Can you run multiple charge controllers from the same solar panel to separate battery banks?

Safety second! xD

There's ALWAYS somebody like you who tries to belittle folk who are experimenting and helping the rest of us! Go get a life.

I thought I could parallel diodes also, but found that one will still get super hot. ???? Quantum physics

thanks very much! normally people complain about "the awful music" so this makes a nice change ;) lol

So it's been a year, do you still do this set up? What's the side effects? ​@NorthCust

I suspect you might be better off taking power from controller or the batteries, surely that's gotta be neater, involves less controllers and also don't underestimate how much power you lose due to attentuation. 2x solar cables means 2x attenuation.
2 controllers worked but it was a bit confusing and i don't feel like it was really ideal.
Instead how about you just run the solar to the storage building as you have and then run a 12v line from there to the coop and install a pair of 12v usb sockets like these (or similar) : www.ebay.co.uk/itm/304118526870
I suggest these because I found that even in my small van I was getting quite noticable attenuation (voltage/power drop due to long wires). I knew that it was worse at low voltages but wasn't aware just HOW extreme it is.
To that end, using the 12v usb sockets has a secondary benefit - namely that the sockets will accept a range onf input voltages so if you get some attenuation on the lead from the controller/batteries to the usb sockets, it doesn't matter bc the sockets steps 12-24v down to 5v anyway so the effect of attenuation ought to be effectively eliminated in the stepdown process.
Hope that helps :)

right, so basically they *ought* to figure it out amongst themselves. And havign run a very similar setup in the van for a few months now it does seem to work. HOWEVER, I recently replaced the batteries in my second bank (from a mismatched pair of car/starting batteries) to the same ones as my main bank (deep cycle lead acid/calcium) and as an experiment i connected them all up as one bank (4x12v in staggered parallel) and they seem to charge "better" somehow.
With 2 banks of 2 batteries each I would hardly ever see voltages above 12.7, but as a single bank (even though the same crappy weather, which is even gettign worse) I'm seeing 14v+ occaasionally. Go figure..
I'm still not exactly clear on why this is but I suspect multiple devices (esp with diodes whcih drop a little voltage) means multiple inefficiencies, and also perhaps neither bank ever fully reaches the final charge state (sorry i forget the name of it but where the resistance gets higher and it needs a higher voltage). So it seems like the combo of crappy weather and multiple banks means none of them ever really get the love they need to hit optimal charge.
A recent very wet/cold night in the van in uk winter seemed to highlight this and got me delving deeper down the rabbithole of better efficiency which led me to MPPT charge controllers. I now have a shiny new renogy 30 amp MPPT controller waiting to go in and I'm planning to switch to having the panels in series to give a higher charging voltage which is regulated down to optimum for whatever the current charge state is by the MPPT controller. More on this to follow I'm sure!

@@NorthCust Thanks for the update haha, I literally got a new inverter with inbuilt MPPT charging. I've been getting about 30% more power per day.

@@AngeloXification oh cool! thanks for letting me know :) that seems to be about in line with what they claim for MPPT controllers which is very reassuring to hear. It also seems like not everything that says "MPPT" on it actually is, esp if it's cheap off ebay, which is why I ended up overspending a bit on the renogy, but having received it, it's such a beautifullly engineered bit of kit and the support is excellent. Any spare time I've had these last few weeks (which has been very limited indeed) has been spent trying to insulate the ply walls and bare metal ceiling but now that's more or less done, next up is to see where to fit this renogy device, which is quite a bit chunkier than the dinky eco-worthy pwm controllers.

@@NorthCust haha when its chunky it feels like quality. Pretty much my same experience. More power to ya ;)

hi, thanks! Hopefully it was useful. I actually just recently happened to get to test using two MPPT controllers on the same array to feed two separate banks and that did NOT work as anticipated. With my 4 panels in series I'd usually make ~85v on each mppt individually but when connected together the input voltage reading for both controllers dropped to 17v, and also only showed the current input I'd expect on one panel (~7a), not (e.g. 4 in parallel - ~28a). I didn't test it for very long beyond that but that was with two almost identical controllers (Renogy Rover 20 and rover 30). I can't say conclusively there's not a way of making it work but in my brief test, with my setup, it did not seem to work. Sadly I don't really understand enough about electronics to really speculate what might be happening.

