So is the max operating temperature listed here (180C) the maximum temp the hot side of the pad should get too? I am confused because in the description it says the if its too hot to touch then "you're in the danger zone". I guess what I want to know is the maximum temperature the hot side can achieve before it damages the part.

Will this only draw a maximum of 7A? What would happen if I hooked this up to a 12v/15A power supply? Would it break or just max out at 7A?

What's the appropriate way to power this peltier module?

I have two different AC adapter with same spec (12V/3A). It seems like one has short circuit protection, but the other doesn't. With the one with protection, I couldn't power the module by connecting it with the power supply directly maybe because it created a short circuit and the power supply did not allow current flow. With the one without the protection, I was able to power the peltier module; however, after powering it for a few hours the power supply suddenly exploded (fortunately no hurt or damage to house). So I should have powered the peltier cooler in a different (and safer) way. So what's the best way?

How fast do these return to room temperature?

Hi all!

I am an amateur at best so sorry if this comment comes across as "less informed" (stupid) :P

I am working on making a small heater/cooler for a Phd student within textile design and I need this small space to be cooled down to about -10°C I was wondering if this peltier along with a large heatsink and fan could do the job? If not, can one connect multiple units to create a greater effect?

Thanks,

Daniel

Aren't these also supposed to provide power in the presence of a temperature differential?
If so, I'm curious how much you could generate from, say, an armband of these while running on a cool day (trickle charger?). Maybe a cup of hot beverage (umm, useless "HOT" led indicator). This could get interesting.
At the very least, cooling without mechanical action is intriguing.

Expecting any more of these? They just seem really cool(pun intended).

In Germany they have used these on the cars exhaust to generate power to help supplement the alternators current.
with the temp difference of the exhaust pipe and the ambient air gives a great temp difference to generate power.

What is the smallest battery this can run from and cool noticeably?

Datasheet please?

Hi, How to put several of these in a series with arduino ?

I got one of these things down below -20 F by connecting the hot side to a water-cooled CPU heatsink: http://www.newegg.com/Product/Product.aspx?Item=N82E16835181015
I accidentally "burnt" my finger on the cold side... it still sort of hurts, actually...
This was with a +12V input from a computer power supply.
By comparison, using the CPU fan recommended by Sparkfun, I could only get the cold side down to +38 F - that's a 60 degree difference! Good cooling is essential.

Well they be in stock again??

Hello all,
I'm just getting started with electronics, but this is on my list of things to try.
I did find some good reading here: http://www.tellurex.com/technology/ (note the pdf versions on the right as well.)
Highlights for me were:
A heatsink is required on the hot side. And cold side should be connected to something.
You can use PWM (>= 60hz) or voltage to regulate the temperature(s) of the device.
The hot and cold side is arbitrary, if you reverse polarity it switches the hot and cold side. So it can both heat and cool which is good if your ambient fluctuates like the outside world does.
Not sure if the Seebeck or Peltier effects confuse me more than Ohm's law ;-)
Time to setup my first Sparkfun order...
Have fun,
-c

Why doesn't SparkFun sell a heat sink to go with this?

I have been using two of these for a project that I am working on. The black wire ripped out of the plate and now it isn't working. If anyone has any tips on how to fix this, it would be greatly appreciated. I need it as soon as possible please. THANK YOU in advance

Why haven't we attached one of these to a Bitcoin miner yet?

The Wiki in the link above is outdated. I bought this, and took me a while to figure out how to use it. At the college today, found an excellent source that breaks it down in a simple yet meaningful way that nearly anyone could understand.

http://www.activecool.com/technotes/thermoelectric.html

I dont see a datasheet for this particular thermocooler on this websites page... This is one of the products where the datasheet really helps to demonstrate application...

I am trying to make a small low powered cooling device that can cool down and heat up but dont want the device to get too hot or cold, could i power this with a simple 1.5V AAA battery? and what would that do? Thanks

These Little guys are so fun to play with! They do suck tremendous amounts of power though for their size... found that out the hard way... any chance you'll be selling a heatsink/fan combo again to go with this any time soon? Or maybe a kit.... That would be interesting.

If I need to cold down water from 85 to 5 degrees Celsius in less than a minute, how many Peltier devices would a need to use? is it any efficient?

Can you tell us more about the sealing on the sides of the device? It looks to be filled in with some white substance. If you don't have specifics on the material or ingress protection standard, perhaps impressions as to what it seems to act like? I'm trying to get a rough guesstimate as to its moisture-proof-ness.

ya i have one of this on my 3d printer cooling my hot end works great

Does anyone know how cold this can get with one of the sparkfun heatsinks? (Maybe the Heatsink and Fan 70mm PRT-10686)? Someone mentioned that -20C was achieved with water cooling but was wondering what it can do with something air cooled.

This is a neat device, but I have to ask, what is the reason for the $15 price? I purchased one here and then, while looking for heatsinks for it on Amazon, I found it priced for only $5.00! That is a huge difference!

Any one know how this would hold up in a very moist environment. say for example the inside of a pot lid?

could these be placed along the insides of a 5 gallon beverage cooler? How many would I need to chill the water 10 degrees?

How long does this last. I talked to spark fun and they don't have any info on it. Does anybody know how long this can run before falling with the proper heat sinkage.

Is there anyone here that has experience using this device for both heating and cooling to maintain a steady temperature. My son and I are attempting to design an incubator/cooler to make a specific type of Swedish cultured milk. The bacteria needs to be at a steady 24˚C (+- 1˚C). We live in San Diego, where air conditioning is rare, and the ambient household temperatures often surpass 24˚C – hence the cooling. We are working on using a Beagle Board Black as the controller. Any pointers and/or suggestions.

