Energy Conversion and Management, Vol.87, 367-377, 2014
Electro-thermal characterization of Lithium Iron Phosphate cell with equivalent circuit modeling
Prediction of the battery performance is important in the development of the electric vehicles battery pack. A battery model that is capable to reproduce I-V characteristic, thermal response and predicting the state of charge of the battery will benefit the development of cell and reduce time to market for electric vehicles. In this work, an equivalent circuit model coupled with the thermal model is used to analyze the electrical and thermal behavior of Lithium Iron Phosphate pouch cell under various operating conditions. The battery model is comprised three RC blocks, one series resistor and one voltage source. The parameters of the battery model are extracted from pulse discharge curve under different temperatures. The simulations results of the battery model under constant current discharge and pulse charge and discharge show a good agreement with experimental data. The validated battery model is then extended to investigate the dynamic behavior of the electric vehicle battery pack using UDDS and US06 test cycle. The simulation results show that an active thermal management system is required to prolong the calendar life and ensure safety of the battery pack. (C) 2014 Elsevier Ltd. All rights reserved.
Keywords:Battery temperature;Electric vehicles;Equivalent circuit modeling;Heat generation;Lithium Iron Phosphate battery