A low voltage input boost converter with novel switch driver enhancement technology for indoor solar energy harvesting

In the indoor environment, the output voltage of a small photovoltaic cell is usually too low to charge the battery or utilize it directly. As a result, this paper proposed a low-voltage input boost converter with novel switch driver enhancement technology for indoor solar energy harvesting. The boost converter utilized switched-capacitor charge pump architecture. Compared with conventional charge pumps, the proposed boost converter uses driver enhancement technology, which improves the output current ability of the circuit and power conversion efficiency. Besides, an adaptive dead-time circuit is designed to further optimize conversion efficiency at low input voltage. The integrated circuit (IC) of the boost converter has been manufactured in a 180 nm BCD process and occupies an active chip area of 1.6mm × 0.6 mm. Experimental measurement results confirm that the voltage boost converter increased the input voltage by four times. And the lowest start-up voltage is 0.12 V. The voltage conversion efficiency is 98 % and the highest power conversion efficiency is 76.7 % at Vin of 0.5 V. The design is suitable for indoor solar energy harvesting.