Voyager 1 Calls back from 15 Billion Miles away.

imhotep

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  • Mar 29, 2017
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    NASA reconnected with Voyager 1 after a fault protection system prompted the spacecraft to turn off a transmitter. On October 24, NASA successfully reestablished contact with the Voyager 1 spacecraft after a brief communication pause.

    The shutdown appears to have been triggered by the spacecraft’s fault protection system, which automatically manages onboard issues. This system conserves power by disabling non-essential systems if the spacecraft’s power supply is overstretched. However, it could take days to weeks for the team to pinpoint what exactly activated the fault protection system.

    NASA’s Jet Propulsion Laboratory (JPL) in Southern California manages communications with Voyager 1 via the Deep Space Network. When the JPL team sends instructions, Voyager 1 responds by transmitting engineering data, which helps the team assess its reaction to the command. This back-and-forth takes around two days—nearly 23 hours for the command to travel over 15 billion miles (24 billion kilometers) to Voyager 1 and another 23 hours for the data to return to Earth.

    On October 16, the flight team sent a command to turn on one of the spacecraft’s heaters. While Voyager 1 should have had ample power to operate the heater, the command triggered the fault protection system. The team learned of the issue when the Deep Space Network couldn’t detect Voyager 1’s signal on October 18.

    The spacecraft typically communicates with Earth using what’s called an X-band radio transmitter, named for the specific frequency it uses. The flight team correctly hypothesized that the fault protection system had lowered the rate at which the transmitter was sending back data. This mode requires less power from the spacecraft, but it also changes the X-band signal that the Deep Space Network needs to listen for. Engineers found the signal later that day, and Voyager 1 otherwise seemed to be in a stable state as the team began to investigate what had happened.

    Then, on October 19, communication appeared to stop entirely. The flight team suspected that Voyager 1’s fault protection system was triggered twice more and that it turned off the X-band transmitter and switched to a second radio transmitter called the S-band. While the S-band uses less power, Voyager 1 had not used it to communicate with Earth since 1981. It uses a different frequency than the X-band transmitters signal is significantly fainter. The flight team was not certain the S-band could be detected at Earth due to the spacecraft’s distance, but engineers with the Deep Space Network were able to find it.

    Rather than risk turning the X-band back on before determining what triggered the fault protection system, the team sent a command on Oct. 22 to confirm the S-band transmitter is working. The team is now working to gather information that will help them figure out what happened and return Voyager 1 to normal operations.

    Voyagers 1 and 2 have been flying for more than 47 years and are the only two spacecraft to operate in interstellar space. Their advanced age has meant an increase in the frequency and complexity of technical issues and new challenges for the mission engineering team.



     

    kinkon

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    gamaya80

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    NASA reconnected with Voyager 1 after a fault protection system prompted the spacecraft to turn off a transmitter. On October 24, NASA successfully reestablished contact with the Voyager 1 spacecraft after a brief communication pause.

    The shutdown appears to have been triggered by the spacecraft’s fault protection system, which automatically manages onboard issues. This system conserves power by disabling non-essential systems if the spacecraft’s power supply is overstretched. However, it could take days to weeks for the team to pinpoint what exactly activated the fault protection system.

    NASA’s Jet Propulsion Laboratory (JPL) in Southern California manages communications with Voyager 1 via the Deep Space Network. When the JPL team sends instructions, Voyager 1 responds by transmitting engineering data, which helps the team assess its reaction to the command. This back-and-forth takes around two days—nearly 23 hours for the command to travel over 15 billion miles (24 billion kilometers) to Voyager 1 and another 23 hours for the data to return to Earth.

    On October 16, the flight team sent a command to turn on one of the spacecraft’s heaters. While Voyager 1 should have had ample power to operate the heater, the command triggered the fault protection system. The team learned of the issue when the Deep Space Network couldn’t detect Voyager 1’s signal on October 18.

    The spacecraft typically communicates with Earth using what’s called an X-band radio transmitter, named for the specific frequency it uses. The flight team correctly hypothesized that the fault protection system had lowered the rate at which the transmitter was sending back data. This mode requires less power from the spacecraft, but it also changes the X-band signal that the Deep Space Network needs to listen for. Engineers found the signal later that day, and Voyager 1 otherwise seemed to be in a stable state as the team began to investigate what had happened.

