Hmmm, I wonder how this would affect things in the future where this is widely used.
I.E. if you had both widespread solar usage and some kind of large blackout, would it be hard to get all your solar back online because it’s all in the “waiting for the grid” state? And the grid can’t come back at capacity because all the solar it’s expecting is out?
I assume people smarter than me have this figured out, but just a random thought if anyone knows more.
What happens when someone makes an unsafe backfeed into a downed grid and then other nearby inverters detect the current and bring themselves back online? Is there a way to detect if the load is being delivered from the utility vs from incorrectly configured solar or generator installations?
Some others are arguing back and forth about this elsewhere in the thread and I see the reasoning: unpermitted systems could accidentally energize isolated portions of the grid during downtime, which might trick properly installed systems to also come back online, and you have a runaway effect where there is enough current present to allow addition safety systems to be fooled.
There isn’t any data transmission over the wires; there either is current, or there isn’t. Arguing over permitting is moot - either safety systems can handle this scenario already, or they can’t.
All paperwork does is slow the relief of dependence on the utility, which hurts their profits.
The same thing that currently happens when somebody does that with a gas generator? Linepersons get zapped… people get sued… etc…
There isn’t any data transmission over the wires…
That’s very wrong. Not only can you extend Ethernet in your own home using your power outlets, the power companies have been reading meters this way for decades.
For a permanent installation, yes, just like a large solar installation. But I can go down to Lowe’s and get a gas generator capable of similar output as the balcony solar and it won’t require any permits.
How do you know? In a typical solar system, you have to have a permit, which requires an inspector to come out and ensure everything is configured correctly and safely. These don’t require any permits, which is great for making them more affordable and accessible, but there’s also no one coming around to make sure that anyone is doing it safely.
I know it because it’s in the spec necessary for licensing. It shuts off in under 20 ms so you can’t even get shocked by the prongs of the plug if pulled out.
It is a commercial product, connected to the grid via a standard schuko plug, sold in Germany. It has to be compliant with the local law to be sold legally.
So you can’t buy raw solar panels or inverters in Germany?
Sure you can. Solar panels will be fried by grid voltage more or less immediately if you connect them directly to a wall socket and become useless.
You cannot buy a PV inverter in Germany (entire EU really) that doesn’t automatically shut off if it doesn’t detect a frequency to sync against from it’s AC side, unless it can run off-grid in which case it has to disble the grid connection within the same 20ms.
You cannot buy a PV inverter in Germany (entire EU really) that doesn’t automatically shut off if it doesn’t detect a frequency to sync against from it’s AC side, unless it can run off-grid in which case it has to disble the grid connection within the same 20ms.
So you can’t buy a grid-connected inverter with off-grid capabilities? Because the inverter has no way to tell the difference between the grid being off, and being off-grid.
Oh you can buy off grid inverters (or inverters capable of “island mode”). But they are required to be able to automatically disconnect from grid, even if they are never going to be connected to a grid. You can’t buy solar inverters without this for the exact reason that you can connect them to grid.
You are required to notify your utilities that you’ll be operating a direct plugged small solar PV installation, that’s it. They can’t forbid you from doing this.
The utilities don’t monitor compliance, the manufacturer is.
The certification on the product shows that it’s safe to use in grid-tie. What the fuck are you on about? Are you just being intentionally an obtuse pain in the ass?
By now over 1.2 million people in Germany have registered (and even more have not registered) their legal small scale solar system and are producing their own electricity (mine covers 2/3rds of my total demand).
UL certification is a requirement for an electric or electronic product to be licensed for sale to consumers in the US. This is enforced on US manufacturers of a product and on importers.
Whilst people buying something from AliExpress for personal use and importing it themselves don’t have to obbey such requirements, those importing them or making them for sale in the US do.
The CE mark does the same thing in the EU.
No idea if in the US there are further licensing requirements for things to be connected to the grid that would close the importing for personal use loophole.
