ne amplifier circuit below has a single ac input and two ac outputs. Assuming transistor rameters of B - 200 and Vag = 0.7 V: -a) Determine the Q point. -b) Is the transistor in the active region? Explain thoroughly. e) Construct the T-model of the transistor with all parameters labelled and evaluated. Assume room temperature. -d) Draw a complete small signal circuit model, then find the voltage gain for both outputs. e) Based on the analysis results, what is the function of this circuit? Suggest a proper application. -) Use Multisim to verify all of your results. Compare and comment. g) Assuming that each output is feeding a 100-k resistor, determine the total voltage gain and current gain for both outputs. Also, calculate the amplifier input resistance and the amplifier output resistances. +5V Rc= 3.3 kf) 100 kn. 100 kf R = 3.6 kN

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Activity 2:
The amplifier circuit below has a single ac input and two ac outputs. Assuming transistor
parameters of ß = 200 and VBE = 0.7 V:
(2-a) Determine the Q point.
(2-b) Is the transistor in the active region? Explain thoroughly.
(2-c) Construct the T-model of the transistor with all parameters labelled and evaluated.
Assume room temperature.
(2-d) Draw a complete small signal circuit model, then find the voltage gain for both outputs.
(2-e) Based on the analysis results, what is the function of this circuit? Suggest a proper
application.
(2-f) Use Multisim to verify all of your results. Compare and comment.
(2-g) Assuming that each output is feeding a 100-kΩ resistor, determine the total voltage gain
and current gain for both outputs. Also, calculate the amplifier input resistance and the
amplifier output resistances.

Activity 2:
The amplifier circuit below has a single ac input and two ac outputs. Assuming transistor
parameters of B- 200 and Vg - 0.7 V:
(2-a) Determine the Q point.
(2-b) Is the transistor in the active region? Explain thoroughly.
(2-c) Construct the T-model of the transistor with all parameters labelled and evaluated.
Assume room temperature.
(2-d) Draw a complete small signal circuit model, then find the voltage gain for both outputs.
(2-e) Based on the analysis results, what is the function of this circuit? Suggest a proper
application.
(2-f) Use Multisim to verify all of your results. Compare and comment.
(2-g) Assuming that each output is feeding a 100-k£2 resistor, determine the total voltage gain
and current gain for both outputs. Also, calculate the amplifier input resistance and the
amplifier output resistances.
+5V
Re= 3.3 k()
100 kΩς
100 kf
Rg = 3.6 kN
Transcribed Image Text:Activity 2: The amplifier circuit below has a single ac input and two ac outputs. Assuming transistor parameters of B- 200 and Vg - 0.7 V: (2-a) Determine the Q point. (2-b) Is the transistor in the active region? Explain thoroughly. (2-c) Construct the T-model of the transistor with all parameters labelled and evaluated. Assume room temperature. (2-d) Draw a complete small signal circuit model, then find the voltage gain for both outputs. (2-e) Based on the analysis results, what is the function of this circuit? Suggest a proper application. (2-f) Use Multisim to verify all of your results. Compare and comment. (2-g) Assuming that each output is feeding a 100-k£2 resistor, determine the total voltage gain and current gain for both outputs. Also, calculate the amplifier input resistance and the amplifier output resistances. +5V Re= 3.3 k() 100 kΩς 100 kf Rg = 3.6 kN
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