| IMPEDANCE-BASED AND CIRCUIT-PARAMETER-BASED BATTERY MODELS FOR HEV POWER SYSTEMS |
| J. H. JANG, J. Y. YOO |
| Korea University |
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| ABSTRACT |
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The relationship between voltage and current inside a battery, or the impedance, plays an important role in the simulation and design of hybrid electric vehicle (HEV) power systems. This paper proposes a new approach employing the Bode plot for evaluation of equivalent circuit parameters for a lithium polymer battery (LiPB) for HEV application. The main concept of the proposed circuit-parameter-based model approach is the application of a transfer function used to process the frequency response of the battery for calculation of accurate circuit parameters. Additionally, the Bode plot is also applied to derive the impedance-based model directly from frequency response measurements for short time simulations and practical use in the HEV. Two methods for battery modeling are proposed and verified experimentally with the voltage-current profile of a conventional HEV using the battery measured in this paper. The results show that the proposed circuit-parameter-based technique provides a satisfactory battery equivalent circuit model. |
| Key Words:
HEV, LiPB, Battery modeling, Electrical equivalent circuit, Impedance, Circuit parameter |
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