ALL-SOLID-STATE BATTERY SYSTEM PROVIDED WITH PRESSURIZING DEVICE

Organization Name

HYUNDAI MOTOR COMPANY

Inventor(s)

Min Sun Kim of Goyang (KR)

Yong Guk Gwon of Hwaseong (KR)

Ga Young Choi of Busan (KR)

Yong Seok Choi of Seoul (KR)

Jae Ho Shin of Seoul (KR)

ALL-SOLID-STATE BATTERY SYSTEM PROVIDED WITH PRESSURIZING DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 17994742 titled 'ALL-SOLID-STATE BATTERY SYSTEM PROVIDED WITH PRESSURIZING DEVICE

Simplified Explanation

The patent application describes an all-solid-state battery system that includes a pressurization chamber filled with a pressurizing fluid. The system also includes a state detector to monitor the battery's state, a controller to adjust the pressure based on the state information, and a pressurizing device to control the pressure.

• The all-solid-state battery system consists of multiple cells arranged within a closed inner space of a pressurization chamber.
• A pressurizing fluid is filled in the closed inner space of the pressurization chamber.
• A state detector is used to detect the state information of the all-solid-state battery.
• A controller analyzes the state information and generates a control signal to adjust the pressure applied to the cells by the pressurizing fluid.
• A pressurizing device is responsible for controlling the pressure applied to the cells based on the control signal from the controller.

Potential Applications

• Electric vehicles: The all-solid-state battery system could be used in electric vehicles to provide a more efficient and reliable power source.
• Portable electronics: This technology could be applied to smartphones, laptops, and other portable devices to enhance battery performance and lifespan.
• Renewable energy storage: The all-solid-state battery system could be utilized in renewable energy systems to store excess energy for later use.

Problems Solved

• Improved battery performance: The system allows for better control of the pressure applied to the cells, which can enhance battery performance and efficiency.
• Increased battery lifespan: By monitoring and adjusting the pressure, the system can help prevent damage to the cells, leading to a longer battery lifespan.
• Enhanced safety: All-solid-state batteries are known for their improved safety compared to traditional lithium-ion batteries, and this system further enhances safety by controlling the pressure within the battery.

Benefits

• Improved efficiency: The ability to adjust the pressure applied to the cells allows for optimal battery performance, resulting in increased efficiency.
• Longer lifespan: By preventing damage to the cells, the system helps extend the lifespan of the battery, reducing the need for frequent replacements.
• Enhanced safety: The control over the pressure within the battery contributes to a safer operation, reducing the risk of accidents or malfunctions.

Original Abstract Submitted

An all-solid-state battery system is disclosed, the system comprising an all-solid-state battery comprising a plurality of cells arranged in a closed inner space of a pressurization chamber and a pressurizing fluid filled in the closed inner space of the pressurization chamber, a state detector configured to detect state information of the all-solid-state battery, a controller configured to output a control signal configured for controlling a pressure applied to the plurality of cells by the pressurizing fluid in the inner space of the pressurization chamber based on the state information of the all-solid-state battery detected by the state detector, and a pressurizing device configured to control the pressure applied to the plurality of cells by the pressurizing fluid according to the control signal outputted by the controller.