 Okay, so this is actually the CHIP Ultra Cap. It's short for our reflowable Ultra Capacitor. The world's first practical reflowable EDLC or Ultra Capacitor. It's designed for SMD applications and it survives a ROHAS compliant JDEC standard reflow profile. We actually designed this product initially for solid state hard drive power loss protection applications. The idea is that today in a solid state hard drive about a quarter of the real estate on the board is occupied by usually tantalum capacitors that are needed for onboard energy storage to support the drive on a power loss event to give it time to move data from RAM to flash. Our device actually can replace the tantalum capacitors, the same tantalum capacitors just with two of these devices, so a much smaller footprint and a comparable price point for the solution. So we think that this is actually a no-brainer for SSD manufacturers because it frees up that real estate on the board, which is actually some of the most valuable real estate on the planet as it turns out. There's a lot of energy in this device. It's a 400 millifarad Ultra Capacitor. It's 2.3 millimeters thick, so it's specifically designed for SSD applications. It's also very low ESR, so relatively high power and it's designed for 85 degrees Celsius and 2.1 volts in very long lifetime. Our business model for this is actually a licensing model and that's because projected volumes based on our customer feedback have been in the tens to hundreds of millions of units per year. We want to make sure that we get this technology to market quickly so we are working with major capacitor manufacturers to license the technology. There are about six or seven in the world and we're working with about five or six of those major capacitor manufacturers today doing testing and evaluation and moving toward licensing deals. We expect first production in 2019 from some of our licensees for this chip Ultra Cap. I should also say the chip Ultra Cap is enabled by, I guess you are right, so I should also say that the chip Ultra Cap is enabled by our materials innovations including the electrode which is a binder-less composite electrode so it has no polymer binders that would otherwise melt or disintegrate in a solder reflow process which is a very high temperature process and also on our electrolyte system which is a very stable electrolyte and very low vapor pressure for both good temperature stability in the reflow process but also in the end use operation which can be relatively high temperature but for very long periods of time and that electrolyte is also very innovative because not only does it provide good temperature and life performance but it also provides good electrical performance in terms of capacitance and ESR. So is this the first one that's reflowable? It's the first what we call the first practical reflowable Ultra Capacitor so this has been attempted in the past with some sort of serious limitations in some cases they have been extremely high ESR Ultra Capacitors, orders of magnitude higher than this device which essentially limits the applications severely to just a few sort of niche applications. In some cases the reflowability is very limited after sort of one reflow cycle the performance degrades substantially and then after a second reflow cycle again it degrades the applications and normally the standard in the industry is that you have to survive at least three reflow cycles our device actually sees little to no variation in performance after even six reflow cycles and the ESR is in the hundreds of milliohms range or even less than that which makes it the world's first practical no excuses no excuses Ultra Capacitor. And this one you say is double A does that mean I could just put it in my microphone or what is it going to be for where would people put this? Alright so this is actually a high temperature wound cell this again is our first ever product so we developed this for 150 degrees C operation and today it's used in oil and gas down hold drilling applications and also industrial applications for instance in oil and gas when they are below the surface they see temperatures that can be 100 to 150 degrees Celsius while they are drilling just from the earths from the sub-training environment and they need this as a pulse power buffer or a backup rechargeable energy storage technology for powering the down hold tool so to speak which is an instrumentation and telemetry system that they use to steer the drill bit during the drilling operation and industrial applications they are used in things like high temperature sensors or temperature loggers and things like that where they need a power source that operates beyond say 85 degrees Celsius where most other energy storage devices fail. Is it allowed to do with backup power? When you talk about the SSD you don't want it to stop working it should just work forever? Yeah that's correct so this is mostly for a backup power application so basically when there is a power loss event this will allow basically to deliver the energy that is necessary to move data from the hard drives to the RAM memory so it's a cash to flash memory and well also one other thing that I like to add is that this can be reflowed but when we say that means that we can do this for like five or six times in a row and we don't see any sort of variation in the SR and also in the capacitance which is a very important point so every time that we reflow it there is no such a variation which means that it's very compatible with the process. Are you working with the automotive market or the airplanes and stuff like that? So currently we are mostly actually working with let's say capacitor manufacturers and also with the electronics industry that's the target for this application. We think that in the future this part could also be applicable in automotive industry as you know we're also working on a version of this that can work up to 125 cells.