Abstract
Many energy harvesters (EH) deliver an ac voltage and require a rectifier as a consequence. This paper describes how the rectifier affects the power flow transmitted from the EH to the load and how to tackle the different voltage amplitudes. This study has been performed using analytical calculations, numerical modeling and experiments. To reach the maximum power transfer, conventional methods apply a fraction of the open-circuit voltage delivered by the EH. In contrast, this study points out that the optimum operating point must be shifted by a quantity depending on the rectifier characteristics. This difference is particularly important when the EH provides relatively small ac voltages. Two classic rectifiers are covered: a diode bridge (DB) and a MOSFET bridge (MB). An approximated solution of the analytical model is proposed and allows to optimize the EH without cumbersome numerical computations. Experiments are conducted first with a function generator and then with an electromagnetic EH prototype. The outcomes from the analytical model and the numerical model are in good agreement with the experimental results. A new regulation method is proposed for maximizing the power transferred from the ac EH to the load.
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