Tuesday, January 11, 2011

FIELD EFFECT TRANSISTOR (FET)

Introduction:-

A field-effect transistor (FET) is a type of transister commonly used for weak-signal amplification (for example, for amplifying wireless signals).The device can amplify analog or digital signals.It can also switch DC or function as an oscillator.Field-effect transistors are fabricated onto silicon integrated circuit (IC) chips.A singleIC can contain many thousands of FETs, along with other components such as resistors, capacitors, and diodes.

circuit symbol:-

fet-field-effect-transistor.jpg (450�340)
in real....

In the FET, current flows along a semiconductor path called the channel. At one end of the channel, there is an electrode called the source. At the other end of the channel, there is an electrode called the drain. The physical diameter of the channel is fixed, but its effective electrical diameter can be varied by the application of a voltage to a control electrode called the gate.The conductivity of the FET depends, at any given instant in time, on the electrical diameter of the channel. A small change in gate voltage can cause a large variation in the current from the source to the drain. This is how the FET amplifies signals.

Channel..
The junction FET has a channel consisting of N-type semiconductor (N-channel) or P-type semiconductor (P-channel) material; the gate is made of the opposite semiconductor type. In P-type material, electric charges are carried mainly in the form of electron deficiencies called holes. In N-type material, the charge carriers are primarily electrons.In a JFET, the junction is the boundary between the channel and the gate.Normally, this P-N junction is reverse-biased (a DC voltage is applied to it) so that no current flows between the channel and the gate.However, under some conditions there is a small current through the junction during part of the input signal cycle.

Classification:-

Field-effect transistors exist in two major classifications.These are known as the junction FET (JFET) andthe metal-oxide- semiconductor FET (MOSFET).

Advantages & disadvantantages:-

The FET has some advantages and some disadvantages relative to the bipolar transister.Field-effect transistors are preferred for weak-signal work, for example in wireless communications and broadcast receivers.They are also preferred in circuits and systems requiring high impedance.The FET is not, in general, used for high-power amplification, such as is required in large wireless communications and broadcast transmitters.

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