Both supply side and load side interconnections

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earshavewalls

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I have a plan submitted that wishes to add to an existing ground-mounted system. They already have a supply side tap for the existing system, but now they wish to add to the system, take one existing array and add a new array to it and connect it via POC at a breaker at the main service, but are leaving the rest of the existing system on the supply side tap. I have not seen this configuration before.

The Code states use of one OR the other:
(California Electrical Code) Article 690.64: "The output of a utility-interactive inverter shall be as specified in (A) OR (B)." (A) is supply side in accordance with 230.82(6); (B) is load side.

I feel that the interconnection should be one or the other. Any input on this condition would be greatly appreciated.
 
Well, is any individual inverter connected to both sides?
The code does not say that all inverters at a site must be connected the same way.
I would say in passing that setting them up that way would be confusing for later maintenance and would require two separate PV disconnect switches unless contactors with a common control circuit are used.

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earshavewalls said:
I have a plan submitted that wishes to add to an existing ground-mounted system. They already have a supply side tap for the existing system, but now they wish to add to the system, take one existing array and add a new array to it and connect it via POC at a breaker at the main service, but are leaving the rest of the existing system on the supply side tap. I have not seen this configuration before.

The Code states use of one OR the other:
(California Electrical Code) Article 690.64: "The output of a utility-interactive inverter shall be as specified in (A) OR (B)." (A) is supply side in accordance with 230.82(6); (B) is load side.

I feel that the interconnection should be one or the other. Any input on this condition would be greatly appreciated.
Click to expand...
I don't see a problem from a code standpoint because each inverter is either (A) or (B) interconnected and are as such separate systems, but the AHJ might have a problem with such an arrangement.
 
ggunn said:
I don't see a problem from a code standpoint because each inverter is either (A) or (B) interconnected and are as such separate systems, but the AHJ might have a problem with such an arrangement.
Click to expand...

I just got a reply back from John Wiles. He agrees with the responses here. The only difficulty is that the local POCO requires a SINGLE disconnecting means for the entire system. I believe they will redesign to add the new system to the existing line-side connection and get rid of two proposed new subpanels they intended to use to make the original configuration.

Thanks for the input!
 
earshavewalls said:
I just got a reply back from John Wiles. He agrees with the responses here. The only difficulty is that the local POCO requires a SINGLE disconnecting means for the entire system. I believe they will redesign to add the new system to the existing line-side connection and get rid of two proposed new subpanels they intended to use to make the original configuration.

Thanks for the input!
Click to expand...
I thought that might be the response from the AHJ. This couple possibly be a more economical solution, anyway.
 
Update

Update

Well, the POCO came out and checked the plans and the actual installation and will not permit this customer to add any more PV unless they pay for a new transformer.......and they all lived....happily ever after.

Thanks for the input!
 
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