![]() When the transistor is turned on, current flows from the source to the ground through the load. The load (in this case, an LED) is linked to the switching output with a reference point in this type of switching connection. When no or zero voltage is applied to the input, the transistor works in the cutoff region and acts as an open circuit. As a result, the transistor acts as a short circuit. The collector to emitter voltage is almost equal to 0 when a sufficient voltage (VIN > 0.7 V) is applied between the base and emitter. A transistor's switching operation is based on the voltage applied at the base terminal. The switch is turned off when there is no base voltage. In other words, when a voltage is supplied to the base, a transistor conducts current across the collector-emitter. ![]() One of the most common uses for transistors in an electronic circuit is simple switches. It is mostly used in embedded and automation projects.It is typically used in automation & embedded projects.It is used for PWM due to its quick response.As compared to the normal NPN BC547 transistor, the 2N2222 is extremely similar, but 2N2222 allows 800mA of collector current & also 652mW of power dissipation which can be utilized for driving larger loads as compared toBC547.Saturation Region is also primarily used in switching and digital logic circuits. NPN General Purpose Transistor, 2N2222A Datasheet, 2N2222A circuit, 2N2222A data sheet : FCI, alldatasheet, Datasheet, Datasheet search site for Electronic Components and Semiconductors, integrated circuits, diodes, triacs and other semiconductors. The transistor is fully switched on in this mode, and the circuit is closed. With almost zero resistance, current flows freely from collector to emitter. The emitter-base and collector-base junctions are forward biased in this region. Switching and digital logic circuits are primarily used in the Cutoff Region. ![]() In this mode, the BJT is switched off and the circuit is an open circuit. ![]() There is no current flow except small leakage currents because both PN Junctions are reverse biased (usually in the order of a few nanoamps or pico amps). The collector-base junction and the emitter-base junction are reverse biased in this mode. Current flows between the emitter and the collector in this mode, with the amount of current flow proportional to the base current. Two junctions are biased differently in active mode, with the emitter-base junction being forward biased and the collector-base junction being reverse biased. The transistor is generally used as a current amplifier in this mode. ![]()
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