![]() ![]() I will really appreciate some help in understanding what's going on here. r1:xr2, r2:xrload etc.ģ) I have also looked at the netlist as well, and it shows 10000/2 there as well. Could anyone kindly help me out regarding this? My questions are:ġ) What are these r1:xrload, r1:xr1. Another peculiar thing is, I don't have any r2 resistor in my circuit. ![]() My load resistor value has been set to 10k in the schematic. ![]() At the same time, I am seeing that the present value of r1:xrload and r2:xrload is set to 5k. The problem I am facing is, in the parameter sweep window, I am not seeing my load resistor name in the drop down list of the component name I want to sweep. I believe this needs to be done using parameter sweep. I am trying to simulate a basic zener diode circuit and trying to observe the effect of changing the load resistance. # F.G Frequency (Hz) Real frequency (Hz) Current (UA) 1 11 1.1 2 12 1.2 3 13 1.3 4 15 1.I am new to multisim and just started learning how to simulate basic circuits. What is the percentage of the potentiometer to get this current? 6) In the table below, measure the current by changing the frequency of the function generator as shown in the table below, knowing that the real frequency (ECG signal) is divided by 10. ![]() 4) What is the number of pulses required to reach the averaging level? 5) Wait until the reading of the current meter become stable, then adjust the potentiometer R6 until you get 60uA of current. Compute the width of the pulse from the monostable circuit. Procedure: 1) Connect the circuit shown below, you can build the 555 timer circuit using circuit wizard tool (monostable circuit) with any settings thenchange the values as shown below: XSCI Ex frig R2 R5 XFG1 A 12V Vs $3.636MO SR 10kg 555 VIRTUAL Timer 100kg Key=A R6 73 % 100k c1 C2 THE 470nF 470nF VEE T-12V U1A DE XMI R1 47kQ 0 R1 C3 R4 R3 =10n10nF с CE 4.7uF 100kg 100k D1 044.74F 1N6095 LF347BD VCC 12V 2) Set the function generator as shown in the figure below: х Function generator-XFG1 Waveforms Hz Signal options Frequency: Duty cycle: Amplitude: Offset: 10 90 % 2.5 Vp 2.5 V Set rise/Fall time Common 0 3) Run the simulation then display the two signals as shown inthe circuit above. Transcribed image text: Oscilloscope-XSCI Multimeter-XMM1 60.898 UA A V dB Set. ![]()
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