MOTOR CONTROL DEVICE

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Kazuhito Hayashi of Toyota-shi (JP)

Kohichi Kuriyama of Hashima-shi (JP)

Kojiro Asakawa of Toyota-shi (JP)

MOTOR CONTROL DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18491164 titled 'MOTOR CONTROL DEVICE

The motor control device described in the patent application includes various units such as an inverter, current command generation unit, correction value generation unit, voltage command generation unit, dq inverse transform unit, and drive signal generation unit.

• The current command generation unit generates d-axis and q-axis current command values.
• The correction value generation unit generates d-axis and q-axis correction values to suppress sixth-order noise.
• The voltage command generation unit generates d-axis and q-axis voltage command values.
• The dq inverse transform unit generates three-phase voltage command values.
• The drive signal generation unit generates a drive signal for the inverter.

Potential Applications: - Industrial automation - Electric vehicles - Robotics

Problems Solved: - Efficient motor control - Noise suppression - Improved performance

Benefits: - Enhanced motor efficiency - Reduced noise levels - Precise control

Commercial Applications: Title: "Advanced Motor Control Technology for Industrial Automation" This technology can be used in various industries such as manufacturing, automotive, and robotics for precise and efficient motor control.

Questions about the technology: 1. How does the correction value generation unit suppress noise in the motor control system? 2. What are the key advantages of using three-phase voltage command values in motor control systems?

Original Abstract Submitted

The motor control device includes an inverter that generates a three-phase alternating current for driving the motor, a current command generation unit, a correction value generation unit, a voltage command generation unit, a dq inverse transform unit, and a drive signal generation unit. The current command generation unit generates a d-axis current command value and a q-axis current command value. The correction value generation unit generates a d-axis correction value and a q-axis correction value that suppress sixth-order noise. The voltage command generation unit generates a d-axis voltage command value and a q-axis voltage command value. The dq inverse transform unit generates three-phase voltage command values. The drive signal generation unit generates a drive signal for the inverter.