![]() ![]() ![]() Reflector 3 for Windows includes support for receiving connections from Miracast devices, and both the Mac and Windows version include easier access to common controls. “Of course, we included new features, too.” “This is a completely rewritten application that’s quicker and more stable than its predecessors,” Squirrels cofounder Andrew Gould said. Photos accompanying this announcement are available at Reflector 3 is the third major version of the software and includes an improved user experience, new features and stability and performance improvements. 21, 2017 (GLOBE NEWSWIRE) - A new edition of the popular Reflector screen-mirroring software from Squirrels LLC is available today. For details on that, see our press release.NORTH CANTON, Ohio, Nov. Our first ViaSat-3 satellite also achieved flight configuration. This capacity boost will enable Viasat to provide faster speeds along with the ability to manage greater amounts of data over each satellite’s expected 15-year lifespan.Īnd once deployed in space, ViaSat-3 satellites’ very large size and throughput capacity will help connect the world on land, sea, air, and space. That’s an astronomical 500% increase over the current fleet. Today, the combined capacity of our satellites is in the vicinity of 500 Gbps, but each of the three ViaSat-3 satellites is expected to have more than 1 Terabit per second (1,000 Gbps) of throughput capacity - or 3,000 Gbps total. ViaSat-3 builds on the success of its powerful siblings, ViaSat-1 and ViaSat-2, but it heralds a significant evolution of the family tree. “This allows Viasat to reuse more of the capacity because we can downlink to so many spots simultaneously.” ![]() “A gigantic reflector helps focus the energy into an exceedingly small spot on the ground - the larger the reflector, the smaller the spot on the ground,” he said. Large reflector = large capacityīut why such a large reflector? Reflector program manager Peter Lauenstein said it’s key to the satellite’s great capacity. The reflector’s mesh consists of extremely fine gold-plated wire woven to be flexible and lightweight with excellent electrical reflection properties for the high-frequency Ka-band. The reflector’s very large size is possible because its truss, boundary cables and cable net supporting the wire-woven mesh are fabricated with carbon fiber, reinforced-polymers and graphite to provide the necessary elasticity and rigidity during deployment - and for long-term reliability. “This is among the largest reflectors that have been flown. “I worked with reflector suppliers before coming to Viasat, and I’ve only ever seen one reflector that was larger,” said project engineer Jason Roberts. The reflector, key to ViaSat-3’s mission, is exceptionally large for a commercial broadband satellite. The boom arm tethering the reflector is a direct, but larger, derivative of the James Webb Space Telescope’s mission-critical sunshade mid-booms. There are also a total of eight solar panels per wing with an overall wingspan of 144 feet, which is approximately the same as a Boeing 767 airliner. The most striking is the enormous reflector - one of the largest ever sent into space - tethered to an extremely long boom arm. When you look at the rendering of this new satellite, you’ll notice a few major differences from almost any other communications satellite in geostationary orbit. The ViaSat-3 satellites will each represent the most powerful geostationary satellites we’ve ever launched - with significantly more capacity, flexibility, size, and power in a lighter payload package. When Viasat launches the first of its three ViaSat-3 satellites, it will be one of the largest, highest-capacity broadband satellites ever placed in geostationary orbit.
0 Comments
Leave a Reply. |
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |