Table of Contents
What does the emitter do in a transistor?
The emitter supplies electrons. The base pulls these electrons from the emitter because it has a more positive voltage than does the emitter. This movement of electrons creates a flow of electricity through the transistor. The current passes from the emitter to the collector through the base.
What is Kirk effect?
Definition. Kirk effect. base pushout; apparent increase of the width of the base in bipolar transistor caused by sweeping very high number of charge carriers from the base to collector.
What happens in saturation region of BJT?
The BJT operates in the saturation region when its collector current is not dependent on the base current and has reached a maximum. The condition for this to happen is that both the base-emitter and the base-collector junctions should be forward-biased.
How the base of transistor is doped?
In most transistors, emitter is heavily doped. Its job is to emit or inject electrons into the base. These bases are lightly doped and very thin, it passes most of the emitter-injected electrons on to the collector. The collector is so named because it collects electrons from base.
How are transistors Labelled?
The leads are labelled base (B), collector (C) and emitter (E). These terms refer to the internal operation of a transistor but they are not much help in understanding how a transistor is used, so just treat them as labels. A Darlington pair is two transistors connected together to give a very high current gain.
Why the emitter of a transistor is highly doped?
Which layer of transistor is lightly doped?
base region
The base region in a transistor is doped lightly so that the number density of majority carriers (electrons in p-n and holes in n-p-n transistor) is low.
What are gummel characteristics?
The Gummel Plot shows the logarithm of the base current as a function of the emitter-base voltage. From the slope of the base current characteristics, the ideality of the diode response can be determined. In addition, logarithm of the collector current as a function of the emitter-base voltage also will be plotted.
Why most of the emitter injected electrons pass through the base region and on to the collector?
Note that electrons are minority carriers in the p-type base region. So, only a few holes are available for recombination in the base. Thus only few of the electrons recombine with the holes doped into the base. Thus majority of emitter-injected electrons pass across the base region and into the collector region.
What happens to transistor in Saturation?
A transistor in saturation mode acts like a short circuit between collector and emitter. In saturation mode both of the “diodes” in the transistor are forward biased. Because the junction from base to emitter looks just like a diode, in reality, VBE must be greater than a threshold voltage to enter saturation.
How does a transistor reach saturation?
A transistor goes into saturation when both the base-emitter and base-collector junctions are forward biased, basically. So if the collector voltage drops below the base voltage, and the emitter voltage is below the base voltage, then the transistor is in saturation.
What is a BJT transistor?
Transistors: Bipolar Junction Transistors (BJT) General configuration and definitions The transistor is the main building block “element” of electronics. It is a semiconductor device and it comes in two general types: the Bipolar Junction Transistor (BJT) and the Field Effect Transistor (FET).
What is the base-emitter junction mode in BJT?
This mode is achieved by reducing base voltage less than both emitter and collector voltage. BJT have two junctions formed by the combination of two back to back PN junctions. Base-Emitter junction (BE) is forward bias while collector-emitter junction (CE) is reverse bias.
What is the difference between a JFET and a bipolar transistor?
This is what bipolar transistors do: they have the ability to control the current that flows through them . But while [in JFETs this “opening” is voltage controlled] in BJTs the current flow is controlled by a current .
What are the high-injection effects of a bipolar junction transistor?
High injection effects occur in a bipolar junction transistor, just like in a p-n diode. Since under forward active bias only the base-emitter diode is forward biased, one only has to explore the high-injection effects of the base-emitter diode.