To analyze and design electronic circuits using field-effect transistors

To analyze and design electronic circuits using bipolar junction transistors.

To control the speed of a DC motor

To measure the temperature of a semiconductor material

The small signal model ignores the linear behavior of the BJT around its operating point.

The small signal model focuses on the linear behavior of the BJT around its operating point.

The small signal model is used for high power applications of the BJT.

The small signal model focuses on the digital behavior of the BJT around its operating point.

The hybrid-pi model represents the transistor as a combination of a capacitor and an inductor.

The hybrid-pi model represents the transistor as a combination of a non-linear resistor and a voltage source.

The hybrid-pi model represents the transistor as a combination of a voltage source and a diode.

The hybrid-pi model represents the transistor as a combination of a linear resistor and a current source.

gm, ro, Cpi

hfe, Vce, Vbe

Cmu, gm, Vce

Vbe, Vce, Ib

Rare emitter

Uncommon emitter

Common emitter

Unpopular emitter

The working principle of common emitter configuration is that the input signal controls the current flowing through the base-emitter junction, which in turn controls the current flowing through the collector-emitter junction, resulting in amplification of the input signal.

The working principle of common emitter configuration is that the input signal controls the current flowing through the emitter-base junction, resulting in amplification of the input signal.

The working principle of common emitter configuration is that the input signal controls the voltage across the collector-emitter junction, resulting in amplification of the input signal.

The working principle of common emitter configuration is that the input signal controls the current flowing through the collector-emitter junction, resulting in amplification of the input signal.

Common base

Unpopular base

Rare base

Uncommon base

The common collector configuration works by using the emitter as the output, the base as the input, and the collector as the common terminal.

The common collector configuration works by using the collector as the output, the emitter as the input, and the base as the common terminal.

The common collector configuration works by using the collector as the output, the base as the input, and the emitter as the common terminal.

The common collector configuration works by using the base as the output, the emitter as the input, and the collector as the common terminal.