Improved Operation of the Modified Non-Inverting Step-Down/Up (MNI-SDU) DC-DC Converter
Journal
Micromachines
ISSN
2072-666X
Publisher
MDPI AG
Date Issued
2025-09-20
Author(s)
Juan A. Villanueva-Loredo
Panfilo R. Martinez-Rodriguez
Christopher J. Rodriguez-Cortes
Diego Langarica-Cordoba
Gerardo Vazquez-Guzman
Type
text::journal::journal article
Abstract
<jats:p>This paper presents an enhanced operation strategy for a recently proposed converter called Modified Non-Inverting Step-Down/Up (MNI-SDU) DC-DC converter intended for battery voltage regulation. Unlike the conventional approach, where both switching stages share a single duty cycle, the proposed method controls asynchronously the two duty cycles through a fixed time offset to optimize performance. A methodology is developed to define suitable duty cycle ranges that ensure proper converter operation according to input/output voltage specifications, while simultaneously reducing the current and voltage ripples and electrical stress in the capacitor and semiconductors. Furthermore, a model-based control strategy is proposed, taking into account the enhanced operational characteristics. Consequently, a PI-PI current-mode controller is designed using loop shaping techniques to maintain the output voltage regulated at the desired level. The proposed approach is analyzed mathematically and validated through experimental results. The findings demonstrate that optimizing through asynchronous duty-cycle control with a fixed time offset improves ripple, stress values, and overall efficiency, while maintaining robust output voltage regulation, making this method well-suited for applications requiring compact and reliable power conversion.</jats:p>