State of health
State of health (SOH) is a figure of merit of the condition of a battery (or a cell, or a battery pack), compared to its ideal conditions. The units of SOH are percent points (100% = the battery's conditions match the battery's specifications).
Typically, a battery's SOH will be 100% at the time of manufacture and will decrease over time and use. However, a battery's performance at the time of manufacture may not meet its specifications, in which case its initial SOH will be less than 100%.
SOH evaluation
- First, a battery management system evaluates the SOH of the battery under its management and reports it.
- Then, the SOH is compared to a threshold (typically done by the application in which the battery is used), to determine the suitability of the battery to a given application.[1]
Knowing the SOH of a given battery and the SOH threshold of a given application:
- a determination can be made whether the present battery conditions make it suitable for that application
- an estimate can be made of the battery's useful lifetime in that application
Parameters
As SOH does not correspond to a particular physical quality, there is no consensus in the industry on how SOH should be determined. The designer of a battery management system may use any of the following parameters (singly or in combination) to derive an arbitrary value for the SOH.
- Internal resistance / impedance / conductance
- Capacity
- Voltage[2]
- Self-discharge
- Ability to accept a charge
- Number of charge–discharge cycles
In addition, the designer of the battery management system defines an arbitrary weight for each of the parameter's contribution to the SOH value. The definition of how SOH is evaluated can be a trade secret.[3]
SOH threshold
As stated before, the method by which the battery management system evaluates the SOH of a battery is arbitrary. Similarly, the SOH threshold below which an application deems a particular battery unsuitable is also arbitrary; a given application may accept a battery with a SOH of 50% and above, while a more critical application may only accept batteries with an SOH of 90% and above.
See also
- Battery balancer
- Battery charger
- Battery monitoring
- Depth of discharge
- State of charge
References
- ↑ Seyed Mohammad Rezvanizaniani, Jay Lee, Zongchung Liu, and Yan Chen,. "Review and recent advances in battery health monitoring and prognostics technologies for electric vehicle (EV) safety and mobility," (PDF). Journal of Power Sources.
- ↑ "Battery State of Health Estimation Through Coup de Fouet : Field Experience". Battcon.com. Retrieved 2013-10-05.
- ↑