The moteus line of brushless motor controllers currently require a CAN-FD host to send commands in order to actually execute a motion profile. moteus has long provided a python library that can be used on desktop operating systems to send commands and parse responses, and recently added a C++ one as well. Next up, and described in this post, is a library for Arduino which provides the ability to command and monitor brushless motors using moteus motor controllers.

Recently I covered a new feature for the moteus brushless controller that improved robustness for velocity control when external torques exceed the maximum allowable control torque. In this post, I’ll cover a feature that can be used for a similar situation in position control, “recapturing position and velocity”.

In some applications, while in position mode, it can make sense to limit the maximum torque during specific periods so that external torques are able to overpower the controller. The most obvious case would be if the maximum torque is set to 0, or the kp and kd scale are set to 0 temporarily. A problem then arises when resuming control, as the “control position” will be wherever it last was, despite the fact that the actual motor have have been dragged by the external torque some distance away. When the torque limit is released, a large transient can develop as the controller tries to instantaneously get back to the old control position.