Abstract
An impedance-based temperature estimation method is investigated considering the electrochemical non-equilibrium with short-term relaxation time for facilitating the vehicular application. Generally, sufficient relaxation time is required for battery electrochemical equilibrium before the impedance measurement. A detailed experiment is performed to investigate the regularity of the battery impedance in short-term relaxation time after switch-off current excitation, which indicates that the impedance can be measured and also has systematical decrement with the relaxation time growth. Based on the discussion of impedance variation in electrochemical perspective, as well as the monotonic relationship between impedance phase shift and battery internal temperature in the electrochemical equilibrium state, an exponential equation that accounts for both measured phase shift and relaxation time is established to correct the measuring deviation caused by electrochemical non-equilibrium. Then, a multivariate linear equation coupled with ambient temperature is derived considering the temperature gradients between the active part and battery surface. Equations stated above are all identified with the embedded thermocouple experimentally. In conclusion, the temperature estimation method can be a valuable alternative for temperature monitoring during cell operating, and serve the functionality as an efficient implementation in battery thermal management system for electric vehicles (EVs) and hybrid electric vehicles (HEVs).
Highlights
Lithium-ion battery, which has been proven to be the ideal power source for electric vehicles (EVs) and hybrid electric vehicles (HEVs), strikes the best balance between power/energy density and costs for energy storage [1,2]
Based on the monotonic relationship between impedance phase shift and battery internal temperature proposed in the previous study [20], the impedance-based temperature estimation method is further developed considering electrochemical non-equilibrium caused by current excitation
The impedance phase shift can be measured with a short-term relaxation after the current excitation switch-off
Summary
Lithium-ion battery, which has been proven to be the ideal power source for electric vehicles (EVs) and hybrid electric vehicles (HEVs), strikes the best balance between power/energy density and costs for energy storage [1,2]. An on-line detection of battery internal temperature, which is essential to facilitate operation control, can help improve the accuracy of BMS (battery management system) and the security of the power battery (battery pack)
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