Title |
Circuit Component Requirements for Energy Scavenging System |
Authors |
강성묵(Kang, Sung-Muk) ; 박경진(Park, Kyung-Jin) ; 김호성(Kim, Ho-Seong) |
Keywords |
Piezoelectric ; MFG ; Energy scavenging ; Low leakage diode ; Bridge rectifier ; Optimization |
Abstract |
Energy scavenging is a technique that converts ambient energy, for example, vibration and light, to electrical energy in order to supply power to low power electronic devices such as ubiquitous sensors. In this paper, we propose an optimal operation condition of power delivery circuit and design strategy for energy scavenging system in which the generated power is order of microwatt and, consequently, efficient handling of power is critical. We also propose that high data transmission rate is more realistic optimal design objective rather than high energy efficiency. It is shown that disconnection of load from the storage capacitor right after data transmission reduces energy wasting and that optimal value of storage capacitor can be determined at this condition. The feasibility of our propose is proved by experiments and we believe that the proposed design strategy will promote the application of piezoelectric micropower generator to the ubiquitous sensor networks. |