UL certification is a requirement for an electric or electronic product to be licensed for sale to consumers in the US.
That is completely incorrect. I own a ton of equipment that is not UL listed.
Further, UL listed equipment is not prevented from backfeeding to the grid, and in fact most of it is intended for precisely that.
No idea if in the US there are further licensing requirements for things to be connected to the grid that would close the importing for personal use loophole.
Utilities must approve power export to the grid, even if you do the physical installation 100% off the books. It’s called “Permission to Operate”, which requires permits and passed inspections. You can’t just unilaterally add shit to the power grid.
Your link doesn’t mention anything about “balcony solar”.
“Application process for rooftop solar and other smaller systems”. If you want to export power to the grid from anything at all, you must go through this process. If you wanted to export power from a hamster on a wheel you must apply for PTO.
Because the whole point is to make solar easier and more affordable?
of course, but not at the cost of safety and grid reliability.
Again, “other small systems” does not mean “balcony solar”. It could just mean ground-mount systems. Everything I’ve found says it’s not required. I challenge you to find the opposite.
Balcony solar is pretty much “plug and play.” Depending on the state/municipality/utility rules, users can install it themselves and don’t have to jump through all the permitting and contractual hoops or pay electricians in order to get it up and running like homeowners who install rooftop solar do
The microinverters stop feeding in if grid goes down. So it’s safe.
Hmmm, I wonder how this would affect things in the future where this is widely used.
I.E. if you had both widespread solar usage and some kind of large blackout, would it be hard to get all your solar back online because it’s all in the “waiting for the grid” state? And the grid can’t come back at capacity because all the solar it’s expecting is out?
I assume people smarter than me have this figured out, but just a random thought if anyone knows more.
What happens when someone makes an unsafe backfeed into a downed grid and then other nearby inverters detect the current and bring themselves back online? Is there a way to detect if the load is being delivered from the utility vs from incorrectly configured solar or generator installations?
Some others are arguing back and forth about this elsewhere in the thread and I see the reasoning: unpermitted systems could accidentally energize isolated portions of the grid during downtime, which might trick properly installed systems to also come back online, and you have a runaway effect where there is enough current present to allow addition safety systems to be fooled.
There isn’t any data transmission over the wires; there either is current, or there isn’t. Arguing over permitting is moot - either safety systems can handle this scenario already, or they can’t.
All paperwork does is slow the relief of dependence on the utility, which hurts their profits.
The same thing that currently happens when somebody does that with a gas generator? Linepersons get zapped… people get sued… etc…
That’s very wrong. Not only can you extend Ethernet in your own home using your power outlets, the power companies have been reading meters this way for decades.
Kinda seems like something you might want to avoid…
Obviously. I was just pointing out that it isn’t an issue unique to solar.
It is unique to “balcony solar”. Typical solar systems require permits and inspections before connecting.
No it isn’t. The same thing happens with the kind of gas generators you can get from your local hardware store all the time.
As I mentioned several times elsewhere, gas generators also typically require permitting.
For a permanent installation, yes, just like a large solar installation. But I can go down to Lowe’s and get a gas generator capable of similar output as the balcony solar and it won’t require any permits.
How do you know? In a typical solar system, you have to have a permit, which requires an inspector to come out and ensure everything is configured correctly and safely. These don’t require any permits, which is great for making them more affordable and accessible, but there’s also no one coming around to make sure that anyone is doing it safely.
I know it because it’s in the spec necessary for licensing. It shuts off in under 20 ms so you can’t even get shocked by the prongs of the plug if pulled out.
What license? Who is coming to verify your license?
It is a commercial product, connected to the grid via a standard schuko plug, sold in Germany. It has to be compliant with the local law to be sold legally.
It all shouldn’t be so difficult to understand.
So you can’t buy raw solar panels or inverters in Germany?
It’s not, which is why I’m not sure why you’re struggling.
