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Hi Folks,
For starters, I'm just in the initial phase of thinking through solar. I typically do as much as I can DIY for most projects, and pay professionals for the parts that are really hard or dangerous. The questions I'm going to ask may not inspire confidence in my abilities, but I want to learn so any help is appreciated.
Desire: I'd like to put up solar to power 100% of my current electrical needs (roof mount). I've estimated that I use around 11,750 kWh annually. I live in the Los Angeles area (LADWP).
Setup I'm considering:
Inverters - Enphase C250 Microinverters
Panels - SolarWorld SW 345 XL Mono
Other factors
Annual Temp: (Fahrenheit)
* Record low - 20°
* Record high - 115°
* Average low - 40°
* Average high - 96°
Panel size = 200 Amp
Questions: I've been reading conflicting information on how one calculates system sizes and needs. I'm hoping someone can help me clarify what I'm missing.
(calculating average daily kWh) - 11750/365 = ~32kWh daily.
(factoring in for sun in my area) 32/5hrs of sun a day on average = 6.4
Part 1
Here is part ONE I'm confused about. How to factor in conversion from AC to DC.
I've heard some people say a flat 20%
While others are based on the inverter efficiency itself (in this case is 96.5% efficiency)
So, to generate 11,750 kWh of AC, do I need a (6.4/.8) 8kW system of a (6.4/.965) 6.6 kW system?
Part 2
When I started looking at the LADWP permit paper work, they use this formula to calculate the total AC output of the system.
#of Microinverters _______ x Inverter AC Output Current ______ x 240V = _______ W
This confuses me since there is no variance for the rating of the panel. You could have a 150watt panel or a 350watt panel and it would be the same calculation since it just factors in the Microinverter. Case in point, if I wanted 24 of the 345watt panels (and this 24 micro inverters), that is what I understand to be a traditional 8.28kW system (DC). However, since according to the M250 documentation, the nominal output current (the only one listed) is 1.0 A. So 24 x 1 x 240 = 5760 w or 5.76 kW. What am I missing?
Part 3
I was doing some drawings of my roof and sizing of panels to try and get a feel for how this might all come together. I started to try and calculate the feedback breaker size I'd need based on my 24 panel setup (which I'm bringing into question in Part 1 and 2 above). My current plan would be 12 panels on a branch (M250 microinverters appear to support up to 16).
What formula do I use to determine
Panel (Isc) = 9.75 A x 1.25 = 12.1875 A x 2 branches = 24.375 A
OR
# Inverters in a branch (12) x Inverter AC output (1) x 1.25 = 15 A x 2 branches = 30 A
Either way it would seem like I could squeeze in a 40 A feedback breaker on my 200 A panel without any issues (right?) however I'd like to know how to properly calculate this.
Part 4
What else am I missing, I haven't calculated the AWG size needed (which somewhat depends on my distance and temp factors). Ultimately I just want to hone in on what size I need and attempt to finalize a shopping list or any other "gotchas".
Thanks so much in advance for any help I receive.
For starters, I'm just in the initial phase of thinking through solar. I typically do as much as I can DIY for most projects, and pay professionals for the parts that are really hard or dangerous. The questions I'm going to ask may not inspire confidence in my abilities, but I want to learn so any help is appreciated.
Desire: I'd like to put up solar to power 100% of my current electrical needs (roof mount). I've estimated that I use around 11,750 kWh annually. I live in the Los Angeles area (LADWP).
Setup I'm considering:
Inverters - Enphase C250 Microinverters
Panels - SolarWorld SW 345 XL Mono
Other factors
Annual Temp: (Fahrenheit)
* Record low - 20°
* Record high - 115°
* Average low - 40°
* Average high - 96°
Panel size = 200 Amp
Questions: I've been reading conflicting information on how one calculates system sizes and needs. I'm hoping someone can help me clarify what I'm missing.
(calculating average daily kWh) - 11750/365 = ~32kWh daily.
(factoring in for sun in my area) 32/5hrs of sun a day on average = 6.4
Part 1
Here is part ONE I'm confused about. How to factor in conversion from AC to DC.
I've heard some people say a flat 20%
While others are based on the inverter efficiency itself (in this case is 96.5% efficiency)
So, to generate 11,750 kWh of AC, do I need a (6.4/.8) 8kW system of a (6.4/.965) 6.6 kW system?
Part 2
When I started looking at the LADWP permit paper work, they use this formula to calculate the total AC output of the system.
#of Microinverters _______ x Inverter AC Output Current ______ x 240V = _______ W
This confuses me since there is no variance for the rating of the panel. You could have a 150watt panel or a 350watt panel and it would be the same calculation since it just factors in the Microinverter. Case in point, if I wanted 24 of the 345watt panels (and this 24 micro inverters), that is what I understand to be a traditional 8.28kW system (DC). However, since according to the M250 documentation, the nominal output current (the only one listed) is 1.0 A. So 24 x 1 x 240 = 5760 w or 5.76 kW. What am I missing?
Part 3
I was doing some drawings of my roof and sizing of panels to try and get a feel for how this might all come together. I started to try and calculate the feedback breaker size I'd need based on my 24 panel setup (which I'm bringing into question in Part 1 and 2 above). My current plan would be 12 panels on a branch (M250 microinverters appear to support up to 16).
What formula do I use to determine
Panel (Isc) = 9.75 A x 1.25 = 12.1875 A x 2 branches = 24.375 A
OR
# Inverters in a branch (12) x Inverter AC output (1) x 1.25 = 15 A x 2 branches = 30 A
Either way it would seem like I could squeeze in a 40 A feedback breaker on my 200 A panel without any issues (right?) however I'd like to know how to properly calculate this.
Part 4
What else am I missing, I haven't calculated the AWG size needed (which somewhat depends on my distance and temp factors). Ultimately I just want to hone in on what size I need and attempt to finalize a shopping list or any other "gotchas".
Thanks so much in advance for any help I receive.
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