BJT Amplifier
[youtube]http://www.youtube.com/watch?v=1OKtejD225Y[/youtube]
Part 1:
BJT Amplifier
During normal operation, a potential is applied across the base/emitter junction so that the base is approximately 0.6v more positive than the emitter, this makes the base/emitter junction forward biased.
During normal operation, a potential is applied across the base/emitter junction so that the base is approximately 0.6v more positive than the emitter, this makes the base/emitter junction forward biased.
A much higher potential is applied across the base/collector junction with a relatively high positive voltage applied to the collector, so that the base/collector junction is heavily reverse biased. This makes the depletion layer between base and collector quite thick once power is applied.
As mentioned above, the collector is made up of mainly low resistivity material with a layer of high resistivity material next to the base/collector junction. This means that most of the voltage between collector and base is developed across this high resistivity layer, giving a high voltage gradient near the collector base junction.
When the base emitter junction is forward biased, a small current will flow into the base. Therefore holes are injected into the P type material. These holes attract electrons across the forward biased base/emitter junction to combine with the holes. However, because the emitter region is very heavily doped, many more electrons cross into the base region than are able to combine with holes. This means there is a large concentration of electrons in the base region and most of these electrons are swept straight through the very thin base, and into the base/collector depletion layer. Once here, they come under the influence of the strong electric field across the base/collector junction. This field is so strong due to the potential gradient in the collector material mentioned earlier, that the electrons are swept across the depletion layer and into the collector material, and so towards the collector terminal.
Varying the current flowing into the base, affects the number of electrons attracted from the emitter. In this way very small changes in base current cause very large changes in the current flowing from emitter to collector, so current amplification is taking place.
Part 2:
Part 2:
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