Building the Gasglass Laser: A Q&A With Sparklike

Powering Innovation: Building the Gasglass Laser – A Q&A With Sparklike

Powering Innovation: Building the Gasglass Laser – A Q&A With Sparklike

Powering Innovation: Building the Gasglass Laser – A Q&A With Sparklike

We recently had the chance to speak with Kai Niiranen, R&D Engineer at Sparklike, who worked  with our EU team on the company’s new Gasglass Laser testing device. The system is used to measure gas concentrations inside insulated gas (IG) products, avoiding the previous need to break or compromise the glass. We spoke with Kai about what Sparklike does and how the Gasglass Laser is revolutionizing IG testing, using our ML300 Industrial Fanless NUC PC at its heart.

[Logic Supply] Who is Sparklike and what do you folks do?

[Kai Niiranen] Sparklike is a leading manufacturer for non-invasive insulating glass gas fill analyzers. In 2015 we launched commercially a new product, that utilizes laser technology to solve the issues attached to currently used methods to test insulating glass gas concentration. The new technology allows testing of complicated structures, such as energy efficient triple glazed units. This brings the level of quality assurance of these high performing glazing units on par with advanced product expectations.

[LS] What is the computer, in this case the ML300, responsible for inside the Gasglass Laser device?

Sparklike-ML300-Banner[KN] The ML300 runs our measuring control and analyzing software over a windows embedded 7 platform. This means controlling the drivers and engines,collecting data from the laser, running the data analysis and user interface and communicating over an Ethernet and/or USB connection to indicate the concentrations of gasses inside the insulated glass. This obviously all happens in a very short period of time, and everything needs to be well synchronized. Mainly our analyzers are used in an factory setting, and thus, the device and its parts need to tolerate quite harsh environment like dust, heat and vibration.

[LS] When creating a solution like this, what are the primary hardware requirements?

[KN] When looking for hardware solutions, we look at the problem first hand, and then look for solutions at hand that can be used to solve them. In terms of finding an industrial PC, we looked for a solution that was small, reasonably priced and passively cooled. It also needed to have the right connections to be able to interface with our analyzer. In the case of the ML300 which we chose for the Gasglass Laser, the size was right, it had all the necessary plug-ins, and enough power in a compact package. There are still a lot of options left to allow it to meet the needs for future development as well.

Read more about the Gasglass Laser from Sparklike in our full Sparklike Case Study.

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