Aims Global LF Series

What is the battery bus voltage and the voltage right at the DC input terminals for the AC inverter...

I would double check all the battery to inverter cables and their connections (tight, no corrosion, nothing getting warm/hot, battery voltage (if 48 volt bus, typically somewhere between 42 VDC to 60 VDC). Check battery bank/battery voltages (no low or high battery voltages, no "hot" batteries, if flooded cell check electrolyte levels, etc.).

I don't know of any general source for AC inverter schematics--Most mfgs treat that as company proprietary information and don't let that out.

-Bill

TUD,

I am sure you know--But just to confirm... If flooded cell lead acid batteries, they typically "want" 59.0 VDC (aka 14.75 volts for a 12 volt bank) held for 2-6 hours (more hours the deeper the discharge). Float should be around 54.4 volts after the batteries are fully charged (around 13.6 volts max float voltage for a 12 volt bank). And the batteries typically begin to discharge below 51.2 volts (12.8 volts).

If flooded cell batteries, are you monitoring them with a hydrometer of some sort for specific gravity... When you have lots of variable loads and charging sources, just monitoring battery bank voltage is a bit more difficult (with spot checks):

https://www.solar-electric.com/search/?q=hydrometer

You do have several ways to proceed (excluding help from your inverter supplier)... One is see if you can find an AC voltage regulator (basically a multi-tap transformer with electronic control):

https://www.amazon.com/SEVENSTAR-AR-Reglator-Stabilizer-Transformer/dp/B007YK55OA (know nothing about product or vendor--just an example).

Another method is to find a wide input range power factor corrected battery charger:

http://www.xantrex.com/power-products/battery-chargers/truecharge-2-24v.aspx

Xantrex makes 12 and 24 volt wide range AC input (true PF corrected AC input power supplies like the above can take any voltage from 90-265 VAC and 50/60 Hz +/- and charge your battery banks... Depending on the Amp/Voltage rating, I think you should be able to find 48 VAC PFC chargers too.

It is possible that you can find 220 VAC inverter-chargers too with PFC input that might work for you... For example the Contex (Schneider) XW+ with Power Factor Corrected charging (PFC) can take:

https://www.solar-electric.com/lib/wind-sun/DS_ConextXW%2BNA.pdf

L-N: 78 - 140 V (120 V nominal); L-L: 160 - 270 V (240 V nominal)
AC input frequency range (bypass/charge mode) 55 – 65 Hz (default) 52 – 68 Hz (allowable)

Supplies that have PFC front ends are frequently very wide input voltage range (the above TC2 charger 90-265 VAC, the inverter-charger above, 160-270 VAC for 2xx volt input).

I am certainly not knowledgeable enough to make any firm suggestions on what you should get, or what is even available--But the above shows you what is possible today. And hopefully, you can find a local supplier that can help, if not practical to get from USA/North America.

Looking for PFC (Power Factor Corrected) AC input is usually the "magic words" to find a wide input range power supply/charger. Of course, you have to be careful, at 90 VAC, the charger/power supply will take (240 VAC nominal/90 VAC low voltage) ~2.7x more current vs running at a "nominal" 240 VAC (design circuits/breakers appropriately).

It is also possible that many of these devices may not cost effective for (shipping to Philippines, etc.). But they are out there if you can find the right mfg and supplier.

-Bill

TUD,

Wow--That is a good size system (100-150 kWH per day)... One house/business--Or are you making a "micro grid" for a community?

-Bill