Single Phase 480V - Single Phase 120V Xfmr & Distribution Question

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kvramesh

Member
Hello,

This question is most probably asked and answered several times on this forum but in the search I could not find exact question/answer, so I am posting this. Thanks for understanding....

I have a 1-ph xfmr with primary 480V (fed from two phases of a 480V MCC) transformed to 1ph 120V on the secondary. There is no neutral terminal. There is only one ground terminal.

I have a 1-ph distribution panel on the secondary side with main breaker and 42 fdr ckts. There is also a neutral bus and ground bus terminals on this panel. But we call it 120V, 1ph, 2 wire panel. We intend to use this xfmr-panel distribution circuit for building receptacles, lighting etc.

Question: What should be the connection between xfmr and distr. pnl? Should it be a simple L1-L1, L2-L2 and ground to ground and leave the neutral unused? I will also run ground wire from MCC to xfmr for continuity. The 42 fdr ckts then will feed L1-L1, L2-L2, grnd-grnd for each receptacle and lighting circuit and other aux. power circuits. Is this correct?

My concern is about the return path in the circuit when the secondary side of xfmr has no neutral (like in 120/240V case):? Should one of the legs on xfmr secondary, let's say L2 to be grounded? then that will groun one of the phases on panel as well.

Please some one educate me. Thanks for your help!!!
 

ActionDave

Chief Moderator
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Licensed Electrician
Too much of what you are describing is not making sense.

Unless there is something unusual about your transformer there is no L1 and L2 but rather a H1, H2, H3, and H4 on the primary, and X1, X2, X3, and X4 on the secondary. There should also be a diagram of the connections and corresponding voltages.

Also what kind of panel do you have that is fed with only 120V? Is it a single buss panel?
 

kvramesh

Member
Name Plate of xfmr attached

Name Plate of xfmr attached

Hi All,

Thanks for your replies. See attached the name plate info of this distr xfmr. H1,H2 is primary. X1-X2 is secondary

Yes, the panel is 1ph, 2 wire, grounded neutral.

According to 250.20, I noticed that most of the demonstrations have neutral that is grounded except one, exhibit 250.4 which shows one of the legs on secondary to be grounded. So, grounded secondary should be connected to L2 on the panel?

Thanks
 

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kingpb

Senior Member
Location
SE USA as far as you can go
Occupation
Engineer, Registered
One step at a time..........

I have a 1-ph xfmr with primary 480V (fed from two phases of a 480V MCC) transformed to 1ph 120V on the secondary. There is no neutral terminal. There is only one ground terminal.

Please verify the transformer nameplate rating. Typical would be 480V - 120/240V. By verifying the nameplate information may answer many if not all of your questions. If this is not a typical transformer, and you really do have a 480V-120V, then.... lets take that as it comes.

I have a 1-ph distribution panel on the secondary side with main breaker and 42 fdr ckts. There is also a neutral bus and ground bus terminals on this panel. But we call it 120V, 1ph, 2 wire panel. We intend to use this xfmr-panel distribution circuit for building receptacles, lighting etc.

Again, unless you have a special design panel, it is single phase, but will require two 120V lines hooked up to it, which will give you 240V when measured line-line. This would match the "typical" transformer as mentioned above.
 

kvramesh

Member
Hi King,

I attached the xfmr details. View attachment Doc.pdf
Unfortunately it is 480V-120V transformer. There is no 240V neutral point.

The panel description is:

1 - SECTION
P1H42QH175CTS, System Voltage: 120 1? 2W Grounded Neutral AC, IR @
10,000 AIC, Top Feed, Surface Mount, Bus Material: Copper, Plating: Tin,
NEMA 3R/12 OUTDOOR.
1 - INTERIOR
1 - NEMA 3R Enclosure
1 - Std Al/Cu Gnd Connector
1 - Master NP Secured -Adhesive
1 - Std Plastic Sleeve
1 - 175A /2P-QJH2 MB
1 - (1)#6-300Kcmil Cu / #4-300 Al
24 - 30A /1P-BQD
18 - 25A /1P-BQD
1 - Enclosure, Catalog Number CUSTOM
 

kingpb

Senior Member
Location
SE USA as far as you can go
Occupation
Engineer, Registered
OK, so it is non-standard.

You essentially have 250A at 120V. Your panel looks ok although if it has a 175A MB then you are not getting the full capacity out of the transformer. Short circuit is good, you will only have about 6.5kA.

Also, the MB says 2 Pole, I am assuming that they have factory jumpered the bus in the panel? On the transformer, its looks like a big control power transformer. Just ground L2, and that becomes your neutral.
 
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Besoeker

Senior Member
Location
UK
Hello,
My concern is about the return path in the circuit when the secondary side of xfmr has no neutral (like in 120/240V case):? Should one of the legs on xfmr secondary, let's say L2 to be grounded? then that will groun one of the phases on panel as well.
We routinely use 415V primary to 110V secondary single phase transformers for the control circuits in the electrical panels we make.
As in your case, the primary voltage is derived from line to line of two phases of a three phase supply.

Like this arrangement:

TPNsupply.jpg


As long as it's double wound (primary and secondary electrically isolated from each other), you could designate either end of the secondary as neutral. The secondary on the ones we use are marked as shown above and the 0V is used.
 

kwired

Electron manager
Location
NE Nebraska
A two wire source does not have a "neutral" Ground one of the leads and that becomes the "grounded conductor".

