POWER SOURCE SYSTEM

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Yasuhiro Endo of Toyota-shi (JP)

Junta Izumi of Nagoya-shi (JP)

Hironori Miki of Nagoya-shi (JP)

Kenji Kimura of Nagoya-shi (JP)

Takayuki Ban of Nishio-shi (JP)

Takuya Mizuno of Nagakute-shi (JP)

Naoki Yanagizawa of Nagakute-shi (JP)

Shuji Tomura of Nagakute-shi (JP)

Kazuo Ootsuka of Nagakute-shi (JP)

Hiroshi Tsukada of Nagakute-shi (JP)

POWER SOURCE SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18427018 titled 'POWER SOURCE SYSTEM

Simplified Explanation:

The patent application describes a battery string setup that allows multiple battery circuit modules to be connected in series. A detection line connects the positive and negative electrode output lines of the battery string, with a middle point between two capacitors grounded through a limiting resistor. An electric leakage detection unit monitors the battery string by setting a battery circuit module in a pass-through state and detecting electric leakage based on differential voltage between two capacitors.

• The battery string configuration allows for multiple battery circuit modules to be connected in series.
• A detection line connects the positive and negative electrode output lines of the battery string.
• Grounding the middle point between two capacitors through a limiting resistor ensures stability.
• An electric leakage detection unit monitors the battery string by setting a battery circuit module in a pass-through state.
• Electric leakage is detected based on the differential voltage between two capacitors.

Potential Applications:

This technology can be applied in various industries such as:

• Automotive for electric vehicles.
• Energy storage systems.
• Renewable energy applications.
• Uninterruptible power supplies (UPS).
• Telecommunications for backup power solutions.

Problems Solved:

This technology addresses the following issues:

• Ensures stable operation of battery strings.
• Detects electric leakage efficiently.
• Enhances safety in battery systems.
• Improves monitoring capabilities in energy storage setups.
• Prevents potential damage to connected devices.

Benefits:

The benefits of this technology include:

• Increased safety in battery systems.
• Enhanced monitoring and detection of electric leakage.
• Improved reliability in energy storage applications.
• Prevention of potential damage to connected equipment.
• Efficient operation of battery strings in various industries.

Commercial Applications:

Title: Enhanced Battery String Monitoring System for Various Industries

This technology can be commercially utilized in:

• Electric vehicle manufacturing.
• Energy storage system providers.
• Renewable energy companies.
• UPS manufacturers.
• Telecommunications equipment suppliers.

Questions about Battery String Monitoring System:

1. How does the electric leakage detection unit work in the battery string setup?

  - The electric leakage detection unit sets a battery circuit module in a pass-through state and monitors electric leakage based on differential voltage between two capacitors.

2. What are the potential applications of this technology in the energy storage sector?

  - This technology can be applied in energy storage systems, renewable energy applications, and UPS for efficient monitoring and operation.

Original Abstract Submitted

A battery string is configured such that a plurality of battery circuit modules can be connected in series. A middle point between a first capacitor and a second capacitor provided on a detection line connecting a positive electrode output line and a negative electrode output line of the battery string to each other is grounded by a ground line through a limiting resistor. During operation of the battery string, an electric leakage detection unit sets a battery circuit module in a pass-through state, and detects electric leakage in the battery string based on a differential voltage that is a difference between a first voltage being the voltage of the first capacitor and a second voltage being the voltage of the second capacitor.