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IJRR
2016
2016
Anticogging: Torque ripple suppression, modeling, and parameter selection
Smooth motion is critical to some robotic applications such as haptics or those requiring high precision force control. These systems are often direct-drive, so any torque ripple in the motor output must be minimal. Unfortunately, low torque ripple motors are expensive. Low cost brushless DC motors are becoming more prevalent, especially from the hobby RC community. These motors often have the required high torque density; however, they also have significant torque ripple. This paper presents a low cost method for anticogging - the compensation of cogging torque. While other methods exist to compensate for current-based torque ripple (mutual or reluctance torque), none have addressed cogging torque, except by adding expensive force sensors. This paper presents two methods that use a position sensor (already present for servo motors) to map cogging torque to rotor position. The map is played back according to position reported from the sensor to cancel the cogging torque. The design a...
Real-time Traffic| Added | 05 Apr 2016 |
| Updated | 05 Apr 2016 |
| Type | Journal |
| Year | 2016 |
| Where | IJRR |
| Authors | Matthew Piccoli, Mark Yim |
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