摘要
The Cascaded Connected Single Switch Quadratic Boost (C<sup>2</sup>S<sup>2</sup>-QB) is studied first from its ideal model, then with semi-real model taking into account resistive losses through the inductors and the capacitor. The continuous conduction mode equations, describing these different models are established, taking into account losses through passive components. From these equations, the voltage gain and the efficiency are determined for the semi-real model. The voltage gain and the efficiency are then analyzed versus duty cycle and the influence of passive component losses on the performance of the quadratic boost converter is carried out for the semi-real model. It has been showed that the quality of the passive components of a converter plays an important role in the quality of the conversion. However, not all passives components affect the converter in the same way.
The Cascaded Connected Single Switch Quadratic Boost (C<sup>2</sup>S<sup>2</sup>-QB) is studied first from its ideal model, then with semi-real model taking into account resistive losses through the inductors and the capacitor. The continuous conduction mode equations, describing these different models are established, taking into account losses through passive components. From these equations, the voltage gain and the efficiency are determined for the semi-real model. The voltage gain and the efficiency are then analyzed versus duty cycle and the influence of passive component losses on the performance of the quadratic boost converter is carried out for the semi-real model. It has been showed that the quality of the passive components of a converter plays an important role in the quality of the conversion. However, not all passives components affect the converter in the same way.
作者
Modou Badiane
Prince Abdoul Aziz Honadia
Bernard Zouma
Fabé Idrissa Barro
Modou Badiane;Prince Abdoul Aziz Honadia;Bernard Zouma;Fabé Idrissa Barro(Department of Physics, Semiconductors and Solar Energy Laboratory, Faculty of Science and Technique, Cheikh Anta Diop University, Dakar, Senegal;Department of Physics, Thermal Renewable Energies Laboratory, Training and Research Unit in Exact and Applied Sciences, Joseph Ki-Zerbo University, Ouagadougou, Burkina Faso)
