Theoretical analysis of electrostatic energy harvester configured as Bennet's doubler based on Q‐V cycles

Abstract: We present a theoretical analysis of a MEMS electrostatic energy harvester configured as Bennet's doubler. The steady-state operation of the circuit can be approximated by a rectangular Q-V cycle in the ideal case or by a trapezoid diagram when the electrical losses are taken into account. A similarity between the voltage doubler and charge-pump circuit is highlighted. The analytical solution of the saturation voltage is derived, providing a more insightful comprehension of the system performance and the influ… Show more

“…In this research, we aim to extend the scheme proposed by Tvedt et al [18] and Truong et al [19] to harvest the energy of the heartbeat acceleration spectrum principally less than 100 Hz. The methodology of this research which is based on analytic modeling of the harvester and simulation of exposure to heartbeat acceleration is as follows: 1) Taking the in-plane overlap structure with only able to move and so extract the acceleration along x direction.…”

Optimal Heartbeat Energy Harvesting using Electrostatic Energy Harvesters

“…In this research, we aim to extend the scheme proposed by Tvedt et al [18] and Truong et al [19] to harvest the energy of the heartbeat acceleration spectrum principally less than 100 Hz. The methodology of this research which is based on analytic modeling of the harvester and simulation of exposure to heartbeat acceleration is as follows: 1) Taking the in-plane overlap structure with only able to move and so extract the acceleration along x direction.…”

Optimal Heartbeat Energy Harvesting using Electrostatic Energy Harvesters