this post was submitted on 11 Jul 2023
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Circuit is for controlling the fan on a Raspberry Pi, just on/off according to temp, no PWM. Not sure about the diode as it has a .7V drop and it's a tiny brushless DC motor. No markings on the fan so I measured the current with a multimeter when hooking it up to a USB charger. Circuit was adapted from here using what I have on hand.

Suggestions? Any advice is greatly appreciated!

*EDIT: Confirmed, this circuit works on a Raspberry Pi 4. Base was wired to GPIO 17 and manually tested using commands:

raspi-gpio set 17 op dh

raspi-gpio set 17 op dl

I didn't use a breadboard, just hack-n-slash with the wires coming out of the fan, the leads on the thru hole components, a jumper connected to gpio 17 as a socket for the base/resistor lead, and heat shrink tubing for insulation. Folded it up as I closed the housing. Case combo including heatsinks and fan here.

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[–] nothacking@discuss.tchncs.de 3 points 1 year ago (2 children)

Doing some quick math, the transistor will have a base current of 5 milliamps, which a Pi should be able to supply. At a fairly typical beta of 100, the transistor could drive the fan at up to .5 amps, which is plenty for a small fan. A MOSFET transistor is generally better suited for switching high current loads, but for this a BJT (as drawn) should be fine.

[–] glibg10b@lemmy.ml 3 points 1 year ago (1 children)

The transistor is a 2N4401. From the datasheet, V~BE(sat,max)~ = 1.2 V and h~FE(min)~ = 20, so it could drive ~60 mA in the worst case

[–] nothacking@discuss.tchncs.de 3 points 1 year ago

Thanks for checking the datasheet!

[–] Machinist@lemmy.world 1 points 1 year ago

Awesome. That agrees with what I calculated as well. I'm a jack when it comes to electronics.

Thank you much for the help!