Abstract
This paper introduces a two-switch high gain non-isolated Cuk converter which can be used as a high gain DC-DC converter in renewable energy, such as photovoltaic and fuel cell, applications because their output is low. As the conventional, the proposed Cuk converter provides negative output voltage but with a higher voltage in magnitude. The main advantage of the proposed converter is having lower voltage stress with the ability to maintain a higher voltage gain. By combining a switched-inductor and a switched-capacitor into the conventional Cuk converter, the proposed Cuk converter has the ability to reach 13 times the input voltage for a duty cycle D of 0.75. Also, by attaching more switched-inductors to the proposed Cuk converter, more voltage gain can be achieved. A complete theoretical analysis of the Continuous Conduction Mode (CCM) of the proposed Cuk converter is presented and the key aspects of the circuit design have been derived. Also, a comparison in terms of voltage gain and voltage stress between the proposed Cuk converter and Cuk converters using other techniques is presented. The proposed Cuk converter has been designed for 100W rated power, -152V output voltage, 50kHz switching frequency, and 75% duty cycle. The presented converter is simulated in Matlab/Simulink and the results are discussed.
Highlights
Due to the expected depletion of the traditional energy sources, the world pays growing attention to alternative ones [1]
When the conventional boost converter is operated at a high output voltage, the duty cycle will become unity
The main aim was to design a DC-DC converter with high voltage gain and low voltage stress on the main semiconductor switch. This was done by integrating both the switched-inductor and the switched-capacitor techniques into the conventional Cuk converter
Summary
Due to the expected depletion of the traditional energy sources, the world pays growing attention to alternative ones [1]. When the conventional boost converter is operated at a high output voltage, the duty cycle will become unity. The main aim was to design a DC-DC converter with high voltage gain and low voltage stress on the main semiconductor switch. This was done by integrating both the switched-inductor and the switched-capacitor techniques into the conventional Cuk converter.
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