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Calvin last won the day on September 27

Calvin had the most liked content!

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  1. From the manual: Working Temperature 0℃~50℃ Charge -10℃~50℃ Discharge Having said that, I think you are right to be worried. High temperature is one of the biggest factors affecting battery life. I am building an actively cooled enclosure for mine - I want them to stay near 25°C.
  2. Bought directly from ICC. Fully up to date. R2500
  3. I have a very similar installation (12x365W on each of my Kings). I ran them in 3S4P initially and subsequently changed them to 2S6P. This made them run very much more reliably - they are VERY fussy about the max voltage, and 3 72-cell panels in series is simply too much. High temperatures and SCC trips no longer happen at all since I changed them. Having said all that, your problem seems to be more than that. My change to 2S had no discernible effect on peak production - I regularly got 4000W from each set of panels in good conditions, and still do. What is your location and the
  4. If I remember correctly he has the SOL-I-AX-5NB (MKS II). Are these not King firmware?
  5. Also the specs for VOC are at 25C, with a temperature coefficient of -0.29%/°C. That works out to about 0.4V/°C. That means that at 20°C you will be at 145V, rising to about 149V at 10°C. As @Coulomb has stated, the 145V is not a guideline - it is an absolute, do not exceed under any circumstances limit.
  6. Below the graph as promised for your 26 degree roof angle. Peak production would be about 0.97W per W installed, or 6.36kW. Note that all these figures are at 25C panel temperature. Actual production would be about 10% lower at 55C and 7% higher at 5C.
  7. You mean like this? Click on drop-down next to your user name at the top of any page. Select "Account Settings" then "Signature".
  8. These panels output approximately 10A at 40V = 400W. You have 3S2P so you should be getting about 120V/20A. It seems that they are performing as expected. To get more current, put them in 2S3P - that will give 80V/30A. Same power, but good for other reasons. Or, buy more panels....
  9. Voltronics sell a lot of inverters, and operate at the "value" end of the market. Your SCC happened to pop - sometimes "stuff" happens. (Had your panels been 3S, they would probably have refused the repair based on the Voltage being out of spec - at least then they may have had a point.) The fact that the suppliers/manufacturers are now inventing new rules to dodge their warranty obligations in no way means that there is anything wrong with the way your system is configured. It is just a bunch of sleazy crooks doing their thing. (I have 4 of these installed - what was I thinking
  10. Technically you probably can insist on a repair under the Consumer Protection Act (any lawyers out there?) Nowhere in there brochures or installation manuals do they mention these restrictions. Even now they say "we suggest" rather than "your warranty will be void if ...". In practice name and shame may be an easier option. Start by telling us who the supplier is, so that we can avoid them. Or say to them "OOPS - did I say 2S6P? I meant 3S4P!"
  11. WOW. Even by their incredibly low standards, both in customer service and technical competence, this is surely a new low. As @Coulomb and others have documented endlessly, and I have personally experienced, these inverters do not work properly in 3S configuration with 72 cell panels. So now we can't use 2S and we can't use 3S. I guess the only valid answer is to stop using Voltronic's products completely. Darwin will surely smile when they go into well-deserved bankruptcy...
  12. These panels have a maximum open circuit of around 47.6V at 25C which will go up to about 50.5V at 5C. 8 Panels in series will hence have a maximum of 404V, well under the inverter's maximum MPPT voltage of 425V. 16 panels @410W would be just over the maximum of 6500W allowed, but as you correctly say with the panels at different orientations you will never get there. (If you let me know the inclination of the panels I can generate a graph of your potential solar production for you) Assuming that I looked at the correct data sheets, you system would be nicely optimised.
  13. I think it is probably only due to voltage - your temperatures are going down due to the SCC tripping because of the over-voltage. My inverters (Kings, but similar SCCs) would throttle on SCC temperature once the SCC PWM got to 87C, but that was a gentle reduction to keep the temperature at 86-87. It did not trip the SCC (A key difference is that you have only about 2kW of panels on the inverter - I have 4.3kW - so I don't think that there is enough power to get the SCC up to 87C). On the other hand, if the PV voltage got too high the SCC tripped, which is what yours appears to be doing.
  14. I think that is the MKS, which is good news for you - @Coulomb and friends have developed pathed firmware for those that eliminates some of the worst bugs, and adds some nice features. Might well assist in stopping the drop out you saw. Something does not add up - you have voltages that are consistent with 3-in-series (3S) 72 cell panels, but you have only 8 panels, (perhaps even 60 cell ones) which means 4S2P or 2S4P. Will be interesting to see.
  15. Sadly I am not aware of any way of getting this data from the inverter. I was also interested in getting this, and ended up making a pyranometer (using a small panel, a load resistor and a microcontroller with an analogue input) to measure it directly. It worked surprisingly well, as long as you size the load resistor so that the panel operates in the linear part of it's curve. The main problem is that it responds almost instantly to eg. clouds moving in front of the sun, whilst the Axpert's SCC reacts several seconds later.
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