hi :-) 1) neither of those charge controllers are MPPTs, 2) I think bear in mind that both chargers may not always be in "charge" mode, s o the PV array shouldn't exceed the amps and volts of *1* charge controller (not both) since most of the time it's only one controller active. 3) I have no idea what you mean re internal resistance, sorry. NC

update: since making this video I've moved off grid and now have MPPT controllers - and splitting the signal from one panel/array across multiple MPPT controllers and panels in series seems very much NOT to work, whereas with PWM controllers and panels in parallel it worked fine. I don't fully understand why it didn't work with MPPTs but it most certainly did not.

Hello! The circuit diagram i based it on is here (there was a link in the description): electronics.stackexchange.com/questions/182043/multiple-charge-controllers-on-the-same-solar-panel
Basically the diode/s need to go between the end of the positive cable (from the panel) and where you would normally plug the positive lead into the controller, so in my case that looked like this:
northcust.co.uk/wp-content/uploads/2022/08/IMG_20220810_173709667_dual_solar_controller_with_diodes-768x1024.jpg
So the one red cable which comes through the wall is the positive from the solar panel, you can see the two diodes in parallel going from the cable connector to the top charge controller. Then the red cable goes back into the wall and down to the other controller, again with diodes just before.
The line/ring on the diode should point into the controller or you won't get any charge.
I ended up using 2 diodes in parallel since whilst they were rated 10 amps (which should be plenty) they were getting warmer than I was happy with. Doubling up the diodes effectively splits the current load across them and now they barely get warm.
I did notice a slight voltage drop with the diodes and that's probably 2x with 2 diodes in parallel but haven't found that to be a problem in practice, and the setup just seems to work better with the diodes in place so that's what I've stuck with.
Having the diodes etc visible/exposed like that isn't ideal but this is still very much a work in progress. I used small sections of heatshrink tubing over the legs of the diodes to avoid having exposed connections.
Each controller feeds a separate battery bank - a main 150ah pair of deep cycle lead calcium batteries for lighting, usb sockets, and also runs the small inverter for cooking, charging laptop etc, and there's a second bank with two car batteries (75ah + 60ah), which run the fridge only. The fridge uses a peltier cooler and is not super efficient, so uses quite a lot of power which basically used all the available watt-hours from that bank, so as a sort of workaround I found a timer circuit ( www.ebay.co.uk/itm/354108405211 ) which runs the fridge 30 mins on, 30 mins off in an endless cycle and used only 50% as many watt-hours/electricity. As long as I have a bottle of ice in the fridge to help it seems to stay plenty cool like that.
When the fridge is running there isn't really much solar left to charge the batteries, and particularly the first bank doesn't really get to charge much, so the 30mins cycle actually ended up playing an important role in allowing both banks to charge at full speed (which was not a problem i had considered beforehand).
Currently (summer) this setup works very well but I've seen on some more cloudy days that there's not really enough juice from the one 120w panel, so am hoping to add a second one before the winter and maybe a compressor fridge which is hopefully more efficient. Then I think we should be good :)

@@NorthCust Thank you, Sir. I made the connection as described, only that the charging is not with full capacity and the diodes temperature going high.
What should I do to reduce the heat from the diodes, and how can I increase the power of charging. Appreciate

so tbh this has been quite interesting as after doing this experiment I replicated the same setup in my van and ended up asking myself the same question. The controllers I used in this video didn't show the input current, only "charging" or not (they're quite old) but the ones in the van DO show the input current (they're the eco-worthy ones which are much nicer) and gave much better info.
What I found is that both controllers seem to have a "full charging", "not charging" and "trickle charging" state, presumably depending on the voltage of the battery bank they're attached to. So if bank 1 is full but bank 2 is low then controller 1 will be in "not charging" state (0a) or "trickle charging" (2a). Same goes if the other way around.
However if both banks are low then both controllers seem to be in "full charging" state and it does actually split the power between them, though not always evenly. I still don't fully understand why the uneven split, but I guess it's to do with how much power each bank seems to need. It's actually been quite rare that I've had both banks low but I have seen it where they were then gettign pretty much an even split, but most of the time one or the other is getting the majority.
Either way *somehow* they seem to figure it out magically by themselves and it's been running like that for a few months now with no problems :)
Maybe I need to make a follow up on this video and dig into this a bit more since the van setup gives a bit more info.
Hopefully that helps :)

please see above..

