Title :
Everlast: Long-life, Supercapacitor-operated Wireless Sensor Node
Author :
Simjee, Farhan ; Chou, Pai H.
Author_Institution :
Center for Embedded Comput. Syst., California Univ., Irvine, CA
Abstract :
This paper describes a supercapacitor-operated, solar-powered wireless sensor node called Everlast. Unlike traditional wireless sensors that store energy in batteries, Everlast´s use of supercapacitors enables the system to operate for an estimated lifetime of 20 years without any maintenance. The novelty of this system lies in the feedforward, PFM (pulse frequency modulated) converter and open-circuit solar voltage method for maximum power point tracking, enabling the solar cell to efficiently charge the supercapacitor and power the node. Experimental results show that Everlast can achieve low power consumption, long operational lifetime, and high transmission rates, something that traditional sensor nodes cannot achieve simultaneously and must trade-off
Keywords :
convertors; feedforward; power consumption; pulse frequency modulation; solar cells; supercapacitors; wireless sensor networks; 20 years; Everlast; batteries; maximum power point tracking; open-circuit solar voltage method; operational lifetime; power consumption; pulse frequency modulated converter; solar cell; solar-powered wireless sensor node; supercapacitor-operated wireless sensor node; transmission rates; Batteries; Frequency conversion; Frequency modulation; Life estimation; Lifetime estimation; Pulse modulation; Sensor phenomena and characterization; Sensor systems; Supercapacitors; Wireless sensor networks; Design; MPPT; Management; Maximum power point tracking; Measurement; Performance; WSN; long life; solar power; supercapacitor; wireless sensors;
Conference_Titel :
Low Power Electronics and Design, 2006. ISLPED'06. Proceedings of the 2006 International Symposium on
Conference_Location :
Tegernsee
Print_ISBN :
1-59593-462-6
DOI :
10.1109/LPE.2006.4271835
