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A Composite Exponential Reaching Law Based SMC with Rotating Sliding Surface Selection Mechanism for Two Level Three Phase VSI in Vehicle to Load Applications
Haroon, Faheem Aamir, Muhammad Waqar, Asad Mian Qaisar, Saeed Syed, Umaid Ali Turki Almaktoom, Abdulaziz
Haroon, Faheem
Aamir, Muhammad
Waqar, Asad
Mian Qaisar, Saeed
Syed, Umaid Ali
Turki Almaktoom, Abdulaziz
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2022-12-28
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first_page settings Order Article Reprints Open AccessArticle A Composite Exponential Reaching Law Based SMC with Rotating Sliding Surface Selection Mechanism for Two Level Three Phase VSI in Vehicle to Load Applications by Faheem Haroon 1, Muhammad Aamir 2, Assad Waqar 1,* [ORCID] , Saeed Mian Qaisar 3,4,* [ORCID] , Syed Umaid Ali 1 [ORCID] and Abdulaziz Turki Almaktoom 5,* [ORCID] 1 Department of Electrical Engineering, Bahria School of Engineering and Applied Sciences Islamabad Campus (BSEAS-IC), Islamabad 44000, Pakistan 2 Pak-Austria Fachhochschule Institute of Applied Sciences and Technology, Haripur 22620, Pakistan 3 Electrical and Computer Engineering Department, Effat University, Jeddah 22332, Saudi Arabia 4 Communication and Signal Processing Lab, Energy and Technology Research Center, Effat University, Jeddah 22332, Saudi Arabia 5 Supply Chain Management Department, Effat University, Jeddah 22332, Saudi Arabia * Authors to whom correspondence should be addressed. Energies 2023, 16(1), 346; https://doi.org/10.3390/en16010346 Received: 14 November 2022 / Revised: 16 December 2022 / Accepted: 20 December 2022 / Published: 28 December 2022 (This article belongs to the Special Issue Electrochemical Energy Storage Technology and Management Systems for Vehicular Applications) Download Browse Figures Versions Notes Abstract Voltage source inverters (VSIs) are an integral part of electrical vehicles (EVs) to enhance the reliability of the supply power to critical loads in vehicle to load (V2L) applications. The inherent properties of sliding mode control (SMC) makes it one of the best available options to achieve the desired voltage quality under variable load conditions. The intrinsic characteristic of robustness associated with SMC is generally achieved at the cost of unwanted chattering along the sliding surface. To manage this compromise better, optimal selection of sliding surface coefficient is applied with the proposed composite exponential reaching law (C-ERL). The novelty of the proposed C-ERL is associated with the intelligent mix of the exponential, power, and difference functions blended with the rotating sliding surface selection (RSS) technique for three phase two level VSI. Moreover, the proposed reaching law along with the power rate exponential reaching law (PRERL), enhanced exponential reaching law (EERL), and repetitive reaching law (RRL) were implemented on two level three phase VSI under variable load conditions. A comparative analysis strongly advocates the authenticity and effectiveness of the proposed reaching law in achieving a well-regulated output voltage with a high level of robustness, reduced chattering, and low %THD.
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Effat University