Sicne making this video I ended up moving off grid and also ended up with two almost identical MPPT controllers, and with several 170w panels in series splitting the signal across two MPPTS controllers seemed to very much NOT work. In fact MPPT causes all sorts of funky things to happen unless you do exactly as you're meant to.

maybe I've misinderstood what you mean but that doesn't really make any sense to me, sorry. One panel, multiple controllers, one battery? I don't see what you'd hope to achieve by that setup. The amperes from the panel will not magically be more just by adding more controllers.

@@NorthCust attach one soler panel with two pwm

I ran two controllers for quite a while in the van in the end becaus eI too had mistmatched banks - my main bank was 2x75ah deep cycle lead acid and the other bank was 1 60ah and one 75ah car starter battery. It did seem a bit weird at times re how it decided who got the power but it did actually seem to work.
It seemed to work ok without the diodes but I also kinda didn't really trust it without so ended up leaving them on. With a lead acid and lifepo setup like yours I would have thought this sort of arrangement but with diodes on the solar input of each controller ought to work just fine. Good luck! :)

Alibear , ive got the same situation , how did you get on as im going to try the same thing soon .

hi.. I ran basically that setup in my van for about 3-4 months and it worked pretty well (different charge controllers [the eco-worthy ones] but still pretty cheapo ones switching ones, not mppt, 2 pairs of batteries, one pair 75ah lead-acid-calcium totalling 150ah, and two mismatched car batteries totalling 135ah) I had two 120w panels feeding it and whilst it was a bit confusing what it was doing at times it did actually seem to work pretty well. I had one bank to run the fridge and one for everything else and i had 0 problems with it.
Eventually I got a second matching pair of 75ah lead-acid-calcium and now have all 4 wired up into one bank and switched to a single controller, with a view to fitting the new renogy MPPT controller I have sitting here for better efficiency and better charging.
As far as I understand it...as long as you have each controller set to the correct battery type for what's attached to it I don't think there should be a problem. Also apparently you can mismatch parallel wired batteries (NOT SERIES)... so if you have a 70ah sealed/agm and a pair of 7ah sealed agms then you can parallel them on the same bank np. Apparently it's something to do with the internal resistance of the batteries whcih just figures it out, tho personally I'd prefer "slightly mistmatched" like my 70 ah and 65ah rather than 7ah and 70ah.
Also with parallel afaik wire in "staggered parallel" to maximise battery life.
I hope that helps, good luck :)

@@NorthCust thank you so much for a very clear info... good luck bri.

the diodes I used ont he van were 10a a piece and even though I was never seeing more than 6a even at peak sunshine, they were getting warmer than I was comfortable with but doubling up (diodes in parallel) sorted it adn that's how they stayed till I (just recently) upgraded the batteries in the second bank to be the same as the first, and linked them into one big bank, which also means no more need for diodes.
The night-time monitoring idea interesting, hadnt thought of that. I suppose that ought to do it, though from what I could tell these controllers act as switches and if true those switches would likely be "off" at night. My concern for "leak back" was more about ive say I've almost depleted bank1 and somewhat used bank 2 (so both need charge but are unevenly depleted), then when there's sun and both controllers are switched ON, is there *then* going to be any leakback, since if there was it could be sudden and dramatic and that's where problems might well arise.
I'd like to think that the controllers would have a little silicon in there to prevent leakback that but did I trust el cheapo ebay controllers to do that? no. I could have emailed eco-worthy and see they know, they seemed pretty good overall, but my patience for support issues was also depleted, hence the inline diodes stayed just in case despite the observed everso slight (0.1v iirc) voltage drop.

These were 10A schottky diodes from here: www.ebay.co.uk/itm/284710038307 which were the highest rated I could find at the time. Since then I've found some higher rated ones (up to 20A) here: www.ebay.co.uk/itm/283186713698
Even though my panel only makes

​@NorthCust can I do this set up without diodes? I don't want to add diodes

No need of diodes, I think ​@@BOREDANDWELLBORED