SPC mesoscale discussions covering the United States.SPC day one convective outlooks covering the United States.Hail size and hail probability contours for the United States to determine where hail may have fallen and how large it was.
#Radarscope game pro
All features of Pro Tier One, listed above.RadarScope Pro Tier Two is $99.99 per year or $14.99 per month. Ability to import custom color tables for radar products.Dual-pane capability lets you compare two radar products side-by-side to obtain a more complete understanding of the weather.The Inspector tool lets you investigate the numeric values of the radar imagery you are viewing.Extended radar loops for up to 30 frames of Level 2 "super-res" data.Tornado and severe thunderstorm watches covering the United States and Canada.Real-time non-gridded lightning data feed that animates with the radar.RadarScope Pro Tier One is $9.99 per year and unlocks the following capabilities: It provides additional features and data for detailed analysis of storms.
But the Pentagon and industry alike are clearly all-in on Gallium Nitride.RadarScope Pro is an optional subscription package available via in-app purchase. That bet may sound a bit optimistic, given past defense programs that entered production before they finished testing. “We have been sticking GaN T/R modules into our (current) GaS systems and only powering those individual modules now for several years,” Karlovich said, “so we already know the plug and play does work.” They just haven’t put the two together yet - but Karlovich argues that replacing GaS with GaN is a simple switch that won’t produce any surprises in final testing.
They’ve already tested the whole G/ATOR system with the old GaS components, he explained, and they’ve already tested the GaN transmitter/receiver modules on their own.
#Radarscope game full
So confident is Karlovich in GaN, he told me, that “we won’t do the full testing until we take delivery of our GaN LRIP.” That refers to the Low-Rate Initial Production radars, the first GaN-equipped batch of which just went under contract this month and will be delivered by late 2018.
“We would be missing an opportunity to deliver….capability that will pace the threat for years to come.” With the Marine radar scheduled for full-rate production in 2019, “we’re about to field a brand-new capability, you don’t want to field it with a (material) that’s going to be obsolete in ten years,” John Karlovich told me. Old-school Gallium Arsenide is clearly on its way out, said the Marine Corps’ program manager for G/ATOR. Or you can build an all-new radar that has the same performance but which is much smaller and uses much less electricity. Or you can improve all three to a lesser extent - range, discrimination, and search volume - according to the customer’s needs. Why all this investment? Raytheon missile defense director Jim Bedingfield told reporters today that replacing traditional Gallium Arsenide (GaS or GaAs) with the more energy-efficient Gallium Nitride (GaN) can increase an existing radar’s range by 50 percent, improve its ability to discriminate between different kinds of targets, or increase the volume it can search five-fold. Lockheed argues its approach lets it get the latest innovations for the lowest cost. Raytheon touts itself as the only company to have its own foundry (in Andover, Mass.) that builds GaN integrated circuits, which it says is more secure than buying them on the open market as Lockheed and others do.
#Radarscope game upgrade
Raytheon’s GaN Patriot sets the company up to compete with Lockheed for the contract to either upgrade or replace Patriot, the Army’s Lower-Tier Air & Missile Defense (LTAMD) system.
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