MULTI-LEVEL MITIGATION SYSTEM AND METHOD FOR MANAGING AN EMERGENCY BATTERY CONDITION BASED ON SEVERITY

Organization Name

HONEYWELL INTERNATIONAL INC.

Inventor(s)

Sandeep Jayaraj of BANGALORE (IN)

Veeresh Shivaprakash Yagati of Bangalore (IN)

MULTI-LEVEL MITIGATION SYSTEM AND METHOD FOR MANAGING AN EMERGENCY BATTERY CONDITION BASED ON SEVERITY - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240014673 titled 'MULTI-LEVEL MITIGATION SYSTEM AND METHOD FOR MANAGING AN EMERGENCY BATTERY CONDITION BASED ON SEVERITY

Simplified Explanation

The patent application describes a battery management system that mitigates battery conditions based on severity. The system includes a battery housing with one or more battery cells and internal sensing elements. A controller is in communication with the sensing elements and can select from a range of mitigating actions based on the battery condition, including non-destructive and destructive actions.

• The battery management system includes a battery housing with battery cells and internal sensing elements.
• A controller is connected to the sensing elements and can communicate with them.
• The controller can select from a variety of mitigating actions based on the severity of the battery condition.
• Mitigating actions can be non-destructive or destructive.

Potential applications of this technology:

• Electric vehicles: The battery management system can help optimize battery performance and extend battery life in electric vehicles.
• Renewable energy storage: The system can be used in battery storage systems for renewable energy sources, ensuring efficient and safe operation.
• Portable electronics: The technology can be applied to battery management in smartphones, laptops, and other portable devices, improving battery performance and safety.

Problems solved by this technology:

• Battery degradation: The system helps mitigate battery conditions that can lead to degradation, extending battery life and improving overall performance.
• Safety concerns: By monitoring and mitigating battery conditions, the system reduces the risk of battery failures and potential safety hazards.
• Efficiency optimization: The technology helps optimize battery performance, ensuring efficient use of energy and maximizing battery capacity.

Benefits of this technology:

• Extended battery life: By mitigating battery conditions, the system can help prolong the lifespan of batteries, reducing the need for frequent replacements.
• Enhanced safety: The system reduces the risk of battery failures, minimizing the potential for accidents or damage.
• Improved performance: By optimizing battery conditions, the technology improves overall battery performance, leading to better efficiency and reliability.

Original Abstract Submitted

a battery management system, method, and computer program for mitigating a battery condition, according to a multi-level mitigation system and based on the severity of the battery condition, is provided. an example battery management system may include a battery with a battery housing defining an interior battery compartment, one or more battery cells disposed within the interior battery compartment, and one or more internal sensing elements attached to the battery housing within the interior battery compartment. the battery management system may further include a controller in electrical communication with the one or more internal sensing elements. in addition, the controller of the battery management system may select between a plurality of mitigating actions based at least in part on a battery condition. the plurality of mitigating actions available to the controller may include at least a non-destructive mitigating action and a destructive mitigating action.