ELECTRIC VEHICLE AUXILIARY BATTERY USAGE FOR ENERGY CONSUMPTION EVENTS

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Norman Lu of Fairview TX (US)

Maximilian Parness of Takoma Park MD (US)

ELECTRIC VEHICLE AUXILIARY BATTERY USAGE FOR ENERGY CONSUMPTION EVENTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17850037 titled 'ELECTRIC VEHICLE AUXILIARY BATTERY USAGE FOR ENERGY CONSUMPTION EVENTS

Simplified Explanation

Abstract: The patent application describes a method for managing energy consumption in a vehicle using a removable auxiliary battery and a core battery. When the vehicle consumes a required amount of energy above a certain threshold, the auxiliary battery provides some of the required energy, and the core battery provides additional energy once the event is completed.

Patent/Innovation Explanation:

• The method determines if a vehicle consumes a specific amount of energy above a threshold.
• If the energy consumption exceeds the threshold, a removable auxiliary battery is used to provide some of the required energy.
• Once the event is completed, a core battery in the vehicle provides additional energy.

Potential Applications:

• Electric vehicles: This technology can be applied to electric vehicles to manage energy consumption during high-demand events, such as acceleration or climbing steep hills.
• Hybrid vehicles: The method can be used in hybrid vehicles to optimize energy usage and reduce reliance on the internal combustion engine during high-energy events.
• Energy storage systems: The concept can be adapted for use in stationary energy storage systems, where auxiliary batteries can provide additional energy during peak demand periods.

Problems Solved:

• Energy management: The technology addresses the challenge of efficiently managing energy consumption in vehicles during high-demand events.
• Range anxiety: By utilizing an auxiliary battery, the method helps extend the range of electric vehicles during energy-intensive activities, reducing concerns about running out of power.

Benefits:

• Improved performance: The use of an auxiliary battery ensures that the required energy is available during high-demand events, enhancing the vehicle's performance.
• Extended range: By combining the core and auxiliary batteries, the technology increases the overall range of electric vehicles, providing more flexibility for drivers.
• Energy efficiency: The method optimizes energy usage by utilizing the auxiliary battery for short-term high-energy events, reducing the strain on the core battery and improving overall efficiency.

Original Abstract Submitted

An example operation includes one or more of: determining an event of a vehicle consuming a required amount of energy greater than a first threshold; providing, by a removable auxiliary battery of the vehicle, at least a portion of the required amount of energy during the event; and providing, by a core battery of the vehicle, a second amount of energy upon completion of the event.