I have an idea for an automated small toyish submarine. Can I use the Arduino for this? Does it behave well under the ocean surface? I think I'll need some kind of casing with silicone around it, and a small propeller that will push it forward. What's the best suited Arduino for this project? It will need to be remote controlled.
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1\$\begingroup\$ If the casing you select is rigid and air-tight, then pressure upon the Arduino would not be an issue, right? \$\endgroup\$– JohnBCommented Apr 10, 2013 at 7:45
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\$\begingroup\$ There you go, i did not think of that. Maybe there are other things to watch out when building underwater arduino-powered machines? \$\endgroup\$– bogenCommented Apr 10, 2013 at 7:55
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1\$\begingroup\$ @John Unless specially constructed for extreme pressures, even a rigid and air-tight enclosure would suffer increased atmospheric pressure inside - this is why diving bells for instance are constructed with specific designs, including a double hull for greater depths. Pressure-sealed enclosures are not trivial to make. \$\endgroup\$– Anindo GhoshCommented Apr 10, 2013 at 8:07
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\$\begingroup\$ Question related to: How to water-protect my Arduino? \$\endgroup\$– Tomáš ZatoCommented Apr 10, 2013 at 13:54
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\$\begingroup\$ Yep, I've had my arduino dataloggers under water for almost a year now: edwardmallon.wordpress.com While I have not released the full build plans for the housing yet (coming in 2015), it's not hard to see how it goes together. Really just a bunch of plumbing parts from the hardware store, much like the DIY rov crowd are using. \$\endgroup\$– Ed MallonCommented Jan 5, 2015 at 20:15
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1 Answer
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There is at least one project in progress to create a dive computer using an Arduino. What the question describes is considerably less ambitious.
Hence, yes, it is feasible to use a suitably enclosed Arduino for such a toy submarine.
The challenges will be:
- Watertight casing, yet which can be opened when needed: Silicone caulking will probably not survive under pressure and with salt water. Silicone gaskets on a torque-bolted enclosure will work though.
- Interaction without having to open the case every time: If inputs are needed at all, innovative approaches such as hall switches need to be considered. See this answer for ideas.
- Access ports: If programming or power connections need to reach the Arduino without taking it out of the case, pressure- and water-sealed cable ports will be needed in the enclosure. This is best avoided if at all possible.
- Consider wireless programming such as through a ZigBee shield, to reduce the number of times the enclosure needs to be opened, and the number of access ports needed.
- Charging batteries will be an issue, wireless charging is still in its infancy - this may require opening the enclosure anyway.
- Pressure: Depending on the depths being considered, the pressure the enclosure can stand will become a concern. For "toy submarine" depths, this should be a non-issue.
- Humidity and salt: No matter how carefully the system is designed, oxide formation and leakage currents due to humidity + saline deposition will be an issue at some point.
- To add one additional level of protection, consider DIY or professional conformal coating on the Arduino, just in case the enclosure some day springs a leak or suffers condensation internally.
- Also consider using a Ruggeduino or similar ruggedized board, for just that extra bit of survivability.
Many Arduino enthusiasts would be very keen to know how this project progresses, so do keep us posted.
answered Apr 10, 2013 at 7:58
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4\$\begingroup\$ Thanks for this great answer! It's a perfect model on how to write a good answer in the beta phase of the Arduino SE. \$\endgroup\$– bogenCommented Apr 10, 2013 at 8:01
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\$\begingroup\$ Depending on the size of the vessel you might want to consider an active bilge system as well, with a void bilge area underneath the vessel's sensitive components, a pump and a water detector. But if there's enough head for pumping, it can be difficult keeping the vessel in trim given the possibility of sloshing, so something like a sump would be in order, and you'd need a pump strong enough to counteract the static head. You can't use baffles because you'd get unpredictable trim. Only really an issue for a larger vessel. But this isn't really electronics at this point. :-) \$\endgroup\$– DanCommented Jan 5, 2015 at 20:24