    Then, on October 19, communication appeared to stop entirely. The flight team suspected that Voyager 1’s fault protection system was triggered twice more and that it turned off the X-band transmitter and switched to a second radio transmitter called the S-band. While the S-band uses less power, Voyager 1 had not used it to communicate with Earth since 1981. It uses a different frequency than the X-band transmitters signal is significantly fainter. The flight team was not certain the S-band could be detected at Earth due to the spacecraft’s distance, but engineers with the Deep Space Network were able to find it.

    Rather than risk turning the X-band back on before determining what triggered the fault protection system, the team sent a command on Oct. 22 to confirm the S-band transmitter is working. The team is now working to gather information that will help them figure out what happened and return Voyager 1 to normal operations.

    Voyagers 1 and 2 have been flying for more than 47 years and are the only two spacecraft to operate in interstellar space. Their advanced age has meant an increase in the frequency and complexity of technical issues and new challenges for the mission engineering team.




    This is one of the engineering marvel human has ever designed, I can't believe how engineers in so many decades back forethought to designed it 👍👍👍👍
    Somehow Voyager and the engineering team find a solution to obstacles it has been encountered with👍👍
     

    Honda.putha

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  • Dec 26, 2017
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    This is one of the engineering marvel human has ever designed, I can't believe how engineers in so many decades back forethought to designed it 👍👍👍👍
    Somehow Voyager and the engineering team find a solution to obstacles it has been encountered with👍👍
    Agree!

    Even after travel 15 billion miles it did not find any life in universe, did it?
    ------ Post added on Nov 5, 2024 at 1:29 AM
     

    imhotep

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  • Mar 29, 2017
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    This is one of the engineering marvel human has ever designed, I can't believe how engineers in so many decades back forethought to designed it 👍👍👍👍
    Somehow Voyager and the engineering team find a solution to obstacles it has been encountered with👍👍
    Don't forget to remember Prof Edward C Stone who was the Former Director of JPL & the Voyager's Project Scientist. Sadly he passed away just a few months ago. RIP

    Known for his steady leadership, consensus building, and enthusiasm for engaging the public in science, Stone left a deep impact on the space community.
    Edward C. Stone, former director of NASA’s Jet Propulsion Laboratory and longtime project scientist of the agency’s Voyager mission, died on June 9, 2024. He was age 88. He was preceded in death by his wife, Alice Stone, whom he met at the University of Chicago. They are survived by their two daughters, Susan and Janet Stone, and two grandsons.
    Stone also served as the David Morrisroe professor of physics and vice provost for special projects at Caltech in Pasadena, California, which last year established a new faculty position, the Edward C. Stone Professorship.

    Stone served on nine NASA missions as either principal investigator or a science instrument lead, and on five others as a co-investigator. He had the distinction of being one of the few scientists involved with both the mission that has come closest to the Sun (NASA’s Parker Solar Probe) and the one that has traveled farthest from it (Voyager).
    Stone restructured several missions so that they could fly under these more stringent cost constraints, including overseeing a redesign of the Spitzer Space Telescope cooling system so that it was more cost effective and could still deliver high-impact science and stunning infrared images of the universe.

    Among Stone’s many awards, the National Medal of Science from President George H.W. Bush stands out as the most prominent. In 2019 he won the Shaw Prize in Astronomy, with an award of $1.2 million, for his leadership in the Voyager project, which, as the citation noted, “has over the past four decades, transformed our understanding of the four giant planets and the outer solar system, and has now begun to explore interstellar space.” He was also proud to have a middle school named after him in Burlington, Iowa, as an inspiration to young learners.

    He served the NASA for 50 years until his retirement in 2022.

    PS:
    I have made several posts on the Voyagers - Please refer to this one as well.
    https://elakiri.com/threads/how-the-voyager-aligns-its-antenna-towards-the-earth.2116029/
     

    priyade

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  • Dec 2, 2017
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    It's computer like system designs using discreet semiconductors like cmos , ttl chips, but still works more than 40 years after, but today with so much advanced technology even TV breaks down after 2 years working
    Hats off to the engineers who designs Voyager 1 and 2