Service Tap???

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charlie b

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Lockport, IL
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An existing building has a 37.5 KVA, 120/240V, single phase service transformer, and a 200 amp MCB panel. I am reviewing a design that intercepts the service conductors just inside the building wall, installs what they are calling a "pull box," connects a set of #1 wires to the existing service conductors, and runs them to a new 100 amp MCB panel. This seems wrong on many levels. But I will start with, "are we allowed to tap a service"? I know that if they made the connection at the transformer secondary, kept the existing 200 amps worth of wire to the 200 amp MCB panel, and ran 100 amps worth of wire to the new 100 amp MCB panel, they would not be overloading any wires. They might have an issue with two services to the same building, but that's another matter. As shown, they appear to want the existing 200 amps worth of wire to supply both panels, at least up to the location of the pull box.

What do you think?
 

david

Senior Member
Location
Pennsylvania
An existing building has a 37.5 KVA, 120/240V, single phase service transformer, and a 200 amp MCB panel. I am reviewing a design that intercepts the service conductors just inside the building wall, installs what they are calling a "pull box," connects a set of #1 wires to the existing service conductors, and runs them to a new 100 amp MCB panel. This seems wrong on many levels. But I will start with, "are we allowed to tap a service"? I know that if they made the connection at the transformer secondary, kept the existing 200 amps worth of wire to the 200 amp MCB panel, and ran 100 amps worth of wire to the new 100 amp MCB panel, they would not be overloading any wires. They might have an issue with two services to the same building, but that's another matter. As shown, they appear to want the existing 200 amps worth of wire to supply both panels, at least up to the location of the pull box.

What do you think?

As long as the service disconnects are grouped and the calculated load for the building does not exceed the conductor ampacity (200 amps?) as you already know the location of the grouped disconnects must be as close as possible entering the building
 

charlie b

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I don't know the rating of the service conductors. I think it safe to believe they are good for the existing 200 amp panel's MCB. In the attached image, the new and existing panels are side-by-side, apparently in an indoor corridor. So they meet the "grouped" requirement. It appears that the existing service conductors travel some distance before they connect to the existing panel. By putting a pull point just inside the building's exterior wall, you will now have two sets of service conductors travelling an unknown distance before hitting their respective service disconnecting means (which double as the panel's OCPD).
 

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I don't know the rating of the service conductors. I think it safe to believe they are good for the existing 200 amp panel's MCB. In the attached image, the new and existing panels are side-by-side, apparently in an indoor corridor. So they meet the "grouped" requirement. It appears that the existing service conductors travel some distance before they connect to the existing panel. By putting a pull point just inside the building's exterior wall, you will now have two sets of service conductors travelling an unknown distance before hitting their respective service disconnecting means (which double as the panel's OCPD).

Charlie,

As you know, Washington gives you 15' of SEC inside a building. What is a bit of a grey area however is how this is treated when multiple sets are run per 230.40 exception 2.

Edit to add:

For the other code references for this installation, see 230.33, and 230.90(A) exception 3.
 

david

Senior Member
Location
Pennsylvania
I don't know the rating of the service conductors. I think it safe to believe they are good for the existing 200 amp panel's MCB

The additional panel if adding additional load may exceed the original calculated load the 200 amp service was based on

It appears that the existing service conductors travel some distance before they connect to the existing panel. By putting a pull point just inside the building's exterior wall, you will now have two sets of service conductors travelling an unknown distance before hitting their respective service disconnecting means

If this is an existing violation you may need to add a 200 amp service disconnect with 200 amp feed through lugs that can except an additional 100 amp breaker

The existing 200 amp feed (service entrance) may need reconfigured to be a feeder to a sub feed 200 amp panel.

It may become necessary to upgrade the 200 amp service to account for the increase in load
 

infinity

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New Jersey
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Journeyman Electrician
The only potential issue I see is the possible overloading of the existing conductors. If a load calculation proves that they're sufficient then there is no issue. Also there should not be a "#6 ground" in the raceway with the new SEC's.
 

augie47

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Tennessee
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State Electrical Inspector (Retired)
I agree with this statement, but I can't find the code reference to back it up. Little help?
I believe 230.90 Exception 3 covers that,

I share charlie b's concern but this situation is not much different from having a MLO service panelboard with six overcurrent devices.
 

oldsparky52

Senior Member
From and installation perspective, if there is sufficient room in the existing enclosure, could feed though lugs be installed on the bus? That would keep the existing OC protection in place and remove the need to intercept the service conductors.
 
From and installation perspective, if there is sufficient room in the existing enclosure, could feed though lugs be installed on the bus? That would keep the existing OC protection in place and remove the need to intercept the service conductors.

