This paper is published in Volume-7, Issue-5, 2021
Area
Electrical And Electronics Engineering
Author
K. Aravinda Shilpa, Allu Sumalatha, Dalli Bhavya Raga Akanksha Reddy, Katcha Kavya, Chalugu Sai Kumari
Org/Univ
Andhra University College of Engineering for Women, Visakhapatnam, Andhra Pradesh, India
Pub. Date
15 September, 2021
Paper ID
V7I5-1207
Publisher
Keywords
H-Bridge, DC Motor Control, Wind Energy Conversion, DC Motor Control Using Matlab/Simulink.

Citationsacebook

IEEE
K. Aravinda Shilpa, Allu Sumalatha, Dalli Bhavya Raga Akanksha Reddy, Katcha Kavya, Chalugu Sai Kumari. Application of wind energy in the DC motor control using MATLAB/SIMULINK., International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARIIT.com.

APA
K. Aravinda Shilpa, Allu Sumalatha, Dalli Bhavya Raga Akanksha Reddy, Katcha Kavya, Chalugu Sai Kumari (2021). Application of wind energy in the DC motor control using MATLAB/SIMULINK.. International Journal of Advance Research, Ideas and Innovations in Technology, 7(5) www.IJARIIT.com.

MLA
K. Aravinda Shilpa, Allu Sumalatha, Dalli Bhavya Raga Akanksha Reddy, Katcha Kavya, Chalugu Sai Kumari. "Application of wind energy in the DC motor control using MATLAB/SIMULINK.." International Journal of Advance Research, Ideas and Innovations in Technology 7.5 (2021). www.IJARIIT.com.

Abstract

Commercial wind energy is one of the most economical sources of new electricity available today. In this power point presentation, the main objective is to explain how wind energy is used in the control of DC motor. Wind Energy Conversion System (WECS) is done by using a doubly fed induction generator driven turbine in MATLAB/SIMULINK. Speed control of a machine is the most vital and important part in any industrial organization. Now, this DC motor control is done with the help of a H-Bridge circuit. The AC output obtained from the wind energy is converted into DC and is fed to the DC motor. Results obtained by the implementation of WECS and DC motor control model in SIMULINK are presented. Additionally, the switching states required for the four-quadrant operation of a DC motor are presented.