(1.1) 1 volts/div
(1.2) 6 div
(1.3) 1 volts/div * 6 div = 6 volts
(1.4) 10m seconds/div
(1.5) 10m seconds/div * 10div = 100m/s
(1.6) 10Hz
Analog Oscilloscope Setup: 1. Turn on the power to the oscilloscope. 2. Connect the function gene...
*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 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...
If the volts/division is set at 0.5, the largest signal that can fit on an oscilloscope display screen (assuming an 8 horizontal x 10 vertical division screen) is: a. 62.5 millivolts peak-to-peak. b. 8 volts peak-to-peak. c. 5 volts peak-to-peak. d. 0.5 volts peak-to-peak. If the seconds/division is set at 0.1 ms, the amount of time represented by the width of the screen (assuming an 8 horizontal x 10 vertical division screen) is: a. 0.1 ms b. 0.8 ms c....
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...
LAB TEST 1 (set 1) PMENT REQUIRED 2 Power Supply 3. Function Generator PROCEDURE 1. Connect a circuit as shown in Figure 1 2. Measure the output voltage at Ri. Ra for the given frequency range oscilloscope. Ri 1.6 kW 10 Vpp, 5 kHz 100 nF R 24 KW Figure 1 RESULTS Vpp Vpo at R Freq (kHz) Vou (Vop at Ra) 10 10 03.5t 20 10 30 10 10 50 10 60 70 10 80 10 100 10 ....
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...
#6 table 2 8 LABORATORY REPORT 1C. TIME/DIV-S IC VOLTS/DIV-SV A VOLTS/DIV V ov o v 0 s 2A. TIME/DIN-S2B. TIME/DIV 2C TIME/DIV-mS 2C. VOLTS/DIV o V 0 s 60033 0 s 3A. TIME/DIV-m 3A, VOLTS/DIV=-, 3B. TIME/DIV-1m 3B. VOLTS/DIV o v 0 s 0 s 388 Physics Laboratory Mamual Loyd A. TIME/DIV- ms 4A. VOLTS/DIV-LV o v ov 0 s 0 s 0 s Data Table 1 X Data Table 2 Voltmeter (V Voltmeter V 1.00 2.00 3.00 4.00...
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...
Problems 1 through 8 refer to the sinusoidal waveforms on the right, which are displayed on an oscilloscope having the following settings: Channel 1 Vertical Axis: 1 V/Division Channel 2 Vertical Axis: 50 mV/Division Horizontal Axis: 1 ms/Division The zero-volt level is at the center of the screen for both channels. Consider the left edge of the screen to be the t=0 axis. Consider the waveform displayed on Channel 1 as the output voltage of a function generator. In ze...