Implement the following circuit on NI Multisim 14.3 and perform the following:a- Set the potentiometer at maximum resistanceb- Connect the 3 volt supply to the circuitc- Connect 9 V supply to the circuitd- Measure voltage across Rc and calculate current through Rc (Ic)e- Measure voltage across Riand calculate current through R1 (IB)f- Measure voltage across collector to emitter (VCE) of the transistorg- Make a three column table for IB and Icand XCεand enter your finding in thetable.h- Change the potentiometer in small steps and repeatd-g (just enter data inthe table that you have already made)i- Continue the h-g until you see no tangible change in thelcj- Plot the curve of Ic vs Vceand determine the saturation and VCE(cutoff),VCE(saturation) and the Ic(saturation) on the plot.k- Based on the k where you suggest tobias the transistor for small signallinear operation. Determine VCEQ and IQ and IB based on your suggestion.+R1VBB3 V20kohmRc390 Ω2N2222Vcc9 V100 ΩPotentiometer

To implement the circuit on NI Multisim 14.3 and perform the specified steps, follow the detailed…

Answered: Implement the following circuit on NI…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Explain how the regulator circuit in figure, works? +VO D.C. input voltage from rectifier or smoothing circuit Is Vin (Vs) OV O + Rs Vout = Vz Zener Diode Regulator RL
3. Design a four-resistor BJT bias circuit, similar to the one shown in Figure 2, such that V3 = 4 V and Ic = 1 mA. Assume VBE (on) = 0.7 V and B-150 for the transistor. 12V R1 R2 10k RC 5.6k Q2N2222 RE Figure 2 Note: Use PN2222A in Multisim
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shown below is a diode circuit. If the input signal Vs= 36Vp-p and the DC voltage Vdc = 4V, what is the output voltage (in volts) of the circuit during the positive alteration?
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