Great job of explaining the components. I looked for an internal circuit diagram but most search give the total solar system, commercial for Enphase. Could you link a circuit or even block diagram of this, please? TIA.
0:35 nope, this inverter will never draw 720W. Something like 320W max, considering some losses at full load. Taking this power in mind, you can let it draws 12A (max continuous current) at 27V, while at 60V (max DC input), it won't draw more than 5.3A.
Sir, is there any ac output in the microinverter alone? I mean,, panel to inverter? I have a panel with enphase inverter,, the panel produces 44volts but there is no ac out put on the microinverter... Thanks
Great video. thanks I have learnt more here than on the enphase datasheet. So the IQ7 has a maximum continuous DC of 720W (60V*12A) but then in your IQ8 video it is 73.5V/8A=588W I don't get it. I thought the IQ8 was more "powerful" than the IQ7. Does it mean for panels with >600Wp it is best to stay with a IQ7? but then the AC power for the IQ7 = 290W and the IQ8 = 320W this is 10% more. If I were to have a 650Wp panels, which IQ would you chose?
Nice object and well done though some little imprecisione, but you are ChargerLAB, not Inverter Lab, so it's more than comprehensible😃 it would be interesting to see how's built the internals of the, maybe planar, round transformer
Thank you for the teardown, always wanted to see this.
This was the only detailed teardown of this brand thank you for this always wanted to know what they using in it.
Knowledgeable to me, as I am working in this field. keen to watch these type of videos.
Thank you! Was really curious about what's inside :)
Great job of explaining the components. I looked for an internal circuit diagram but most search give the total solar system, commercial for Enphase. Could you link a circuit or even block diagram of this, please? TIA.
0:35 nope, this inverter will never draw 720W. Something like 320W max, considering some losses at full load. Taking this power in mind, you can let it draws 12A (max continuous current) at 27V, while at 60V (max DC input), it won't draw more than 5.3A.
Thanks for your explanation.
what is the topology used in the inverter?
3:48 It's not a transistor (a transistor has 3 leads), but a gas discharge tube.
he said resistor
@@jasoneverly2902 Edit: it's unclear. I can hear "transistor" being said, but no matter which word it was, it's incorrect.
Nice 😊
May I ask: How can you clean the protective adhesive ?
We forget to film that🤣so we skip it.
@@ChargerLAB But how did you it ?
If i put a 80v panel on the microinverter what component would most likely be damaged ?
Sir, is there any ac output in the microinverter alone? I mean,, panel to inverter? I have a panel with enphase inverter,, the panel produces 44volts but there is no ac out put on the microinverter... Thanks
It's grid-tied only, I bet. Won't do anything independently. Also known as "anti-islanding"
How do they make capacitors that last so long in extreme overheating for decades? Capacitors fail inside the house even after a couple years
thank you
Operating temp : 65° celcius = 149° Fahrenheit. Doubt it. Kuwaiti people cover their AC units in summer. This one is facing the sun. Might explode.
Luckily it's under a panel
Great video. thanks I have learnt more here than on the enphase datasheet. So the IQ7 has a maximum continuous DC of 720W (60V*12A) but then in your IQ8 video it is 73.5V/8A=588W I don't get it. I thought the IQ8 was more "powerful" than the IQ7. Does it mean for panels with >600Wp it is best to stay with a IQ7?
but then the AC power for the IQ7 = 290W and the IQ8 = 320W this is 10% more. If I were to have a 650Wp panels, which IQ would you chose?
String inverter for 650wp panels
THX :D
Nice object and well done though some little imprecisione, but you are ChargerLAB, not Inverter Lab, so it's more than comprehensible😃 it would be interesting to see how's built the internals of the, maybe planar, round transformer
ChargerLAB covers all power-related products.
@@ChargerLAB good to know :D