BATTERY SYSTEM

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Mitsutoshi Otaki of Susono-shi (JP)

Shinji Nakanishi of Mishima-shi (JP)

Tetsuya Waseda of Susono-shi (JP)

Jun Yoshida of Mishima-shi (JP)

Tsubasa Migita of Osaka (JP)

Yoshihiro Uchida of Nagakute-shi (JP)

BATTERY SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18425262 titled 'BATTERY SYSTEM

Simplified Explanation: The patent application describes a battery system with a control device that can place an all-solid-state battery in an over-discharge state and then pressurize it. The battery consists of an anode layer, a solid electrolyte layer, and a cathode layer with silicon grains in a clathrate II crystalline phase.

Key Features and Innovation:

• Control device can manage the state of the all-solid-state battery.
• Battery can be placed in an over-discharge state for the first control.
• Pressurization of the battery in the over-discharge state is performed for the second control.
• Cathode layer contains silicon grains in a clathrate II crystalline phase.

Potential Applications: The technology could be used in various battery systems, energy storage solutions, and electric vehicles.

Problems Solved: This technology addresses issues related to battery performance, efficiency, and safety.

Benefits:

• Improved battery control and performance.
• Enhanced energy storage capabilities.
• Increased safety features for battery systems.

Commercial Applications: Potential commercial applications include battery manufacturing, electric vehicle production, and renewable energy storage solutions.

Prior Art: Readers can explore prior research on all-solid-state batteries, battery control systems, and silicon-based cathode materials.

Frequently Updated Research: Stay informed about the latest advancements in all-solid-state battery technology, battery management systems, and materials science research.

Questions about the Technology: 1. What are the specific advantages of using an all-solid-state battery in this system? 2. How does the presence of silicon grains in a clathrate II crystalline phase impact the performance of the battery?

Original Abstract Submitted

A battery system includes a control device. The control device is configured to perform a first control and a second control. The first control includes placing an all-solid-state battery in an over-discharge state. The second control includes pressurizing the all-solid-state battery in the over-discharge state. The all-solid-state battery includes an anode layer, a solid electrolyte layer, and a cathode layer, in this order. The cathode layer includes silicon grains. The silicon grains include a clathrate II crystalline phase.