These questions from electronics lab course, from The common Collector Amplifier (Emitter-Follower) Experiment. + 15 V R, 22 kn 2.2 µF 2N3904 100 µF out 0.2 V p-p 5 kHz R2 27 kn RE 1 kn RL 1 k2 CH 2...

These questions from electronics lab course, from The common Collector Amplifier (Emitter-Follower) Experiment.

+ 15 V<br>R,<br>22 kn<br>2.2 µF<br>2N3904<br>100 µF<br>out<br>0.2 V p-p<br>5 kHz<br>R2<br>27 kn<br>RE<br>1 kn<br>RL<br>1 k2<br>CH 2<br>Ocilloscope<br>CH 1 :<br>FIGURE 14-1 Schematic diagram of circuit.<br>

Extracted text: + 15 V R, 22 kn 2.2 µF 2N3904 100 µF out 0.2 V p-p 5 kHz R2 27 kn RE 1 kn RL 1 k2 CH 2 Ocilloscope CH 1 : FIGURE 14-1 Schematic diagram of circuit.

1. The voltage gain of a common-collector amplifier, or an emitter-<br>follower, is always<br>@ greater than 1<br>2. The output signal of a common-collector amplifier is out-of-phase<br>with the input by<br>A0°<br>3. If the load resistor R, in the circuit in Figure 14-1 is increased, the<br>voltage gain will<br>O increase significantly<br>O remain essentially the same<br>equal to 1<br>C less than 1<br>( )<br>6) 45°<br>©90°<br>@ 180°<br>( )<br>decrease significantly<br>

Extracted text: 1. The voltage gain of a common-collector amplifier, or an emitter- follower, is always @ greater than 1 2. The output signal of a common-collector amplifier is out-of-phase with the input by A0° 3. If the load resistor R, in the circuit in Figure 14-1 is increased, the voltage gain will O increase significantly O remain essentially the same equal to 1 C less than 1 ( ) 6) 45° ©90° @ 180° ( ) decrease significantly

Jun 11, 2022

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These questions from electronics lab course, from The common Collector Amplifier (Emitter-Follower) Experiment. + 15 V R, 22 kn 2.2 µF 2N3904 100 µF out 0.2 V p-p 5 kHz R2 27 kn RE 1 kn RL 1 k2 CH 2...

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