In this video we protect our loads against voltage spikes and Transients in Alternating Current with this Electronic Protection Circuit for Soft Start, if you want to support me, like my videos and Share them.
This circuit is interesting when the motor is permanently connected to a load, but a variation in its speed is not necessary. The circuit is capable of taking an engine from 0 to its maximum r.p.m. in a smooth and progressive way and in this way damages to the driven machine are avoided. I have used an Arduino UNO to control the motor driver. In this way you can change the acceleration of the motor easily by varying the delay.
In this video we protect our loads against voltage spikes and Transients in Alternating Current with this Electronic Protection Circuit for Soft Start, if you want to support me, like my videos and Share them.
This circuit is interesting when the motor is permanently connected to a load, but a variation in its speed is not necessary. The circuit is capable of taking an engine from 0 to its maximum r.p.m. in a smooth and progressive way and in this way damages to the driven machine are avoided. I have used an Arduino UNO to control the motor driver. In this way you can change the acceleration of the motor easily by varying the delay.
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