Three questions:-
1. has anyone observed their RV MPPT Solar chargers actually prioritising on using available solar power to drive a load rather than discharging the battery. It has not been my experience.
2. Would floating LiFePo4 at a fixed 13.5V be damaging or dangerous consider the warnings against CV charging LiFePo4 and the iTech120X discharge curve attached. At 13.5V I would consider it not actually charging and therefore safe and would ensure that the system would prioritise on solar energy if available and fixed at 13.5V. If damaging/dangerous, could you please point me to the relevant source.
3. Would you consider it a bad design to continually discharge/charge a LiFePO4 while there is available solar energy that could be powering the load.
For background, read on.
Two MPPT chargers have measured cut in/cut out charge voltages as follows:-
1. Echo EPP3Mk1 13.2V - 14.0V
2. iTechWorld 40Amp MPPT 13.05V - 14.4V (Mode Setting type "4-3.2"). Chart attached
The low cut in values above highlight the fact that any load connected to the system will deplete the battery to approx 70%
before charging commences according to the manufacturers data attached.
I find it very frustrating that the chargers will begin to deplete the battery while the sun shines. I have observed the fridge running for hours before the charger cuts in.
This has the following consequences:-
1. Reduced battery life
2. Highly likely reduced charge when the inevitable happens and the sun goes away resulting in a more depleted battery for the night or cloudy times than neccessary.
As such I have gone against the manufactures recommendations and decided to use Mode setting type USR1 and set the float level to 13.5V while active loads attached and mode setting type 4-3.2 while stowed.
Any thoughts, personal observations and shared experiences welcome.
I posted a similar question on the PICLIST and responses tended to agree that constantly dipping into the battery store is not ideal.
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