After a bit more googling, I came across this:
[dovermotion.com]
and this:
[www.quora.com]
If I understand what I'm reading,I could and probably should wire the motors like the one I'm looking at for bipolar half coil operation for applications like the Kossel I want to put it in. That's because bipolar parallel wiring gives a broad, flat torque curve where bipolar series gives a high torque curve at low speeds that drops off sharply. I didn't think I could drastically change the performance curve of the motor so drastically by changing the wiring up, as I'm used to doing fairly simple things with much larger motors. (Rotary phase converters...)
Does my limited understanding of this info seem on target, or am I really out to sea in a leaky canoe?
[dovermotion.com]
and this:
[www.quora.com]
If I understand what I'm reading,I could and probably should wire the motors like the one I'm looking at for bipolar half coil operation for applications like the Kossel I want to put it in. That's because bipolar parallel wiring gives a broad, flat torque curve where bipolar series gives a high torque curve at low speeds that drops off sharply. I didn't think I could drastically change the performance curve of the motor so drastically by changing the wiring up, as I'm used to doing fairly simple things with much larger motors. (Rotary phase converters...)
Does my limited understanding of this info seem on target, or am I really out to sea in a leaky canoe?