BIASING: Applying external d.c voltage to any electronic device is called biasing.
If an external voltage is applied in such a way that the p type semiconductor is connected to the positive terminal of the dc voltage and the n type semiconductor to the negative terminal of the dc voltage.
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1.When the pn junction is forward biased as long as the applied voltage is less than the barrier potential ,there is no current flow(conduction).
2.When the applied voltage becomes more than the barrier potential,the negative terminal repels the free electrons against barrier potential from n to p region.
3.similarly positive terminal repels the free holes against barrier potential from p to n region and cross the junction.
4.Thus the applied voltage overcomes the barrier potential.This reduces the width of depletion region.
5.As forward voltage increased,at a particular value the depletion region becomes very much narrow such that large number of majority carriers can cross the junction.
6.The large number of majority carriers constitute a current called forward current.
7.The overall forward current is due to the majority charge carriers.
8.These majority carriers can then travel around the closed circuit and a relatively large current flows.
9.The direction of flow of electrons is from negative to positive of the battery.
10.While the direction of the conventional current is from positive to negative of the battery.
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