TITLE
TOLERANCE ANALYSIS OF BOOST DC-DC CONVERTER
AUTHOR(S)
Gergana Vacheva1, Plamen Stanchev2, Nikolay Hinov1*
ABSTRACT
This paper provides a detailed and comprehensive tolerance analysis of a boost DC-DC converter, emphasizing the effects of component tolerances on the overall performance and reliability of the converter. Boost converters are extensively used in modern power electronics systems to increase voltage levels in applications such as renewable energy systems, electric vehicles, and industrial power supplies. These systems often demand high efficiency and precise regulation, making the accuracy and tolerance of key components—such as inductors, capacitors, resistors, and semiconductors—critical. This analysis explores the impact of component tolerances on several key performance metrics, including output voltage stability, power efficiency, ripple, and transient response. Furthermore, the paper discusses strategies to mitigate the negative impacts of component variations, providing insights into improving the robustness and reliability of boost converters for real-world applications.
DOI
http://www.doi.org/10.70456/LUJA9276
DOWNLOAD
https://unitechsp.tugab.bg/images/2024/1-EE/s1_p142_v1.pdf
How to cite this article:
Gergana Vacheva, Plamen Stanchev, Nikolay Hinov, TOLERANCE ANALYSIS OF BOOST DC-DC CONVERTER, UNITECH – SELECTED PAPERS - 2024