What are assumptions for an ideal transformer?

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written 3.0 years ago by

teamques10 ★ 64k

The use of equivalent circuits enables an engineer to calculate many transformer problems with comparative ease. It is always necessary to multiply properties in the referred winding by the proper ratio for efficient working of the transformer.
This has led to the interposition of a transformer of the right turns ratio in the equivalent circuit, usually across the load. The transformer thus used must introduce no additional losses or voltage drops in the circuit.
It is called an ideal transformer, and it has negligibly small winding resistances, leakage flux, core loss, magnetizing current, and winding capacitances. Some power and audio transformers very nearly approach the ideal transformer at some frequencies.
For example, in a typical 50-kva plate transformer, the winding resistance IR drops total 1 per cent and the leakage reactance IX drops 3 per cent of rated voltage, the core loss 0.6 per cent of output power and magnetizing current 2 per cent of rated primary current.
When the term ideal transformer is used, it should be borne in mind that negligibly small is not zero. Particularly in electronic work, where frequency may vary, a limiting frequency may be reached at which the transformer is no longer ideal.
Moreover, even if the limiting frequency is very low, it is never zero. There must be voltage variation if transformation is to take place. The most important properties of a transformer:

The resistances of the windings can be neglected.
All the magnetic flux is linked by all the turns of the coil and there is no leakage of flux.
The reluctance of the core is negligible.

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