Title :
Piezoelectric MEMS energy harvesting module based on non-resonant excitation
Author :
Frey, Alexander ; Seidel, Julian ; Schreiter, Matthias ; Kuehne, Ingo
Author_Institution :
Corp. Technol., Corp. Res. & Technol., Siemens AG, Munich, Germany
Abstract :
The paper reports the system design of a piezoelectric energy harvesting module for a tire based wireless sensor node application. Impacts of material propertie, generator design and power management circuitry are considered. In context of a non-resonant generator excitation scheme, dissipative damping mechanisms are investigated. In particular air damping is measured, simulated and modeled. A design procedure is presented to identify a geometry design space for the microgenerator consistent with application specific requirements.
Keywords :
automotive components; energy harvesting; micromechanical devices; piezoelectric devices; pressure sensors; tyres; wireless sensor networks; air damping; dissipative damping mechanisms; generator design; geometry design; microgenerator; nonresonant generator excitation scheme; piezoelectric MEMS energy harvesting module; power management circuitry; tire based wireless sensor node application; Analytical models; Damping; Energy harvesting; Generators; Micromechanical devices; System analysis and design; Tires; MEMS; TPMS; air damping; energy harvesting; microgenerator; non-resonant; piezoelectric; system design;
Conference_Titel :
Solid-State Sensors, Actuators and Microsystems Conference (TRANSDUCERS), 2011 16th International
Conference_Location :
Beijing
Print_ISBN :
978-1-4577-0157-3
DOI :
10.1109/TRANSDUCERS.2011.5969849
