Simple DC motor PWN speed control
The 555 is ubiquitous and can be used as simple PWM speed control
лотерея гринкартаCircuit Explaination:
The 555 Ic is wired as an astable and the frequency is constant and independent
of the duty cycle, as the total resistance (R charge + R discharge, notice the
diode) is constant and equal to 22Kohm (givin a frequency of about 1Khz, notice
the hum).
When the potentiomenter is all up, the Rcharge resistance is 1,0 Kohm (the diode
prevents the capacitor to charge through the second potentiometer section and
the other 1,0 Kohm resistor) , and Rdischarge is 21 Kohm, giving a 5% on duty
cycle and a 1Khz frequency.
When the potentiomenter is all down, the Rcharge resistance is 21,0 Kohm (the
diode prevents the capacitor to charge through the second potentiometer section
and the other 1,0 Kohm resistor) , and Rdischarge is 1 Kohm, giving a 95% on
duty cycle and a 1Khz frequency.
When the potentiomenter is at 50% , the Rcharge resistance is 11,0 Kohm (the
diode prevents the capacitor to charge through the second potentiometer section
and the other 1,0 Kohm resistor) , and Rdischarge is 11 Kohm, giving a 50% on
duty cycle and a 1Khz frequency.
The 555 provide good current capability to drive the mosfet fast and to drive a
bipolar transistor.
I actually use this system to drive the DC motor of my small Rotary spark gap
Tesla coil at variable speed
If you are disgusted by the 1Khz hum of the motor try to rise the frequency out
of the audible range (replacing the potenziometer), but rembember that at higher
frequency inductive reactance of motor rises so the the efficiency would drop.
Important:
Obviously the mosfet (or bipolar) must have enough current capability to drive
the motor, so the drain (or collector) current must be equal to maximum motor
current (at power supply voltage, when it is blocked). The snubber diode too,
because it shorts the motor on the off cycle. Both mosfet (or bipolar) and diode
have to be hooked (if you don't want them cooked ;-) ) to a heatsink
if the max motor current is more than 100 or 200mA. I suggest to not stress to
much the motor with too much work because it overheats both motor, transistor
and diode.
If you don't want braking in the off cycle just place a resistor in series with
the snubber diode, it should rise a bit efficiency but have more inertia when
slowing the motor down. The value of the resistor must be R=V(breakdown
transistor) / Imax, and the power should be 5W. Mosfets have internal zener
diode, but don't count on it ;-)
Title: Simple DC motor PWN speed control
electronic circuit
Source: www.electronics-lab.com
Published on: 2005-02-03
Reads: 1371
Print version:
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