...
When testing at 12.8kg (nominal) motor struggled to lift the load, behavior consisted of “breaks” in movement as it lifted it up. The current draw is not consistent; it spikes and then returns → suspect close to the motor limit will observe unexpected behaviour. (note: Arm can hold just cannot lift) [Smells bad → motor insulator might be damaged]
When testing it at 25kg (competition requirement) the motor could not hold up the weight at all, would collapse in closed loop static loading. Potentially, we could have burned the motor, but when measuring the resistance of phases and running it afterwards, we did not see abnormal behavior or values.
...
Axis 1 was accidentally dropped during testing, motor appears to be broken.
Axis The axis 2 motor could potentially be broken, ; further examination is required. Might We might need to buy 3 more motors, and further motor specing spacing may be done.
Yuming believes we should proceed with weight reduction and torsion spring. Torsion spring could take the weight of the arm leaving the motor to take the weight of the load, which would put it within the nominal range of the axis (61.31 Nm max). Further discussion with robotic prof to learn more about torsion spring implementation and discussing other options such as motor respec needed.
Yuchen: I have disassembled the Axis1 arm due to the motor damage will need to replace the motor; the motor is currently on the table. I also disassembled motor 2 and will need to do an RCA on it. I personally don’t know how to open the gearbox, so I need a mechanical member to help me with that task. I think, based on the observation from yesterday, we want some redundancy + 10% in the motor respec to counter the effect of any potential environmental factor(temperature + long duration)