Is it at all possible to regulate/control the temperature of the heat side on this thing?

Ok, so I bought one of these and it got really hot and I was just using a fan to cool it down. It probably wasn't enough. What side gets hot and which side gets cold?

wow the benefits of thermal recovery from tech like this could make many hot systems with ready cooling also produce suplimental electricity for them self.

HOW DO WE GET THAT MOSFET POWER TO BE HIGHER FROM THE EXAMPLE CODE GIVEN ABOVE?? PLEASE HELP

Hey Does anybody know the exact data sheet for this thermal generator?

You can power one of these with an old ATX PSU's 5 volt rail. Just use the metal case of the PSU for the heat sink. I'm in the process of making a video that demonstrates this, though my TEC came from a minifridge.

I think you can make a simpler TEC generator with wires of dissimilar metals - nichrome & copper for instance. Twist segments together at both ends and wire in series. One half of each pair is exposed to heat, the other to cool air. I haven't done this, but practical generators for small heat generators like candles and oil lamps have been used to power small appliances. In the old Soviet days, I saw photos of folks (in Siberia, where the cold half was easy to find) gathered around oil/kerosene lamps that powered radios. Also, the Plutonium-powered electric sources in the Curiosity Mars lander run off the heat generated by simple radioactive decay.

Im working on a SNES portable and I want to use this keep the heatsink cold enough to touch but, I'm confused about which side should touch the heatsink and if I should put a fan on the side that is pushing out heat or will this be enough on it's own?

I am confused by the Tmax. What does it mean exactly? Maximum temperature difference that we can achieve using this TEC? Maximum safe temperature difference it can be exposed to, either powered or unpowered?

Instead of having a huge array of thermocouples, couldn't there just be one fractal thermocouple? Like fractal antennas in cell phones?

Connected a heatsink and 12V PC Power supply(20A), It only consumes 3 Amp. that's only 38 watt. Any idea how to get it use more, like 7 amp or 60 watts ?

I'm guessing these are only uni-directional, right? You can't reverse the voltage and get the heat to flow in the other direction, can you?

Oh, and if you put a multi-meter across the TEC the resistance is more of the order of 2.5ohm, which ties in with the stated values...ie: 15.4V/7A= 2.2ohm. So I'm not sure where the stated 1.7ohm comes from?? But it's questionable...

Please, oh please try and find a data sheet for these TECs. It is very important to understand the drop off in efficiency at lower voltages, ie: 12V. The efficiency at the quoted max values is 59.6% of input power being 'converted' to cooling. If you repeat the calc with the same efficiency at 12V, it shows that you should get 25.8W of cooling. HOWEVER, this assumes the same maximum efficiency. In actual fact the efficiency could be much lower, giving more like 10-15W of cooling. You can see the large margin for error when trying to design a system using these TECs. They are very good units, but we really do need a data sheet. So puuhhhrettyy please, ask your suppliers, do some digging, and try and find us some efficiency curves, etc :-) Thanks.

So, I'm thinking of buying one of those for building a small beer fridge, that could keep 12 cans cold (~4C). I calculated it would take ~285kJ to be removed, and if this unit transfers heat at 62.2W, it would take ~1h16min. Accounting for the aluminium can's mass, and not-perfect isolation, I can double this number, and call it 2.5h. Would this actually work, or am I missing something?
Thanks,
L.H.
P.S. I assume beer is about as dense as water, and heat capacity is the same, and room temp is 20C.

Ben Heck from the Ben Heck Show did a cool project with two of these. An semi-instant can cooler. Check it out. http://www.element-14.com/community/community/experts/benheck

It isn't quite true that nothing will happen without a heat sink. I've seen the leads melt off peltiers before. It was an accident...
So yes, use a heat sink. I don't know exactly where the semiconductor alloy melts- pure Bismuth Telluride melts at over 500 C, but this has some other stuff like antimony in it, and I don't know how much. In any case, if you want to generate power from one, you probably need to know when the leads are going to melt off, and when the Bismuth Telluride melts. And you still need to dump the heat into a heatsink on the cold side. And these are potted with something, but if it is silicone, it will take some heat.

I connected my TEC to a watercooling and got the temperature down to -36,9 *C (-34,42 fahrenheit), the element of the watercooling was about 19 Celsius.

I have a 140 Watt (at full load) CPU that I would like to cool with this. Since this device disipate about 100W, is it possible to stck 2 of the to get above the required 140 watts of dissipation? This would ofcourse be heat-sinked with a typical CPU sink and fan which would also have to be rated at around 200 watts of dissipation. My goal is to get a CPU running at below ambient temperature. (but not too much as I don't want condensation forming.) Does this idea seem possible?

Can I really use it to chill something, like a cup of soda?
Like this one http://www.thinkgeek.com/computing/accessories/96b3/ ?
Thanks,

One of the cooler applications for using temperature delta to power something the Ecofan: http://www.caframo.com/hearth/hearth_products_woodstove_ecofanairplus802.php
I'm tempted to make something like this over the winter but pipe to an external radiator.

I would have called it a Heat Pump as it isn't just for cooling, can be used for heating (as you state in the description) :D

Neat! If you use one of these, make sure you put a heat sink of some sort on the hot side... Peltier devices are pretty inefficient and most of the 60 watts this dissipates is waste heat. Water cooling or putting a fan on the heat sink is even better.
The power generation aspect is also worth investigating. I believe that most if not all of the nuclear power sources used in satellites have (in simple terms) a hot isotope on one face and a heat sink facing deep space on the other.
Since a particular face can be switched from heating to cooling by switching polarity you can connect one to an 'H' bridge and maintain a precise temperature on that face by toggling polarity to heat or cool as needed.