Title :
A Novel Absolute Value Logic SPWM Control Strategy Based on De-Re-Coupling Idea for High Frequency Link Matrix Rectifier
Author :
Zhaoyang Yan ; Kun Zhang ; Jianxia Li ; Weiyang Wu
Author_Institution :
Dept. of Electr. Eng. & Autom., Yan Shan Univ., Qinhuangdao, China
Abstract :
Matrix Rectifier has evolved from the traditional three phase to three phase Matrix Converter (MC) in recent years, and inherits merits of the traditional MC. Matrix Rectifier could be divided into isolated and non-isolated two types according to using high frequency transformer or not. A kind of isolated Matrix Rectifier topology, i.e., high frequency link Matrix Rectifier (HFLMR) has been selected as the study project. Space vector modulation is the mostly focused control strategy for the HFLMR, however its algorithm and its implementation are complicated and difficulty. So a novel straightforward absolute value logic SPWM control strategy based on De-Re-coupling idea has been proposed in this paper, which could realize unit power factor and DC voltage output, and made the transformer gain volt-second balance in a high frequency switching cycle. The validity and feasibility of the proposed control strategy have been well proved by the simulation and experiment results, and a special working phenomenon named as “the dual voltage endemism” has been analyzed in detail.
Keywords :
PWM rectifiers; matrix convertors; power factor; DC voltage output; HFLMR; derecoupling idea; dual voltage endemism; high frequency link matrix rectifier; high frequency switching cycle; straightforward absolute value logic SPWM control strategy; three phase to three phase MC; three phase to three phase matrix converter; unit power factor; Frequency conversion; Frequency modulation; Frequency synthesizers; Matrix converters; Rectifiers; Switches; Absolute value logic SPWM; de-re-coupling; high frequency link; matrix rectifier; the dual voltage endemism;
Journal_Title :
Industrial Informatics, IEEE Transactions on
DOI :
10.1109/TII.2012.2220975