The maximum collector-emitter voltage is highly dependent on the resistance intensity between emitter and base, provided by the external circuit.It is important to note that it won’t be useful for amplification purpose when it is configured with common emitter configuration as it encompasses a transition frequency of around 3 MHz that will allow the forward current gain drop to 1.This NPN transistor can be configured with three configurations named as a common collector, common base, and common emitter configuration.It comes with lots of electronic applications but mostly it is used for switching and amplification purpose.P-doped layer of transistor acts like a base while other two N sides represent emitter and collector respectively.As 2n3055 is an NPN transistor, here base with positive with respect to emitter and P layer lies between the two layers of N doped semiconductor.The measure of base current to control the large current at the emitter and collector side is used for amplification purpose.It is a bipolar device in which conduction is carried out by the movement of both charge carriers i.e electrons and holes.Unlike FETs(Field effect transistors) it is a current controlled device in which small current at the base side is used to control a large amount of current at the emitter and collector side.The 2n3055 is a semiconductor NPN bipolar transistor which consists of three terminals called emitter, base, and collector.I’ll try to cover as many aspects possible related to this device so can get a brief overview about what it does and what are the applications it is used for. It is a semiconductor NPN (negative-positive-negative) power transistor which comes in TO-3 Casing. Today, I am going to unlock the details on the Introduction to 2n3055. I am back to feed your stomach with plenty of information so you can progress and grow in real life. Hey Guys! Hope you all are doing great and having fun with your lives.