Title :
Understanding power flows in HEV eCVT´s with ultracapacitor boosting
Author :
Miller, John M. ; Ehsani, Mark ; Gao, Yimin
Author_Institution :
J-N-J Miller Design Services, Cedar, MI, USA
Abstract :
Architecture of the power split electronic continuously variable transmission, eCVT, relies on power flow through an electric path to enable an efficient bulk transmission of power via its mechanical path. To date, there is no commercially available simulation tool capable of modeling the complex eCVT architectures encountered in hybrid vehicles now on the road or those planned to be available after 2008. This paper addresses the need for a flexible planetary gear model in IEEE VHDL that is adaptable to eCVT´s of the input and compound split type.
Keywords :
hybrid electric vehicles; power transmission (mechanical); supercapacitors; variable speed gear; HEV; IEEE VHDL; electronic continuously variable transmission; hybrid electric vehicle; planetary gear model; power flow; ultracapacitor boosting; Boosting; Energy storage; Engines; Gears; Hybrid electric vehicles; Load flow; Mechanical power transmission; Power generation; Supercapacitors; Wheels;
Conference_Titel :
Vehicle Power and Propulsion, 2005 IEEE Conference
Print_ISBN :
0-7803-9280-9
DOI :
10.1109/VPPC.2005.1554641
