In which operation region(s) does the Ebers-Moll model describe a bipolar transistor?
A. Saturation
B. Cut-off
C. Active
D. All of the above
Answer
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Hint: In the Ebers-Moll model, we can represent the transistor in the form of a circuit. In this model, we assume that the resistance of the base is negligible. There are various modes of conduction in a transistor. The various modes of conduction can be seen in the bipolar transistor.
Complete step by step answer:To model bipolar junction transistors accurately, we have to look for things more than a simple diode. Ebers-Moll model is a representation of a transistor with some set of equations which are having some symbols and variables with their usual meanings.
The biasing of the bipolar transistor is required to use it in applications because with the help of bias; we can calculate the current and voltage that is flowing in the transistor. In a bipolar transistor, we have two PN junctions which are connected at each other’s back. These are three regions of a bipolar transistor and termed as emitter, base and collector. The junction of emitter-base is in forwarding bias, and that of collector-base is in reverse biased when the transistor is in active mode. Ebers-Moll model is also used to describe a bipolar transistor in saturation and cut-off stage.
Therefore, based on the above explanation, we can say that the Ebers-Moll model is used to describe bipolar transistors in the cut-off, active and saturation mode.
Hence option (D) is correct.
Note:In the cut-off state, the transistor is used as a switch, and the value of current through the emitter is zero. In saturation state, we can consider the transistor as a short circuit between the terminals of the emitter and collector.
Complete step by step answer:To model bipolar junction transistors accurately, we have to look for things more than a simple diode. Ebers-Moll model is a representation of a transistor with some set of equations which are having some symbols and variables with their usual meanings.
The biasing of the bipolar transistor is required to use it in applications because with the help of bias; we can calculate the current and voltage that is flowing in the transistor. In a bipolar transistor, we have two PN junctions which are connected at each other’s back. These are three regions of a bipolar transistor and termed as emitter, base and collector. The junction of emitter-base is in forwarding bias, and that of collector-base is in reverse biased when the transistor is in active mode. Ebers-Moll model is also used to describe a bipolar transistor in saturation and cut-off stage.
Therefore, based on the above explanation, we can say that the Ebers-Moll model is used to describe bipolar transistors in the cut-off, active and saturation mode.
Hence option (D) is correct.
Note:In the cut-off state, the transistor is used as a switch, and the value of current through the emitter is zero. In saturation state, we can consider the transistor as a short circuit between the terminals of the emitter and collector.
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