论文信息 - Simultaneous Multi-Source Integrated Energy Harvesting System for IoE Applications

Simultaneous Multi-Source Integrated Energy Harvesting System for IoE Applications

This paper presents an integrated modular multi-source energy harvesting system based on the Dickson charge pump and hill-climbing algorithm. The proposed maximum output power extraction is optimizing the system’s end-to-end efficiency. It collects the power simultaneously from multiple energy sources and boosts their DC voltages to a regulated output voltage that can be used for Internet of Everything (IoE) applications. The proposed implementation utilizes the whole capacitance on-chip regardless of the number of stages in use. A demonstration system using the proposed techniques is implemented for two sources in 0.18 μm CMOS technology and utilizes a total of 900 pF MIM capacitance. The simulation results shows that the proposed system achieves a peak MPPT efficiency of 90%, charge pump efficiency of 70% and end-to-end efficiency of 55% at a regulated output voltage of 1.5 V.

Faisal A. Hussien | Mohamed M. Aboudina | A. N. Mohieldin | Mohamed Badr

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