Thingiverse
Simple LED driver
di JobSmolders
24
Download
21
Likes
0
Makes
This model is a means of driving and dimming your LED’s.
By changing (or switch off) the light intensity of the LED in different ways, you get different colors and effects. This is the main secret of the lamps I have posted this year.
It’s the simplest way I could think of to make this driver/ dimmer :-).
Basically it’s just a case with 3 potentiometers and 3 transistors (or FET can also be used like a BUZ11)
that dims the voltage. This is a follow up part for the adjustable LED base: https://www.thingiverse.com/thing:2660485.
If you have your LED’s and the right resistor (I have talked about in https://www.thingiverse.com/thing:2660485) you can make this driver case. I included a schematic for connecting the parts. Because it’s so simple, I didn’t even make a PCB, but soldered the parts directly together on the potentiometers themselves. The transistor is only needed to handle the current and it’s cheaper than buying a 5W potentiometer.
The 15K resistor is just a limiter so the
By changing (or switch off) the light intensity of the LED in different ways, you get different colors and effects. This is the main secret of the lamps I have posted this year.
It’s the simplest way I could think of to make this driver/ dimmer :-).
Basically it’s just a case with 3 potentiometers and 3 transistors (or FET can also be used like a BUZ11)
that dims the voltage. This is a follow up part for the adjustable LED base: https://www.thingiverse.com/thing:2660485.
If you have your LED’s and the right resistor (I have talked about in https://www.thingiverse.com/thing:2660485) you can make this driver case. I included a schematic for connecting the parts. Because it’s so simple, I didn’t even make a PCB, but soldered the parts directly together on the potentiometers themselves. The transistor is only needed to handle the current and it’s cheaper than buying a 5W potentiometer.
The 15K resistor is just a limiter so the
Hai stampato questo modello? Accedi e condividi il tuo make!
Accedi per lasciare un commento
AccediAncora nessun commento – sii il primo!
