diy solar

diy solar

Failed Inspection - need some advice and guidance for NEC 690 infractions.

Rusty959 said:
Unfortunately I didn't read through all 9 pages to see where this has all gone, but to give you some added empathy I also had to go through some of the steps you're having to do because of inspection, all the while being jealous of the other installs where some of the things I feel give no added safety in the first place could be skipped.

View attachment 161930

My local inspector also made me do some things that I'm 80% weren't needed in the latest version of code but weren't worth me fighting, such as using rigid conduit on my underground sections and not allowing me to run my 48V cables inside the raceway with my AC runs, but still requiring it to be in metallic. That liquid tight is metallic. But yes 100% of my high voltages lines are in metal 100% of the time after leaving the array.
Click to expand...
any 110-26 violations?:rolleyes:
 
Supervstech said:
Power conductors of AC and DC systems rated 600V or less can occupy the same raceway, cable, or enclosure if all conductors have an insulation voltage rating not less than the maximum circuit voltage [300.3(C)(1)].Feb 17, 2011
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Please know that in some areas, they may have a code addendum, like San Francisco, that may still disallow mixed conductors though the same insulation value.
 
garetwo said:
I believe, even if independent parts are UL listed, the combination of them must also meet UL. The ensuing disconnect/switch would not be a UL listed assembly. Is this incorrect?
Click to expand...
It depends.

If the parts are RU, absolutely not.

Preassembled combination of UL following manufacturer instructions is a gray area. There are companies that package together kits for electricians or pre populated wiring boxes and sell those with value add. As well as companies that put together controls panels that are themselves UL listed. The latter can require a certification at the workshop level to make it legal.

The bundled kit is definitely legal to sell. The preassembled kit… now I’m not sure where the boundary is between that and a UL panel shop. Maybe it’s like 🦵, where you know it when you see it

For UL9540 AC ESS the required listing is on the combined system. For the mythical DC ESS it can be a composition of listed constituents.
 
timselectric said:
Absolutely.
I wouldn't install an auxiliary rod at the array, unless I was forced to.
And it would be disconnected, as soon as the inspector was out of my driveway.
Click to expand...

Please explain the logic so I understand?

From all my reading on antenna masts and other outdoor electrical/electronics they want a ground rod as close as possible to the item that may draw lightning and then a fair sized unbroken wire running to the common house ground. The idea being that lightning travels slower in the ground than in a copper wire.

When a lightning bolt strikes the potential at the strike point raises to several hundred thousand volts and as it travels in ground it raises the potential to a lesser amount as distance increases. Without the ground rod and wire to conduct the bolt you end with the array at high potential and the house at normal potential so you get arcing through electronics to ground at the house. Then back to a normal potential at the array while the houses raises to a high potential and things arc back towards the array. A double whamy in a matter of pico seconds.

With the rod and wire (size depends on distance) both the rod and array are always at the same potential, it may be a couple hundred thousand volts, but relative to each other they are the same. Relative to each other and no arcing through your equipment. The transformer at the pole may blow a fuse or explode, but your house is good.

This information all comes out of the Motorola spec for grounding antennas for radio transmission. Another part of the same document says to use ground rods along the length of the wire cold welded to the wire. Cold weld can be crimped or other method seal out moisture and air. The number of ground rods depends on length between points. For example 16ft would require 2 x 8ft rods, one at either end. 32ft would be one at either end and one in the middle. 48ft would be one at either end and another every 16ft along the way.

I came across all of this after direct strike to my weather station mast. Blew threw about 10k of electronics and sounded like a bomb went off outside the window. My mast is 30ft tall and the run around the house is 50ish feet. I used bare copper stranded #2 wire that I had on a spool. Down the inside of the mast to a ground rod at the base and around the house to the main panel ground. According to doc I could have used #8 wire but I had the spool from when a friend moved and he gave it to me in exchange for hauling car parts to the dump.

