1 "Vishay Si IGBT/ Si PIN booster power module datasheet of Part Number GB50LA120UX"
2 "Trinno Technology IGBT datasheet of Part Number TGAN25N120ND"
3 D. Jiang, "Temperature dependent characteristics of SiC devices: Performance evaluation and loss calculation" 27 (27): 1013-1024, 2012
4 A. Elasser, "Silicon carbide benefits and advantages for power electronics circuits and systems" 90 (90): 969-986, 2002
5 A. Emadi, "Power electronics and motor drives in electric, hybrid electric, and plug-in hybrid electric vehicles" 55 (55): 2237-2245, 2008
6 F. R. Kalhammer, "Plug-in hybrid electrical vehicles : promise, issues, and prospects" 1-11, 2009
7 K. Morrow, "Plug-in hybrid electrical vehicle charging infrastructure review" 2008
8 "MicroSemi Si IGBT/ Si PIN booster power module datasheet of Part Number APT75GT120JU2"
9 F. Xu, "High temperature packaging of 50 kw three-phase sic power module" 2427-2433, 2011
10 D. P. Tuttle, "Electrified vehicle technology trends, infrastructure implications, and cost comparisons" 51 (51): 35-51, 2012
1 "Vishay Si IGBT/ Si PIN booster power module datasheet of Part Number GB50LA120UX"
2 "Trinno Technology IGBT datasheet of Part Number TGAN25N120ND"
3 D. Jiang, "Temperature dependent characteristics of SiC devices: Performance evaluation and loss calculation" 27 (27): 1013-1024, 2012
4 A. Elasser, "Silicon carbide benefits and advantages for power electronics circuits and systems" 90 (90): 969-986, 2002
5 A. Emadi, "Power electronics and motor drives in electric, hybrid electric, and plug-in hybrid electric vehicles" 55 (55): 2237-2245, 2008
6 F. R. Kalhammer, "Plug-in hybrid electrical vehicles : promise, issues, and prospects" 1-11, 2009
7 K. Morrow, "Plug-in hybrid electrical vehicle charging infrastructure review" 2008
8 "MicroSemi Si IGBT/ Si PIN booster power module datasheet of Part Number APT75GT120JU2"
9 F. Xu, "High temperature packaging of 50 kw three-phase sic power module" 2427-2433, 2011
10 D. P. Tuttle, "Electrified vehicle technology trends, infrastructure implications, and cost comparisons" 51 (51): 35-51, 2012
11 J. S. Kim, "Design and implementation of a high-efficiency on-board battery charger for electric vehicles with frequency control strategy" 1-6, 2010
12 M. Alam, "A zero voltage switching semi-bridgeless boost power factor corrected converter for plug-in hybrid electric vehicle battery chargers" 2625-2630, 2012
13 F. Musavi, "A high performance single-phase bridgeless interleaved PFC converter for plug-in hybrid electric vehicle battery chargers" 47 (47): 1833-1843, 2011
14 H. Tsai, "A family of zero voltage-transition bridgeless power-factor-correction circuits with a zero-current-switching auxiliary switch" 58 (58): 1848-1855, 2011