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Main Authors: Liu, Yiwei, Wang, Ziming, Wang, Xin, Ji, Yiding
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.06987
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author Liu, Yiwei
Wang, Ziming
Wang, Xin
Ji, Yiding
author_facet Liu, Yiwei
Wang, Ziming
Wang, Xin
Ji, Yiding
contents This paper explores the voltage regulation challenges in boost converter systems, which are critical components in power electronics due to their ability to step up voltage levels efficiently. The proposed control algorithm ensures fixed-time stability, a desirable property that guarantees system stability within a fixed time frame regardless of initial conditions. To tackle the common chattering issues in conventional fixed-time control methods, a novel class of function families is introduced. State observers and adaptive parameters are utilized to manage the uncertainties associated with unknown load resistance. Furthermore, a new disturbance observer is developed using the proposed function family, and its advantages and limitations are illustrated through comparison with existing designs. Finally, both non-real-time and real-time simulations are conducted to validate the effectiveness and deployability of the proposed control algorithm.
format Preprint
id arxiv_https___arxiv_org_abs_2508_06987
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Fixed-Time Voltage Regulation for Boost Converters via Unit-Safe Saturating Functions
Liu, Yiwei
Wang, Ziming
Wang, Xin
Ji, Yiding
Systems and Control
This paper explores the voltage regulation challenges in boost converter systems, which are critical components in power electronics due to their ability to step up voltage levels efficiently. The proposed control algorithm ensures fixed-time stability, a desirable property that guarantees system stability within a fixed time frame regardless of initial conditions. To tackle the common chattering issues in conventional fixed-time control methods, a novel class of function families is introduced. State observers and adaptive parameters are utilized to manage the uncertainties associated with unknown load resistance. Furthermore, a new disturbance observer is developed using the proposed function family, and its advantages and limitations are illustrated through comparison with existing designs. Finally, both non-real-time and real-time simulations are conducted to validate the effectiveness and deployability of the proposed control algorithm.
title Fixed-Time Voltage Regulation for Boost Converters via Unit-Safe Saturating Functions
topic Systems and Control
url https://arxiv.org/abs/2508.06987