Title :
DC/DC Boost Converter Functionality in a Three-Phase Indirect Matrix Converter
Author :
Chiang, Goh Teck ; Itoh, Jun-Ichi
Author_Institution :
Nagaoka Univ. of Technol., Niigata, Japan
fDate :
5/1/2011 12:00:00 AM
Abstract :
An indirect matrix converter (IMC) connected with two input power sources is proposed: a gasoline generator as the main ac power supply and batteries as the secondary power source. The IMC is small in size because of having a dc-link part without an electrolytic capacitor. The dc-link part is utilized by connection with a boost-up chopper with batteries as a secondary input power source. Furthermore, the chopper connects to the neutral point of the motor and utilizes the leakage inductance of the motor as a reactor component. The proposed technique successfully further reduce the size of the converter by removing the boost reactor in the boost converter stage. The proposed converter is simulated and experimentally validated using a 750-W prototype and an induction motor driven with V/f control. The total harmonic distortion of the input and output currents are 4% and 3.7%, respectively, and the efficiency is 96%.
Keywords :
AC generators; DC-DC power convertors; PWM rectifiers; choppers (circuits); harmonic distortion; inductance; induction motor drives; machine control; matrix convertors; petroleum; AC power supply; DC-DC boost converter functionality; V/f control; batteries; boost reactor; boost-up chopper; gasoline generator; induction motor; motor leakage inductance; power 750 W; secondary input power source; three-phase indirect matrix converter; total harmonic distortion; Capacitors; Choppers; Induction motors; Inverters; Matrix converters; Switches; Boost-up chopper; leakage inductance; neutral point of a motor; three-phase ac/ac converter; zero-vector switching;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2010.2088139
