Yeah, I guess it could be simpler..
The cheapest SunnyBoy GTI I've seen is over $1,000 SMA Sunny Boy 700U Grid-Tie Inverter, 700 Watt, 150, 200, 250 Volt Putting out 700 watts (if you have 700 watts of PV panels). For that price, you could get ten of the cheap Chinese 300 Watt GTIs (3,000 watts).. If you had 10 panels, you could reap the benefits of power-point-tracking on ten panels.. And, all those panels could be of different brands & power levels. I'll bet that SunnyBoy has to have the whole array coming in on one pair. Meaning that a shadow one panel brings down the whole system power.. |
Put a high efficiency DC/DC converter on each panel. It would actually be more efficient that way.
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you are going to have issues if your PV systems output is higher then your demand as it's not going to have any load, the grid is acting as a load, back feeding a small inverter as a load is going to do damage, not sure how fast it will let the magic smoke out of the small inverter but it will happen, or fuses will blow, either way it will shut down.
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If you have a few Enphase GTI AC outputs tied together in parallel,
what keeps them from destroying each other? I do see what you mean with the excessive PV power. The GTI will want to dump that PV power to the grid (or your fake grid), in the largest quantity it can.. Just thinking about it, it seems you would need your load, be large enough to use all the power from the PV array and a little bit of power out of the battery..?. I think the Enphase monitors the AC line in small time slices and then puts it's own replica AC on the line during it's output cycle. That cloned AC from the Enphase is slightly boosted in amplitude, to push power onto the grid. The nice thing about resistive loads and some motor loads is, when the voltage does up, the load draws more current (uses more power). I=E/R I guess my oddball configuration working is going to be very dependent on the functionality of the GTI.. Those cheap Chinese GTIs might not would with this kinda of scheme. |
The voltage will stay the same and the amps will stay the same as well, that is where either the grid tie inverter will shut down or the sign wave inverter will burn up, the grid tie inverter is designed for unlimited demand, it's not designed to be limited.
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The answer seemed almost too obvious. Batteries are DC, as are solar panels. Electronics also run from DC. So why waste energy converting to AC only to convert it back to DC? Motors often run on AC, so use a point-of-load inverter that supplies exactly the right frequency and voltage needed at that time. |
The main reason that utilities use AC is because very high voltage can be used.
High voltage and low amperage can deliver the power, to transformers. (Without the use of monster cables). Those transformers are about 99% efficient and can step-down the voltage so we can use it in our homes. DC melts transformers.. |
AC makes sense for long distances, but not for short distances. A few hundred or even few thousand feet is not considered long distance.
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At the lower voltage ranges (that you might need in a house), DC voltage needs
a Large amount of current.. So, if you have a few thousand feet of wire, it has to be Monster cable.. Otherwise, it will have significant resistance.. Notice that voltage isn't a factor in this formula, P=R x I squared.. In other words, if you have some Resistance, the Power loss will go up with the square of the current.. That's why we no longer use any long low voltage DC lines.. When I was a young man working in Boston, one of the old Phone co. buildings had 110VDC outlets in the offices. Once in a while, someone would plug in an AC device and watch it smoke.. |
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