ArakelTheDragon
- Joined Nov 18, 2016
- 1,366
I think this is more of a mechanical than electronic problem.
Yes it is. But electronics definitely play an important role. Especially since this will be a closed-loop systemI think this is more of a mechanical than electronic problem.
To @cmartinez Motor model based on your measurements:...Here are the results of my measurements, which were performed using a test frequency of 1KHz:...

Question, why did you add a 3.6k resistor to the motor's model?
Power, dissipating in this resistor, imitates losses in rotor. Now we have balance of currents in L4, L5 with capacitor 1.2uF.Question, why did you add a 3.6k resistor to the motor's model?
Yeap ... those are all factors that have been thoroughly considered ... but I still have to build the system and test it. I just want to make sure that this part is completely covered.The response time and stability of any electronic control system will be very critical. The inertia of the tension controlling motor will have a big part in the response time. So you will still need a dancer roll, that uses gravity, to stablize the tension.
AND, there will be that big conflict between production rate, production yield, and production costs.
Thanks for your interest, Arakel.What inertia will the motor have? Is he going to use a basic motor? Inertia on a step motor where we just give how many steps should be made?
Very interesting, but I'm already applying PWM to the AC voltage, using a couple of Mosfets back-to-back, using a driver powered by an isolated power supply, and switched by an optocoupler... If the technique you're suggesting is better than that at reducing EMI, how could I go around applying DC voltage to such motor without breaking the house? Also, would that scheme produce reverse motion in the motor, or would it just make it resist it?It is also possible to do braking by application of a DC voltage to the winding of most induction motors. And the brke torque is fairly proportional to the current, up to a point. That may allow you to use a much simpler control scheme.
Not yet, but that's the reason why I'm being so thorough with preparing myself to face this problem when I have the machine up and running. In fact, a dancer roll working on the pay-out wire is still on the table... but I promise you guys I'll keep you posted on whatever happens.Do you know how much braking torque will actually be required?