Title :
Degradation aware energy storage using hybrid capacitors
Author :
Hoffmann, F. ; Loechte, A. ; Rebel, G. ; Krimphove, C. ; Gloesekoetter, P.
Author_Institution :
Dept. of Electr. Eng. & CS, Univ. of Appl. Sci. Muenster, Steinfurt, Germany
Abstract :
Efficient and reliable storage of electrical energy evolves to one of the most critical challenges from today´s perspective. On the one hand we see electrical based transport systems requiring light weights and high capacities, and on the other hand we are just at the starting point of a new computing class where we strive for self-sufficient sensors and actors following “The Internet of Things” trend. Lately, quite a few novel capacitor elements have been become available with several hundreds of Farad. Anyhow, the aging behavior, the lifetime, and reliability of these new devices have not been analyzed and modeled thoroughly. Therefore, we present and analyze in this paper the lifetime and reliability of hybrid capacitors using a dedicated test bench. Temperature, voltage, current, and power cycling are used as acceleration and stress parameters.
Keywords :
capacitors; electric sensing devices; electric vehicles; energy storage; reliability; Internet of Things; acceleration parameters; devices reliability; electrical energy storage reliability; electrical-based transport systems; energy storage degradation; hybrid capacitors reliability; power cycling; self-sufficient sensors; stress parameters; Aging; Capacitors; Electrodes; Temperature; Temperature dependence; Temperature measurement; Time measurement; Arrhenius; aging; degradation; hybrid capacitor; lifetime;
Conference_Titel :
Energy Conference and Exhibition (ENERGYCON), 2012 IEEE International
Conference_Location :
Florence
Print_ISBN :
978-1-4673-1453-4
DOI :
10.1109/EnergyCon.2012.6348208
