MOTOR DRIVING SYSTEM AND METHOD OF CONTROLLING SAME

Organization Name

Hyundai Motor Company

Inventor(s)

Seung Hyeon Bin of Hwaseong-si (KR)

Byung Oh Tak of Hwaseong-Si (KR)

Seon Mi Lee of Anyang-Si (KR)

Sang Woo Park of Seongnam-Si (KR)

MOTOR DRIVING SYSTEM AND METHOD OF CONTROLLING SAME - A simplified explanation of the abstract

This abstract first appeared for US patent application 17869658 titled 'MOTOR DRIVING SYSTEM AND METHOD OF CONTROLLING SAME

Simplified Explanation

The patent application describes a motor driving system and a method of controlling it that can protect a user in case of a breakdown in the transfer switching unit while the motor is being operated in a Y-connection single inverter driving mode.

• The system and method convert the driving mode into a dual inverter driving mode to ensure continuous vehicle operation.
• The dual inverter driving mode is activated when the transfer switching unit malfunctions, allowing the motor to keep running.
• This innovation provides a backup solution for situations where the transfer switching unit breaks down, preventing the vehicle from being stranded.
• The system and method offer increased reliability and safety for users by ensuring uninterrupted motor operation.
• The technology can be applied to various motor-driven vehicles, such as electric cars, motorcycles, or industrial machinery.

Potential Applications

The technology described in the patent application has potential applications in various motor-driven vehicles and industrial machinery, including:

• Electric cars
• Electric motorcycles
• Electric bicycles
• Electric scooters
• Electric boats
• Industrial machinery with motor-driven components

Problems Solved

The motor driving system and method of controlling it solve the following problems:

• Breakdowns in the transfer switching unit can cause the motor to stop operating, leaving the vehicle stranded.
• In emergency situations, such as during a breakdown, it is crucial to have a backup solution to ensure continuous vehicle operation.
• The Y-connection single inverter driving mode may be vulnerable to failures in the transfer switching unit, leading to potential safety risks for the user.

Benefits

The motor driving system and method offer several benefits:

• Continuous vehicle operation even in the event of a breakdown in the transfer switching unit.
• Increased reliability and safety for users by providing a backup solution for motor operation.
• Versatility in application, as the technology can be implemented in various motor-driven vehicles and industrial machinery.
• Improved user experience by minimizing the risk of being stranded due to motor failure.

Original Abstract Submitted

A motor driving system and a method of controlling same can protect a user by converting a driving mode into a dual inverter driving mode so that a vehicle can keep being driven when a transfer switching unit breaks down while the motor is operated in a Y-connection single inverter driving mode.