R.E. Sinitskiy scite author profile

The paper presents a theoretical study of the electrostatic vibrational energy harvester (e-VEH) operation features based on the work function difference between the variable capacitor electrodes. The analysis was carried out for two types of the conditioning circuits: half-wave rectifier and Bennet doubler circuits both with ideal switches and diodes. Both circuits are able to accumulate electrical energy even for low contact potential differences V bi. Bennet doubler demonstrates higher efficiency than the half-wave rectifier. However, when the variable capacitance modulation depth η ⩾ 2 it is necessary to introduce special means to limit the voltages growth process and avoid an electrical breakdown for the Bennet doubler circuit. For both circuits with diodes the capacitor voltages become lower than those for the circuits with switches and depend now not purely on the built-in voltage V bi and η, but also on the used diode parameters. When the values of V bi increase the capacitor voltages for circuits with diodes tend to the corresponding voltages for the circuits with switches. There is also a strong dependence of the capacitor saturation voltage V C1,max on inverse current of the diodes IS . The optimal inverse current of the diodes when the highest saturation voltages are reached is found to be in the range from 50 pA to 100 pA.

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Load resistance influence on the Bennet doubler based electrostatic mechanical-to-electrical energy converter operation

Dragunov

Ostertak

Pelmenev

et al. 2023

Sensors and Actuators A: Physical

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An analysis of the Microelectromechanical Generator with Periodical LOAD connection

Dragunov¹,

Ostertak²,

Sinitskiy³

2019

NMST

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R.E. Sinitskiy

New modifications of a Bennet doubler circuit-based electrostatic vibrational energy harvester

Electrostatic vibrational energy converter with two variable capacitors

Operation features of electrostatic vibrational energy harvester based on contact potential difference

Load resistance influence on the Bennet doubler based electrostatic mechanical-to-electrical energy converter operation

An analysis of the Microelectromechanical Generator with Periodical LOAD connection

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