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NASA Space

NASA Brings Voyager 2 Fully Back Online, 11.5 Billion Miles From Earth (inverse.com) 56

A reader quotes Inverse: In an incredible feat of remote engineering, NASA has fixed one of the most intrepid explorers in human history. Voyager 2, currently some 11.5 billion miles from Earth, is back online and resuming its mission to collect scientific data on the solar system and the interstellar space beyond.

On Wednesday, February 5 at 10:00 p.m. Eastern, NASA's Voyager Twitter account gave out the good news: Voyager 2 is not only stable, but is back at its critical science mission.

"My twin is back to taking science data, and the team at @NASAJPL is evaluating the health of the instruments after their brief shutoff," the account tweeted... In a statement, NASA confirmed that Voyager 2 is back in business. "Mission operators report that Voyager 2 continues to be stable and that communications between the Earth and the spacecraft are good...."

The fix is no mean feat: It takes 17 hours one-way to communicate with Voyager 2 from Earth, which is the furthest away manmade object in space. That means a single information relay takes 34 hours.

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NASA Brings Voyager 2 Fully Back Online, 11.5 Billion Miles From Earth

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  • Except it's not... (Score:2, Informative)

    by Anonymous Coward
    It has not been "fully online" in many years because doing so would short out the power source.
    • Correct. The power source is from the heat generated by radioactive decay and has been in decline since the day the vehicle was launched. The amount of heat the source can generated has been predictably declining and they've had to power off the majority of the science equipment to not exceed the available power throughout the mission so far. There is very little left running, for instance the cameras haven't been operating for decades, having been shut off after the last planet became just a small dot.

      Whe

  • by blahbooboo ( 839709 ) on Sunday February 09, 2020 @01:41PM (#59708006)
    Amazing engineering. Astounding how well made and thought out these probes were to be function for so long and far away. We should be glad nasa budget funding wasn’t cut For this program.
    • by N7DR ( 536428 ) on Sunday February 09, 2020 @03:03PM (#59708228) Homepage

      To add to the awesomeness, V2's primary receiver failed not long after launch. Essentially the entire time it has been using its backup receiver.

      There was even a backup plan in case the spacecraft lost both receivers: to use the Planetary Radio Astronomy experiment (on which I was a Co-I) to receive commands and send them to the other onboard systems. It would have worked only as far as Jupiter or possibly Saturn, but the mere fact that the idea was mooted and tested to the point of confidence that it should work if there were no other options says an awful lot about the engineering team.
       

    • by hackertourist ( 2202674 ) on Sunday February 09, 2020 @03:11PM (#59708250)

      We should be glad nasa budget funding wasnâ(TM)t cut For this program.

      Actually, Voyager was the cheaper fallback after a larger 'Grand Tour' program was cut. NASA was in the middle of Space Shuttle development which meant funding for other programs wasn't great.

      The Voyagers' longevity is a testament to the engineers' sneakiness: the official mission was for Jupiter and Saturn only. The team decided to build the probes for a much longer lifespan anyway.

      • by aberglas ( 991072 ) on Sunday February 09, 2020 @05:34PM (#59708632)

        If NASA had not wasted so much money on that white elephant, the Shuttle.

        I suspect that their managers spent too much time watching star wars instead of listening to their engineers.

        • by _merlin ( 160982 )

          The real customer for the Shuttle wasn't NASA, it was the air force and three-letter agencies. That's why it was built with the cross-range capability necessary for doing single-orbit missions. The whole reason Hubble Space Telescope fits the Shuttle's cargo bay perfectly is that the Shuttle was designed to service Keyhole spy satellites, and Hubble is just a Keyhole satellite adapted to look away from earth rather than towards it. When the Shuttle was being designed, spy satellites still relied on retur

        • by AHuxley ( 892839 )
          The CIA and NSA wanted their Shuttle.
  • by 140Mandak262Jamuna ( 970587 ) on Sunday February 09, 2020 @01:44PM (#59708012) Journal
    Knew how to build stuff, knew what they were doing.

