Watch a replay of our live coverage of the countdown and launch two SpaceX rockets — a Falcon 9 and a Falcon Heavy — less than two hours apart on Friday, April 28. Follow us on Twitter.
Weather permitting, SpaceX will go for a launch doubleheader Friday with two missions set for liftoff from Florida’s Space Coast less than two hours apart. A Falcon 9 rocket will launch a pair of O3b internet satellites for SES from Cape Canaveral Space Force Station at 5:42 p.m. EDT (2142 UTC), and a Falcon Heavy is poised for blastoff from Kennedy Space Center with a Viasat broadband satellite at 7:29 p.m. EDT (2329 UTC).
The Falcon 9 rocket launch from pad 40 at Cape Canaveral — the first of the back-to-back missions — will send the second pair of Boeing-built satellites into space for SES’s O3b mPOWER network, a constellation of equatorial orbiting internet relay platforms for telecom operators and mobile connectivity services.
Three-and-a-half miles to the north, SpaceX is readying a Falcon Heavy rocket — made by combining three Falcon 9 first stage boosters — for a ride to a high-altitude orbit more than 20,000 miles (about 35,000 kilometers) over the equator with the ViaSat 3 Americas broadband satellite, also made by Boeing.
Forecasters predict iffy weather Friday evening for both launches. The Falcon Heavy launch was scheduled for Thursday evening, but SpaceX delayed the flight 24 hours due to severe weather impacting Florida’s Space Coast.
If both launches take off as scheduled, it would be the shortest span between two SpaceX missions in the company’s history, and the shortest turnaround between two orbital-class launches from Cape Canaveral since 1966.
Separate SpaceX launch teams will oversee the nearly simultaneous countdowns for the Falcon 9 and Falcon Heavy.
A Falcon 9 rocket (left) stands on pad 40 at Cape Canaveral Space Force Station for liftoff with two O3b mPOWER internet satellites. In the background, a Falcon Heavy stands on pad 39A for liftoff on the ViaSat 3 Americas mission. Credit: SpaceX
The O3b mPOWER satellites awaiting liftoff on the Falcon 9 rocket from pad 40 will beam high-speed internet services around the world, providing “fiber-like” connectivity to users between 50 degrees north and south latitude, according to SES, the Luxembourg-based operator that owns the O3b fleet. Airplanes, cruise ships, energy companies, research institutions, and remote communities can remain connected using the O3b network.
The two O3b spacecraft on the Falcon 9 rocket, when combined, weigh roughly 9,000 pounds (4,100 kilograms) in launch configuration, according to Boeing. The Falcon 9’s first stage booster will attempt landing on a drone ship in the Atlantic Ocean.
SES already has 20 O3b first-generation satellites in Medium Earth Orbit. They flew to space on Russian Soyuz rockets under a launch services contract with Arianepace.
The new O3b mPOWER satellites will operate in a similar Medium Earth Orbit, or MEO, over the equator as the original O3b satellites. The first two O3b mPOWER satellites launched on a Falcon 9 rocket from Cape Canaveral in December.
O3b stands for “Other 3 Billion” in recognition of the billions of people without access to reliable internet service.
The two O3b mPOWER satellites, Nos. 3 and 4 in the fleet, stacked in launch configuration before encapsulation inside SpaceX’s Falcon 9 rocket payload fairing. Credit: SpaceX / SES
The original O3b satellites, built by Thales Alenia Space nearly a decade ago, had 10 user beams per spacecraft. The new O3b mPOWER satellites, built on Boeing’s 702 spacecraft platform, each have more than 4,000 beams that can be adjusted to focus bandwidth on high-demand areas.
SES has focused on developing broadband satellites for a MEO constellation constellation, which puts the relay stations closer to Earth than geostationary orbit some 22,000 miles over the planet. That reduces the latency, or lag, in internet signals compared to geostationary satellites. As few as three geostationary satellites could provide global coverage, but more satellites in MEO required to reach around the world.
But that number is still far fewer than the hundreds or thousands of internet satellites companies like SpaceX and OneWeb are launching into low Earth orbit. Satellites flying less than 1,000 miles above Earth reduce latency even further than MEO satellites, but many more spacecraft are needed for global coverage.
Falcon Heavy set for sixth launch on commercial flight to GEO
The Falcon Heavy mission will be the sixth launch of a SpaceX Falcon Heavy rocket since 2018, and the second of as many as five Falcon Heavy flights the company plans this year. It’s the first Falcon Heavy launch in which SpaceX will intentionally dispose of all three first stage boosters. SpaceX is dedicating all of the rocket’s propellant to deploying the roughly 6-metric-ton (13,000-pound) ViaSat 3 Americas satellite and its two co-passengers into a near-geosynchronous orbit (GEO).
The mission will take about four-and-a-half hours to reach its targeted orbit, requiring three burns by the upper stage engine. A direct insertion into geosynchronous orbit is one of the most challenging mission types in the launch industry. The profile requires extended battery life on the upper stage, plus a custom band of gray thermal paint on the rocket to help ensure the kerosene fuel does not freeze during the hours spent in the cold environment of space.
Viasat has not said how much it paid SpaceX for the launch. Intelsat officials said last year SpaceX charged a premium for a launch where the booster is expended.
The center core for the ViaSat 3 Americas mission is brand new, while the side boosters are reused from previous SpaceX missions.
ViaSat 3 Americas is the first of three new-generation broadband satellites for Viasat, which beams internet signals for underserved consumers, businesses, and governments. Based in Carlsbad, California, Viasat has agreements to provide in-flight WiFi to passengers on Delta Air Lines, American Airlines, United Airlines, Southwest Airlines, JetBlue, and other commercial airlines.
The ViaSat 3 Americas satellite inside Boeing’s factory in El Segundo, California. Credit: Boeing
The satellite is as big as a school bus, and its solar panels will unfurl in orbit to generate more than 30 kilowatts of power in orbit, more than a quarter the electrical power produced by all the solar arrays on the International Space Station.
The spacecraft has one of the largest antenna reflectors ever sent into space, and will rely on all-electric propulsion for fine orbital maneuvers and station-keeping. After separating from the Falcon Heavy rocket, the spacecraft will use its plasma thrusters to raise its orbit the final 700 miles (1,100 kilometers) to geostationary orbit, where its velocity will match the rate of Earth’s rotation.
That will allow the ViaSat 3 Americas spacecraft to hover over the same geographic position along the equator at 88.9 degrees west longitude, providing coverage over North and South America and adjacent maritime regions. Viasat and Boeing are working on two more satellites to provide similar internet service over Europe, North Africa, and the Middle East, and the Asia-Pacific region.
Smaller rideshare communications satellites for Astranis and Gravity Space, both commercial startups, will hitch a ride to orbit on the Falcon Heavy rocket.
Astranis’s satellite, called Arcturus with a launch weight around 660 pounds (300 pounds), will provide broadband internet services to Alaska. Gravity Space’s microsatellite will help an Indonesian company retain regulatory rights to an orbital slot in geostationary orbit with the International Telecommunication Union, which doles out geostationary positions to commercial satellite operators.
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