Boeing mission controllers have confirmed that the ViaSat-3 F3 (VS-3 F3) satellite is healthy in orbit following its successful launch aboard a SpaceX Falcon Heavy rocket at 10:13 a.m. ET from Kennedy Space Center (KSC) in Florida. The satellite is intended to expand high-capacity broadband services across the Asia-Pacific region when it enters service.
VS-3 F3 separated from the rocket approximately five hours after launch. After Boeing’s Mission Control team in El Segundo, California, acquired the satellite’s signal, the team confirmed command capability and began spacecraft initialization activities.
VS-3 F3 is the third spacecraft launched for the ViaSat-3 program, highlighting Boeing’s repeatable success in producing the most powerful commercial satellite platform — the 702MP+ — to support Viasat’s flexible, ultra-high-capacity payload.
Ryan Reid, President of Boeing Satellite Systems International, stated:
“The launch of ViaSat-3 F3 marks a major milestone in our partnership with Viasat. By combining Boeing’s best-in-class satellite platform with Viasat’s innovative payload, we are delivering the highest capacity communication satellites ever launched. This mission reinforces our commitment to advancing global connectivity.”
VS-3 F3 utilizes Boeing’s 702MP+ platform, part of the highly reliable 702 family of satellites, developed for the most demanding payloads. The 702MP+ features enhanced structural, power, thermal, and attitude control systems to meet the needs of the VS-3 F3 mission.
Dave Abrahamian, Vice President of Space Systems at Viasat, added:
“ViaSat-3 F3 is a critical step in expanding a truly global, high-capacity network, and Boeing’s execution brings us closer to delivering seamless connectivity where it matters most for our customers.”
Boeing’s tailored 702MP+ powers Viasat’s flexible payload, designed to maximize efficient, flexible bandwidth deployment and provide enhanced performance for commercial mobility, fixed services, and defense customers.
Following the completion of spacecraft initialization activities, Boeing mission controllers will prepare the satellite for orbit raising by deploying the solar arrays produced by Spectrolab (a Boeing subsidiary) and one radiator panel to support the satellite’s electric propulsion. Electric propulsion enables the satellite to reach geostationary orbit with improved fuel efficiency compared to traditional chemical propulsion systems, allowing it to meet its required operational lifetime. After arrival in geostationary orbit, Boeing will hand over the satellite to Viasat for service entry once both teams complete on-orbit testing.