Sure you can. Solar panels will be fried by grid voltage more or less immediately if you connect them directly to a wall socket and become useless.
You cannot buy a PV inverter in Germany (entire EU really) that doesn’t automatically shut off if it doesn’t detect a frequency to sync against from it’s AC side, unless it can run off-grid in which case it has to disble the grid connection within the same 20ms.
So you can’t buy a grid-connected inverter with off-grid capabilities? Because the inverter has no way to tell the difference between the grid being off, and being off-grid.
Oh you can buy off grid inverters (or inverters capable of “island mode”). But they are required to be able to automatically disconnect from grid, even if they are never going to be connected to a grid. You can’t buy solar inverters without this for the exact reason that you can connect them to grid.
Of course you can buy whatever you like, and whatever is being sold has to be compliant with local legal requirements.
If you buy illegal stuff and cause problems, you will have problems with your insurance and potentially, legal ones.
And that’s all I’m going to say on the matter. HAND.
There’s no way to prevent people from connecting perfectly legal equipment in an illegal manner, where otherwise there would be.
You are only allowed to sell inverters approved by VDE
Again I ask, if there is no permit, how will the utilities know you are in compliance with this law?
You are required to notify your utilities that you’ll be operating a direct plugged small solar PV installation, that’s it. They can’t forbid you from doing this.
The utilities don’t monitor compliance, the manufacturer is.
So it sounds like you’re saying there is no way? And therein lies the problem.
The certification on the product shows that it’s safe to use in grid-tie. What the fuck are you on about? Are you just being intentionally an obtuse pain in the ass?
By now over 1.2 million people in Germany have registered (and even more have not registered) their legal small scale solar system and are producing their own electricity (mine covers 2/3rds of my total demand).
If you think that’s a problem, be my guest.
In the United States that would be UL Certification.
UL is not a license. It’s a certification. And you forgot the second question.
UL certification is a requirement for an electric or electronic product to be licensed for sale to consumers in the US. This is enforced on US manufacturers of a product and on importers.
Whilst people buying something from AliExpress for personal use and importing it themselves don’t have to obbey such requirements, those importing them or making them for sale in the US do.
The CE mark does the same thing in the EU.
No idea if in the US there are further licensing requirements for things to be connected to the grid that would close the importing for personal use loophole.
That is completely incorrect. I own a ton of equipment that is not UL listed.
Further, UL listed equipment is not prevented from backfeeding to the grid, and in fact most of it is intended for precisely that.
There aren’t.
You are correct.
A little digging shows that unlike the CE mark in the EU for electronics, “UL certification isn’t mandatory, but may be required when selling electronic items to retailers”.
Utilities must approve power export to the grid, even if you do the physical installation 100% off the books. It’s called “Permission to Operate”, which requires permits and passed inspections. You can’t just unilaterally add shit to the power grid.
https://www.energysage.com/solar/solar-interconnection-what-you-need-to-know/
According to my research, there is no such permit required in Utah. And presumably new legislation is looking to have this exception as well.
not true, you still need to apply to the utility to export to the grid.
https://www.rockymountainpower.net/savings-energy-choices/customer-generation.html
why “presumably”?
Your link doesn’t mention anything about “balcony solar”. And these systems are not supposed to export to the grid anyway.
Because the whole point is to make solar easier and more affordable?
“Application process for rooftop solar and other smaller systems”. If you want to export power to the grid from anything at all, you must go through this process. If you wanted to export power from a hamster on a wheel you must apply for PTO.
of course, but not at the cost of safety and grid reliability.
Again, “other small systems” does not mean “balcony solar”. It could just mean ground-mount systems. Everything I’ve found says it’s not required. I challenge you to find the opposite.
https://cechouston.org/2025/10/21/balcony-solar-something-new-under-the-sun/
E: downboats for facts, I guess
Downvote because you can be right and also be an asshole.