scholarly journals Structural Identifiability of Equivalent Circuit Models for Li-Ion Batteries

Energies ◽  
2017 ◽  
Vol 10 (1) ◽  
pp. 90 ◽  
Author(s):  
Thomas Grandjean ◽  
Andrew McGordon ◽  
Paul Jennings
Keyword(s):  
Equivalent Circuit ◽  
Li Ion Batteries ◽  
Structural Identifiability ◽  
Li Ion ◽  
Equivalent Circuit Models

A Study of Recursive Techniques for Robust Identification of Time-Varying Electrical Equivalent Circuit Models of Li-Ion Batteries

2017 ◽  
Vol 8 (3) ◽  
pp. 52-74
Author(s):  
Ashraf Mostafa ◽  
Manohar Das
Keyword(s):  
Equivalent Circuit ◽  
Discrete Time ◽  
Continuous Time ◽  
Time Varying ◽  
Li Ion Batteries ◽  
Electrical Equivalent Circuit ◽  
Robust Identification ◽  
Li Ion ◽  
Recursive Techniques ◽  
Equivalent Circuit Models

This article presents results of a comparative study of recursive techniques for robust identification of time-varying electrical equivalent circuit models of li-ion batteries. Two such methods are studied, a direct continuous time system identification method and an indirect discrete time technique. The results of this study indicate that although both methods work equally well for identification of time-invariant circuit models from clean voltage-current data, the direct continuous time method outperforms indirect discrete time technique for identification of time-varying circuit models. Similar conclusions can also be drawn for identification of equivalent circuit models in the presence of noise and/or unmodeled dynamics.

A Strategy for Estimating State-of-Charge and State-of-Health of Li-Ion Batteries in Electric and Hybrid Electric Vehicles

2012 ◽  
Author(s):  
Xiaowei Zhao ◽  
Guoyu Zhang ◽  
Lin Yang
Keyword(s):  
Equivalent Circuit ◽  
Estimation Method ◽  
Equivalent Circuit Model ◽  
Circuit Model ◽  
State Of Charge ◽  
State Of Health ◽  
Li Ion Batteries ◽  
Soc Estimation ◽  
Kaiman Filtering ◽  
Li Ion

A task that has to be solved for the application of batteries in vehicles with an electric drive train is the determination of the actual state-of-health (SOH) and state-of-charge (SOC) of the battery cells. In this paper, an on board strategy for estimating SOC and SOH of Li-ion batteries is proposed. The equivalent circuit model is used for both SOC and SOH estimations. In SOH algorithm, the estimated value of battery capacity not only reflects the aging degree of battery pack, but also provides information for SOC estimation. Meanwhile, the extended Kaiman filtering is used in SOC estimation. Because the performance of the equivalent circuit model will be better at small currents than at high currents, extended Kaiman filtering is substituted by Ampere-Hour counting when the absolute value of current is greater than a calibration value. The Digatron battery tester was used to evaluate the proposed estimation method, and results show that the estimation method has high accuracy and efficiency at ordinary temperatures.

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