Title :
VHDL-AMS electro-thermal modeling of a lithium-ion battery
Author :
Machado, H. ; Cicero, L. ; Tanougast, Camel ; Ramenah, H. ; Sieler, L. ; Jean, P. ; Milhas, P. ; Dandache, A.
Author_Institution :
Univ. of Lorraine, Metz, France
Abstract :
Li-ion rechargeable batteries present an useful energy, low battery effect, and slow Self-discharge loss of charge when not in use. In this paper, we describe a VHDL-AMS model describing coupled electrical and thermal behaviors of a Li-Ion cell. This model relies on the experimental extraction of real characteristic parameters by using an efficient and low-cost test bench. Therefore, it allows to predict the realistic voltage variations by taking into account the state of charge and heating of the Li-ion cell, in order to design a battery system according the required capacity and electric power for the current electrical applications.
Keywords :
hardware description languages; heating; lithium; secondary cells; Li; VHDL-AMS electro-thermal modeling; battery system; electrical applications; electrical behaviors; lithium-ion rechargeable batteries; self-discharge loss; thermal behaviors; Batteries; Battery charge measurement; Digital video broadcasting; Discharges (electric); Electrical equivalent LI-ION cell model; Li-ion cell model; State of Charge (SOC); VHDL-AMS battery model; electrical-thermal model; open circuit voltage (OCV);
Conference_Titel :
Microelectronics (ICM), 2013 25th International Conference on
Conference_Location :
Beirut
Print_ISBN :
978-1-4799-3569-7
DOI :
10.1109/ICM.2013.6735009
