In this paper, a detailed model of a RIPT system, to design and control a power charging station for e-bike clever mobility, is proposed. Specifically, it is provided a detailed mathematical nonlinear model of the system composed of an oscillator transformer and a bridge with characteristics of the ideal and real diodes, valid for any behavior of the supply voltage. This model is used to both theoretically and via simulation analyze the RIPT system powered with square wave voltage for different values of the duty-cycle, frequency and of the parameters of the battery. Moreover, it is proposed a discreteâtime detailed model and the related simulator to design and realize a simple and robust discreteâtime control system, which allows to charge the battery with a fixed behavior of the current. The proposed model has been validated with significant experimental tests.
Detailed continuous and discrete time models and experimental validation to design a power charging station for e-bike clever mobility
Rubino, Luigi
2017
Abstract
In this paper, a detailed model of a RIPT system, to design and control a power charging station for e-bike clever mobility, is proposed. Specifically, it is provided a detailed mathematical nonlinear model of the system composed of an oscillator transformer and a bridge with characteristics of the ideal and real diodes, valid for any behavior of the supply voltage. This model is used to both theoretically and via simulation analyze the RIPT system powered with square wave voltage for different values of the duty-cycle, frequency and of the parameters of the battery. Moreover, it is proposed a discreteâtime detailed model and the related simulator to design and realize a simple and robust discreteâtime control system, which allows to charge the battery with a fixed behavior of the current. The proposed model has been validated with significant experimental tests.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
