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BJTs are three-terminal semiconductor devices used for switching and amplification of signals. MOSFETs, on the other hand, are four-terminal semiconductor devices used for switching applications. Read through this article to find out more about BJTs and MOSFETs and how they differ from each other.
BJT stands for Bipolar Junction Transistor. It is a type of transistor in which the current flow is due to two types of charge carriers viz. electrons and holes. A BJT consists of three alternating layers of P-type and N-type semiconductor materials and two P-N junctions. The BJT has three terminals viz. emitter (E), base (B), and collector (C).
When P-type semiconductor material is sandwiched between two N-type layers, the bipolar junction transistor is known as NPN transistor. When N-type layer is sandwiched between two P-type layers, the resulting BJT is known as PNP transistor.
MOSFET stands for metal oxide semiconductor field effect transistor. It is a four-terminal semiconductor device where the terminals are: source (S), drain (D), gate (G), and body (or substrate). MOSFET is a field effect transistor with a MOS structure. MOSFETs are high speed and low-loss operation transistors.
According to the principle of operation, the MOSFETs are of two types viz. −
An enhancement type MOSFET remains OFF under normal conditions and needs a gate voltage to turn it ON. While the depletion MOSFET remains ON under normal conditions and it requires a gate voltage to turn it OFF.
The following table highlights the major differences between bipolar junction transistor and metal oxide semiconductor field effect transistor.
BJT and MOSFET are types of semiconductor transistors with a wide range of applications. However, as we have highlighted in the above table, they are different from each other in many aspects. It is important to understand the way BJTs and MOSFETs function in order to use either of them as per the exact requirements.