Title :
Discontinuous Random Space Vector Modulation for Electric Drives: A Digital Approach
Author :
Khan, Hamid ; Miliani, El-Hadj ; Drissi, Khalil El Khamlichi
Author_Institution :
IFP Energies Nouvelles, Rueil-Malmaison, France
Abstract :
Space vector modulation (SVM), with its many advantages over classical pulsewidth modulation technique (PWM), is gaining in popularity. However, only deterministic SVM exists. Randomized PWM (RPWM) with its cleaner harmonic spectrum is gaining interest for industrial applications required to meet electromagnetic compatibility standards. Inverter switching losses are optimized and life expectancy can be increased using a suitable discontinuous modulation technique. Here, we present, a discontinuous and randomized-modulation technique based on space vector calculation, intended for electric-drive oriented hybrid electric vehicle, which has the advantages of SVM and clean harmonic-spectrum and the efficiency of RPWM and DPWM, respectively.
Keywords :
PWM invertors; electric drives; electromagnetic compatibility; hybrid electric vehicles; losses; vectors; DPWM technique; Inverter switching loss; RPWM technique; SVM; digital approach; discontinuous pulsewidth modulation technique; discontinuous random space vector modulation; electric drive; electromagnetic compatibility standard; harmonic spectrum; hybrid electric vehicle; industrial application; randomized pulsewidth modulation technique; space vector calculation; Clamps; Frequency modulation; Inverters; Support vector machines; Switching loss; Vectors; DSP; electrical drives; electromagnetic compatibility (EMC)/electromagnetic interference (EMI); field-oriented control (FOC); harmonics; hybrid electric vehicle (HEV); power converters for electric vehicle (EV); pulsewidth modulation (PWM); randomized-space vector modulation (RSVM); space vector modulation (SVM); variable speed drive; vector control; voltage source inverter (VSI);
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2012.2194511
