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I have 24 LG 335W panels connected with P400 optimizers to a SolarEdge 7600H inverter (8.04 DC total). I'm on NEM 2 and just reached my fifth year of operation so will be required to move to TOU plan (although SDG&E hasn't made me yet).
Since spec'ing the system we've added two EV's to the household and the demand for electricity is far higher than I had projected with the original system. We appear to have the opportunity to lock in the NEM 2 rate of return for any system/addition we get filed for approval by Mid-April so i've started shopping.
I'm in 92131 and the current roof install faces 142 degrees. I'd like to add 3-4kW DC to the roof.
My panel is 200A and is about maxed out (maybe one more slot) so adding a separate system in parallel has extra costs involved compared to leveraging the existing system. But I know I want another 40-50amp circuit put in for a second EV charger so there might be value in just rolling a main panel replacement/upgrade into the Solar work. But I suspect it will be cheaper to wire in a subpanel for the new charger and stick with what I have.
I'd like to leverage a smallish (about 121 sq feet after fire code setbacks) roof facing SW at around 233 degrees to add as many panels as will fit then put the remaining on the current 142 degree roof. If I can use 400W panels there I'm hoping 6-7 there and the remaining 1-2 added to the existing set.
I've tried to access the SolarEdge design tool but can't get to it. My monitoring account errors out and the application online requires a tax EIN to prove you're more than a self installer i guess.
I know that my inverter can accept 11,800kW-DC total in two strings. I know that I will get clipping if I get close to that. But PVWatts says I will lose about 5%ish of annual output (by changing the advanced setting of DC to AC Size Ratio) which I can live with. I know that Solaredge has a compatibility list of optimizers and new install would need to use compatible models.
Things I'm not sure about:
1) Are there limits to adding larger panels (400W) to the existing system at the string/optimizer level? For instance does it matter if one string is loaded to the max while the other is not? Seems like I've read here there is no problem with this practice however local installers seem to think it is best practice-not sure if that is a remanant of older inverters or actual fact.
2) What are the options for how to tie new panels into existing strings? Can they splice in mid-conduit run? Current setup penetrates roof then runs in conduit through attic then outside, into garage into the inverter. Is there best practice where to tie in other panels? New ones are on different roof (closer to inverter).
3) Feels like oversizing this system leaves the clearest path to adding batteries in the future but i'm not sure if that is true. Is there a significant advantage to adding a battery to one big system compared to one medium/one small system if the total output is the same? Aside from avoiding clipping and warranty hassles are there advantages of a new/separate system?
So far the pricing is coming in around $3.70 to $4.00 per DC kW to add into existing system which seems like it should come with an inverter. But maybe things are just high due to the surge to beat 3.0.
Since spec'ing the system we've added two EV's to the household and the demand for electricity is far higher than I had projected with the original system. We appear to have the opportunity to lock in the NEM 2 rate of return for any system/addition we get filed for approval by Mid-April so i've started shopping.
I'm in 92131 and the current roof install faces 142 degrees. I'd like to add 3-4kW DC to the roof.
My panel is 200A and is about maxed out (maybe one more slot) so adding a separate system in parallel has extra costs involved compared to leveraging the existing system. But I know I want another 40-50amp circuit put in for a second EV charger so there might be value in just rolling a main panel replacement/upgrade into the Solar work. But I suspect it will be cheaper to wire in a subpanel for the new charger and stick with what I have.
I'd like to leverage a smallish (about 121 sq feet after fire code setbacks) roof facing SW at around 233 degrees to add as many panels as will fit then put the remaining on the current 142 degree roof. If I can use 400W panels there I'm hoping 6-7 there and the remaining 1-2 added to the existing set.
I've tried to access the SolarEdge design tool but can't get to it. My monitoring account errors out and the application online requires a tax EIN to prove you're more than a self installer i guess.
I know that my inverter can accept 11,800kW-DC total in two strings. I know that I will get clipping if I get close to that. But PVWatts says I will lose about 5%ish of annual output (by changing the advanced setting of DC to AC Size Ratio) which I can live with. I know that Solaredge has a compatibility list of optimizers and new install would need to use compatible models.
Things I'm not sure about:
1) Are there limits to adding larger panels (400W) to the existing system at the string/optimizer level? For instance does it matter if one string is loaded to the max while the other is not? Seems like I've read here there is no problem with this practice however local installers seem to think it is best practice-not sure if that is a remanant of older inverters or actual fact.
2) What are the options for how to tie new panels into existing strings? Can they splice in mid-conduit run? Current setup penetrates roof then runs in conduit through attic then outside, into garage into the inverter. Is there best practice where to tie in other panels? New ones are on different roof (closer to inverter).
3) Feels like oversizing this system leaves the clearest path to adding batteries in the future but i'm not sure if that is true. Is there a significant advantage to adding a battery to one big system compared to one medium/one small system if the total output is the same? Aside from avoiding clipping and warranty hassles are there advantages of a new/separate system?
So far the pricing is coming in around $3.70 to $4.00 per DC kW to add into existing system which seems like it should come with an inverter. But maybe things are just high due to the surge to beat 3.0.
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