In base electrons from Emitter will combine with holes in Base to form electron hole pairs. When combined the electrons from Emitter ( N-type material ) will diffuse into Base ( P-type material ) since concentration of charge carries in Emitter is higher than Base. Working of transistor can be understood by understanding how charge carries behave within its three regions. The process of making a BJT transistor that is combining N-type, P-type and N-type material together will form two transistor junctions – Emitter and Base ( BE ) & Base and Collector ( BC ). However in a BJT transistor there is three regions involved but working principle remains same. Diode has two (N-type and P-type semiconductor ) material combined together. Working of transistor is very much similar to diode since there is a significant resemblance in construction of diode to transistor. This leaves more number of free electrons to move from Emitter to Base and to Collector of the BJT transistor.Ĭircuits Library - 220+ practical circuits Size of the regions in a BJT follows this: Base Base >Collector. Collector forms the largest region in a BJT. Area of Emitter is bigger than Base but smaller than Collector. Base region will be smaller comparing to Emitter and Collector. The important thing to note in the above diagram is that Area of Emitter, Base and Collector are not equal in size. These terminals need to be used by the user to operate the transistor. The terminals attached to NPN or PNP transistors are Collector, Base, Emitter. This is quite similar to the construction of a diode where two semiconductor materials such as P type and N-type joined together whereas in transistor these materials are either two P-type with one N-type in the middle or two N-type with one P-type in the middle. First one is NPN transistor where the device is put together in N-type, P-type and N-type configuration whereas in PNP transistor the device is combined in the following fashion: P-type, N-type and P-type materials as shown in the figure above. This construction of N-type, P-type, N-type semiconductor materials creates two possible transistor configurations. Must read: Resources to self learn Electronics Construction of BJT transistor:īipolar Junction Transistor is a three terminal semiconductor device constructed by joining three semiconductor materials together. Modern electronics we use today made possible because of transistors since it played a huge role in reducing the size of boards drastically. Most of the students tend to make mistakes by not converting the power gain and they get irrelevant results.Transistor is a popular three terminal semiconductor device used in Switching and Amplification applications. Note:While solving the problem, we should remember that the power gain which is in decibels must be converted. Hence, the required current gain is found to be \. The power gain can be converted which is in decibels can be converted using the formula: We will manipulate accordingly and find the result. We will replace voltage gain by current gain along with some necessary modifications. After that, we will use the expression for the power gain which is the product of voltage gain and current gain. Hint: First of all, we will convert the power gain, which is in decibels.
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