EDITOR’S NOTE: Watch a replay of our live coverage of the Falcon 9 launch on the Starlink 5-1 mission.
SpaceX launched a Falcon 9 rocket from Cape Canaveral Wednesday with 54 more Starlink internet satellites, a mission to begin populating a new orbital shell authorized by federal regulators earlier this month for the company’s Starlink Gen2 network.
Liftoff of the Falcon 9 rocket from pad 40 at Cape Canaveral Space Force Station on SpaceX’s Starlink 5-1 mission occurred at 4:34 a.m. EST (0934 GMT) Wednesday, about six minutes earlier than previously announced. The mission was SpaceX’s 60th launch of the year, with one more Falcon 9 flight set to blast off later this week from Vandenberg Space Force Base, California, with an Israeli Earth-imaging satellite.
The 54 satellites launching Wednesday were the first spacecraft deployed into a new segment of the Starlink constellation. The Falcon 9 rocket released the 54 satellites at an orbital altitude and inclination set aside for use by SpaceX’s second-generation Starlink network, which the company eventually intends to launch on the new Starship mega-rocket.
SpaceX is developing a much larger, higher-power Starlink satellite platform capable transmitting signals directly to cell phones. But with the Starship’s first orbital test flight still on hold, SpaceX officials have signaled they will start launching the Gen2 satellites on Falcon 9 rockets. Elon Musk, SpaceX’s founder and CEO, suggested in August that the company could develop a miniature version of the Gen2 satellites to fit on the Falcon 9 rocket.
SpaceX revealed little information about the satellites that launched Wednesday. It was unclear whether SpaceX will use the satellites to test out new hardware or software to be used on the Gen2 network.
But the circumstances of the flight suggest the Starlink satellites on-board the Falcon 9 rocket are similar in size to SpaceX’s existing Starlink spacecraft, and not the larger Gen2 satellites destined to fly on the huge new Starship rocket, or even the mini Gen2 satellites Musk mentioned earlier this year. There were 54 satellites on the Falcon 9 launcher set to fly Wednesday, the same number SpaceX has launched on many recent Starlink missions.
A view of the 54 Starlink satellites after separation of the Falcon 9’s payload fairing showed the spacecraft similar in appearance to the internet satellites SpaceX has been launching since 2019.
SpaceX launched a Falcon 9 rocket at 4:34 a.m. EST (0934 GMT) Wednesday with 54 more Starlink internet satellites. Credit: SpaceX
The Federal Communications Commission granted SpaceX approval Dec. 1 to launch up to 7,500 of its planned 29,988-spacecraft Starlink Gen2 constellation. The regulatory agency deferred a decision on the remaining satellites SpaceX proposed for Gen2.
“This launch marks the first of Starlink’s upgraded network,” SpaceX said on its website. “Under our new license, we are now able to deploy satellites to new orbits that will add even more capacity to the network. Ultimately, this enables us to add more customers and provide faster service – particularly in areas that are currently over-subscribed.”
The FCC previously authorized SpaceX to launch and operate up to 12,000 Starlink satellites, including roughly 4,400 first-generation Ka-band and Ku-band Starlink spacecraft that SpaceX has been launching since 2019. SpaceX also received regulatory approval to launch more than 7,500 Starlink satellites operating in a different V-band frequency.
SpaceX told the FCC earlier this year it planned to consolidate the V-band Starlink fleet into the larger Gen2 constellation.
The Gen2 satellites could improve Starlink coverage over lower latitude regions, and help alleviate pressure on the network from growing consumer uptake. SpaceX said earlier this month the network now has more than 1 million active subscribers. The Starlink spacecraft beam broadband internet signals to consumers around the world, connectivity that is now available on all seven continents with testing underway at a research station in Antarctica.
“Our action will allow SpaceX to begin deployment of Gen2 Starlink, which will bring next generation satellite broadband to Americans nationwide, including those living and working in areas traditionally unserved or underserved by terrestrial systems,” the FCC wrote in its Dec. 1 order partially approving the Starlink Gen2 constellation. “Our action also will enable worldwide satellite broadband service, helping to close the digital divide on a global scale.
“At the same time, this limited grant and associated conditions will protect other satellite and terrestrial operators from harmful interference and maintain a safe space environment, promoting competition and protecting spectrum and orbital resources for future use,” the FCC wrote. “We defer action on the remainder of SpaceX’s application at this time.”
Specifically, the FCC granted SpaceX authority to launch the initial block of 7,500 Starlink Gen2 satellites into orbits at 525, 530, and 535 kilometers, with inclinations of 53, 43, and 33 degrees, respectively, using Ku-band and Ka-band frequencies. The FCC deferred a decision on SpaceX’s request to operate Starlink Gen2 satellites in higher and lower orbits.
The Starlink 5-1 mission Wednesday targeted the 530-kilometer-high (329-mile) orbit at an inclination of 43 degrees to the equator.
