How to detect Float Mode on Schneider MPPT80

You don't need to know when it is in float so much as you want to know when it is throttling output, as when it is doing that it has "extra" power that could be used for other purposes.  Consider filling a kiddie pool as an analogy.  You would probably unscrew the nozzle from the end of the hose to reduce resistance as much as possible or at least open the nozzle wide.  If there was a pressure gauge at the hose bibb it would show a low pressure as the flow losses are distributed throughout the whole distribution system half of which is upstream of the gauge.  However as you put your thumb over the end of the hose or closed the nozzle the pressure would go up since the flow is decreasing and with it all the flow losses throughout the system.  Same supply pressure ultimately but all the resistance is now occurring at the point of throttling.

The charge controller does the throttling.  The Conext charge controllers have a relay that can be configured to supply up to 200 ma at 12 volts, controlled by high array voltage.  When bulk charging my array voltage is around 90 volts.  During absorption and certainly during float that voltage rises above 100 volts.  Pick the right setpoints and delays and you can shunt current when the shuntin's good, pretty much.  Also, tap the opportunity load power off of the input to the CC (array voltage and current).  Works fine for resistance heating, can't suck from the batteries, only what is coming from the panels.  A 4500 watt 240 VAC water heater draws something like 800 watts at 100VDC.  Get a 250 VDC switch with a 12 VDC solenoid and use that to switch the array power to the water heater.  It is just another circuit breaker in the combiner box only it draws power out instead of feeding power in.

That's what I do.

As the price of panels comes down and as I get older and more easily frustrated I see the wisdom of just throwing more panels on the roof.  With enough excess PV capacity you need not split hairs about exactly when to turn on loads.  I might consider running the water heater on 240 VAC for short bursts whenever the array voltage hits 105.  The problem for me right now is that I have only a Conext SW 4048.  The maximum delay to turn off the load is 5 minutes and the 4048 could probably supply 4500 watts for that long but not if I had any other loads running.  Runner up is using 120 VAC instead.  I used to do that.  I really like the idea of using the array current though as it automatically protects the batteries, self modulates consumption as the array voltage sags, and doesn't load up the inverter.

I will go to three Simpliphi Phi 3.8 batteries soon.  The batteries themselves have a limit for current that they will supply so running a 4.5 kW load intermittently is bound to crimp ones style anyway.  It occurs to me as I write that last sentence that I have ignored the issue so far with my FLAs.  Hmmmm, can't say I've noticed any problem though with any of the 3 sets over the last 5 years....

There is another angle to my situation.  My location gets 15 feet of rain per year, so, lots of clouds.  One day I did work my batteries hard but by the end of they day they were back in float while at the same time we got 1" of rain so it can be intermittent rain and sun, but on the whole there are many days of just plain rain.  On those days it doesn't matter which direction you aim the panels as long as it is up.  I plan on getting plenty more panels and aiming 1/3 East, 1/3 West, and 1/3 South, all tilted at 45 degrees.  During the summer the sun is actually a degree or two north of overhead and the sun will be boring perpendicularly into the East facing panels by 9am.  Same for West panels at 4 or 5 pm.  The South panels will be getting negligible direct sunlight except for around noon when sun will hit them at around 41 degrees.  At that point the East and West panels will all be getting sun at 45 degrees.  In the winter the East and West panels will get poor sun but the South panels will get good sun.  On any day that there are clouds there will be lots less solar energy on the whole but all panels will be contributing equally.  Right now I just suffer during those periods and make electricity with fuel but with extra panels I will do better and burn less fuel making electricity.  Instead I will burn the fuel for hot water.  When sunny I will make hot water with all the excess PV capacity.

My situation is unique in that If I don't put in the extra PV capacity I am doomed to burn fuel.  If I do bulk up on PV then I can do silly things like running a regular electric water heater.

Just keep me away from innocent FLA batteries.