Engineering and Technology Journal

Experimental Study of F2833x/Texas Ins. for Constructing Speed Controller on a Synchronous Motor Based on SVPWM Method

Document Type : Research Paper

Authors

1 Electrical Power and Machine Engineering Dept., College of Engineering, University of Diyala, Diyala Province,

2 Electrical Engineering Dept, University of Technology-Iraq, Alsina’a Street, 10066 Baghdad, Iraq.

3 Electrical Power and Machine Engineering Dept., College of Engineering, University of Diyala, Diyala Province, Iraq

Abstract

Microprocessor programming algorithms in electrical inverter drive systems are essential in developing and formulating modern methods in closed control circuits. The microprocessor used in the current research, TMS320f28335, has a high system clock s frequency (150 MHz) that reaches up to, which gives an almost perfect ability to output the three-voltage sinewave generated from the inverter under consideration. Obtaining a sinewave voltage means the lowest possible harmonics (THD) and thus the best performance of the induction motor at starting and dynamic stability. The current research used the directional inclusion method to implement the six inverter switches (IGBTs) mechanism. Mathematical calculations were made for Space Vector Pulse Width Modulation (SVPWM) method, and then the microprocessor was programmed to implement it. The practical board Voltage Source inverter (VSI) was tested extensively. 

Graphical Abstract

Highlights

  • The directional inclusion method was used to implement the six inverter switches (IGBTs) mechanism.  
  •  Mathematical calculations were made for Space Vector Pulse Width Modulation (SVPWM) method.
  • The experimental board Voltage Source inverter (VSI) was tested extensively

Keywords

References
 
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Engineering and Technology Journal
Volume 40, Issue 2
Electrical Engineering
, 16 articles
February 2022
Page 301-310
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