Title :
A low loss matrix converter for AC variable-speed drives
Author :
Wheeler, P.W. ; Grant, D.A.
Author_Institution :
Industrial Electron. Group, Bristol Univ., UK
Abstract :
This paper reports the construction and testing of a matrix power convertor in which novel switching methods are employed to minimise the losses in the switching devices. A mixture of hard and soft commutation is used during each cycle of the output waveform. This permits losses to be reduced to a minimum while waveform quality is enhanced. It is demonstrated that at elevated switching frequencies the efficiency of a matrix power converter can be comparable to that of traditional inverter drives. IGBTs are used as the switching devices and a microcontroller is used to generate the switching waveforms and provide control. Reactive components have been minimised so that the matrix converter is now approaching an all-silicon solution to AC-AC power conversion. Practical results are presented
Keywords :
AC motors; commutation; digital control; insulated gate bipolar transistors; losses; machine control; power convertors; power transistors; variable speed drives; voltage control; AC motors; AC/AC; IGBTs; construction; digital control; efficiency; hard commutation; losses; matrix power convertor; microcontroller; power transistors; soft commutation; switching; testing; variable-speed drives; voltage control; waveform quality;
Conference_Titel :
Power Electronics and Applications, 1993., Fifth European Conference on
Conference_Location :
Brighton
