An Adaptive 2-Mode Bias-Flip Rectifier with Lowered Cold-Startup Voltage Requirement for Multiple Piezoelectric Energy Harvesting

Abstract

Various bias-flip rectifiers were proposed to improve the energy extraction performance for piezoelectric energy harvesting (PEH), which requires a power supply. However, no stable power supply is available when the system starts from a cold state. Typically, during the cold state, the system operates as a passive full bridge rectifier (FBR) to build up a stable power supply by charging a capacitor and then switching to the active rectifier after the cold state. Unfortunately, the system cannot start up if the open circuit voltage from a piezoelectric transducer (PT) is lower than the required supply voltage level. As a result, the system would end up with cold startup failure. This paper proposes a 2-mode bias-flip rectifier, which addresses the startup issue by lowering the required input open circuit voltage from the PT. The proposed design was fabricated in a 180-nm BCD process. Measurement results show that the necessary open-circuit voltage from the PT is lowered by 73% to achieve a successful cold startup, and the proposed system achieves 1182% energy extraction enhancement compared to a passive FBR.