![]() ![]() I E = I B + I C Operation of PNP Transistor However, the emitter current is the sum of the base current and collector current. ![]() Thus, the electron flow constitutes the dominant current in an NPN transistor. This constitutes the collector current (I C). The remaining large number of electrons cross the base regions and move into the collector region and get attracted by the positive potential of the dc source V CB. 1.3 Electron flow in the NPN transistorģ. Hence the injected electrons into the base from emitter side get recombine with the holes of the base region. As we know that the base region is very thin and lightly doped so the majority charge carriers i.e. This flow of charge carriers constitutes the Emitter current (I E).Ģ. electrons start flowing toward the p-type base region as shown in fig. The forward biased E-B junction is forward biased so the majority charge carriers i.e. Operation: The operation of the NPN transistor as follows:ġ. So the depletion layer width at E-B junction is reduced and depletion layer width at the C-B junction is increased. The base-emitter junction is forward biased by the dc source V EB and the collector-base junction is reverse biased by the V CB. A Transistor never operated in this mode. Reverse active mode: In this region, junction E-B junction is reverse biased and the C-B junction is forward biased. In this region, the transistor acts as an open switch.Ĥ. The current in transistor is zero because no charge carriers are emitted by emitter into the base regions and no charge carriers are collected by collector region. Cut-off region: In this region both the junction is reverse biased. Collector current is not dependent on the base current so transistor behaves like a closed switch.ģ. Saturation region: In this region, the emitter-base region is forward biased and collector-base junction is forward biased. Collector current is dependent on the base current.Ģ. A transistor in the active region is used for amplification. Active region: In this region, the emitter-base region is forward biased and collector-base junction is reverse biased. The following table shows the different regions of operations on different biasing configurations. On the basis of the biasing transistor operates in the three different regions. When we apply external voltage supply to the transistor this process is known as the biasing of the transistor. 1.2 Transistors symbols Transistor Action In PNP transistor arrow shows the direction from p terminal to n terminal so the flow of current is from the emitter to base.In NPN transistor arrow shows the direction from p terminal to n terminal so the flow of current is from the base to emitter.Arrow is always present on the emitter terminal and the direction of the arrow represents the flow of current due to charge carriers. Transistor Symbolsįig 1.2 shows the symbols representation of NPN and PNP transistors. NOTE: When two practical diodes are connected back to back, it can’t work as a transistor because there is no bonding force in between the two diodes. (AREA) COLLECTOR > (AREA) EMITTER > (AREA) BASE (DOPING) EMITTER > (DOPING) COLLECTOR > (DOPING) BASE Collector area is larger than the emitter and base area. The doping level of a collector is lying between the doping level of emitter and base. Collector is the other side of the transistor which collects the charge carriers. ![]() It is a lightly doped region of the transistor.ģ. The base-collector region is always reverse biased so it offers a high resistive path for the collector circuit. The base-emitter region is always forward biased so it offers a very low resistive path for the emitter circuit. Base is the middle thin region of a transistor. The emitter-base junction is always forward biased so that it can supply large numbers of majority charge carriers to the Base. Emitter is responsible to supply charge carriers (NPN-electrons or PNP-holes) in the transistor. 1.1 Basic Construction of TransistorĪ transistor (NPN or PNP) consist of three regions of doped semiconductors, which are named as Emitter, Base and Collector.ġ. In NPN transistor charge carriers are electrons. It is shown in fig 1.1.Ī transistor in which a thin layer of p-type semiconductor is sandwiched between two layers of n-type semiconductor is known as NPN transistor. In PNP transistor charge carriers are holes. A transistor is classified into two types based on its construction.Ī transistor in which a thin layer of n-type semiconductor is sandwiched between two layers of p-type semiconductor is known as PNP transistor. Basic Construction of BJTĪ BJT consists of two pn junctions so it is analogous to two back to back connected diodes as shown in fig 1.1. Note: The usage of the term transistor in this article will be used for bipolar junction transistor (BJT). ![]()
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