mitchellleary1978
Electrical
Hi all,
I'm sincerely hoping someone with more knowledge than me in electronics can help me. I've been working on a project for many years now; designing and building an autonomous drone boat, capable of crossing oceans, guided only by GPS and telemetry. There have been many trials and setbacks to overcome but the boat itself and the internal brain etc has been tested and works well.
The one sticking point that has created the biggest issue has always been the power system which will allow the motors to run almost continuously for 4-6 weeks in the case of crossing the Atlantic(and having time to re-adjust following expected navigation issues).
So I've moved back and forth and tested many different ideas including solar panels covering the deck of a 5 metre boat + battery bank but this method wasn't efficient enough and wouldn't last the 4-6 weeks.
I had chosen a large boat simply to accommodate the solar panels and battery bank.
Just as I'm coming to the end of what I can conceive as a solution and close to giving up, I wondered if it would be possible to drive the boat if I reduced its size to maybe 1-2 metres in length and employed high-efficiency motors, maybe normally used in hobby vehicles(boats, quadcopters etc), and then powered them from some long-life vehicle batteries. The batteries would provide balast and if the setup was right, might be capable of providing the continual power for the duration required.
I've attempted to do the calculations to work out if this is possible but don't have a strong electronics background so I'm hoping that someone or different people can help me to get over this stumbling block that's blighted me for so long.
Is there anyone on this forum that can advise, based on their experience whether there is a motor-battery setup capable of achieving what I want to achieve with my 2 motors running continually for around 4-6 weeks?
In my simple mind, I wonder if there could be a large capacity, high efficiency battery out there that is currently used for other purposes that could power 1 x high efficiency(but low power draw) BLDC motor(maybe usually used in hobby vehicles) for 4-6 weeks?
Again, at a basic level, I question for example, how long a car battery could power a small BLDC motor, usually used on hobby drones?
(I understand that to be accurate, I need to know the exact power rating of the proposed motor and battery capacity but I just want to know in a general way, from someone who has experience, if this might be possible because there's no point in me getting my abacus out if it is actually impossible.)
If anyone can help with some advice or knowledge on these questions I have, I would be very grateful for your input. As I say, I've lost alot of hair experimenting to try and find a solution so it would be nice to get some valuable experience-based advice at this stage.
Thanks in advance for you taking the time to read this. I will try and reply to everyone that replies to my thread.
Mitch
I'm sincerely hoping someone with more knowledge than me in electronics can help me. I've been working on a project for many years now; designing and building an autonomous drone boat, capable of crossing oceans, guided only by GPS and telemetry. There have been many trials and setbacks to overcome but the boat itself and the internal brain etc has been tested and works well.
The one sticking point that has created the biggest issue has always been the power system which will allow the motors to run almost continuously for 4-6 weeks in the case of crossing the Atlantic(and having time to re-adjust following expected navigation issues).
So I've moved back and forth and tested many different ideas including solar panels covering the deck of a 5 metre boat + battery bank but this method wasn't efficient enough and wouldn't last the 4-6 weeks.
I had chosen a large boat simply to accommodate the solar panels and battery bank.
Just as I'm coming to the end of what I can conceive as a solution and close to giving up, I wondered if it would be possible to drive the boat if I reduced its size to maybe 1-2 metres in length and employed high-efficiency motors, maybe normally used in hobby vehicles(boats, quadcopters etc), and then powered them from some long-life vehicle batteries. The batteries would provide balast and if the setup was right, might be capable of providing the continual power for the duration required.
I've attempted to do the calculations to work out if this is possible but don't have a strong electronics background so I'm hoping that someone or different people can help me to get over this stumbling block that's blighted me for so long.
Is there anyone on this forum that can advise, based on their experience whether there is a motor-battery setup capable of achieving what I want to achieve with my 2 motors running continually for around 4-6 weeks?
In my simple mind, I wonder if there could be a large capacity, high efficiency battery out there that is currently used for other purposes that could power 1 x high efficiency(but low power draw) BLDC motor(maybe usually used in hobby vehicles) for 4-6 weeks?
Again, at a basic level, I question for example, how long a car battery could power a small BLDC motor, usually used on hobby drones?
(I understand that to be accurate, I need to know the exact power rating of the proposed motor and battery capacity but I just want to know in a general way, from someone who has experience, if this might be possible because there's no point in me getting my abacus out if it is actually impossible.)
If anyone can help with some advice or knowledge on these questions I have, I would be very grateful for your input. As I say, I've lost alot of hair experimenting to try and find a solution so it would be nice to get some valuable experience-based advice at this stage.
Thanks in advance for you taking the time to read this. I will try and reply to everyone that replies to my thread.
Mitch