Homework Answers
(1).
The circuit is designed in Multisim as per the question.
- Voltage sensitivity is set to 2v/div in case of Y1
- Voltage sensitivity is set to 50mv/div in case of Y2
- Timebase is 500 ms/div
- Supply voltage is set to 10 V
- The switch S2 is at point "a" at time = 0s then moved to point "b" at time = 2s.
Output Waveform:
First 2 second is charging time and the rest is discharging time.
(2).
Output:
First 5 sec is Charging time and the rest is discharging time
- Low- V1 ZR1 1 10.0k P41 v 9.5588V 10V v C1 100UF PR2 v 4.4118mv R2 1002
We were unable to transcribe this image
Interactive 1 Stopped None - PR1: V(4) -PR2: V(5) Voltage (V) 500m 11.5 2 2.5 Time (s) 3 3.5 4
We were unable to transcribe this image
250m -PR2: V(5) 200m 150m 100m Voltage (V) -50m - 100m - 150m -200m -250m o 500m1 1.5 2 25 Time (s) 3 3.5 4 4.5
3R1 SL ? 10.022 P41 y 22.199n IV 2Hz C1 100F PR2 v 278.01pV 1009
Add Answer to:
using NI multisim please
Part 1: 1. Simulate the circuit as shown below: 2- Set the...
1. Use MultiSim program to simulate the RC circuit shown in Figures 1 using nominal resistor valu...
1. Use MultiSim program to simulate the RC circuit shown in Figures 1 using nominal resistor value of 100Ω and 10uF capacitor. Set up the function generator for: square wave, frequency 20Hz, duty cycle 50%, offset 1V, and amplitude 1V. Use Tektronix scope to display the input source and the capacitor voltage waveforms on the same display 2. Print out your schematics and print an output showing Channels A and B 3. Use the scope cursors to measure simulated t...
Power Supply with Zener Voltage regulator D4 131 12 Vpk Vs 60 Hz 0° D2 D3 2. Simulate the bridge rectifier with three different filter capacitors(1uf, 5μF and 10μF) and observe output waveforms. Comp...
Power Supply with Zener Voltage regulator D4 131 12 Vpk Vs 60 Hz 0° D2 D3 2. Simulate the bridge rectifier with three different filter capacitors(1uf, 5μF and 10μF) and observe output waveforms. Compare ripple voltages, estimation vs. simulation values Plot v, and vout waveforms.
Power Supply with Zener Voltage regulator D4 131 12 Vpk Vs 60 Hz 0° D2 D3 2. Simulate the bridge rectifier with three different filter capacitors(1uf, 5μF and 10μF) and observe output waveforms. Compare ripple...
nde) Figare 18 Circuit for Problem 15 Analysis 1. Plot the input and output vollage wavefoems nlt) and lt) as wel as the capacitor current iclt) for the input wavelorm shown in Fig ure 1....
nde) Figare 18 Circuit for Problem 15 Analysis 1. Plot the input and output vollage wavefoems nlt) and lt) as wel as the capacitor current iclt) for the input wavelorm shown in Fig ure 1.10 on the next page, Assume the capacitoris initially discharged 2 Determine the following numerical descriptors for lf) and iclf (a) Voltage values of t) at times-250, 650, and 960ms. (b) Peak capacitor current t Discass the relationship between the plots of the capacitor current ic(t)...
Simulation For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolba...
Simulation For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select "Bode Plotter". Change initial (I) and final (F) frequencies to 1Hz and 200 KHz, respectively. Use a Voltage AC source as the input signal. You do not need to change any parameter from voltage AC source. Connect "Bode Plotter" to input and output of your...
For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select &...
For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select "Bode Plotter". Change initial (I) and final (F frequencies to 1Hz and 200 KHz, respectively. Use a Voltage AC source as the input signal. You do not need to change any parameter from voltage AC source Connect "Bode Plotter" to input and output of your circuit...
Please help me all steps. 1- Set up the circuit as shown in figure (7). Then...
Please help me all steps.
1- Set up the circuit as shown in figure (7). Then 330 resistor is to limit the maximum current reached. Then 100 resistor is to display the current waveform on the oscilloscope. 0.033k Chi (Voltage) 10mH Ch2 (Current) 0.01K common Figure (7) 2- Adjust the wave generator to give a peak voltage of 10 V square wave at 250Hz (Period is 4msec and Pulse Width is 2msec). Set the OSC as follows: Time base: 1...
*USE Multisim( Provide Pictures of work on Multisim for each step) and Fill the Tables Below...
*USE Multisim( Provide Pictures of work on Multisim for each
step) and Fill the Tables Below
PROCEDURE: Review the front panel controls in each of the major groups. Then turn on the oscilloscope, select Chl, set the SEC/DIV to 0.1 ms/div, select AUTO triggering, and obtain a line across the face of the CRT. Although many of the measurements described in this experiment are automated in newer scopes, it is useful to learn to make these measurements manually. Turn on...
3. Using one 74LS08 chip, draw a schematic that will perform the AND function on five...
3. Using one 74LS08 chip, draw a schematic that will perform the AND function on five inputs. 4. Why did the measured output of procedure 7 occur even though the input was floating? 6. Replace input A for the previous circuit with a 10KHZ TTL square wave input (Figure 3-9). Display the input waveform on Channel 1 of the oscilloscope. Set the B input to LOW (GND), and display the output (Y) waveform on Channel 2. The oscilloscope trigger should...
