Canon EOS 5D Mark II
ƒ/11
400 mm
1/4,000
1600

Curt Newport and Jeff Taylor spent 18 months building the Proteus 6 airframe, with attention to detail and precision machining (for example, the fins aligned to an accuracy of .1°).

I saw her perfect launch at BALLS 2008 and Proteus 6.5 went to 75K ft. at BALLS 2010.

This year, Proteus 7 flew on a larger Q motor and punched in at 191 lbs., hoping to win the Carmack prize for a GPS-logged flight to 100K ft.

But 6.2 seconds after launch (calculated by my camera’s fps), the rocket flipped over and went into a wild corkscrew overhead. It did not complete the anticipated 13-second burn, and fell back to playa. Photo sequence below.

17 responses to “Proteus 7 Carmack Prize Launch”

  1. jurvetson Avatar
    jurvetson

    Ignition
    IMG_8738

    And 6.2 seconds in, the swan song unfolds:
    IMG_8762 . IMG_8763 . IMG_8764

    IMG_8769 IMG_8782

    Heartbreaker to see the airframe free falling.

    P.S. While Derek’s rocket earlier that weekend did successfully take video to 121K ft., they did not get a GPS lock up there, a requirement for the prize. Commercial GPS systems are programmed to shut down for supersonic motion over 60K ft. altitudes, so the prize contenders may need to do a bit of firmware hacking. =)

    Reply
  2. Astrocatou Avatar
    Astrocatou

    Wow…that "prize" link is good stuff !

    Reply
  3. Pieces of Eye Avatar
    Pieces of Eye

    Really? What law that requires a GPS to behave like that? Are there other constraints on GPS receivers?

    Reply
  4. solerena Avatar
    solerena

    yep, these are musical in their own way…

    Reply
  5. WF&DT Avatar
    WF&DT

    PoE: yes, to prevent their use in ballistic weapons.

    Reply
  6. photon~wave Avatar
    photon~wave

    [http://www.flickr.com/photos/physicsman] "In GPS technology, the phrasing "COCOM Limits" is also used to refer to a limit placed to GPS tracking devices that should disable tracking when the device realizes itself to be moving faster than 1,000 knots (1,900 km/h; 1,200 mph) at an altitude higher than 60,000 feet (18,000 m). This was intended to avoid the use of GPS in intercontinental ballistic missile-like applications.

    Some manufacturers apply this limit literally (disable when both limits are reached), other manufacturers disable tracking when a single limit is reached."

    Reply
  7. Astrocatou Avatar
    Astrocatou

    You guys can’t build your own GPS receivers (yet)…?
    I am astonished…

    Reply
  8. mrsoeil Avatar
    mrsoeil

    oh yes this is so very cool.

    Reply
  9. Pieces of Eye Avatar
    Pieces of Eye

    Yeah there must be a firmware hack for that. Of course if its that easy to hack the COCOM limit is kinda pointless.

    Reply
  10. jurvetson Avatar
    jurvetson

    it’s kinda worrisome how our only defense sometimes is that the enemies of progress are, almost by definition, enemies of science. I guess it’s one of the ironies of a growing intellectual rich-poor gap.

    Reply
  11. Astrocatou Avatar
    Astrocatou

    Why not just set the GPS unit on a timer to turn on at (close to) apogee…?
    Keep the free world safe and get your altitude recording too?

    Reply
  12. Pieces of Eye Avatar
    Pieces of Eye

    I’m keeping the poor intellectual alive 🙂

    Reply
  13. rocketmavericks Avatar
    rocketmavericks

    A couple comments –

    On GPS, there are a number of us who have built custom GPS units for just this application. GPS restrictions are a complicated problem. Most consumer devices are designed for commercial applications in your car or while hiking, so many vendors just do not use high performance cores. They often disable the devices in software to stop reporting numbers, even though the chips may have not lost lock. Second are units where there or no software reporting lockouts, but there are ITAR co-comm restrictions to which have been discussed. Finally, you can get these removed on specific chipsets from specific vendors with state department ITAR regulatory commitments, but they are not cheap. ABout $1-2K per chip, and generally not a volume market so most vendors do not support. Finally you have to deal with doppler slewing on reporting which is compensation on the clock timing signal due to doppler compression of the carrier signal lock from the GPS sat and your receiver component on board. Mavericks has a GPS system with telemetry we developed last year with co-comm restrictions removed that could work for this application and we are updating it for the slewing problem for overcoming the doppler shift, but the Carmack prize is not large enough for the task they are asking people to risk time, $$$ and efforts and an airframe and propellant to go after. I think Derek should get the prize as there is no question from the baro altimeter and video that he accomplished the challenge. The GPS requirement is bogus and makes the challenge economically unattractive. If it was say $100K prize, then I think the economics works and the challenge will have already been achieved.

    Finally, the Proteus 6.5 lost a fin which caused the flight anomoly. The rockets performance otherwise looked pretty good and they probably could have taken the prize. Its amazing what bites you when you attempt these flights. We lost a vehicles last summer over about $0.43 cents in screws that cost us about $20K in airframe and electronics and payload and vehicle components.

    So Steve……

    When are you flying your Q motor just like the one in the Proteus 7? Have you considered going after the prize? You have the motor. Just need to build a rocket around it and get the right GPS unit.

    Reply
  14. jurvetson Avatar
    jurvetson

    Can’t wait!

    Need to make a nose cone to your CFD-modeled specs…. and a 360°-quad-video bay to stitch together a roll-free video path….

    Reply
  15. Pieces of Eye Avatar
    Pieces of Eye

    I may be wrong but I think the second panel of the sequence shows the detached fin.

    Reply
  16. Astrocatou Avatar
    Astrocatou

    It seems CERN is having GPS problems too
    http://www.pcmag.com/article2/0,2817,2394747,00.asp#fbid=UotSHz-...

    Reply
  17. curtmr4 Avatar
    curtmr4

    Steve:

    Many thanks for posting your excellent photos of the P 7 launch. All we needed was another two seconds and I believe we would have had a 130K plus flight. But it did not happen.

    I believe that our on board GPS would have recorded altitude above 100K feet. There is always next year using a different airframe and modified fin design.

    Regards,

    C. Newport

    Reply

Leave a Reply to rocketmavericks Cancel reply

Your email address will not be published. Required fields are marked *