Power Electronics and Power Quality

Pinto, José Gabriel Oliveira

Power Electronics and Power Quality


English[eng]


p-q theory||Pulse Width Modulation (PWM)||power system protection||modeling||comtrade||space vector modulation (SVM)||propulsion inverter control system position estimator||frequency adaption||wavelet transform||Simulink||SGDFT||indirect matrix converter (IMC)||hysteresis current control||switching transients||input power factor||high speed maglev||harmonics||optimization||robust control||protection relay||variation in voltage||FBMMC||MMC||microinverter||digital control||state-space model||four-leg inverter||phase-leading capacitor||histogram||pulse width modulation||energy shaping passivity (ESP)-based control||time multiplier setting (TMS)||reactive power||continuous particle swarm optimization (CPSO)||power control||microgrid (MG)||passive method||Matlab||voltage control||switching frequency||Field Programmable Gate Array (FPGA)||Omicron CMC 256plus||distance protection||low voltage direct-current residential microgrid||Full-bridge||series active filter||static var compensator||photovoltaic systems||Total Harmonic Distortion (THD)||long-stator synchronous motor||SC||constant power load||CSC||superconducting magnetic energy storage (SMES)||hybrid power filter||renewable power generation||Lagrange-interpolation method||multilevel converter||multi-grounded neutral (MGN) system||temperature||computer simulation||thyristor-controlled reactor||hybrid static var compensator||static synchronous compensator||power semiconductor device||DC short-circuit handling||cost-effectiveness||current control||half-bridge inverters||Hybrid HVDC||power inverter||input filter||machine learning||enerlyzer||matrix converter (MC)||DC-DC converter||Shunt Active Power Filter||neutral integrity detection||overcurrent relay coordination (OCR)||power quality||event detection||voltage source inverter||Multiterminal HVDC||distorted grid conditions||hybrid active filter||primary neutral integrity