Title :
A Full-Wave Rectifier With Integrated Peak Selection for Multiple Electrode Piezoelectric Energy Harvesters
Author :
Guilar, Nathaniel J. ; Amirtharajah, Rajeevan ; Hurst, Paul J.
Author_Institution :
Agilent Labs., Santa Clara, CA
Abstract :
Piezoelectric transducers are a viable way of harvesting vibrational energy for low power embedded systems such as wireless sensors. A proposed disk-shaped piezoelectric transducer with several electrodes enables increased energy harvesting from multiple mechanical resonances. To rectify the low-frequency AC voltage from harvested vibrational energy, a full-wave rectifier has been fabricated in 0.35 mum CMOS. Integrated peak selection circuitry allows input signals with 90deg relative phase shift from the multiple-electrode piezoelectric transducer to be rectified with reduced output ripple. The rectifier has a measured power efficiency of 98.3% while delivering 90 muW and occupying an area of 0.007 mm2 . This high efficiency further enables energy harvesters to power wireless devices for extended durations.
Keywords :
energy harvesting; piezoelectric transducers; rectifying circuits; solid-state rectifiers; vibrations; Integrated peak selection circuitry; disk-shaped piezoelectric transducers; full-wave rectifier; low-frequency AC voltage; multiple electrode piezoelectric energy harvesters; multiple mechanical resonances; multiple-electrode piezoelectric transducer; power 90 muW; vibrational energy; Electrodes; Embedded system; Mechanical sensors; Piezoelectric transducers; Rectifiers; Resonance; Sensor systems; Vibrations; Voltage; Wireless sensor networks; Energy harvesting; piezoelectric; rectifier; wireless sensor;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2008.2007446