    Looking at the fiasco with 737 Max, Boeings issues with rockets recently, one is shocked, how did we lose our way this badly...

  • by DCFusor ( 1763438 ) on Sunday February 09, 2020 @01:48PM (#59708026) Homepage

    And I thought MY edit-compile-test loop took too long only a few years ago! And that's without communication uncertainty! Doesn't the firmware in one of these also control the antenna aiming?

    • by hackertourist ( 2202674 ) on Sunday February 09, 2020 @03:15PM (#59708262)

      a. the spacecraft don't change attitude very often, if at all, they're mostly in a stable attitude. Computer problems just mean the spacecraft keeps flying in the same attitude.
      b. Antenna aiming isn't critical at this distance. The beam width of Voyager's high gain antenna is more than 1 AU at their current distance, so Voyager can communicate with Earth for months at a time without repointing.

  • This made my morning better.

  • Microsoft keeps crashing PCs world-wide with their updates.

    • MS didn't have the technology to feed the Voyagers software at the time. Fortunately.
    • The big difference is time :
      Computer crashes, once in 4 days. User restarts it in 3 minutes.
      Space probe from the '70s crashes, once in 40 years. User restarts it in 17 hours.

  • by Solandri ( 704621 ) on Sunday February 09, 2020 @02:23PM (#59708108)
    Not sure why this story uses some news blog as TFA, when you can get the story from the horse's mouth [nasa.gov].

    Analysis of the telemetry from the spacecraft indicated that an unexplained delay in the onboard execution of the maneuver commands inadvertently left two systems that consume relatively high levels of power operating at the same time. This caused the spacecraft to overdraw its available power supply.

    The fault protection software routine was designed to automatically manage such an event, and by design, it appears to have turned off Voyager 2's science instruments to make up for the power deficit. As of Jan. 28, Voyager engineers have successfully turned off one of the high-power systems and turned the science instruments back on but have not yet resumed taking data. The team is now reviewing the status of the rest of the spacecraft and working on returning it to normal operations.

    Voyager's power supply comes from a radioisotope thermoelectric generator (RTG), which turns heat from the decay of a radioactive material into electricity to power the spacecraft. Due to the natural decay of the material inside the RTG, Voyager 2's power budget goes down by about 4 watts per year.

    As for not building things like they used to, part of the reason for its reliability is because it's a much simpler spacecraft. Its computers aboard it only have about 70 kB of of plated wire memory [technikum29.de] in total, meaning each bit is stored in a much larger volume of material than on modern computers. Coupled with the shielding and radiation hardening, that makes it much harder for cosmic rays to cause a random bit flip which can cause errors. (Long-term storage is on a tape drive [hackaday.com].) There is simply less that can go wrong, making it a lot easier for the designers to think of possible failure modes.

  • by olsmeister ( 1488789 ) on Sunday February 09, 2020 @02:30PM (#59708136)
    Mysteriously, it's now referring to itself as V'ger.
  • by CaptainDork ( 3678879 ) on Sunday February 09, 2020 @02:48PM (#59708198)

    ... it's apparent that NASA doesn't have Amazon Prime.

    • Re:17 years for data delivery??? .

      hours, not years.

      ... it's apparent that NASA doesn't have Amazon Prime.

      17 hours still beats Prime. Most of the time.

      Go, v'ger, go!

      • Re:17 years for data delivery??? .

        hours, not years.

        ... it's apparent that NASA doesn't have Amazon Prime.

        17 hours still beats Prime. Most of the time.

        Go, v'ger, go!

        Thanks for the correction.

        I hate when I ruin a good joke.

  • As are the main case of power supply failures, these I'd think would be the first to go...so that is amazing they still work after 40+ years.

    • by quenda ( 644621 )

      The "capacitor plague" which affected so many PCs was from parts made long ago, between 1999 and 2007.
        Voyager 2 launched in 1977.
              And NASA would never have used capacitors with liquid electrolyte. Might as well ask if they used a lead-acid battery, or CP/M.

