Filter Design of Direct Matrix Converter for Synchronous Applications

Author

Dasgupta, Avirup ; Sensarma, Parthasarathi

Author_Institution

Dept. of Avionics, Indian Inst. of Space Sci. & Technol., Thiruvananthapuram, India

Volume

61

Issue

12

fYear

2014

fDate

Dec. 2014

Firstpage

6483

Lastpage

6493

Abstract

Filters for switching ripple attenuation are essential at the input, and sometimes at the output for certain applications, for the deployment of matrix converters (MCs). Due to the absence of inertial elements in the MC structure and the consequent tight input-output coupling, the filter parameters significantly affect its dynamic behavior. This paper presents an exhaustive filter design method for synchronous applications of the MC in power systems. Apart from the usual considerations of ripple attenuation, voltage regulation, reactive current loading, and internal losses, this paper also addresses additional constraints which may be imposed by requirements of dynamic performance and reliable commutation. Rigorous analytical justification of each design step is provided and the sequential design process is summarized. Relevant experimental results are presented to validate the proposed design tool.

Keywords

matrix convertors; power filters; power systems; switching convertors; synchronous machines; MC structure; dynamic behavior; dynamic performance; filter design method; filter parameter; input-output coupling; internal losses; matrix converter; power systems; reactive current loading; reliable commutation; sequential design process; switching ripple attenuation; synchronous applications; voltage regulation; Harmonic analysis; Matrix converters; Power harmonic filters; Voltage control; Voltage measurement; Filter design; matrix converter (MC); synchronous applications;

fLanguage

English

Journal_Title

Industrial Electronics, IEEE Transactions on

Publisher

ieee

ISSN

0278-0046

Type

jour

DOI

10.1109/TIE.2014.2317134

Filename

6797929