Title :
Battery control circuit using non-isolation daisy-chain architecture for a 400V Li-ion battery system of a hybrid electric vehicle
Author :
Emori, Akihiko ; Kikuchi, Mutsumi ; Kudou, Akihiko ; Kubo, Kenji
Author_Institution :
Hitachi Res. Lab., Hitachi, Ltd., Hitachi
Abstract :
In response to typical issues concerning lithium-ion battery systems for HEVs, a cell-control specialized IC and a scheme for the entire circuit mounting the IC (namely, no isolation and a ldquodaisy-chainrdquo communication architecture) were devised. The circuit was configured with the cell-control specialized ICs with 350 nm, BiDMOS, 50 V/3.3 V analog-digital mixed process. But the circuit can handle the 400 V HEV battery without any isolator between the ICs. As a result of these innovations, significant reductions in size and cost and improvement in reliability was achieved. That is to say, in comparison to a conventional product configured with a microcomputer, optocouplers, and discrete components, the developed IC and architecture achieved an 80% reduction of the board area, 90% reduction of component numbers and a reduced failure rate to 4%.
Keywords :
BIMOS integrated circuits; battery powered vehicles; hybrid electric vehicles; mixed analogue-digital integrated circuits; secondary cells; BiDMOS; Li; Li-ion battery system; analog-digital mixed process; battery control circuit; cell-control specialized IC; hybrid electric vehicle; nonisolation daisy-chain architecture; size 350 nm; voltage 400 V; Analog-digital conversion; Batteries; Circuits; Communication system control; Control systems; Costs; Hybrid electric vehicles; Isolators; Microcomputers; Technological innovation; Cell Controller; Li-ion Battery; Specialized IC;
Conference_Titel :
Vehicle Power and Propulsion Conference, 2008. VPPC '08. IEEE
Conference_Location :
Harbin
Print_ISBN :
978-1-4244-1848-0
Electronic_ISBN :
978-1-4244-1849-7
DOI :
10.1109/VPPC.2008.4677401