The Starlink 5-1 mission will deploy 54 internet satellites into orbit. Credit: Spaceflight Now
After Wednesday’s mission, SpaceX has launched 3,666 Starlink satellites on more than 60 Falcon 9 rocket missions, including prototypes and failed spacecraft. The company currently has more than 3,200 functioning Starlink satellites in space, with about 3,000 operational and nearly 200 moving into their operational orbits, , an expert tracker of spaceflight activity and an astronomer at the Harvard-Smithsonian Center for Astrophysics.
The first-generation Starlink network architecture includes satellites flying a few hundred miles up, orbiting at inclinations of 97.6 degrees, 70 degrees, 53.2 degrees, and 53.0 degrees to the equator. Most of SpaceX’s recent Starlink launches have released satellites into Shell 4, at an inclination of 53.2 degrees, after the company largely completed launches into the first 53-degree inclination shell last year.
Shell 5 of the Starlink network was widely believed to be one of the polar-orbiting layers of the constellation, at 97.6 degrees inclination. But the name of Wednesday’s mission — Starlink 5-1 — might suggest SpaceX has changed the naming scheme for the Starlink shells.
SpaceX’s launch team were stationed inside a launch control center just south of Cape Canaveral Space Force Station for Wednesday’s predawn countdown. SpaceX began loading super-chilled, densified kerosene and liquid oxygen propellants into the Falcon 9 vehicle at T-minus 35 minutes.
Helium pressurant also flowed into the rocket in the last half-hour of the countdown. In the final seven minutes before liftoff, the Falcon 9’s Merlin main engines were thermally conditioned for flight through a procedure known as “chilldown.” The Falcon 9’s guidance and range safety systems were also configured for launch.
After liftoff, the Falcon 9 rocket vectored its 1.7 million pounds of thrust — produced by nine Merlin engines — to steer southeast over the Atlantic Ocean. The launch marked the resumption of Starlink missions from Cape Canaveral using the southeasterly launch corridor, as SpaceX used last winter to take advantage of better sea conditions for landing of the Falcon 9’s first stage booster.
Throughout the summer and fall, SpaceX launched Starlink missions on paths toward the northeast from Florida’s Space Coast.
A Falcon 9 rocket streaks downrange to the southeast from Cape Canaveral in this long exposure photo. Credit: Michael Cain / Spaceflight Now / Coldlife Photography
The Falcon 9 rocket exceeded he speed of sound in about one minute, then shut down its nine main engines two-and-a-half minutes after liftoff. The booster stage separated from the Falcon 9’s upper stage, then fired pulses from cold gas control thrusters and extended titanium grid fins to help steer the vehicle back into the atmosphere.
Two braking burns slowed the rocket for landing on the drone ship “A Shortfall of Gravitas” around 410 miles (660 kilometers) downrange approximately nine minutes after liftoff.
The Falcon 9’s reusable payload fairing jettisoned during the second stage burn. A recovery ship was also on station in the Atlantic to retrieve the two halves of the nose cone after they splashed down under parachutes.
Landing of the first stage on Wednesday’s mission occurred moments after the Falcon 9’s second stage engine cut off to deliver the Starlink satellites into orbit. Separation of the 54 Starlink spacecraft, built by SpaceX in Redmond, Washington, from the Falcon 9 rocket occurred nearly 19 minutes after liftoff. SpaceX had to wait until the rocket passed over a ground station in Guam to confirm Starlink separation from the upper stage.
The Falcon 9’s guidance computer aimed to deploy the satellites into an elliptical orbit at an inclination of 43 degrees to the equator, with an altitude ranging between 131 miles and 210 miles (212-by-338 kilometers). After separating from the rocket, the 54 Starlink spacecraft will unfurl solar arrays and run through automated activation steps, then use ion engines to maneuver into their operational orbit.
ROCKET: Falcon 9 (B1062.11)
PAYLOAD: 54 Starlink satellites (Starlink 5-1)
LAUNCH SITE: SLC-40, Cape Canaveral Space Force Station, Florida
LAUNCH DATE: Dec. 28, 2022
LAUNCH TIME: 4:34:00 a.m. EST (0934:00 GMT)
WEATHER FORECAST: Greater than 90% chance of acceptable weather; Low risk of upper level winds; Moderate risk of unfavorable conditions for booster recovery
BOOSTER RECOVERY: “A Shortfall of Gravitas” drone ship northeast of the Bahamas
LAUNCH AZIMUTH: Southeast
TARGET ORBIT: 131 miles by 210 miles (212 kilometers by 338 kilometers), 43.0 degrees inclination
- T+00:00: Liftoff
- T+01:12: Maximum aerodynamic pressure (Max-Q)
- T+02:29: First stage main engine cutoff (MECO)
- T+02:32: Stage separation
- T+02:39: Second stage engine ignition
- T+02:44: Fairing jettison
- T+06:44: First stage entry burn ignition (three engines)
- T+07:00: First stage entry burn cutoff
- T+08:26: First stage landing burn ignition (one engine)
- T+08:38: Second stage engine cutoff (SECO 1)
- T+08:47: First stage landing
- T+18:43: Starlink satellite separation