Applications of Power Electronics

© 2019 by the authors; CC BY-NC-ND license

energy storage; lithium-ion battery; battery management system BMS; battery modeling; state of charge SoC; grid-connected inverter; power electronics; multi-objective optimization; switching frequency; total demand distortion; switching losses; EMI filter; power converter; power density; optimal design; electrical drives; axial flux machines; magnetic equivalent circuit; torque ripple; back EMF; permanent-magnet machines; five-phase permanent magnet synchronous machine; five-leg voltage source inverter; multiphase space vector modulation; sliding mode control; extended Kalman filter; voltage source inverters (VSI); voltage control; current control; digital control; predictive controllers; advanced controllers; stability; response time; lithium-ion batteries; electric vehicles; battery management system; electric power; dynamic PV model; grid-connected VSI; HF-link MPPT converter; nanocrystalline core; SiC PV Supply; DC–DC converters; multi-level control; renewable energy resources control; electrical engineering communications; microgrid control; distributed control; power system operation and control; variable speed pumped storage system; droop control; vector control; phasor model technique; nine switch converter; synchronous generator; digital signal controller; static compensator, distribution generation; hybrid converter; multi-level converter (MLC); series active filter; power factor correction (PFC); field-programmable gate array; particle swarm optimization; selective harmonic elimination method; voltage source converter; plug-in hybrid electric vehicles; power management system; renewable energy sources; fuzzy; smart micro-grid; five-phase machine; fault-tolerant control; induction motor; one phase open circuit fault (1-Ph); adjacent two-phase open circuit fault (A2-Ph); volt-per-hertz control (scalar control); current-fed inverter; LCL-S topology; semi-active bridge; soft switching; voltage boost; wireless power transfer; DC–DC conversion; zero-voltage switching (ZVS); transient control; DC–DC conversion; bidirectional converter; power factor correction; line frequency instability; one cycle control; non-linear phenomena; bifurcation; boost converter; converter; ice melting; modular multilevel converter (MMC); optimization design; transmission line; static var generator (SVG); hardware-in-the-loop; floating-point; fixed-point; real-time emulation; field programmable gate array; slim DC-link drive; VPI active damping control; total harmonic distortion; cogging torque; real-time simulation; power converters; nonlinear control; embedded systems; high level programing; SHIL; DHIL; 4T analog MOS control; high frequency switching power supply; water purification; modulation index; electromagnetic interference; chaotic PWM; DC-DC buck converter; CMOS chaotic circuit; triangular ramp generator; spread-spectrum technique; system in package; electric vehicle; wireless power transfer; inductive coupling; coupling factor; phase-shift control; series-series compensation; PSpice; fixed-frequency double integral sliding-mode (FFDISM); class-D amplifier; Q-factor; GaN cascode; direct torque control (DTC); composite active vectors modulation (CVM); permanent magnet synchronous motor (PMSM); effect factors; double layer capacitor (DLC) models; energy storage modelling; simulation models; current control loops; dual three-phase (DTP) permanent magnet synchronous motors (PMSMs); space vector pulse width modulation (SVPWM); vector control; voltage source inverter; active rectifiers; single-switch; analog phase control; digital phase control; wireless power transfer; three-level boost converter (TLBC); DC-link cascade H-bridge (DCLCHB) inverter; conducting angle determination (CAD) techniques; total harmonic distortion (THD); three-phase bridgeless rectifier; fault diagnosis; fault tolerant control; hardware in loop; compensation topology; electromagnetic field (EMF); electromagnetic field interference (EMI); misalignment; resonator structure; wireless power transfer (WPT); WPT standards; EMI filter; electromagnetic compatibility; AC–DC power converters; electromagnetic interference filter; matrix converters; current source; power density; battery energy storage systems; battery chargers; active receivers; frequency locking; reference phase calibration; synchronization; wireless power transfer; lithium-ion batteries; SOC estimator; parameter identification; particle swarm optimization; improved extended Kalman filter; battery management system; PMSG; DC-link voltage control; variable control gain; disturbance observer; lithium-ion power battery pack; composite equalizer; active equalization; passive equalization; control strategy and algorithm; n/a; common-mode inductor; high-frequency modeling; electromagnetic interference; filter; fault diagnosis; condition monitoring; induction machines; support vector machines; expert systems; neural networks; DC-AC power converters; frequency-domain analysis; impedance-based model; Nyquist stability analysis; small signal stability analysis; harmonic linearization; line start; permanent magnet; synchronous motor; efficiency motor; rotor design; harmonics; hybrid power filter; active power filter; power quality; total harmonic distortion; equivalent inductance; leakage inductance; switching frequency modelling; induction motor; current switching ripple; multilevel inverter; cascaded topology; voltage doubling; switched capacitor; nearest level modulation (NLM); total harmonic distortion (THD); dead-time compensation; power converters; harmonics; n/a