Effective dynamic disturbance rejection scheme based on higher order sliding mode control for DC-AC inverter under load variation
In this paper, a dynamic super twisting sliding mode controller(ST-SMC) is proposed to resolve the problems associated with sudden load changes in AC-DC inverter system such that a high-quality output can be obtained. By developing a non-linear extended state observer (NLESO), both system states and...
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2023
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| Online Access: | http://eprints.utm.my/105743/1/AbdulRashidHusain2023_EffectiveDynamicDisturbanceRejection.pdf http://eprints.utm.my/105743/ http://dx.doi.org/10.1177/00202940221124582 |
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my.utm.1057432024-05-15T06:54:16Z http://eprints.utm.my/105743/ Effective dynamic disturbance rejection scheme based on higher order sliding mode control for DC-AC inverter under load variation Anjum, Waqas Husain, Abdul Rashid Abdul Aziz, Junaidi Rehman, Syed Muhammad Fasih Bakht, Muhammad Paend Alqaraghuli, Hasan Thaer TK Electrical engineering. Electronics Nuclear engineering In this paper, a dynamic super twisting sliding mode controller(ST-SMC) is proposed to resolve the problems associated with sudden load changes in AC-DC inverter system such that a high-quality output can be obtained. By developing a non-linear extended state observer (NLESO), both system states and lumped parameter disturbances are estimated and incorporated into controller design. This dynamic disturbance estimation and rejection algorithm not only increases the control loop reliability by eliminating the current sensor dependency, but it also allows the ST-SMC to be implemented with a small switching gain that minimizes the chattering effect. Optimal observer gain parameters design has been achieved by adopting the particle swarm optimization approach. The stability of the entire closed-loop system is proven based on the Lyapunov stability criterion. The effectiveness of the proposed dynamic ST-SMC algorithm has been validated in MATLAB Simulink environment where, the control strategy exhibit rapid dynamic response with a steady-state error of (Formula presented.). The total harmonic distortion (THD) is also reduced to 0.02% (Formula presented.) and 0.08 (Formula presented.) % for linear and non-linear loads, respectively. SAGE Publications Ltd 2023-01 Article PeerReviewed application/pdf en http://eprints.utm.my/105743/1/AbdulRashidHusain2023_EffectiveDynamicDisturbanceRejection.pdf Anjum, Waqas and Husain, Abdul Rashid and Abdul Aziz, Junaidi and Rehman, Syed Muhammad Fasih and Bakht, Muhammad Paend and Alqaraghuli, Hasan Thaer (2023) Effective dynamic disturbance rejection scheme based on higher order sliding mode control for DC-AC inverter under load variation. Measurement and Control (United Kingdom), 56 (1-2). pp. 384-395. ISSN 0020-2940 http://dx.doi.org/10.1177/00202940221124582 DOI:10.1177/00202940221124582 |
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TK Electrical engineering. Electronics Nuclear engineering Anjum, Waqas Husain, Abdul Rashid Abdul Aziz, Junaidi Rehman, Syed Muhammad Fasih Bakht, Muhammad Paend Alqaraghuli, Hasan Thaer Effective dynamic disturbance rejection scheme based on higher order sliding mode control for DC-AC inverter under load variation |
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In this paper, a dynamic super twisting sliding mode controller(ST-SMC) is proposed to resolve the problems associated with sudden load changes in AC-DC inverter system such that a high-quality output can be obtained. By developing a non-linear extended state observer (NLESO), both system states and lumped parameter disturbances are estimated and incorporated into controller design. This dynamic disturbance estimation and rejection algorithm not only increases the control loop reliability by eliminating the current sensor dependency, but it also allows the ST-SMC to be implemented with a small switching gain that minimizes the chattering effect. Optimal observer gain parameters design has been achieved by adopting the particle swarm optimization approach. The stability of the entire closed-loop system is proven based on the Lyapunov stability criterion. The effectiveness of the proposed dynamic ST-SMC algorithm has been validated in MATLAB Simulink environment where, the control strategy exhibit rapid dynamic response with a steady-state error of (Formula presented.). The total harmonic distortion (THD) is also reduced to 0.02% (Formula presented.) and 0.08 (Formula presented.) % for linear and non-linear loads, respectively. |
| format |
Article |
| author |
Anjum, Waqas Husain, Abdul Rashid Abdul Aziz, Junaidi Rehman, Syed Muhammad Fasih Bakht, Muhammad Paend Alqaraghuli, Hasan Thaer |
| author_facet |
Anjum, Waqas Husain, Abdul Rashid Abdul Aziz, Junaidi Rehman, Syed Muhammad Fasih Bakht, Muhammad Paend Alqaraghuli, Hasan Thaer |
| author_sort |
Anjum, Waqas |
| title |
Effective dynamic disturbance rejection scheme based on higher order sliding mode control for DC-AC inverter under load variation |
| title_short |
Effective dynamic disturbance rejection scheme based on higher order sliding mode control for DC-AC inverter under load variation |
| title_full |
Effective dynamic disturbance rejection scheme based on higher order sliding mode control for DC-AC inverter under load variation |
| title_fullStr |
Effective dynamic disturbance rejection scheme based on higher order sliding mode control for DC-AC inverter under load variation |
| title_full_unstemmed |
Effective dynamic disturbance rejection scheme based on higher order sliding mode control for DC-AC inverter under load variation |
| title_sort |
effective dynamic disturbance rejection scheme based on higher order sliding mode control for dc-ac inverter under load variation |
| publisher |
SAGE Publications Ltd |
| publishDate |
2023 |
| url |
http://eprints.utm.my/105743/1/AbdulRashidHusain2023_EffectiveDynamicDisturbanceRejection.pdf http://eprints.utm.my/105743/ http://dx.doi.org/10.1177/00202940221124582 |
| _version_ |
1800082656964116480 |