Modelling and control of a DC-DC quadratic boost converter with R2P2

In the past years, the development of topologies with step-up capacities has been important to satisfy the new requirement of renewable source energy. This study presents a quadratic boost converter based on the reduced redundant power processing (R2P2) principle, well as the controller design methodology using current-programmed control to satisfy the specifications of output voltage regulation. Non-linear and linear models are developed; the latter exhibits fourth-order characteristic dynamics with complex right-half plane zeros. In the proposed control scheme, the current of the switch is used for feedback purposes. When the current loop is implemented, the fourth-order dynamics are changed to a dominant first order, which simplifies the controller design of outer loop. For this loop, a conventional controller is designed. At the end, experimental results are given for a 23 W quadratic boost converter, where open-loop and closed-loop responses are compared. © The Institution of Engineering and Technology 2013.

Closed-loop response; Controller designs; Conventional controllers; Current-programmed control; Modelling and controls; Output voltage regulation; Power processing; Renewable sources; Power electronics; Electrical engineering

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