Do not expect a transformer to have a "grounded" and "grounding" terminal. The transformer simply has a winding with two ends. Any additional terminals are just extensions of those two ends.

From the point that the grounding is done keep current carrying "grounded conductors" separated from "equipment grounding conductors".

This is basic rule for all grounded systems whether two wire 120 volt, 120/240 two or three wire, or a corner grounded delta system of any voltage.
 

Jraef

Moderator, OTD
Staff member
Location
San Francisco Bay Area, CA, USA
Occupation
Electrical Engineer
You chose not to reveal your location, but you are posting in a forum based on the US National Electric Code. So assuming you are here or an OEM sending equipment here, that is not the correct type of transformer for what you appear to want to do; connect to a panelboard. US panel boards are designed for 120/240V single phase connections with two hot lines and a grounded neutral. you are not going to get that from that transformer.
 

kvramesh

Member
OK, so it is non-standard.

You essentially have 250A at 120V. Your panel looks ok although if it has a 175A MB then you are not getting the full capacity out of the transformer. Short circuit is good, you will only have about 6.5kA.

Also, the MB says 2 Pole, I am assuming that they have factory jumpered the bus in the panel? On the transformer, its looks like a big control power transformer. Just ground L2, and that becomes your neutral.

Yes, it is undersized. It seems to have designed for 120/240V xfmr but the xfmr is changed later the panel ampere rating is left at 175Amps. Yes, the panel has factory jumpered thepanel to bus. Thanks


kwired said:
A two wire source does not have a "neutral" Ground one of the leads and that becomes the "grounded conductor".

Do not expect a transformer to have a "grounded" and "grounding" terminal. The transformer simply has a winding with two ends. Any additional terminals are just extensions of those two ends.

From the point that the grounding is done keep current carrying "grounded conductors" separated from "equipment grounding conductors".

This is basic rule for all grounded systems whether two wire 120 volt, 120/240 two or three wire, or a corner grounded delta system of any voltage.

1. OK, I will ground X2
2. Agree
3. OK, THank you. X1, X2 will be connected to L1,L2 on panel. And also, grounding conductor will be run from xfmr to panel.

What about from panel to receptacles, lights etc?
 

kvramesh

Member
You chose not to reveal your location, but you are posting in a forum based on the US National Electric Code. So assuming you are here or an OEM sending equipment here, that is not the correct type of transformer for what you appear to want to do; connect to a panelboard. US panel boards are designed for 120/240V single phase connections with two hot lines and a grounded neutral. you are not going to get that from that transformer.

Hi Jraef, This is being installed inside a e-house for mining facility. The mining plant is in South America but we are asked to follow NEC anyways. If you see the specs of the panel I posted above, it says 120V, 2 wire and it is supplied in USA.
 

kwired

Electron manager
Location
NE Nebraska
Is there a good reason to not want 120/240? Otherwise there is typically more advantages to using 120/240 than there is using straight 120.
 

Besoeker

Senior Member
Location
UK
Is there a good reason to not want 120/240? Otherwise there is typically more advantages to using 120/240 than there is using straight 120.
In UK, single phase supplies are almost invariably straight 240V supplies, not 120-0-120.
Every appliance, light bulb, television, kettle, water heater, etc is rated to run on 240Vac.
I don't see what advantage making it 120-0-120 could confer.
On the same vein, I don't see how the OP could gain from having 120-0-120 if all he needs is 120V.
 

kwired

Electron manager
Location
NE Nebraska
In UK, single phase supplies are almost invariably straight 240V supplies, not 120-0-120.
Every appliance, light bulb, television, kettle, water heater, etc is rated to run on 240Vac.
I don't see what advantage making it 120-0-120 could confer.
On the same vein, I don't see how the OP could gain from having 120-0-120 if all he needs is 120V.

I still think there are more advantages to straight 240 than straight 120. 120/240 gives you advantages of both.
 

kwired

Electron manager
Location
NE Nebraska
smaller conductors, equipment, plus voltage drop advantages. A third phase also helps a lot in these areas.

The 240 you use in Europe is typically one phase to ground of a 415 volt wye system IIRC. So there is still a grounded conductor carrying current. But on a 120/240 not using the grounded neutral does not present voltage drop issues from neutral to ground, the leader in stray voltage types of issues. I do work for a lot of agricultural installations, and where livestock is present I prefer to use line to line loads over line to neutral loads as much as possible when I have a choice, for all the reasons mentioned above.
 

kvramesh

Member
Is there a good reason to not want 120/240? Otherwise there is typically more advantages to using 120/240 than there is using straight 120.

Well, we do not need any 240V on this panel, so changed the xfmr to 120V only. I think grounding one of the secondaries per NEC will solve my issue.
 

kwired

Electron manager
Location
NE Nebraska
Well, we do not need any 240V on this panel, so changed the xfmr to 120V only. I think grounding one of the secondaries per NEC will solve my issue.

Your transformer data you gave us said it was 30kVA.

To be able to use full capacity of the transformer @ 120 volts you will need 250 amp gear, 250 amp secondary conductors.

To be able to use full capacity of the tranformer @ 120/240 volts you will only need 125 amp gear, 125 amp secondary conductors. You will need to balance the load so each 120 volt leg is evenly loaded - especially when using near full capacity. Plus 240 volts is available should you come up with a need for it.
 
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