![]() The time-domain and frequency-domain characteristics of the converter are analyzed by using a design example. Output voltage step responses to the duty cycle and input voltage step changes are provided. The component parasitics of the converter are included. The transfer functions of the non-isolated Cuk dc-dc converter power-stage are duty cycle-to-output voltage, input voltage-to-output voltage, output impedance, and input impedance. By using circuit averaging technique, the dc and the small-signal ac models of the non-isolated Cuk dc-dc converter operating in CCM are derived. The overall converter efficiency is derived. The power loss of various converter components is predicted. Design equations for the converter are provided. The expected steady-state current and voltage waveforms across different components of the converter are analytically derived. An analysis describing a detailed steady-state operation of the non-isolated Cuk converter operating in continuous-conduction mode (CCM) is provided. This converter is invented and named after by Slobodan Cuk. Its applications can be widely used in hybrid solar-wind energy systems, electric vehicles, etc. ![]() Having a sustainable energy source as an input voltage source for the electrical system is essential. In the future, renewable energy sources will be the primary energy sources due to non-renewable energy resources depletion. ![]()
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