@@eFIXXENERGY the layer also has a geometry tradeoff that's constrained by the anti reflective coating. Most modules now use a trapizodal bucket rather than linear surface
The UK gets between 2.2-2.9 solar hours per day on average depending on location so take your daily kWh use and divide by say 2.5 to get the kWp that would be optimal for you. Then size a battery system that will accommodate your ability to load shift your use. Standards size panels are now 400W+ each so you can very easily create arrays that will be beyond the basic DNO import limits, but the benefit would be you generate more in winter months since your array will be oversized but capped by either inverter capacity or the DNO limit.
Why did you put the negative power going through the negative wire to power the light then exiting out through the positive wire? I'm assuming it was an accident in the creation of the video but double-checking
eFIXX Energy - Actionable content to help you navigate the future of home energy
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Looking forward to future content with the best presenter (Gordon) 🙂
Somewhere, Gaz is busily consuming TicTacs while plotting your demise. 🙄
Don’t worry we’ll hear him approaching (rattling)
The thickness of the space charge region is incredibly important and is a designed element.
I'm endlessly fascinated by the design of the electrical connections to the top layer, maximising contact without covering too much space...
@@eFIXXENERGY the layer also has a geometry tradeoff that's constrained by the anti reflective coating. Most modules now use a trapizodal bucket rather than linear surface
Well explained Joe 😁
Thanks Brian, my first animated feature!
Hello Green efixx 🙌🙌
Hello Big Ash! Thanks for popping over!
yay first comment! could you explain te entire charging systems with houses and batteries? and the difference in watts in panels?
Thanks 🙏 - lots more explainers coming!
The UK gets between 2.2-2.9 solar hours per day on average depending on location so take your daily kWh use and divide by say 2.5 to get the kWp that would be optimal for you.
Then size a battery system that will accommodate your ability to load shift your use.
Standards size panels are now 400W+ each so you can very easily create arrays that will be beyond the basic DNO import limits, but the benefit would be you generate more in winter months since your array will be oversized but capped by either inverter capacity or the DNO limit.
Why did you put the negative power going through the negative wire to power the light then exiting out through the positive wire? I'm assuming it was an accident in the creation of the video but double-checking
How does a PV Panel work? MAGIC!
😂 Pretty much!
HIT panels 💪🏼
💪
nice video
though is there a reason the sub count is hidden lol
No it’s our new channel and this is the first released video.
Sound on vid seems a bit iffy.
Cheers.