MOTOR CONTROLLER

Organization Name

TOSHIBA ELECTRONIC DEVICES & STORAGE CORPORATION

Inventor(s)

Yutaka Yamada of Fuchu Tokyo (JP)

Koji Suzuki of Fuchu Tokyo (JP)

Ken Tanabe of Ota Tokyo (JP)

MOTOR CONTROLLER - A simplified explanation of the abstract

This abstract first appeared for US patent application 18115550 titled 'MOTOR CONTROLLER

Simplified Explanation

The abstract describes a motor controller that utilizes two control circuits, a determination circuit, and a command circuit to output a control command value based on a rule base and a learned model from the command value and measured value of an angular velocity.

• The first control circuit generates a control value based on a rule base from the command value and measured value of the angular velocity.
• The second control circuit generates a control value based on a learned model from the command value and measured value of the angular velocity.
• The determination circuit determines a state based on at least the control value from the second control circuit.
• The command circuit acquires and outputs a control command value based on the first and second control values determined by the determination circuit.

Potential Applications

This technology can be applied in various industries such as robotics, automotive, aerospace, and industrial automation for precise control of motor systems.

Problems Solved

1. Improved accuracy and efficiency in controlling motor systems. 2. Enhanced performance and stability of motor operations.

Benefits

1. Increased precision in motor control. 2. Enhanced reliability and performance of motor systems. 3. Adaptability to different operating conditions.

Potential Commercial Applications

Optimizing motor control in electric vehicles for better energy efficiency and performance.

Possible Prior Art

Prior art may include existing motor control systems that utilize rule-based or model-based control algorithms for motor operations.

Unanswered Questions

How does this technology compare to traditional motor control methods?

This article does not provide a direct comparison to traditional motor control methods, leaving room for further analysis on the efficiency and effectiveness of this innovative approach.

What are the potential limitations or challenges in implementing this motor controller in real-world applications?

The article does not address potential limitations or challenges that may arise in the practical implementation of this motor controller technology, leaving room for further exploration into these aspects.

Original Abstract Submitted

A motor controller includes a first control circuit, a second control circuit, a determination circuit, and a command circuit. The first control circuit outputs a first control value based on a rule base from a command value of an angular velocity and a measured value of an angular velocity. The second control circuit outputs a second control value based on a learned model from the command value of the angular velocity and the measured value of the angular velocity. The determination circuit determines a state based on at least the second control value. The command circuit acquires and outputs a control command value from the first control value and the second control value based on a result determined by the determination circuit.