TY - JOUR
T1 - High-temperature, high-power capacitors
T2 - The assessment of capabilities
AU - Furman, Eugene
AU - Zhang, Shujun
AU - Kim, Namchul
AU - Shrout, Thomas R.
AU - Hofmann, Heath
AU - Stroman, Richard
AU - Lanagan, Michael
PY - 2009
Y1 - 2009
N2 - High-temperature, high-power capacitors are integral components being developed for high-temperature electronics to be used in aerospace, automotive, and other applications. Presently, a wide range of materials and capacitor technologies are being actively developed to address the needs of high temperature applications. Literature and experimental survey of existing materials and technologies focusing on commercially viable technologies has been made. Key parameters for characterizing and assessing capacitors have been compiled. Of the key competing capacitor technologies, including electrolytic, ceramic, polymer thin-film, and supercapacitors, none were found to be clearly superior to the others, thus requiring trade-offs between available choices. The review of these capacitors will be presented with respect to specific energy density, temperature capability, cost, ripple current capability, and failure tolerance. In addition to presenting a survey of existing capacitors, we have experimentally characterized RC constants as a function of temperature for a wide variety of materials including dielectric polymers, simple oxides, ferroelectrics, and glasses. While in general there is a trade-off between R and C parameters for different materials, outstanding RC's were observed in lanthanum doped BaZrO3 ceramics and ferroelectric inorganics with high-temperature phase transitions.
AB - High-temperature, high-power capacitors are integral components being developed for high-temperature electronics to be used in aerospace, automotive, and other applications. Presently, a wide range of materials and capacitor technologies are being actively developed to address the needs of high temperature applications. Literature and experimental survey of existing materials and technologies focusing on commercially viable technologies has been made. Key parameters for characterizing and assessing capacitors have been compiled. Of the key competing capacitor technologies, including electrolytic, ceramic, polymer thin-film, and supercapacitors, none were found to be clearly superior to the others, thus requiring trade-offs between available choices. The review of these capacitors will be presented with respect to specific energy density, temperature capability, cost, ripple current capability, and failure tolerance. In addition to presenting a survey of existing capacitors, we have experimentally characterized RC constants as a function of temperature for a wide variety of materials including dielectric polymers, simple oxides, ferroelectrics, and glasses. While in general there is a trade-off between R and C parameters for different materials, outstanding RC's were observed in lanthanum doped BaZrO3 ceramics and ferroelectric inorganics with high-temperature phase transitions.
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U2 - 10.4271/2008-01-2853
DO - 10.4271/2008-01-2853
M3 - Article
AN - SCOPUS:77953206419
SN - 1946-3855
VL - 1
SP - 822
EP - 831
JO - SAE International Journal of Aerospace
JF - SAE International Journal of Aerospace
IS - 1
ER -