Q&A

What is the role of magnetic core of a transformer?

What is the role of magnetic core of a transformer?

The role of the magnetic core in transformers is often stated as being to increase and concentrate the magnetic flux that links the primary and secondary coils.

What increases magnetic flux?

There are three ways to change the magnetic flux through a loop: Change the magnetic field strength (increase, decrease) over the surface area. Change the area of the loop (increase by expanding the loop, decrease by shrinking the loop)

How does a transformer work in terms of magnetic flux?

Transformers contain a pair of windings, and they function by applying Faraday’s law of induction. AC passes through the primary winding, which creates a varying magnetic flux. The magnetic field that results strikes the second winding and generates an AC voltage in that winding via electromagnetic induction.

What causes the changing magnetic field in the core of a transformer?

In the case of a transformer the changing magnetic field is due to the fact that the current in the primary coil is an alternating current. In AC systems both the current and the voltage change over time.

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How does core material affect a transformer?

The flux linkage between the windings mainly affects the performance of a transformer. So a magnetic path with low reluctance, known as core, is engaged in the transformer in order to have the efficient linking of flux between the windings. Material used for core mainly affects the hysteresis losses.

Can we use magnet as transformer core?

No, permanent magnets are not used to make good transformer cores. Changing magnetic fields induces EMF on the coil. In the case of permanent magnets changing magnetic field will not be there as they have permanent resistance to the magnetic field.

What factors affect magnetic flux?

Factors Affecting the Strength of the Magnetic Field of an Electromagnet: Factors that affect the strength of electromagnets are the nature of the core material, strength of the current passing through the core, the number of turns of wire on the core and the shape and size of the core.

How does a transformer increase and decrease voltage?

Although the voltage increases in a step-up transformer, the current is reduced proportionately. In other words, power equals voltage times current. A transformer transfers power from the primary coil to the secondary coil. Since the power must stay the same, if the voltage increases, the current must decrease.

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What does a step-up transformer increase?

A transformer that increases the voltage from primary to secondary (more secondary winding turns than primary winding turns) is called a step-up transformer. As a step-down unit, this transformer converts high-voltage, low-current power into low-voltage, high-current power.

Do transformers need a changing magnetic field to work?

For a transformer to work, the current in one coil has to somehow make current flow in the other coil and the circuit it’s connected to. A CHANGING magnetic field, however, does create an electric force which will accelerate those electrons in the other coil into carrying a current.

What is magnetic flux in magnetic circuit?

Magnetic flux is a measurement of the total magnetic field which passes through a given area. The angle at which the field line intersects the area is also important. A field line passing through at a glancing angle will only contribute a small component of the field to the magnetic flux.

How is the magnetic flux generated in a transformer?

The generation of the magnetic flux inside the core by one set of current carrying coils and the transmission of the flux throughout the core is the first step in transformer action. The magnetization flux is created via a magnetizing inductance, L m, which is placed in the primary of the transformer.

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What is magnetic saturation in a transformer?

This is called magnetic saturation. For iron core, if we increase the flux density more than 1.5 tesla, the iron core get saturate. Transformer’s core made up of soft iron material or powdered material etc. The core has own reluctance (in practically very low).

How do you increase flux in a magnetic field?

Reluctance. There is a third way to increase the flux. That is to improve the magnetic properties of the core by using a material that has a low Reluctance (R m ), this is the property of a material that is the magnetic equivalent of the electrical property of Resistance.

Why do large transformers have high flux densities?

Large power transformers operate at high flux densities because working with the iron unsaturated requires a large size, increasing costs. In nonmagnetic materials, such as air, the hysteresis loop becomes a single diagonal straight line through the origin. The alternating flux causes currents to flow in the core.

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