John Chiasson | Opal RT

Real-Time Computer Control of a Multilevel Converter Using the Mathematical Theory of Resultants

Publication date : Jul 2002
Paper File : 271j_chiasson.pdf

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Author(s)

Zhong Du, Leon Tolbert, Keith J. McKensie, John Chiasson,

Abstract

This paper explains the mathematical theory of resultants used to compute the switching angles in a multilevel converter so that it produces the required fundamental voltage while at the same time cancels out unwanted order harmonics.

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Control of a Multilevel Converter Using Resultant Theory

Publication date : Mar 2003
Paper File : trans_control_systems_may_2003.pdf

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Author(s)

Zhong Du, Leon Tolbert, Keith J. McKensie, John Chiasson,

Abstract

This paper describes the method given to compute the switching angles in a multi-level converter to produce the required fundamental voltage while at the same time cancel specified higher order harmonics.

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A Library of Simulink Blocks for Real-time Control of HEV Traction Drives

Publication date : Dec 2001
Paper File : hev_traction_drives.pdf

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Author(s)

Leon Tolbert, John Chiasson,

Abstract

This paper describes the development of advanced control and modeling algorithms for the various types of motor drives considered for hybrid electric vehicles (HEVs). The algorithms are given in the high-level language of MATLAB/SIMULINK. The algorithms consist of SIMULINK blocks that can be easily implemented in a real-time test environment for induction, switched reluctance, and permanent magnet synchronous machines. This eliminates the need for specialized programming in C or assembly languages providing investigators a much simpler way to study proposed control algorithms for various motor drives.

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