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Design and Simulation of Buck Boost Converter with Load Based

Author(s) Jaladurgam Radha, P. Sravana Rekha
Country India
Abstract The purpose of this project titled "Design and Simulation of a Step-Up/Step-Down Converter" is to create a high-advantage DC-DC converter. High-advantage technology has been efficiently used in DC-DC converters. However, the output voltage should be expanded progressively. This paper offers an vital technical benefit that increases the sensing output at a single depth degree. This efficaciously increases the voltage transfer coefficient in Stevens' regulation. Today, the usage of renewable electricity assets is increasing unexpectedly because of their cleanliness and price-efficiency. However, renewable energy resources along with solar panels and gas cells provide an inconsistent DC voltage, typically less than 50V, so to connect those assets to an AC load or grid, the output voltage need to be accelerated to a higher voltage (normally 300-400V). Standard increase converters cannot provide this type of high switching price due to the high switching voltage and the high trouble in cycling. Therefore, excessive-energy DC/DC converters are required. These converters are utilized in various applications, together with high-intensity discharge (HID) lamps for car headlights, battery backup structures for uninterruptible energy resources (UPS), and energy components in telecommunications.
Keywords high-intensity discharge, Software packages, resonant converters, DC-DC power converters, Mathematical models.
Field Engineering
Published In Volume 6, Issue 4, April 2025
Published On 2025-04-07
Cite This Design and Simulation of Buck Boost Converter with Load Based - Jaladurgam Radha, P. Sravana Rekha - IJLRP Volume 6, Issue 4, April 2025.
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