Yes
This type of a transformer is known as a step up transformer.
Yes, but your input current is going to be high at 133 amps. The output of the transformer is not going to be 16 KVA, that is the rating of the transformer.
no he is not on the transformers 3 interview he said that he is not doing another one There were many transformer 3 interviews he has done and one of them he did say he was not going to do a 4th one
June 2014
The coupling between windings will be nearly zero, resulting in nearly zero output. In short, your transformer's not going to work.
Yes, it's called a Transformer. Definitely the wrong answer. DC on a transformer is certainly going to blow it up. The answer is yes unless capacitor coupling is involved
1- residual flux existing before enegizing the transformer . 2- size of transformer . 3- size of power system. 4- type of magnetic material of the core. 5- the method of energizing the transformer.
The purpose of a transformer is to transform one voltage to another voltage. This can be in the configuration of stepping up the voltage or stepping down the voltage . The load is what establishes what the current from the transformer is going to be.
By design are you going to wind the transformer yourself? In your design you need a 5:1 ratio. On the output side of the transformer any two legs of a three phase transformer is considered single phase voltage. Good luck on your project.
No Rosie somone is taking her place instead
no way man there never going to make or will they? but for me i dont think so
There are basically 4 major differences :- 1. The windings (both primary and secondary) of an ideal transformer are considered to have zero resistance, hence the transformer is lossless. 2. There is no leakage flux in an ideal transformer. 3. The permiability of the core material in ideal transformer is considered to be tending to infinity and hence the current needed to set up the flux in the transformer is negligible. 4. There is zero hysterisis and eddy current losses in an ideal transformer.