Solar fanatic, thank you for your answer.
>> For a 1200 watt panel with a MPPT controller takes 100 amps. How did you come up with 45 amps.
Take a look at the specs on the page below,
Scroll down to "2,inverter features".
Under Input, you will see Charging current 45A.
If indeed it takes 100A, does it mean the specs are wrong?
>> Throw two of your panels away because they are not being used.
I'm confused. How many amps is a typical 300W solar panel supposed to put out?
For example, looking at this: https://www.alibaba.com/product-deta...391768807.html
I see:
Short Circuit Current(Isc/A) = 8.71
Maximum Power Current(Imp/A) = 8.16
By connecting 4 panels in parallel, the amperage increases.
So, does four panels not therefore, come to roughly 35Amps (4*8.71)?
I know MPPT increases efficiency by about 30%, i.e. about 10A. So the total amps should be 35+10 = 45A.
Please enlighten me where I'm going wrong. Let's focus on this particular question without getting into the weeds.
>> For a 1200 watt panel with a MPPT controller takes 100 amps. How did you come up with 45 amps.
Take a look at the specs on the page below,
Scroll down to "2,inverter features".
Under Input, you will see Charging current 45A.
If indeed it takes 100A, does it mean the specs are wrong?
>> Throw two of your panels away because they are not being used.
I'm confused. How many amps is a typical 300W solar panel supposed to put out?
For example, looking at this: https://www.alibaba.com/product-deta...391768807.html
I see:
Short Circuit Current(Isc/A) = 8.71
Maximum Power Current(Imp/A) = 8.16
By connecting 4 panels in parallel, the amperage increases.
So, does four panels not therefore, come to roughly 35Amps (4*8.71)?
I know MPPT increases efficiency by about 30%, i.e. about 10A. So the total amps should be 35+10 = 45A.
Please enlighten me where I'm going wrong. Let's focus on this particular question without getting into the weeds.
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