I am happy to introduce a guest blog from Steen Andersen of Copenhagen Suborbitals. This post is his work and words:
We are using a variety of different cameras to document our static ground test of the rocket motors as well as actual launches of the space capsules. Performing a ground test makes it relative simple to place cameras of high quality at suitable places in order to document the motor test. But in case one wants to mount cameras outside a space capsule doing speeds above Mach 1, it’s another challenge.
If a camera wants to have a shot at being used on our space vehicles, it must be able to comply with the following requirements (among others, but these are the most important):
- There shall be remote hard wire control of the camera. We cannot access the cameras directly from the base of the Mobile Launch platform (Sputnik) and we don’t like wireless solutions because they tend to be more sensitive compared to a hard wire solution and can potentially interfere with other radio signals.
- The cameras shall be able to deliver a live stream as well as recording to internal memory for hours.
- It shall be able to with stand the heavy g-forces imposed on the equipment during the powered ascent and possibly a rough landing in the Baltic Sea.
- They must be able to withstand a substantial amount of air pressure and turbulence if mounted externally on the space capsule.
- It must have a reasonable image quality suitable for showing on the public channels on the Internet.
Not to mention that they must be in a price range where CS have a change of playing along.
GoPro cameras, which are used in all different outdoor activities such as skiing, para-gliding and motor-sport, is one possible choice. Their rugged design and simple user interface makes them suitable for documenting this sort of activity. What they don’t have in manual adjusted settings, zooming etc., they make up in simplicity, toughness, easy mounting possibilities and a reasonable image quality. Therefore Tycho Deep Space will be equipped with a number of GoPro cameras. We’ll be controlling the cameras using the Hero BusTM. Now, don’t imaging a large vehicle with your favorite cartoon characters in tight outfits ready to save your mission if anything goes wrong. No, it’s just another word for the external electrical interface which can be accessed via the plug at the rear of the camera.
As we are not in the business of inventing the wheel one more time, we asked Mr. Google if anyone has had the same idea and possibly been kind enough to share it with the rest of the world. It quickly turned out that both wishes where granted at a GoPro user forum. We found the following pin-out for the external interface suited our needs perfectly:
- Pin 1: Ground.
- Pin 2: Composite/Red RGB. Composite is output when Pin 20+21 are tied to the GND.
- Pin 5: External 5 volt power supply. Apply the external power to this pin. We’re not dependent on internal camera power supply, but can run for hours with the external power.
- Pin 12: Polling this to the ground will either turn off or on the camera. This will be connected to a push button which is mounted on the spaceship’s main console. Using the One Button mode of the camera this will trigger streaming and recording at the same time.
- Pin 23: Connect this to the ground using a LED and a 150-ohm resistor, and the LED will light up when the camera is turned on.
That’s it? Not quite, because we had to solder on a 30-pin plug, which is hazard. And we need the casing to fit around the camera. Either we’ll be using a special back door for the GoPro, or we’ll adapt the current casing for our needs. The plug needs some space and we still need the casing to be waterproof and not obstructing the easy access to the camera’s SD card.
But when the casing is done, we have the fun part left of deciding where to install the cameras on Tycho Deep Space and other rockets we hope to launch during our 2012 campaign at the Baltic Sea. Hopefully, we’ll be able to document the flights from a lot of different angles, for instance pointing downward during the blast-off and from the parachutes pointing downward to the ground seeing the spaceships hanging on the chutes.
Here’s a couple of links with information on the pin-out of the Hero Bus TM:
https://chargeconverter.com/blog/?p=71
https://goprouser.freeforums.org/how-to-make-a-one-button-remote-for-a-gopro-t3675.html
Greetings
Steen Andersen
Steen Andersen joined Copenhagen Suborbitals in 2009. He is responsible for the mission control software called FIDO monitor, taking part in test measurements and the ongoing research and development. He has previously been working with software development for a Danish space company and is currently making a living as an IT consultant.
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