S-Cool Revision Summary

S-Cool Revision Summary

Transformers

The great thing about a.c. electricity is that you can transform it! For instance, you can step its voltage up or down.

Transformers work on the principles of electromagnetism and electromagnetic induction.

The iron core increases the flux density (or field strength) in the secondary coils. The larger the number of coils, the greater the flux linkage and therefore the greater the induced e.m.f. in the secondary coil.

You must have an alternating current in the primary coil or the field will not be changing and no emf will be induced in the secondary.

The Turns Rule

If you change the number of turns in the coils you change the induced emf. This allows you to change (transform) the voltage from the primary to the secondary coil.

The Turns Rule is:

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Where:

Ns = number of turns on the secondary coil

Np = number of turns on the primary coil

Vs = voltage across the secondary coil

Vp = voltage across the primary coil

Rectifying A.C.

You should be able to draw circuits and outputs for half wave and full wave rectification circuits.

Placing a capacitor in parallel with the resistor smoothes the current through the resistor by providing extra charge when the supply voltage drops.

Equations

Transformers

The turns rule:

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Symbols

Transformers

Ns = the number of turns in the secondary coil

Np = the number of turns in the primary coil

Vs = the voltage in the secondary coil

Vp = the voltage in the primary coil

Is = the current in the secondary coil

Ip = the current in the primary coil