DIY Heatsink for Small Transistors

Here's a little mini-instructable:

Want to squeeze a bit more current through those inexpensive TO-92 package transistors? Then add a small metal heatsink.

I made this for a PWM DC motor driver, as some 2N2222 bi-polar transistors were handy. It worked OK, but the 2N2222 was getting very hot (too hot to touch.)

This will work with any TO-92 device--but the device must have a flat part to contact the sink (as TO-92 cases do.)

It's not entirely crazy; commercial heatsinks are available for this package. And the 2N2222 specs include two power dissipation ratings, Tamb <= 25 C (500-800mW) and Tcase <= 25 C (1.2-1.8 mW) (being ambient air temperature and case temperature.) Keep the case at 25 C or below, and the current rating more than doubles.

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Step 1: You'll need...

Materials:

-- Heatsink material: copper, aluminum or other sheet metal
-- Heat shrink tubing
-- Thermal paste compound (for CPU heatsinks)

Tools:

-- A nibbler (or tin snips)
-- Files and sandpaper

mgingerich says: May 26, 2012. 10:17 AM

Great little instructable. This should keep my CNC controller from melting itself :)

Electorials says: Nov 4, 2011. 10:19 AM

epic!
I've never seen anything like this before,

5 stars ^^

gmoon (author) in reply to ElectorialsNov 5, 2011. 6:45 AM

Thanks!

beehard44 says: Jan 4, 2011. 4:43 AM

lol nice idea
finally i can use my lm317l to give me 1A

rocketman221 says: Dec 22, 2009. 3:59 PM

Good idea. I have used aluminum tape before, but it gets bent out of shape easily.

comodore says: Feb 28, 2008. 4:45 AM

How can I make a heatsink for a big transistor like this one in the pictures?

Wesley666 in reply to comodoreDec 22, 2009. 3:43 PM

You can buy heat sinks for these. All they are is a square with sides bent up like this:

l___l

*If the picture above doesn't work this should:

l......l

All the way around. Then cut down the sides every .6cm or so and drill 2 holes for the pins and 2 more for screws and the collector connection and that's it.

Wesley666 in reply to Wesley666Dec 22, 2009. 3:43 PM

Nvm both pictures work...

Jodex in reply to comodoreDec 14, 2009. 10:19 AM

Stupid question comes here, but I have to ask because I'm not sure. Is the casing of that transistor its base or something? Thanks for the answer.

omnibot in reply to comodoreMay 6, 2009. 4:20 AM

Drill a hole in a big metal plate and screw it in.

comodore in reply to omnibotMay 7, 2009. 1:14 AM

Nah, that is to easy... ;D

omnibot in reply to comodoreMay 9, 2009. 6:06 AM

Not if it's six inches of steel and you use a handpowered drill it isn't.

comodore in reply to omnibotMay 14, 2009. 10:43 AM

Well... :D

Xellers in reply to comodoreApr 29, 2008. 1:31 PM

Just find an old computer, rip out the CPU heatsink and fan, and get some thermal paste. Apply the thermal paste to the transistor and stick the heatsink and fan assembly to that. From there, if you really want to, you could wire the fan up to some sort of power supply and that would solve your problem.

_Scratch_ in reply to XellersJun 22, 2011. 9:56 PM

How big of a transistor is that?? New cpu heatsinks are designed to dissipate a LOT of heat.

steven123654 in reply to comodoreMar 21, 2008. 8:41 AM

I will soon add a instructable on how to do so (with a CPU fan and it heat sink)

comodore in reply to steven123654Mar 21, 2008. 1:15 PM

OK. Thank you!

gmoon (author) in reply to comodoreFeb 28, 2008. 6:19 AM

Those TO-3 packages are meant to be bolted to an aluminum heatsink, and those are pretty common. Thermal compound is a good idea here, too.

Here's a link with a nice visual...

beehard44 in reply to gmoonMar 27, 2010. 9:25 AM

well, i salvaged a lotta devices wid heatsinks, and some use thermal mat or some sort. instead of thermal paste, that is used. It is like rubber, but not rubber

comodore in reply to gmoonFeb 28, 2008. 8:00 AM

Thank you!

Capt. Howdy says: Apr 25, 2009. 5:30 PM

Nice. I'm gonna use this on an upcoming project.

