<div dir="ltr">Have a friend that is on an electric co-op where peak $/kWh is 4x the off-peak rate. Peak hours are 6-10 am in the winter and 12-6 pm in the summer.<div><br></div><div>He has relocated an older system from his previous house to his new one; circuits were separated out to sub-panel that is connected to the inverter AC output. The reinstallation is very professional.<div>
<br></div><div>Two Trace SW4024 in series (04/96)</div><div>120/240 Vac Grid connected to AC1 of each inverter</div><div>575 Ah battery bank</div><div>Two C40s with digital displays, ~ 4.5 kW STC array total</div><div>Trimetric</div>
<div><br></div><div>The goal is to not use any utility energy during peak times, unless the low battery voltage setting is reached, and in general to run as an off-grid system, minimizing charge time from the grid during off-peak hours as well. The assumption (I know it's a tough one, but I'm coming in after the transition) is that the PV array should at least be able to provide the bulk of the load; using the grid to charge the batteries to ensure they are regularly filled and to maximize their life expectancy. The customer is also managing loads actively.<br>
</div><div><br></div><div>It's been a few years, but I used to work on these all the time; however it was usually off-grid with a genset, or fixing poorly maintained Y2K systems which were always in float. I'm attempting to use the energy management mode.</div>
<div><br></div><div>Inverter settings:</div><div>Clocks: Time is accurate</div><div>Grid AC1 amps AC: 60</div><div>Max charge amps AC: 10 (each inverter)</div><div><br></div><div>Grid usage: FLT</div><div>Set start charge time: 23:00</div>
<div>Start bulk time: 23:10</div><div><div>Set end charge time: 05:00</div></div><div>Set float volts DC: 25.4</div><div>Bulk volts DC: 28.8</div><div>Absorb time: 1.5 hours</div><div>Low battery cut-out: 22 </div><div>Low battery cut-in: 25.4</div>
<div><br></div><div>Okay, programmed the system, both inverters are inverting, AC1 is blinking green, looks good. Then a well pump kicks on, registers 70 A DC on the Trimetric. This causes inverter 1 to go into bulk charging and pass through about 10 additional amps from the grid to the load (inverter 2 continued to inverter about 10 amps for the load). Inverter 1 soon cycled into float, then went back to what invertering (amber light) and green blinking AC1 (which is what I want it to be at). </div>
<div><br></div><div>Had to leave, both the customer and I had other obligations.</div><div><br></div><div>He took a picture of the inverter sat 11:15 pm, and they were in bulk, battery voltage rising...exactly as planned. But then in the next set of pictures, taken at 7 am, after the end of the charge time, they were in float, not inverting, even though, based on the Trimetric readings at 11 (64%, 85A charging), and the fact that charging would have been active all night, they were not in anyway at a low voltage condition (Trimetric readings am readings were 85%, trickle charge, 25.6 V).</div>
<div><br></div><div>Something seems amiss. Any suggestions or insight?</div><div><br></div><div>Thanks!</div><div><div><div dir="ltr"><div><br></div><div>Brian Mehalic <br>NABCEP Certified Solar PV Installation Professional™ R031508-59<div>
IREC ISPQ Certified Affiliated Instructor/PV US-0132<br><div><br></div><div>PV Curriculum Developer and Instructor<div>Solar Energy International<br><a href="http://www.solarenergy.org" target="_blank">http://www.solarenergy.org</a></div>
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