You place an AC voltage signal of amplitude 1.4 V and with a frequency of 1100.0...
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
Homework Answers
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You place an AC voltage signal of amplitude 1.4 V and with a
frequency of 1100.0...
A sine wave signal is displayed on the screen of an oscilloscope. 6 peak-to-peak divisions are...
A sine wave signal is displayed on the screen of an oscilloscope. 6 peak-to-peak divisions are measured vertically and 8 peak-to-peak divisions horizontally. The voltage control is on the 2 volts / div scale and the sweep control is on the 5ms scale. The signal period is: a. 0.03 seconds b. 0.04 seconds c. 4 seconds d. 0.005 seconds
The oscilloscope display below is connected to a sine wave of 100 Hz frequency and 4...
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...
Analog Oscilloscope Setup: 1. Turn on the power to the oscilloscope. 2. Connect the function gene...
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...
1. As a reference, observe the full amplitude range of the AC voltage, without limiting. R1...
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...
*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...
The peak voltage of the source from problem 4 is 12 V. You notice that the...
The peak voltage of the source from problem 4 is 12 V. You notice that the sensitivity setting on the oscilloscope is 4 V per division. How many divisions, peak to peak, will the voltage span on the oscilloscope screen?
Given taple 3,please solve for part(d)-part(f) hange the mode on the signal generator to sine-wave, with a peak-to-peak amplitude of eak-to-peak amplitude of the voltage across the capacitor for...
Given taple 3,please solve for part(d)-part(f)
hange the mode on the signal generator to sine-wave, with a peak-to-peak amplitude of eak-to-peak amplitude of the voltage across the capacitor for various frequencies (100, 4 500, 2000, and 5000 Hz), and complete Table 3, (0.4%) Table 3 Frequency (in Hertz) 100 400 800 1000 1500 2000 5000 Vc (peak-to-peak) ange the mode on the signal generator to sine-wave, with a peak-to-peak amplitude of 2V. Measure the 1500, 2000, and 5000 Hz), and...
Determine the following about the sine wave ac voltage shown: a. Amplitude and peak-to-peak voltage. b....
Determine the following about the sine wave ac voltage shown: a. Amplitude and peak-to-peak voltage. b. Period, frequency and angular frequency (o). c. Write the sine wave equation for the ac voltage. d. Calculate the voltage at 2.5us. e. Calculate the voltage at 2ms. volts (v) 7 2 14 0 8 10 12 time (us
Oscilloscope with RC circuits: Explain with an example how you measure the frequency of a signal...
Oscilloscope with RC circuits: Explain with an example how you measure the frequency of a signal from oscilloscope by using (a) x-axis scale and (b) using y-axis scale? (c) what is the difference between V(peak voltage) and Vrms (root-mean-square) of AC voltage source?
An AC sine wave voltage has a peak amplitude of 170 V. What is the rms...
An AC sine wave voltage has a peak amplitude of 170 V. What is the rms value?
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...
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...
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...
*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...
Given taple 3,please solve for part(d)-part(f)
hange the mode on the signal generator to sine-wave, with a peak-to-peak amplitude of eak-to-peak amplitude of the voltage across the capacitor for various frequencies (100, 4 500, 2000, and 5000 Hz), and complete Table 3, (0.4%) Table 3 Frequency (in Hertz) 100 400 800 1000 1500 2000 5000 Vc (peak-to-peak) ange the mode on the signal generator to sine-wave, with a peak-to-peak amplitude of 2V. Measure the 1500, 2000, and 5000 Hz), and...
Determine the following about the sine wave ac voltage shown: a. Amplitude and peak-to-peak voltage. b. Period, frequency and angular frequency (o). c. Write the sine wave equation for the ac voltage. d. Calculate the voltage at 2.5us. e. Calculate the voltage at 2ms. volts (v) 7 2 14 0 8 10 12 time (us
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