18593983. BATTERY ELECTRIC VEHICLE simplified abstract (TOYOTA JIDOSHA KABUSHIKI KAISHA)
Contents
BATTERY ELECTRIC VEHICLE
Organization Name
TOYOTA JIDOSHA KABUSHIKI KAISHA
Inventor(s)
Tatsuhiro Hashida of Aichi-ken (JP)
Nanae Iwasaki of Aichi-ken (JP)
BATTERY ELECTRIC VEHICLE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18593983 titled 'BATTERY ELECTRIC VEHICLE
The abstract of the patent application describes a system for a battery electric vehicle to select and execute a charge mode based on temperatures of motors and inverters.
- The system can switch between a first charge mode and a second charge mode.
- In the first charge mode, power from an external source is supplied to a first motor and then to a power storage device via a first inverter.
- In the second charge mode, power from the external source is supplied to a second motor and then to the power storage device via a second inverter.
- The selection of the charge mode is based on the temperatures of the motors and inverters to optimize charging efficiency.
- This system allows for more efficient and effective charging of the battery electric vehicle.
Potential Applications: - Electric vehicle charging systems - Battery management systems - Automotive technology
Problems Solved: - Optimizing charging efficiency - Managing temperatures of motors and inverters - Enhancing overall performance of battery electric vehicles
Benefits: - Improved charging efficiency - Enhanced battery performance - Increased overall efficiency of electric vehicles
Commercial Applications: Title: Advanced Battery Electric Vehicle Charging System This technology could be utilized by electric vehicle manufacturers to enhance the charging capabilities of their vehicles, leading to improved performance and customer satisfaction. Additionally, charging station companies could implement this system to offer faster and more efficient charging services to electric vehicle owners.
Questions about Battery Electric Vehicle Charging System: 1. How does the system determine which charge mode to use? The system selects the charge mode based on the temperatures of the motors and inverters to optimize charging efficiency. 2. What are the potential benefits of using this system in electric vehicles? The system can improve charging efficiency, enhance battery performance, and increase the overall efficiency of electric vehicles.
Original Abstract Submitted
The battery electric vehicle selects and executes a charge mode from a first charge mode in which power supplied from an external power source device to a first neutral point of a first motor is supplied to a power storage device via the first motor and a first inverter, and a second charge mode in which power supplied from the external power source device to a second neutral point of a second motor is supplied to the power storage device via the second motor and a second inverter, based on at least one of temperatures of the first and second motors and temperatures of the first and second inverters.