Shane Holland said:
I'm not familiar with slotless technology and had to look it up. I'm pretty sure our motors are not slotless. It looks like slotless is used for very high RPM, i.e. 100,000RPM. Maybe someone like Rick Christopherson may know more about slotless technology and can shed some light on the topic.
As it applies to drill motors, slotless motor technology does not offer any appreciable benefit over the standard stator design. Slotless design would offer the greatest benefit in applications where ultra-smooth rotational positioning is required, such as the drive motors of a CNC axis.
EC-TEC drills utilize a planetary gear set with a very large reduction ratio. (I can't remember the ratio off the top of my head, but I believe it is at least 10:1.) This means that the 24 steps within the rotation of the motor translates to 240 steps at the drill chuck (slightly more than 1 degree per step). Even at the very low speed of 250 rpm, that still translates to 60,000 steps-per-minute (1000 steps-per-second)--which is trivial.
Deansocial said:
woodnerd said:
................ To put it in a nutshell, for a given size, brushless motors are faster, more powerful, generate less heat, and last longer while using less power."
so why are festools slower?
In regard to drill motor applications, neither technology is operating anywhere near its "speed limit". However, what separates "Brushed" from "Brushless" is that you cannot directly control the speed of the Brushed motor externally under varying load.
The brushes in the motor perform the task that is called "Commutation". In simple words, this means switching the polarity of the motor windings based on the position of the rotating Rotor so they are always opposing the magnetic field in the stator.
Because this switching function is internal to the motor, the only thing stopping the motor from going into a "runaway" condition (ever-increasing rpm) is the mechanical load put on the motor. Conversely, the only way to control the speed of the motor is to change the voltage to the motor to overcome the mechanical load.
On a brushless motor, the commutation function is external to the motor and is controlled electronically. The EC-TEC controller sends a specific Frequency of pulses to the motor, and this controls the speed of the motor. The higher the frequency, the faster it turns. Sensors inside the motor tell the Controller exactly where the Rotor is with respect to the Stator, and from this, the Controller knows if the motor has "slipped" from its intended speed.
This is why an EC-TEC drill will increase its output power for a given RPM as the load on the motor increases.
Back to Dean's original question, the speed of the motor is the speed that the controller is telling it to go. It could go faster, but this is a drill, not a router.
