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DEVELOPMENT OF A POWER MANAGEMENT CIRCUIT FOR MICROENERGY HARVESTERS

 Farid Ullah Khan*, Atal Khattak*

 * Intitute of Mechatronics Engineering, University of Engineering & Technology, Peshawar, Pakistan.

ABSTRACT

 This work reports on the development a power management circuit (PMC) for micro energy harvesters. The circuit

is design to regulate the power between three different power sources for the operation of a wireless sensor nodes
(WSNs). The main components of the circuit are resistors (carbon film), capacitors (electrolytic), inductors (ferric
bead, axial leaded), and a DC voltage regulators (TPS62100DRC-BRR). The layout of the circuit is patterned on
a printed circuit board (PCB) using PCB fabrication technology. To the circuit three different types of sources (DC
power source, rectified AC voltage and a solar energy harvester) are connected and the output regulated voltage
provided by the PMC is measured and analyzed. At different input voltage levels (0.5 to 5.5 V) the circuit successfully
regulated to almost a uniform output voltage (2.75 to 2.96 V). With the circuit using a DC power source and
a solar (solar cell) energy harvester a super capacitor is charged to a voltage of 2.75 and 2.05 V in 180 s and 840
s respectively. Beyond 100 Ω load resistance the PMC regulated a constant output current of 180 mA. Moreover,
beyond 100 Ω load resistance the power consumption of the circuit is almost steady for different input voltage levels.
The average consumption of the developed PMC is about 70 mW.

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Journal of Engineering and Applied Sciences

December

Vol. 42, pp. 01-48

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