 So we're here with a flexible circuit technology, so who are you? Mark Finstead senior application in here and who are you? Ward Bauer application engineer. So what are we looking at here? We're looking at flexible circuits that we make for all all different types of industries medical communication wearables tools Just about anything you can think of our circuits are going into it now. So how do you make a flexible circuit? How does it work? It's actually quite old. It's actually made quite similarly to rigid circuit boards only the substrate is different so that it's flexible so that it can either go back and forth like your Flip phone or your disk drive or it can compress Bend into different shapes in order to be inserted into the box that it controls All right. Can we see some of these? So what where it is does this go? You hold it up This goes in was was part that went into the Nike fuel band Was a wearable application some of our applications create heat. This was for a to heat a small area before insulin injection Right, what is this? This is an aircraft strobe He goes in an aircraft. Yes, it's a strobe lots of LEDs and aluminum heatsink All right, so you busy with more and more flexible circuits Yes, because every everything is getting smaller and lighter And so circuits that used to be able to go into a large controlling unit now have to be much smaller and or flex in order to be inserted into that device So we're essentially every industry now. Nice. So lots of stuff happening and Flexible circuits This has a mechanical stiffener on the outside In order to prevent this area here from flexing because you don't want your solder joints To flex very much or the solder joints could pop off. So That's why this is designed with a mechanical support