240 Delta to 208Y No XO

[ScottWJ]

A neutral is still required. We don't see one.

The incoming and outgoing neutrals are individually capped.

Those white wires should be removed. There is no connection to be made to the 'XO'

 

[electrofelon]

A neutral is still required. We don't see one.

The incoming and outgoing neutrals are individually capped.

It isn't clear to me that this is a wye connected transformer. Despite the wye in the label, it might actually be delta connected.

If the L-N voltages are stable, and the connected load working properly, and the 240V supply high leg delta, I would leave everything alone.

If something isn't working, then the next steps would be to find out what the 240V supply grounding is, and get a circuit diagram for the transformer

Jon

What I meant was to show what a typical wye autotransformer is - I didn't mean to say that is what the OP has. I agree it is ambiguous and a wiring diagram would greatly help, or at the very least a better picture where we can make out the entire label.

 

[jim dungar]

A picture is worth 1000 words. Here is a diagram of a typical wye connected autotransformer. But I agree with Augie, I dont like referring to the "output" or "input" of an autotransformer. It should just be called a wye connected autotransformer and nothing else.

In this case the input is fused.

Just because the coils are connected in a Wye configuration, there is no requirement to have a neutral point connection.

The OP should put a label on the unit identifying it as equal to a 208V high leg, for troubleshooting purposes, and then move onto another project

 

[electrofelon]

Just because the coils are connected in a Wye configuration, there is no requirement to have a neutral point connection.

No disagreements with that.

 

[wwhitney]

It isn't clear to me that this is a wye connected transformer.

Taking the source voltage system to be a 240V 4-wire delta (midpoint of A-C is grounded), we can conclude the autotransformer is wye connected based on the L-G voltages in the OP.

For a delta connected autotransformer, the transformed voltages A'-G and C'-G would end up different, while for the wye connected case they will be equal as in the OP. Also, it's not too hard to calculate the B'-G voltage for the wye connected case, and it matches the OP (see below).

Cheers,
Wayne

For a wye connected autotransformer, the voltages relative to the center point M (derived 3 phase neutral) will all scale by 208/240 = sqrt(3)/2. The voltage point M is 1/3 of the way from G towards B, i.e. M-G = 208/3 and B-M = (2/3)*208. So after transformation the new voltage B'-M = (sqrt(3)/2)*(2/3)*208 = 208/sqrt(3), and as B', M, and G are colinear, the voltage B'-G will be 208/3 + 208/sqrt(3) = 189V.

 

[Joethemechanic]

It seems like what you can do depends on the source and its grounding/bonding

 

[tortuga]

late to the party but i'll just add I have never run into an elevator motor that must be fed by 208.
And I have more than a few times had the elevator company we work for provide me with one of those autotransformers.
When I cheeked the nameplate of the motor (not as easy as you would think) it was actually a 240v motor that said ok for 208.