CHARGE-DISCHARGE CONTROL DEVICE

Organization Name

toyota jidosha kabushiki kaisha

Inventor(s)

Toshinori Okura of Toyota-shi (JP)

Kiwamu Kobayashi of Anjo-shi (JP)

CHARGE-DISCHARGE CONTROL DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240235237 titled 'CHARGE-DISCHARGE CONTROL DEVICE

The charge-discharge control device described in the patent application consists of an alternating current-direct current converter, a direct current bus, multiple channels connected in parallel to the bus, and a processor for managing the charging or discharging current of a secondary battery to minimize power usage from the primary side.

• The device includes an alternating current-direct current converter to convert AC power into DC power.
• A direct current bus is used to distribute power from the converter.
• Multiple channels are connected in parallel to the bus for efficient power distribution.
• A processor controls the charging or discharging current of a secondary battery to reduce power consumption from the primary side.

Potential Applications: - Energy storage systems - Electric vehicles - Renewable energy systems

Problems Solved: - Minimizing power usage from the primary side - Efficient charging and discharging of secondary batteries

Benefits: - Energy savings - Improved battery performance - Enhanced system efficiency

Commercial Applications: Title: "Efficient Charge-Discharge Control Device for Energy Storage Systems" This technology can be used in energy storage systems for residential, commercial, and industrial applications, leading to cost savings and improved energy management.

Questions about Charge-Discharge Control Device: 1. How does the alternating current-direct current converter work in this device? The converter in the device transforms AC power into DC power for efficient energy distribution.

2. What are the potential benefits of using this control device in electric vehicles? Using this device in electric vehicles can lead to improved battery performance and increased energy efficiency.

Original Abstract Submitted

the charge-discharge control device includes an alternating current-direct current converter that converts ac power from a primary side into dc power, a direct current bus that distributes power from the alternating current-direct current converter, a plurality of channels connected in parallel to the direct current bus, and a processor configured to control a current of charging or discharging of a secondary battery connected to the channel so as to minimize power supplied from the primary side.