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(Solved): solve on multisim please Figure \( 7.4 \) NPN common-emitter amplifier 1. Build the Common Emitter ...



solve on multisim please
Figure \( 7.4 \) NPN common-emitter amplifier
1. Build the Common Emitter (CE) amplifier in Fig.7.4 and measure the DC values, \( \mathrm{I}_{\mathrm{BQ}}, \mathrm{I}_{\ma
Figure \( 7.4 \) NPN common-emitter amplifier 1. Build the Common Emitter (CE) amplifier in Fig.7.4 and measure the DC values, \( \mathrm{I}_{\mathrm{BQ}}, \mathrm{I}_{\mathrm{CQ}}, \mathrm{V}_{\mathrm{CEQ}} \) (For the simulation of this procedure; you have to make DC Operating Analysis.) 2. Apply \( 300 \mathrm{mVpp} \) sinusoidal signal with the frequency of \( 10 \mathrm{kHz} \), to the input. (For the simulation of this procedure, procedure 2; you have to make Transient Simulation and plot v1, v2 and calculate Gains and Input Resistances.) a. Measure and draw voltages at points 1 and 2 ( \( v_{1}, v_{2} \) respectively). b. Record the voltage gain ( \( \left.\mathrm{Avs}=v_{\text {oun }} / v_{\mathrm{s}}\right) \). Disconnect \( \mathrm{R}_{\mathrm{L}} \) and remeasure the voltage gain \( \left(\mathrm{Av}_{\mathrm{s}}{ }^{\prime}=\nu_{\text {oud }} / v_{\mathrm{s}}\right) \). c. What is the phase difference \( (\theta) \) between input and output voltages? 3. Disconnect \( \mathrm{C}_{\mathrm{E}} \) and repeat step 2 .


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