Could you please show me how I can drw those circuits. please using (NI Multisim 14)...
Could you please show me how I can drw those circuits.
please using (NI Multisim 14)
Optocoupler Objectives Use an ohmmeter to determine the condition of the optoisolator. Observe the operation of an optocoupler. Determine the maximum frequency response of the optocoupler. Required Materials (1) Dual DC power supply (1) Function generator (1) Oscilloscope (2) Multimeters (1) Optocoupler (ECG3040) (1) 3.9ΚΩ resistor (1) 220 resistor Introduction An optoisolator is a hybrid integrated circuit that contains an LED on one side...
Circuit 1 Simulate the circuit of the Figure 1 and determine both the waveshape and amplitude...
Circuit 1 Simulate the circuit of the Figure 1 and determine both the waveshape and amplitude of the signal measured by the oscilloscope at the output when connecting the AC input. The diodes are model 1N4001, each. The resistor's color code is Brown, Black, Orange, Silver. Lab questions: 1-the output will be a square wave. Will it be DC or AC? What is the Vpp (Voltage peak-to-peak)? 2- write a short explanation why it is not sinusoidal as the input?...
1. Use MultiSim program to simulate the RC circuit shown in Figures 1 using nominal resistor value of 100Ω and 10uF capacitor. Set up the function generator for: square wave, frequency 20Hz, duty cycle 50%, offset 1V, and amplitude 1V. Use Tektronix scope to display the input source and the capacitor voltage waveforms on the same display 2. Print out your schematics and print an output showing Channels A and B 3. Use the scope cursors to measure simulated t...
Power Supply with Zener Voltage regulator D4 131 12 Vpk Vs 60 Hz 0° D2 D3 2. Simulate the bridge rectifier with three different filter capacitors(1uf, 5μF and 10μF) and observe output waveforms. Compare ripple voltages, estimation vs. simulation values Plot v, and vout waveforms.
Power Supply with Zener Voltage regulator D4 131 12 Vpk Vs 60 Hz 0° D2 D3 2. Simulate the bridge rectifier with three different filter capacitors(1uf, 5μF and 10μF) and observe output waveforms. Compare ripple...
nde) Figare 18 Circuit for Problem 15 Analysis 1. Plot the input and output vollage wavefoems nlt) and lt) as wel as the capacitor current iclt) for the input wavelorm shown in Fig ure 1.10 on the next page, Assume the capacitoris initially discharged 2 Determine the following numerical descriptors for lf) and iclf (a) Voltage values of t) at times-250, 650, and 960ms. (b) Peak capacitor current t Discass the relationship between the plots of the capacitor current ic(t)...
Simulation For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select "Bode Plotter". Change initial (I) and final (F) frequencies to 1Hz and 200 KHz, respectively. Use a Voltage AC source as the input signal. You do not need to change any parameter from voltage AC source. Connect "Bode Plotter" to input and output of your...
For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select "Bode Plotter". Change initial (I) and final (F frequencies to 1Hz and 200 KHz, respectively. Use a Voltage AC source as the input signal. You do not need to change any parameter from voltage AC source Connect "Bode Plotter" to input and output of your circuit...
Please help me all steps.
1- Set up the circuit as shown in figure (7). Then 330 resistor is to limit the maximum current reached. Then 100 resistor is to display the current waveform on the oscilloscope. 0.033k Chi (Voltage) 10mH Ch2 (Current) 0.01K common Figure (7) 2- Adjust the wave generator to give a peak voltage of 10 V square wave at 250Hz (Period is 4msec and Pulse Width is 2msec). Set the OSC as follows: Time base: 1...
*USE Multisim( Provide Pictures of work on Multisim for each
step) and Fill the Tables Below
PROCEDURE: Review the front panel controls in each of the major groups. Then turn on the oscilloscope, select Chl, set the SEC/DIV to 0.1 ms/div, select AUTO triggering, and obtain a line across the face of the CRT. Although many of the measurements described in this experiment are automated in newer scopes, it is useful to learn to make these measurements manually. Turn on...
3. Using one 74LS08 chip, draw a schematic that will perform the AND function on five inputs. 4. Why did the measured output of procedure 7 occur even though the input was floating? 6. Replace input A for the previous circuit with a 10KHZ TTL square wave input (Figure 3-9). Display the input waveform on Channel 1 of the oscilloscope. Set the B input to LOW (GND), and display the output (Y) waveform on Channel 2. The oscilloscope trigger should...
Could you please show me how I can drw those circuits.
please using (NI Multisim 14)
Optocoupler Objectives Use an ohmmeter to determine the condition of the optoisolator. Observe the operation of an optocoupler. Determine the maximum frequency response of the optocoupler. Required Materials (1) Dual DC power supply (1) Function generator (1) Oscilloscope (2) Multimeters (1) Optocoupler (ECG3040) (1) 3.9ΚΩ resistor (1) 220 resistor Introduction An optoisolator is a hybrid integrated circuit that contains an LED on one side...
Circuit 1 Simulate the circuit of the Figure 1 and determine both the waveshape and amplitude of the signal measured by the oscilloscope at the output when connecting the AC input. The diodes are model 1N4001, each. The resistor's color code is Brown, Black, Orange, Silver. Lab questions: 1-the output will be a square wave. Will it be DC or AC? What is the Vpp (Voltage peak-to-peak)? 2- write a short explanation why it is not sinusoidal as the input?...
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