When you increase the output of the function generator, what happens to a sine wave of oscilloscope?
On increasing the output of the function generator, the sine wave of the oscilloscope increases.
When you increase the output of the function generator, what happens to a sine wave of...
Oscilloscope lab
Suppose you have an oscilloscope receiving a sine wave input from a function generator. You can see four voltage peaks on the screen. If you increase the frequency on the function generator by five times, how many peaks would you see on the screen?
You are using a D/A converter to generate a Sine wave. When you look at the output on an oscilloscope the signal looks too "jagged". What can you do to make it smoother?
Settings for the 5.2A function generator: • AC Sine Wave • f =
30 Hz • Phase Shift = 50° • Offset = 0 V • Amplitude = 2 V
B. Simulate the circuit seen in Figure 5.2. Use the same function generator settings as 5.2A. Record three to four cycles of both the input and output. Using the cursors on the oscilloscope, measuring the time shift between the maxima of the two waves, Δ, and use it to calculate...
how many sine components are necessary to create a square wave that is “square”? What happens if you increase the amplitude of a component? What happens if you increase the frequency of a component?
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...
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...
please answer in full detail and show all work.
A/B. Class-A Amplifier (30 pt) 1. Build the Class-A amplifier shown in Fig. 1. Select sine wave as the input with 5 Vp and 1 kHz. Sketch the input and output waveforms in the same plot, and indicate both magnitudes. [Hint: look at XSC1 signals] (15 pt) XFG1 VCC XSC1 15V Ext Trig Q2 Vin L BJT NPN VIRTUAL R1 RL Q3 Q1 BJT NPN VIRTUAL BJT NPN VIRTUAL VEE -15V...
The graph to the left shows a red sine wave and a black sine wave. When you start t black sine wave will be hidden behind the red one. Play around with the red sine wav by changing the values for amplitude, frequency, and phase to see how they change the shape of the wave. Questions to Answer 1) Which setting changes maximum and minimum? A2) Which setting shifts the start and end left or right? 3) Which setting changes...
1. Briefly describe the names and important functions of each part of the oscilloscope and function generator. 2. List the advantages and disadvantages of using the oscilloscope as an alternating current voltmeter (AC voltmeter) ‘in detail’. 3. Summarise the names and important functions of the multimeter and power supply parts. 4. Sine wave at function generator 1) When Vpp = 5V, the 1kHz and 10kHz waveforms are displayed. 2) When Vpp = 10V and 1 kHz and 10 kHz waveforms...
During this term, you have studied inductors and capacitors, as well as the basics of ac, test equipment, and the effects of reactance, impedance, and resonance. Based on that knowledge and experimentation, answer the following practical application questions. Describe the physical characteristics of a basic inductor. Describe the physical characteristics of a basic capacitor. If an oscilloscope shows a 20 Vpp sine wave, how would you determine the rms value? Calculate what that Vrms value would be. What is the...