Skip to main content
  1. Home
  2. Space
  3. News

The painstaking process of fixing NASA’s Lucy solar array issues

Add as a preferred source on Google

Engineers have been working to fix a problem with a NASA spacecraft, Lucy, which launched in October 2021 and is on its way to visit the Trojan asteroids near Jupiter.

The problem is with one of Lucy’s large, round solar arrays. The spacecraft has two such arrays that collect energy from the sun, one of which deployed as expected, and the other of which experienced issues deploying. The arrays should have opened up and locked into place, but one of them failed to latch into place. Subsequent investigations found that the array had deployed to about 345 of 360 degrees.

This illustration shows the Lucy spacecraft passing one of the Trojan Asteroids near Jupiter.
This illustration shows the Lucy spacecraft passing one of the Trojan Asteroids near Jupiter. Southwest Research Institute

The good news was that even not fully deployed, the arrays were still collecting enough power for the spacecraft to continue its journey. The bad news was the team’s concern that when the spacecraft needed to fire its main engines, the array might be damaged by the forces.

Recommended Videos

In April, NASA announced that the Lucy team had a plan to address the issue. The solar arrays were pulled into place by a motor that is attached to a lanyard, which pulls the array out into its circular shape during deployment. The lanyard seemed to have become snagged on the array which didn’t fully deploy. So the idea was to use both the primary motor and the backup secondary motor together to put more force onto the lanyard to try to unsnag it and latch the array into place.

The team tried this for the first time on May 9, operating both motors. This worked to reel in some of the lanyards, but the motors can only be operated for a short time to prevent them from overheating. The team ran this same operation again on May 12, which tensioned the lanyard further, as they hoped.

On May 26, with the lanyard now under tension and holding the array in place, they tried to fully deploy the array again. They didn’t manage to latch the array this time, though it did deploy further. They did so again on June 2, once again deploying more of the array but still not latching in place.

This process is rather painstaking, but progress is being made which is good news for the mission. NASA also says that the progress being made here will help keep the array more secure, even if they aren’t able to latch it in place as would be ideal.

“The team has several more opportunities to repeat these deployment commands,” NASA wrote in an update. “While there is no guarantee that additional attempts will latch the array, there is strong evidence that the process is putting the array under more tension, further stabilizing it. Even if the array does not ultimately latch, the additional stiffening may be enough to fly the mission as planned.”

Georgina Torbet
Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…
Scientists warn Elon Musk’s orbital data centers could blind Earth’s biggest telescopes
A new ESO study suggests millions of satellites could make parts of the night sky effectively unusable for astronomy.
One hour of satellites over the northern Atacama Desert in Chile (October 2025)

The race to blanket Earth with satellite internet has unlocked faster connectivity for millions. But according to the European Southern Observatory (ESO), it could also make one of humanity's oldest hobbies, and one of its most important sciences, a whole lot harder. The organization warns that the rapid growth of satellite mega-constellations could severely disrupt observations made by some of the world's most powerful telescopes.

Astronomers say the night sky is reaching its limit

Read more
Amazon’s Starlink rival just crossed a major milestone, but don’t expect perfect internet just yet
Amazon finally showed up to the space internet party
Amazon Leo satellite layout across all launch vehicles

Amazon has taken a significant step toward launching its long-awaited satellite internet service. Following its latest rocket launch, the company now has 396 Project Kuiper satellites in low-Earth orbit, enough to begin offering continuous service across select regions. The milestone keeps Amazon on track for its previously announced goal of launching commercial service by mid-2026.

https://twitter.com/Weber44Chris/status/2072575499461963938?ref_src=twsrc%5Etfw%7Ctwcamp%5Etweetembed%7Ctwterm%5E2072575499461963938%7Ctwgr%5Ed727a1b853cbf519585e7bf2655943afb2f91bb8%7Ctwcon%5Es1_&ref_url=https%3A%2F%2Fwww.theverge.com%2Fscience%2F960563%2Famazon-leo-service-tipping-point

Read more
Amazon’s Starlink rival is set to launch satellite internet later this year
After launching nearly 400 satellites, Amazon says its Leo broadband service will go live later this year.
Atlas V launches 29 Amazon Leo satellites from Cape Canaveral, Florida

Amazon's long-awaited answer to SpaceX's Starlink is finally nearing liftoff. According to an exclusive report from Reuters, the company plans to begin offering its Leo satellite internet service later this year, after its latest rocket launch pushed the constellation to 394 satellites in orbit.

The pieces are finally falling into place for Project Kuiper

Read more