There are other things that it says on the subject and I am wondering why it wouldn't apply to solar arrays. I assume some of this is where the NEC requirements for 2 ground rods comes from.
 
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robbob2112 said:
Please explain the logic so I understand?

From all my reading on antenna masts and other outdoor electrical/electronics they want a ground rod as close as possible to the item that may draw lightning and then a fair sized unbroken wire running to the common house ground. The idea being that lightning travels slower in the ground than in a copper wire.

When a lightning bolt strikes the potential at the strike point raises to several hundred thousand volts and as it travels in ground it raises the potential to a lesser amount as distance increases. Without the ground rod and wire to conduct the bolt you end with the array at high potential and the house at normal potential so you get arcing through electronics to ground at the house. Then back to a normal potential at the array while the houses raises to a high potential and things arc back towards the array. A double whamy in a matter of pico seconds.

With the rod and wire (size depends on distance) both the rod and array are always at the same potential, it may be a couple hundred thousand volts, but relative to each other they are the same. Relative to each other and no arcing through your equipment. The transformer at the pole may blow a fuse or explode, but your house is good.

This information all comes out of the Motorola spec for grounding antennas for radio transmission. Another part of the same document says to use ground rods along the length of the wire cold welded to the wire. Cold weld can be crimped or other method seal out moisture and air. The number of ground rods depends on length between points. For example 16ft would require 2 x 8ft rods, one at either end. 32ft would be one at either end and one in the middle. 48ft would be one at either end and another every 16ft along the way.

I came across all of this after direct strike to my weather station mast. Blew threw about 10k of electronics and sounded like a bomb went off outside the window. My mast is 30ft tall and the run around the house is 50ish feet. I used bare copper stranded #2 wire that I had on a spool. Down the inside of the mast to a ground rod at the base and around the house to the main panel ground. According to doc I could have used #8 wire but I had the spool from when a friend moved and he gave it to me in exchange for hauling car parts to the dump.

There are other things that it says on the subject and I am wondering why it wouldn't apply to solar arrays. I assume some of this is where the NEC requirements for 2 ground rods comes from.
Click to expand...
This has nothing to do with a direct lightning strike.
That would be lightning protection. (A completely different system)
This is about the electrical safety grounding system.
This is in regards to the gradient pulse generated by a nearby lightning strike.
I don't want to give that a quick path to my equipment or household appliances.
I want it to dissipate over distance in the earth.
 
timselectric said:
This is in regards to the gradient pulse generated by a nearby lightning strike.
I don't want to give that a quick path to my equipment or household appliances.
I want it to dissipate over distance in the earth.
Click to expand...

If you want to protect against lightning strike, stand a lightning rod above the thing to be protected and run a ground wire separate from building's grounds all the way to ground rod in Earth. Or multiple lightning rods, with wire draped between them, to protect something larger.

So for protection from lightning current in the earth, how about building a "fence" of lightning rods around the facility, joined by copper? Trying to give it a low impedance path around.

But how deep into the earth might it dive, and come back up to the building? Or is there skin effect for the earth?
Possibly similar to the issue of underground drainage, keeping water from rising up to form a spring within the structure. But that analogy is only for DC, not so much a pulse.
 
Hedges said:
If you want to protect against lightning strike, stand a lightning rod above the thing to be protected and run a ground wire separate from building's grounds all the way to ground rod in Earth. Or multiple lightning rods, with wire draped between them, to protect something larger.
Click to expand...
Exactly
Lightning protection is a separate system.
Designed to route the strike around the equipment that you want to protect.
(Definitely not to, or through the equipment that you want to protect)
 
timselectric said:
Exactly
Lightning protection is a separate system.
Designed to route the strike around the equipment that you want to protect.
(Definitely not to, or through the equipment that you want to protect)
Click to expand...
I finally understand this. We rarely even see lighting, I have never done lightning protection, but I do see how auxiliary ground rods can cause problems if lighting does strike..Thanks for being persistent with this.
 
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