Rohan Dayal scite author profile

In this paper, a direct ac-dc power electronic converter topology is proposed for efficient and optimum energy harvesting from low-voltage microgenerators. The converter utilizes the bidirectional current-conduction capability of MOSFETs to avoid the use of a front-end bridge rectifier. It is operated in discontinuous conduction mode and offers a resistive load to the microgenerator. Detailed analysis and modeling of the converter is presented. In such low-power applications, the power consumption of gate drive and control circuits should be minimal. In this paper, they are specifically designed to consume very low power. A suitable startup circuit and auxiliary dc supply circuit is proposed for the implementation of the converter. A low-voltage microgenerator is used to verify the performance and operation of the converter and the gate drive circuits.Index Terms-AC-DC power conversion, boost converter, energy harvesting, low power, low voltage.

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A New Design for Vibration-Based Electromagnetic Energy Harvesting Systems Using Coil Inductance of Microgenerator

Dayal

Dwari²,

Parsa

2011

IEEE Trans. on Ind. Applicat.

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A direct AC LED driver with high power factor without the use of passive components

Dayal

Modepalli

Parsa

2012

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Efficient direct ac-to-dc converters for vibration-based low voltage energy harvesting

Dwari

Dayal

Parsa

et al. 2008

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A Novel direct AC/DC converter for efficient low voltage energy harvesting

Dwari

Dayal

Parsa

2008

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Rohan Dayal

Design and Implementation of a Direct AC–DC Boost Converter for Low-Voltage Energy Harvesting

A New Design for Vibration-Based Electromagnetic Energy Harvesting Systems Using Coil Inductance of Microgenerator

A direct AC LED driver with high power factor without the use of passive components

Efficient direct ac-to-dc converters for vibration-based low voltage energy harvesting

A Novel direct AC/DC converter for efficient low voltage energy harvesting

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