*USE Multisim( Provide Pictures of work on Multisim for each step) and Fill the Tables Below
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*USE Multisim( Provide Pictures of work on Multisim for each step) and Fill the Tables Below...
Analog Oscilloscope Setup: 1. Turn on the power to the oscilloscope. 2. Connect the function generator to the Channel 1 input on the oscilloscope 3. In the Vertical Control Group, set the Channel 1 AC/GND/DC switch to AC. 4. Set the Volts-per-Division knob 5. Intensity knob: adjust the signal intensity and focus to a comfortable level by using the intensity and focus knobs, respectively Set the seconds-per-division knob 6. Assignment Procedures: 1. Using the settings completed above, answer the following...
The oscilloscope display below is connected to a sine wave of 100 Hz frequency and 4 volt amplitude, 100 us seconds/div, and 2 volts/div. What control(s) on the oscilloscope need to be adjusted to bring this signal into focus so that it displays a sine wave? The oscilloscope display below is connected to a sine wave of 150 Hz frequency , 2 ms seconds/div, and 1 volts/div. What control(s) on the oscilloscope need to be adjusted to bring this signal...
You place an AC voltage signal of amplitude 1.4 V and with a frequency of 1100.0 Hz, into the input of an oscilloscope. (Note, you will not include units in your answers.) (a) Find the distance displayed on the screen of the oscilloscope for a full wave, if the sweep speed is adjusted to 182 µsec/DIV. divisions (b) If the vertical gain is set to 0.47 V/DIV, how many divisions will the wave span from peak-to-peak of the wave? divisions
hy I need answers of these questions according to data sheet. thank you DATA SHEET PARTI TIME/DIV ims VOLTS/DIV=_IV PEAK VOLTAGE V_47 toms TIME/DIV=_ms VOLTS/DIV-5V PEAK VOLTAGE V_42 PERIOD TO_loms PERIOD T- PART 1 SINEWAVE Vrms (VOLTS) VP (VOLTS) (Voltmeter) (oscilloscope) 7:07 10 3.57 5 2: 78 4 2.10 3 2 Slope=0.707V TIME/DIV=_ams VOLTS/DIVE PEAK VOLTAGE V=_41_ PERIOD T=_toms PART III SQUAREWAVE VAMS (VOLTS) VP (VOLTS) (Voltmeter) (oscilloscope) 10.9 do 542 S 4.4 4 3:3 고 2-2 Slope 0-92-1v PART...
5,6,7 5- Theoretical Part: For the same above circuit (Part B), First, change Rx to 2.2K. What is the maximum peak input voltage before Vout just saturates? Assume the dc input is still at 1.5V (unchanged) (Assume Vsat = 10Volts ) Vin(pk) maximum = ......................-Volts 6- Verify the theoretical result in 5 by slowly varying the amplitude of the input signal until Vout just saturates (about to saturate). What is the corresponding Vin(pk)? Vin(pk) maximum = ................. Volts 7. If...
1. As a reference, observe the full amplitude range of the AC voltage, without limiting. R1 330 0 f=1.0 kHz 3.0 k2 out Vap = 15.0 V Figure 1. AC Circuit without limiter Construct the circuit of Figure 1. Set the function generator for a sine wave with a frequency of about 1 kHz. Begin with the AC input voltage adjusted to its minimum value, approximately 0 V. Connect Channel 1 of the oscilloscope to observe the AC input voltag...
Using images 6.6 – 6.8, determine the amplitude of the calibration waveform. Be sure to include proper units: [Image 6.6 – Calibration Waveform Display] [Image 6.7 – Calibration Waveform Vertical (VOLT/DIV) Setting] [Image 6.8 – Calibration Waveform Horizontal (TIME/DIV) Setting] # of vertical divisions VOLT/DIV Amplitude Determine the period and calculate the frequency: # of horizontal divisions TIME/DIV Period Frequency The calibration waveform has a specified amplitude of 2.0 VPP at a frequency of 1.0 Khz. How accurate is the...
Sine wave measurement: Images 6.9 – 6.12 show a sine wave. Note that Image 6.9 is a close up of the function generator’s frequency display. Using images 6.10 – 6.12, determine the amplitude of the sine wave. Be sure to include proper units: # of vertical divisions VOLT/DIV Amplitude Determine the period and calculate the frequency: # of horizontal divisions TIME/DIV Period Frequency Assuming that the frequency displayed in Image 6.9 is more accurate than the oscilloscope, what is the...
checking to see if the answers i got are correct and help with the other parts. thank you Chapter 26 Laboratory Application Assignment In this lab application assignment you will examine an RC coupling circuit and an RC low-pass filter. In the RC coulina circuit you will see how the series capacitor blocks the de component of the input voltage but passes the ac component. In the RC low-pass filter you will see how the low frequencies are passed from...
Help fill in table The CH2 waveform vr(t) is shown in red. 3. Now, double the function generator frequency (to f=1250Hz about 1250Hz) to display exactly two complete cycles in 8 horizontal divisions. Do not change the amplitude of e(t). Again, both waveforms should be centered vertically on the scope grid. Adjust the vertical POSITION knobs if necessary. Carefully sketch and label both waveforms on the grid. Use the same settings (VOLTS/DIV AND SEC/DIV from part A4.) as with the...