |
|
mercury (metal) |
1 |
|
metal vapor lamps |
1 |
|
metal-halide (mh) lamp |
1 |
|
metal-halide lamps |
1 |
|
mh lamp |
1 |
|
microcircuits |
1 |
|
microprocessor chips |
1 |
|
modeling |
1 |
|
monte carlo methods |
1 |
|
multi-load application |
1 |
|
multilevel inverters |
1 |
|
multiload application |
1 |
|
multiprocessing systems |
1 |
|
mutual inductance estimation |
1 |
|
natural frequencies |
1 |
|
network components |
1 |
|
networks (circuits) |
1 |
|
neural networks |
1 |
|
new paradigm shift |
1 |
|
non-dissipative |
1 |
|
non-dissipative sensing |
1 |
|
non-intrusive sensing method |
1 |
|
noncoaxial |
1 |
|
nondissipative sensing techniques |
1 |
|
nonlinear |
1 |
|
nonlinear equations |
1 |
|
nonlinear systems |
1 |
|
norton transmission line models |
1 |
|
numerical analysis |
1 |
|
omni-directional |
1 |
|
omnidirectional power |
1 |
|
omnidirectional wireless power |
1 |
|
on-off keying |
1 |
|
operational amplifiers |
1 |
|
optical characteristics |
1 |
|
optimal power point tracking (oppt) |
1 |
|
optimization of efficiency |
1 |
|
overcurrent protection |
1 |
|
packaging |
1 |
|
parallel algorithms |
1 |
|
parallel processing systems |
1 |
|
parallel simulation |
1 |
|
parameter identification |
1 |
|
passive components |
1 |
|
passive filters |
1 |
|
phase space methods |
1 |
|
phase-locked loop |
1 |
|
photoelectrothermal theory |
1 |
|
photovoltaic (pv) |
1 |
|
photovoltaic systems |
1 |
|
piecewise linear techniques |
1 |
|
piezoelectric devices |
1 |
|
planar magentics |
1 |
|
planar printed-circuit-board transformers |
1 |
|
planar spiral inductor |
1 |
|
planar transformers |
1 |
|
plasma applications |
1 |
|
plate metal |
1 |
|
poles and zeros |
1 |
|
pollution |
1 |
|
polynomials |
1 |
|
power component extraction |
1 |
|
power electronic |
1 |
|
power electronic circuits |
1 |
|
power electronic converters |
1 |
|
power electronic system |
1 |
|
power electronics circuits |
1 |
|
power factor corrections |
1 |
|
power harmonics |
1 |
|
power loss |
1 |
|
power measurements |
1 |
|
power sharing |
1 |
|
power supplies |
1 |
|
power systems |
1 |
|
power-conversion harmonics |
1 |
|
power-factor correction |
1 |
|
practical circuit model |
1 |
|
pressure effects |
1 |
|
primary reserve |
1 |
|
printed circuit manufacture |
1 |
|
printed circuit testing |
1 |
|
printed-circuit-board (pcb) windings |
1 |
|
printed-circuit-board transformers |
1 |
|
printed-circuit-board windings |
1 |
|
probability |
1 |
|
problem solving |
1 |
|
product design |
1 |
|
pspice model |
1 |
|
public lighting systems |
1 |
|
pulse position modulation |
1 |
|
pulse transformers |
1 |
|
pulsewidth modulated power converters |
1 |
|
pulsewidth modulation |
1 |
|
pwm power converters |
1 |
|
random pulse width modulation |
1 |
|
random pulse-width modulation |
1 |
|
random switching techniques |
1 |
|
randomized switching |
1 |
|
randomized switching scheme |
1 |
|
rapid frequency response |
1 |
|
reactive power control site |
1 |
|
rectifying circuits |
1 |
|
reinforced plastics |
1 |
|
resonant circuits |
1 |
|
robust estimation |
1 |
|
second-order switching surface |
1 |
|
selective excitation |
1 |
|
semiconductor switches |
1 |
|
sensing technique |
1 |
|
sensing techniques |
1 |
|
series compensation |
1 |
|
series resonant parallel-loaded inverter |
1 |
|
series-resonant parallel-loaded inverter |
1 |
|
series-series compensation |
1 |
|
shielding techniques |
1 |
|
signal processing |
1 |
|
smart load (sl) |
1 |
|
smart meters |
1 |
|
soft ferrites |
1 |
|
solar cells |
1 |
|
solid state lighting |
1 |
|
space vector pwm schemes |
1 |
|
spectral power distribution (spd) |
1 |
|
spice |
1 |
|
spread spectrum communication |
1 |
|
spurious signal noise |
1 |
|
standby power reduction |
1 |
|
state trajectory |
1 |
|
static and dynamic charging |
1 |
|
stray capacitance |
1 |
|
stub model |
1 |
|
substations |
1 |
|
switched mode power supplies |
1 |
|
switching |
1 |
|
switching functions |
1 |
|
switching networks |
1 |
|
switching theory |
1 |
|
synchronous motors |
1 |
|
system stability |
1 |
|
temperature effect |
1 |
|
thermal conductivity |
1 |
|
thermal design |
1 |
|
thermal design for leds |
1 |
|
thermal effect |
1 |
|
thermal effects |
1 |
|
three-level power converters |
1 |
|
thyristors |
1 |
|
time series analysis |
1 |
|
tlm simulation |
1 |
|
transducers |
1 |
|
transfer functions |
1 |
|
transformer magnetic circuits |
1 |
|
transformers |
1 |
|
transients |
1 |
|
transistors |
1 |
|
transmission line model |
1 |
|
transmission line theory |
1 |
|
transputers |
1 |
|
uninterruptible power systems |
1 |
|
voltage compensation |
1 |
|
voltage fluctuations |
1 |
|
wave equations |
1 |
|
waveform analysis |
1 |
|
wideband |
1 |
|
wireless power |
1 |
|
wireless power standard qi |
1 |
|
wireless power transmission |
1 |
|
zero voltage switching |
1 |
