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What is the effect of load on main flux of transformer?

What is the effect of load on main flux of transformer?

Ideal Transformer on Load To reduce the effect of secondary flux on the main flux, primary draws extra current I1′. This current is called a load component of the current. The ampere-turns N1I1′ balances N2I2 ampere-turns so that the net flux remains same.

Why core flux in a transformer is almost independent of load current?

Core flux is independent of the load current. Explanation: Any changes in the secondary circuit of the transformer is reflected automaticaly in the primary winding so the net core flux remains constant.

What is flux in transformer core?

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Flux is magnetic flux or a magnetic field created in the iron core of the transformer by the AC current flowing in the primary winding. A constantly changing magnetic field created by the AC applied to the primary is the means by which an AC voltage and current is induced in the secondary winding of the transformer.

What is core flux in transformer?

The main flux is the flux found in the core at a point not under either the primary or secondary winding, and has been commonly considered as being the flux which causes the secondary induced voltage. …

How flux is constant in a transformer?

The power transformer is a constant flux device because it follows the Lenz’s law, for every change in flux density caused by loading on secondary it will draw the magnetizing current proportionately from primary. So, the net flux in the core is always constant.

How is the core flux of a transformer determined?

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It’s determined by mains voltage, frequency and primary winding inductance. If you connect a load to the transformer, the primary current will increase in a way to keep the core flux close to what it was without load.

What happens to primary current when a load is added to transformer?

If you connect a load to the transformer, the primary current will increase in a way to keep the core flux close to what it was without load. An ‘ideal’ transformer has its primary inductance rising up to infinity, so the unloaded (magnetizing) primary current drops down to zero.

How does a transformer work?

We apply an alternating voltage at the primary side. This creates a flux inside the transformer core ( ). Some voltage is induced on the secondary side winding according to the Lenz’s Rule ( ). This voltage crates a current through the load ( ). And this current creates an opposing flux in the core ( ).

What happens if a transformer is overloaded?

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A transformer is a very robust piece of equipment. Overloading in general will take years to destroy a transformer. When load is increased the windings heat up and then cool down again when it is decreased. So, it will burst when either the load is very very high for a short period, but this won’t generally happen.