If you want to check your house for hot air leaks, take pictures of the heat coming off a rack of equipment, or just chase the most dangerous animal, [Arnie], through the jungles of central america, a thermal imaging camera is your friend. These devices normally cost a few thousand dollars, but the team behind the Mu Thermal Camera managed to get the price down to about $300.
The basic idea behind the Mu Thermal Camera is overlaying the output of an infrared thermopile – basically, an infrared camera – on top of the video feed of a smart phone’s camera. This is an approach we’ve seen before and something that has even been turned into a successful Kickstarter. These previous incarnations suffered from terrible resolution, though; just 16×4 pixels for the infrared camera. The Mu thermal camera, on the other hand, has 160×120 pixels of resolution. That’s the same resolution as this $2500 Fluke IR camera. After the indiegogo campaign is over, the Mu camera will eventually sell for $325.
We have no idea how the folks behind the Mu camera were able to create a thermal imaging with such exceptional resolution at this price point. The good news is the team will be open sourcing the Mu camera after their indiegogo run is over. W’e'd love to see those docs now, if only to figure out how a thousand dollars of infrared sensor is crammed into a $300 device.
Filed under: hardware
When last we heard of a cheap thermal imaging camera accessory for any smart phone, we were blown away at how easily a very expensive electronic device could be replicated with an Arduino and enough know how. Now, that thermal imaging camera is a kickstarter project and provides a cheap way to put a thermal imaging camera in the tool chest of makers the world over.
It’s called the IR-Blue, and simply by connecting your phone to the IR-Blue with Bluetooth, you can overlay the output of a thermal imaging camera on the output of your camera’s phone.
The thermal imaging sensor is basically a low-resolution camera (16 x 4 pixels) for infrared radiation. This sensor is factory calibrated to detect heat in a range between -20 and 300 ˚C. This range allows anyone to easily see where drafts in a house are coming from, where heat in a computer is being generated, or figuring out how to cook a steak.
It’s an awesome and well designed product, so we’ve got to hand it to [Andy] and the IR-Blue team for putting very expensive tools in everyone’s hands.
Filed under: hardware
[Rob] lives in a 100-year-old house, and with these antique lath and plaster walls and old window frames comes a terrible amount of drafts. The usual way to combat this energy inefficiency is with a thermal imaging camera, a device that overlays the temperature of an object with a video image. These cameras are hideously expensive so [Rob] did what any of us would do and built his own.
The build centers around a Melexis MLX90620 far infrared thermopile that can be had for about $80. Basically, this sensor is a very, very low resolution camera (16×4 pixels) that senses heat instead of light. By sticking this sensor on a breadboard with an Arduino Mini and WiFly network adapter, [Rob] is able to pull the data down from the IR sensor to his iPhone and overlay it on the feed from the camera.
The result, as seen in the video above, is a low-resolution but still very useful thermal imaging camera, perfect for looking for cold drafts in an old house or tracking down [Arnie] just like a Predator.
Tip ‘o the hat to [Ronald] for sending this one in.
Filed under: green hacks