Application:
1.For amplification of sound.
2.logic switch
3 oscillation
4 power amplification.
A; Must define the transistor type and its mode of application if you expect an answer. It has the capabilities to conduct both way on either type dueing saturation mode. Hope that helps
voltage regulator is a component to convert pulsating DC into constant DC.
A silicon transistor is a transistor made of silicon.
Similar to a 2N3906 PNP transistor
That would depend on your application. If there was a singke best way, that would be the only method used.
In transistor the heat is created during transition stage means from cutoff to saturation and reverse, so if transistor used for high frequency application power loss can be minimized. The heat produced during switching is actually power loss.
There is no difference they perform the same functions.
Power amplifierPower supply regulatorSwitching power supply chopperetc.
A; Must define the transistor type and its mode of application if you expect an answer. It has the capabilities to conduct both way on either type dueing saturation mode. Hope that helps
voltage regulator is a component to convert pulsating DC into constant DC.
B=sillicon f=fet w=used in high frequency application 11=gain of transistor
A silicon transistor is a transistor made of silicon.
The active region of a transistor is when the transistor has sufficient base current to turn the transistor on and for a larger current to flow from emitter to collector. This is the region where the transistor is on and fully operating.
A Unijunction Transistor is a transistor that acts solely as a switch.
Similar to a 2N3906 PNP transistor
how does a transistor behaviour
because of low cost and gain is high well amplified