Certainly could. Or just install a 100 amp breaker to a sub even - move a couple circuits over if you need to free up spaces for it. U don't really gain anything by tapping the SEC bc you don't get any more load capability. Presumably this is about a lack of circuit spaces
 

jap

Senior Member
Occupation
Electrician
I don't see anything wrong with this type of install either, as long as others have said as far as grouping disconnects, and, making sure the overall load doesn't exceed the rating of the Service Conductors.

However,

There is actually a significant difference in putting a subfeed breaker in the main panel to feed a sub panel versus tapping the service conductors and going directly to the 2nd panel.

There is much more diversity in tapping the service conductors.

It's not likely both panels would be fully loaded at all times. In the service tap scenario you're not choking the 2nd panel by making it dependant on the load that's already on the 200 amp main breaker.

For instance,

I could see where the main panel could be drawing nearly full load and the 100 amp subpanel drawing only a fraction of it, and tripping out the 200 amp main if you do the subfeed thing.

Where as if you had tapped the service conductors in this same scenario, you would still be within the limits of the main, and the Service Conducors, and, no problems would occur.

Much like using a single 400 amp main breaker panel to feed all the loads rather than to choke a 400 amp service by installing (2) 200 amp main breaker panels which is usually only done because the 400 amp load centers aren't something that are readily available to pick up over the counter, and, most don't want to pay the price or wait on a loadcenter with a 400 amp main breaker.

Even though it would be much more diverse in the long run.

JAP>
 

infinity

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Location
New Jersey
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Journeyman Electrician
Where are the electric meters in this scenario? Would these two panels be separately metered requiring a connection ahead of the existing meter?
 

charlie b

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Location
Lockport, IL
Occupation
Retired Electrical Engineer
I know nothing that does not appear in the sketch I provided in post #4. I know nothing about metering, about load calculations, or about the size of the service conductors. Fortunately, in my role of design reviewer, I have the option of posting my comments in the form of questions (e.g., How do you intend to address . . . ) as opposed to statements (e.g., You have a code violation here). I will give the original design engineers the chance to explain their intent.
 

charlie b

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Location
Lockport, IL
Occupation
Retired Electrical Engineer
Let me bring the discussion back to my original question:
"are we allowed to tap a service"?
240.21(B) speaks of feeder taps. 240.21(C) does not quite fit the sketch in post #4, as we have neither "a set of conductors feeding a single load" nor "each set of conductors feeding separate loads." Instead, we have one set of conductors that is tapped in order to supply a second load. 240.21(D) mentions service conductors, but does not describe a tap situation.

 

Malywr

Senior Member
Location
New Jersey USA
It's not likely both panels would be fully loaded at all times. In the service tap scenario you're not choking the 2nd panel by making it dependant on the load that's already on the 200 amp main breaker.

For instance,

I could see where the main panel could be drawing nearly full load and the 100 amp subpanel drawing only a fraction of it, and tripping out the 200 amp main if you do the subfeed thing.

Where as if you had tapped the service conductors in this same scenario, you would still be within the limits of the main, and the Service Conducors, and, no problems would.

JAP>

200A Main is protecting service conductor if you add tap 100A. How do you control how much current is drawn from each panel total and what is protecting 200A service conductor if for some reason both panels are at maximum total 280A - 300A ?
 

Strathead

Senior Member
Location
Ocala, Florida, USA
Occupation
Electrician/Estimator/Project Manager/Superintendent
I don't know the rating of the service conductors. I think it safe to believe they are good for the existing 200 amp panel's MCB. In the attached image, the new and existing panels are side-by-side, apparently in an indoor corridor. So they meet the "grouped" requirement. It appears that the existing service conductors travel some distance before they connect to the existing panel. By putting a pull point just inside the building's exterior wall, you will now have two sets of service conductors travelling an unknown distance before hitting their respective service disconnecting means (which double as the panel's OCPD).

"[FONT=&quot]two sets of service conductors travelling an unknown distance" is an issue. I don't think that tapping the conductors is a problem. It is the violation of 230.70(A)(1) in my opinion. If the tap box is outside, no problem, if it is inside then the disconnect(s) aren't "nearest the point of entrance." [/FONT]
 

Strathead

Senior Member
Location
Ocala, Florida, USA
Occupation
Electrician/Estimator/Project Manager/Superintendent
200A Main is protecting service conductor if you add tap 100A. How do you control how much current is drawn from each panel total and what is protecting 200A service conductor if for some reason both panels are at maximum total 280A - 300A ?

How do you control this on any service ever installed, anywhere? A twelve circuit 100A service could have 6 two pole 90 amp breakers feeding 80A heating coils in instahots all day long. For example.
 

jap

Senior Member
Occupation
Electrician
200A Main is protecting service conductor if you add tap 100A. How do you control how much current is drawn from each panel total and what is protecting 200A service conductor if for some reason both panels are at maximum total 280A - 300A ?

You don't control it.

Which is the case in any service that doesn't utilize a single overcurrent protection device as a main.

JAP>
 
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