 So, EnerGIS, we do wireless power through to radio frequency based power. So, unlike coil based pad systems, we do radio frequency so we can do charging both at contact as well as at a distance. So, right here you're showing a wireless power solution with a bunch. This is showing the fitness band where we have the antenna actually around the fitness band itself. So, that's receiving power. Receiving power. And we also show you power from this smart speaker design charging the battery here. So, how does this show to this receiving power? This particular one is lighting up, but it's really mostly a function of the band itself. And here it's lighting up because it's getting power. So, this wire, how far does it go? So, this particular design, so once again we're a licensing company, so we're not building product. This particular design shows power at roughly about one foot, but we have technology that can be built into larger devices like computer monitors, televisions that go up to five meters. So, in the future there will be maybe all these devices wireless? Correct, yeah. Any small electronic device from tablets to fitness bands, smart phones. Any small device that requires roughly 10 watts to charge or lower is kind of our sweet spot for the technology. How does this compare, that kind of a charging pad compared to a Qi or something like that? Well, the antenna and ASIC that supports charging at contact can also be charged at a distance. So, you can take it off the map and charge at distance as well. What's the amount of power and how fast does it charge? It depends on a lot of different variations of not only the transmitter, but also the receiver technology. When we charge a fitness band, we might be charging that at 50 milliwatts or 100 milliwatts, 200 milliwatts. Smart phone, we're going to charge on contact for smart phone. Typically going to be in multiples of watts, 5 watts, 7.5 watts, 10 watt range. And then at distance we're going to do a couple hundred milliwatts. So, it depends on the device. Can you do a 2A and 2 amps? So, we're going to do 3 amps. So, at distance it's a dependent on transmitter and also application. Typically, when we're talking about distance charging, we're talking about 100 to 200 milliamps. 200 milliwatts. Yes. Does it pick up where the device is? It targets the power exactly there and it doesn't spread it out everywhere? So, it depends. This particular transmitter is just putting power out in the local area. There's no beam forming here. Our other technology, what we talk about with midfield and farfield, we're actually doing beam forming. We're sending power to a specific area. Is that a little magical power? We can kind of focus the power to that device and receive more power there. Is low risk for health? So, we're talking about small amounts of power. So, we're talking about 100 milliwatts, 200 milliwatts. The amount of power sending out is fairly low. Transmit also has the ability to have sensors as part of the solution. So, we can turn power down or turn it off if there's people present in the general area. So, where are you based? We're in San Jose, in San Jose, California. So, a company's been around for roughly four years. Most of our engineers obviously come from different semiconductor companies and different high-tech companies. So, you know, many, many years of experience outside of the company itself and bringing new employees in. Are those all your mentions? Are they like other companies who are similar? We have roughly about 125 patents on this type of technology right now. We have another 170 patents pending. So, the technology's not just one particular technology. It's actually special asics and antennas, special software algorithms to control that pocket that viewpoints. So, what happened with Nikola Tesla? I think he wanted to use quality transmit power, but it never happened. Did he shut down because it was revolutionary? No, I don't know about that. So, wireless power in that older range was very large amounts of power at distance, which you can never do for a long, long time. This is a more elegant solution in terms of being able to turn power up or down based on the received technology, being able to track a device as it moves around the room. And it's a function of silicon asics, software control, and a lot of things that obviously weren't around back in these days.