After a short pause in communication with Voyager 1, NASA reestablished the connection The interstellar spacecraft is located more than 15 billion miles from Earth and uses a frequency that has not been used for more than 40 years.
Communication between NASA and Voyager 1 is sometimes uneven. In fact, the spacecraft stopped sending easy-to-read data. Southern California It wasn’t until April that Mission Controllers began receiving commands again on November 14th, 2023.
More recently, the spacecraft turned off one of the two transmitters after the engineers suspected it was due to the Voyager 1 fault protection system.
For example, if a spacecraft uses too much power from its source, fault protection starts to save power by turning off non-essential systems, NASA explained.
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This illustration provided by NASA can be seen in this NASA illustration of Voyager 1, the spaceship farthest from Earth. The Jet Propulsion Laboratory in Southern California announced this week that four Voyager 1S scientific instruments have been revived after technical issues in November. (NASA, file via AP)
The Space Agency said the flight team sent commands on October 16th to activate one of the spacecraft’s heaters. The command takes nearly 23 hours to travel from Earth to the spacecraft, then another 23 hours for the data to return.
Although the fault protection system was triggered, the engineer should have enough power for Voyager 1 to operate Heather.
On October 18th, the team learned about this issue. Deep Space Network Voyager 1 signal could not be detected. Communication between NASA and the spacecraft occurs at an X-band radio transmitter named after the frequency of use.
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NASA’s Voyager 1 spaceship is portrayed in the artist’s concept of traveling through interstellar space, or interstellar space entered in 2012. (Credit: NASA/JPL-Caltech)
The fault protection system changed the X-band signal that the deep space network needs to hear, as engineers decided that the transmitter had lowered the rate at which the data was able to be sent back to NASA.
Once the signal was found, Voyager 1 appeared to be in a stable state and the team began to investigate what had happened.
However, on October 19th, communication between the team and Voyager 1 stopped again, but this time it stopped completely.
The team believed that the Voyager 1’s fault protection system was triggered twice more and switched to a second radio transmitter called the S-band.
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Voyager 1 has not used the S-band to communicate with Earth since 1981.
Engineers with deep space networks ultimately Spaceship Communication From the S band. Rather than risking the X-band being reverted before the fault protection system finds out what caused the trigger, the team sent a command on October 22nd to make sure the S-band transmitter was working.
Now, the team is working to gather information, find out what happened, and get Voyager 1 back to normal operation.
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Voyager 1’s Odyssey began in 1977 when the spacecraft and its twin Voyager 2 were launched on a tour of the gas giant in the solar system.
After taking in spectacular postcard views of Jupiter’s giant red spots and Saturn’s sparkling ring, Voyager 2 Hopscott Uranus and Neptune. Meanwhile, Voyager 1 used Saturn as a gravity power plant to move itself past Plput.
