transformer backfeeding

[mendownunder]

I was asked to reverse a 480v to 240v 3 phase stepdown transformer transformer to 240v to 480v stepup transformer. I do not have the particulars yet but was wondering how this is achieved and how the connections are made. Thanks....Dave

 

[bob cape may]

the transformer still gets hooked up the same it's just that you will need to check the conductor size on the 240 the transformer kva is the same so the conductor on the 480 size will be large for the kva.

 

[mendownunder]

Tis simple as that? My 240v will connect to my H terminals and my 480v to my X terminals?

 

[mull982]

the transformer still gets hooked up the same it's just that you will need to check the conductor size on the 240 the transformer kva is the same so the conductor on the 480 size will be large for the kva.

If the cables are sized correctly for the transformer then the cable sizes should stay the same even if you feed the transformer from the opposite direction making it a step-up transformer. KVA is KVA so the current will be the same on both sides whether your stepping up or down

 

[bob cape may]

wasn't thinking

 

[wireguru]

Tis simple as that? My 240v will connect to my H terminals and my 480v to my X terminals?

no, your 480 still goes to H and your 240 still goes to X. think about what would happen if you put 480 into the low side, you would get 960 or something out of the high side

 

[mendownunder]

no, your 480 still goes to H and your 240 still goes to X. think about what would happen if you put 480 into the low side, you would get 960 or something out of the high side

BUT this is actually a Step Down transformer that I am trying to get 480v out of from 240v ... Dave

 

[hillbilly1]

BUT this is actually a Step Down transformer that I am trying to get 480v out of from 240v ... Dave

Wireguru is correct in connecting the 240 to X and the 480 will come from H, but be forewarned that if this is a Delta-delta connected transformer, you will not have 277 output. Only 480.

 

[celtic]

BUT this is actually a Step Down transformer that I am trying to get 480v out of from 240v ... Dave

Won't make a difference...

Hi Voltage H = Low Voltage X
Low Voltage X = Hi Voltage H


If we change the letters to numbers...
480=240
240=480

...and then look at ratios:
1:2
2:1


HV X might look like this:
480=960

Hi Voltage X = $$$ and an explanation to the client about who released the holy ghost.


Of course the above is not technical jargon...here is that:
Voltage and Current: Primary (p) secondary (s)
Power(p) = power (s) or Ep x Ip = Es x Is

A. Ep = Es x Is
Ip
B. Ip = Es x Is
Ep

C. Is = Ep x Ip
Es

D. Es = Ep x Ip
Is

Voltage and Turns in Coil:
Voltage (p) x Turns (s) = Voltage (s) x Turns (p)
or Ep x Ts = Es x Ip

A. Ep = Es x Ip
Ts
B. Ts = Es x Tp
Ep
C. Tp = Ep x Ts
Es
D. Es = Ep x Ts
Tp

Amperes and Turns in Coil:
Amperes (p) x Turns (p) = Amperes (s) x Turns (s)
or Ip x Tp = Is x Ts​

A. Ip = Is x Ts
Tp
B. Tp = Is x Ts
Ip
C. Ts = Ip x Tp
Is
D. Is = Ip x Tp
Ts​

http://www.elec-toolbox.com/
​

 

[Besoeker]

BUT this is actually a Step Down transformer that I am trying to get 480v out of from 240v ... Dave

You can feed the transformer with 240V on the LV side and, off load, you'll get just about 480V on the HV side. On load, you won't.
By how much depends on transformer design.

 

[mendownunder]

Thanks To All Of You .... And Celtic For The Extra Effort To Remove This Mental Block From Me.... Now ... I Really Do Understand!!!! Thanks Again!! .... Dave

 

[Besoeker]

Won't make a difference...

But it does make a difference.
The turns ratio isn't quite the same as the voltage ratio.

 

[celtic]

But it does make a difference.
The turns ratio isn't quite the same as the voltage ratio.

You can't read the first 4 words of a post and stop

Won't make a difference...


Of course the above is not technical jargon...here is that:
Voltage and Current: Primary (p) secondary (s)
Power(p) = power (s) or Ep x Ip = Es x Is

A. Ep = Es x Is
Ip
B. Ip = Es x Is
Ep

C. Is = Ep x Ip
Es

D. Es = Ep x Ip
Is

Voltage and Turns in Coil:
Voltage (p) x Turns (s) = Voltage (s) x Turns (p)
or Ep x Ts = Es x Ip

A. Ep = Es x Ip
Ts
B. Ts = Es x Tp
Ep
C. Tp = Ep x Ts
Es
D. Es = Ep x Ts
Tp

Amperes and Turns in Coil:
Amperes (p) x Turns (p) = Amperes (s) x Turns (s)
or Ip x Tp = Is x Ts​

A. Ip = Is x Ts
Tp
B. Tp = Is x Ts
Ip
C. Ts = Ip x Tp
Is
D. Is = Ip x Tp
Ts​

http://www.elec-toolbox.com/
​

 

[Besoeker]

You can't read the first 4 words of a post and stop

Sir, I read all of your post.
Including your equations.
It is based on turns ratio.
That isn't the whole story.

 

[celtic]

Ok
..................

 

[jrannis]

OK nobody said anything........ Is he ging to corner ground the secondary??

 

[chris kennedy]

It is based on turns ratio.
That isn't the whole story.

Here is a quote from a Siemens installation manual:

Transformer Turns Ratios

All transformers 3 kVa and larger are wound with exact turns ratios according to their voltage rating. This means that they can be used for either step up or step down applications. If a Delta-Wye transformer is wired in a reverse (Wye to Delta) application, then its neutral should not be connected.

 

[Besoeker]

Here is a quote from a Siemens installation manual:

That's fair enough but the voltage won't be exactly the same as the turns ratio.
That's the only point I was making.

 

[chris kennedy]

That's fair enough but the voltage won't be exactly the same as the turns ratio.
That's the only point I was making.

Very good, point taken.

 

[hillbilly1]

OK nobody said anything........ Is he ging to corner ground the secondary??

I was going to let somebody else bring it up! My posts get too long winded!