Selecting Motor for Project: Calculating RPM Requirements

AI Thread Summary
To select a motor for spinning an aluminum disk between 400 and 3000 rpm, brushless DC motors are recommended for precise speed control. The disk, measuring 3.5 inches in diameter and 0.5 inches thick, will be milled to 1/32 inch thick and coupled directly to the motor shaft. A controller is necessary to achieve the desired rpm intervals, typically allowing for adjustments between 100-300 rpm increments. Using a brushless outrunner motor is advantageous as it provides higher torque at lower speeds, making it suitable for this application. Proper feedback from the controller or motor is essential for effective rpm modulation.
kclouse
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I'm trying to figure out how to select a motor for a project. I want to spin an aluminum disk between 400 and 3000 rpm. How would I go about calculating the correct specifications for a motor?

Thanks
-Kevin
 
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Since i don't know about your load. i suggest if you try with brush less DC motors because it is very good for precise speed controls.
 
Is this disk touching anything other than what is supporting it? If not, all losses are due to friction and those losses are extremely difficult to calculate (but are relatively small). Either way, if it is a small disk, a small dc motor will certainly give good speed control.
 
You'd probably want a dc "outrunner" brushless motor. These generate more torque at lower rpm than conventional dc motors. They're popular for radio control models. Do a web search for "radio control outrunner brushless motor" and you'll find quite a few site that sell these, along with specifications, like voltage, amps, torque, rpm, ...
 
Thanks all.

The disk will be made out of a 3.5 inch diameter .5 inch thick aluminum stock. It will be milled to 1/32 inch thick aside from the coupling that will attach directly to the motor shaft via two set screws.

I want to attach some kind of controller to the motor to allow roughly 100-300 rpm intervals from 400 to 3000 rpm.

The disk will be spinning perpendicular to the ground.

What do you think would work best?
 
Brushless motors already require a controller just to operate, and a typical controller allows the rpm to be varied. You just need some feedback from the controller or from the motor to determine and modulate rpm.
 

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