      • by Brett Buck ( 811747 ) on Sunday February 09, 2020 @09:59PM (#59709274)

        The "capacitor plague" which affected so many PCs was from parts made long ago, between 1999 and 2007.
            Voyager 2 launched in 1977.

            Capacitors failed long before there was anything like a PC. They were a weak point in 1925, and remain that today. Not just electrolytic, also, the non-polar capacitors. You replace them by the bucketful restoring old radios and the like.

        And NASA would never have used capacitors with liquid electrolyte. Might as well ask if they used a lead-acid battery, or CP/M.

                  Lots of space missions used sealed lead-acid batteries. They are still very common on boosters. They didn't use anything as complex and sophisticated as CP/M - I don't know for sure but it wouldn't remotely surprise me if the operating system consisted of "receive strobe, move PC to 060 octal, start executing".

              As far as electrolytic capacitors go, it was not uncommon at all, far after this, to use sealed wet electrolytic capacitors very much like you would find in a TV or radio of the time. Properly coformally coated, potted, or just carefully sealed and screened, the electrolyte isn't going anywhere, and the environment (vacuum but moderate temperatures) would be fairly benign. The power source is DC, it's on the time, and that's going to keep the oxide layer formed nicely. There are plenty of tube audio amplifiers that have been used regularly since the late 50's with good electrolytic capacitors - as long as you don't let it just sit unused - and the thermal environment is *much worse* than a nice room-temperature satellite.

            Tantalum caps were also probably used, but I would almost guarantee that most of them are more-or-less standard aluminum electrolytic.

        • That's an interesting point I did not realise (or forgotten) about electrolytic caps: they do better when things are always on to keep them well formed.

          On side note, I have turned few old HP laptops into picture frames. The circa'95 laptop still works solid. The one from early 2000 survived only few years... 20th century was so good!

        • by quenda ( 644621 )

          Interesting, thanks.

          They were a weak point in 1925, and remain that today.

          Which is why I would not expect NASA to use them if possible.

          Lots of space missions used sealed lead-acid batteries. They are still very common on boosters.

          Wow. I thought they'd use something more solid state. And boosters don't need rechargeables, so why lead ever, instead of zinc or other lighter metals?
          And when you say "still common", I hope you mean the 1960s Russian designs that are still flying? :-)

        • by AmiMoJo ( 196126 )

          Voyager has three computer systems: Computer Command System (CCS), the Flight Data Subsystem (FDS), and the Attitude and Articulation Control System (AACS).

          They are all a bit different, and all based on earlier hardware. The CCS for example was a slight evolution of the Viking one and used a custom RTOS. By that point NASA had standardised on using an RTOS of some kind in most of their systems after it worked reasonably well for the Apollo programme.

      • CP/M, eh? Well, they did use VxWorks on Mars rover, did then not?

        https://www.windriver.com/news... [windriver.com]

  • The fix is no mean feat: It takes 17 hours one-way to communicate with Voyager 2 from Earth, which is the furthest away manmade object in space. That means a single information relay takes 34 hours.

    Try carrying on a conversation with Ben Carson [politico.com] -- before his late-afternoon, early-evening double espresso. :-)

  • I think Never A Straight Answer; however, I'll give them the benefit of doubt: tell me where to point my telescope, what frequencies to listen for, and I'll tell you if it's really there or not.

    • by Dunbal ( 464142 ) *
      Just google for "Voyager 2 uplink/downlink frequency"... there's no conspiracy.
      • I wonder what kind of security there is on the uplink, and whether the recent problems were the result of hackers trying to take it over.

        • by Dunbal ( 464142 ) *
          Well a 34 hour round-trip at the speed of light makes "hacking" into it a very slow process I imagine :)
  • by PPH ( 736903 ) on Sunday February 09, 2020 @08:11PM (#59709034)

    That would be a manhole cover.

  • I'm just thrilled at the news it still accepts commands. It just means we're still a long way away from V'GER visiting us.
  • This is how long it took for a remote ctrl alt del.

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