Koil_1 says: Nov 9, 2008. 9:58 PM

On this same kind of transistor I usually just cut the heat sink with a tab that wraps around the IC. I can definitely see how this would work pretty well. I like the heat transfer from a crimped on heat sing a little better. It can easily get out of hand though, if you crimp it to hard. If you do, it breaks the chip which is considerably bad if you still want to use it. Kudos on the innovation. It's a much safer way to apply a heatsink to a small chip without a mounting hole.

Prometheus says: Mar 4, 2008. 12:54 AM

I like the project, but I suggest that the heatsink actually wraps around the casing to improve heat-transfer to it. Aluminum is best for this, and I can suggest using a soda can for scrap aluminum that is sufficient for this task. Also, keep in mind that thicker heatsinks are for handling surg3es, thinner ones are for more continuous duty. There is no such thing as a heatsink too big. Employ as much surface area as you can, and you can see results far beyond expectations until you actually start burning-out junctions. Crazy as it may sound, heatsinking the leads themselves can actually help too. Solder copper foil to the pins over the surface-mpount, and even more power can be pushed through, just make sure they don't touch.

gmoon (author) in reply to PrometheusMar 4, 2008. 4:06 AM

Yes, only the prototype was copper. The heatsink in the 'ible build was aluminum. These are all excellent points. Thanks!

flagbuff says: Feb 22, 2008. 5:00 AM

Very Clever! thank you!

gmoon (author) in reply to flagbuffFeb 22, 2008. 7:36 AM

Yup. :-)

acaz93 says: Feb 13, 2008. 7:07 PM

Very useful , specially if you have to switch some motors , Cool pictures Btw

gmoon (author) in reply to acaz93Feb 13, 2008. 7:50 PM

You might think that little guy couldn't drive a 12V motor. But it does pretty well. Thanks.

acaz93 in reply to gmoonFeb 13, 2008. 9:03 PM

im using it for controlling a Relay actually , it heats up quickly since it's hardcore Fast switching!

BTW:have you seen(*)The Solenoid Concert ? (8)

1up in reply to acaz93Feb 15, 2008. 11:17 PM

Dude! That is awesome! I should do that using a parallel port...

gmoon (author) in reply to acaz93Feb 14, 2008. 6:00 AM

No, I hadn't see that. It's great!

Maxx1 says: Feb 13, 2008. 11:07 PM

I feel bad for that poor transistor. I understand when your in a pinch for a part but I would rather get a part that is more rated for the task.. Good instructable tho....

gmoon (author) in reply to Maxx1Feb 14, 2008. 6:18 AM

Yes, of course-- it's always best to use the correct part. But "heatsinking" is a primary way of extending the power dissipation of any semiconductor, so this isn't a radical technique.

Besides, it's fun to test components to failure (and to be surprised when they don't fail.) Especially if you've got 20 or 30 of 'em, and they were $0.10 a piece....

rc jedi in reply to gmoonFeb 15, 2008. 10:49 PM

Testing to failure? that's what i do to my cars!

charper in reply to gmoonFeb 14, 2008. 1:46 PM

I also couldn't help but thinking "poor breadboard". Excessive current can be very destructive to them too.

gmoon (author) in reply to charperFeb 14, 2008. 2:23 PM

No doubt. That wouldn't be an issue here: drawing about 230 mA of pulsed 12V, and it's never at 100% duty cycle.

GorillazMiko says: Feb 13, 2008. 8:09 PM

Awesome Instructable! Pictures are great too.

gmoon (author) in reply to GorillazMikoFeb 15, 2008. 6:15 AM

:-)

c0redump says: Feb 14, 2008. 8:24 AM

Just thinking about the last photo, where it shows the heatsink held on with heat-shrink sleeving. Now, if the thing gets REALLY hot, the sleeving will melt and the heatsink will fall off, making a bad situation much worse. Could you hold the heatsink on the transistor with metal, somehow, so it would never fall off?

gmoon (author) in reply to c0redumpFeb 14, 2008. 9:40 AM

You could adapt this to your needs, for sure. A twisted wire, to hold everything together might work (I'm pretty sure the transistor would fail before the plastic melts--I'm not even sure heat shrink tubing will melt, it might just crumble and burn.)

There are other options, too. Arctic Silver makes a thermal adhesive, essentially a thermally-conductive epoxy. I used what was handy...