Title :
Architecture for ASIC based batteryless multi-source energy harvesting system
Author :
Vijay, L. ; Greeshma, K.K. ; Murty, N.S.
Author_Institution :
Amrita Sch. of Eng., Amrita Vishwa Vidyapeetham (Univ.), Bangalore, India
Abstract :
This paper presents architecture of an ASIC based energy harvesting system from four sources solar, thermal, vibration and RF. A capacitor based start-up circuit is used for batteryless self-start and a supercapacitor based storage mechanism is employed for storing the harvested energy. The system includes Maximum Power Point Tracking logic based on Perturb and Observe algorithm for tracking and extracting the maximum power from solar PV source. Rectifiers and DC-DC Converters are used for extracting energy from AC sources (RF and Piezo) and thermal respectively. The system was simulated in Cadence virtuoso. Efficiencies achieved with different sources are 79.06% for Solar PV, 72.618% for Thermal, 63.84% for Piezo and 56.793% for RF.
Keywords :
application specific integrated circuits; energy harvesting; maximum power point trackers; supercapacitors; AC sources; ASIC based energy harvesting system; DC-DC converters; RF source; batteryless multisource energy harvesting system; batteryless self-start; capacitor based start-up circuit; energy extraction; harvested energy storage; maximum power point tracking logic; perturb and observe algorithm; rectifiers; solar PV source; supercapacitor based storage mechanism; thermal source; vibration source; Algorithm design and analysis; Application specific integrated circuits; MOS devices; Radio frequency; Rectifiers; Supercapacitors; Switches; Decision Making Circuit; Energy Harvesting System (EHS); Maximum Power Point Tracking (MPPT); Perturb and Observe (P&O) algorithm; Self-start; Supercapacitor;
Conference_Titel :
VLSI Systems, Architecture, Technology and Applications (VLSI-SATA), 2015 International Conference on
Conference_Location :
Bangalore
Print_ISBN :
978-1-4799-7925-7
DOI :
10.1109/VLSI-SATA.2015.7050457
