VOLTAGE OVERSHOOT MITIGATION

Organization Name

GM GLOBAL TECHNOLOGY OPERATIONS LLC

Inventor(s)

Chandra S. Namuduri of Troy MI (US)

Suresh Gopalakrishnan of Troy MI (US)

VOLTAGE OVERSHOOT MITIGATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 17986139 titled 'VOLTAGE OVERSHOOT MITIGATION

Simplified Explanation

The patent application describes a system for controlling an electric motor with a voltage regulation device connected to the motor, which is in turn connected to an inverter via a power cable. The voltage regulation device includes a diode bridge circuit to mitigate overvoltage transients at the motor.

• The system includes a voltage regulation device connected to the electric motor.
• The voltage regulation device features a diode bridge circuit to manage overvoltage transients.
• The diode bridge circuit has an AC input and a DC output, with the AC input connected to a terminal of the electric motor.

Potential Applications

This technology could be applied in various industries where precise control of electric motors is required, such as manufacturing, automotive, and robotics.

Problems Solved

This system helps prevent overvoltage transients at the electric motor, which can damage the motor and other connected components. It ensures smooth and efficient operation of the motor.

Benefits

The system ensures the longevity and reliability of the electric motor by effectively managing overvoltage transients. It also provides stable and consistent performance of the motor.

Potential Commercial Applications

• "Electric Motor Voltage Regulation System: Applications and Benefits"

Possible Prior Art

There may be existing systems or devices that address overvoltage transients in electric motors, but the specific configuration and features of the diode bridge circuit in this patent application may be unique.

Unanswered Questions

How does this system compare to other methods of mitigating overvoltage transients in electric motors?

This article does not provide a direct comparison with other methods or technologies for managing overvoltage transients in electric motors.

What are the potential cost implications of implementing this system in various industries?

The article does not discuss the potential cost of implementing this system in different industries or applications.

Original Abstract Submitted

A system for controlling an electric motor includes a voltage regulation device connected to the electric motor, the electric motor connected to an inverter by a power cable including at least one electrical conductor. The voltage regulation device includes a diode bridge circuit configured to mitigate overvoltage transients at the electric motor. The diode bridge circuit includes an alternating current (AC) input and a direct current (DC) output, the AC input connected to a terminal of the electric motor.