The figure below shows the biasing arrangement of the PNP transistor: Now, we will see how the flow of holes generates an electric current through the transistor. Therefore, holes are the majority charge carriers and hence responsible for the current conduction. Working of PNP TransistorĪs we are already aware of the fact that a PNP transistor comprises 2 p regions and an n region. Whereas, in the case of 2 back to back connected diodes, one junction will be forward biased and other will be reverse biased. But, by connecting two diodes only to have two pn junctions will not give desired transistor operation.Īlso, a basic circuit arrangement of the transistor must have a configuration in such a way that emitter-base junction must be forward biased and collector base junction to be reverse biased in order to exhibit diffusion of carriers. The answer to the above question is that we know that in order to ensure the proper working of the transistor, the doping level of all the 3 regions must be sincerely taken into consideration. Now, the question appears why this is so? The figure below shows the connection of two diodes:īut it is noteworthy here that, we cannot form a transistor by connecting two back to back diodes. Like NPN transistor, a PNP transistor is also a back to back connection of two diodes. The collector region has the largest area among all but is not doped as high as the emitter. The base region is the thinnest among all and hence least doped. But the size of the emitter region is greater than the base but comparatively smaller than the collector. Here, the p region is heavily doped than the base and collector region. The three regions can be formed by either gaseous diffusion of p-type and n-type impurities on a semiconductor wafer or by an epitaxial method, in which an intrinsic region is grown on the heavily doped substrate of similar material. The figure below shows the structural arrangement of the PNP transistor having 3 regions: The semiconductor material can be silicon or germanium. Construction of PNP TransistorĪs we have already discussed that a PNP transistor is formed when 2 p-type semiconductors are connected with an n-type semiconductor material. Here, the inward arrow from the emitter to base represents the direction of current conduction. The figure below shows the symbolic representation of the PNP transistor: It is to be noted here that like NPN transistor here also the emitter region is highly doped than the base and collector region. As a small amount of base current is responsible for controlling a large emitter-collector voltage. PNP transistor is a current controlled device. However, carriers for current conduction and biasing arrangement generates the difference. It is almost similar to another type of BJT i.e., NPN transistor. In this condition, the base is directly connected to the ground.In PNP transistor, an n-type semiconductor is fixed between 2 p-type semiconductor material in order to generate a PNP transistor. Similarly, in the cut-off region, it works as an open switch means both junctions will be reverse biased, and emitter-base voltage will be less than 5V thus transistor works as a fully open switch. In the saturation region, it works as close switch means both junctions will be forward biased, and emitter-base voltage will be greater than 5V thus transistor works as a fully closed switch. In the active region, it works as an amplifier means its emitter-base junction will be forward biased and the collector-base junction will be reversed biased. Either it is used for switching or amplification it works in three modes of operation.
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