User:Manuel Franco Jr./Notebook/Physics Lab 307/2008/09/10
Oscilloscope Lab | <html><img src="/images/9/94/Report.png" border="0" /></html> Main project page <html><img src="/images/c/c3/Resultset_previous.png" border="0" /></html>Previous entry<html> </html>Next entry<html><img src="/images/5/5c/Resultset_next.png" border="0" /></html> |
Oscilloscope LabSJK 00:37, 17 September 2008 (EDT) SJK 00:31, 17 September 2008 (EDT)For this lab, I became familiar with a digital oscilloscope. I plugged in the BNC cable from the oscilloscope to the function generator. Then, I created a sine graph on the screen. I then took some measurements: Measuring Data SJK 00:33, 17 September 2008 (EDT)My first sine graph
Other Graphs 1.) Increased the volts:
2.) Decreased volts (lowest voltage on the F.G.):
Note: The function generator could be set at any voltage (voltage only determines amplitude). The frequency at which it's set is very essential. If the frequency is too low, you'll get a condensed off scale sine graph. If the frequency is too high, you will just see a line, or half a sine graph. So I adjusted the frequency according, not too high or too low. Taking Measurements: 1.) Measure Button - Gives data automatically. 2.) The Grid - Using the boxes on the grid, you can determine voltages and times. 3.) Cursor Button - Set cursors, determine measurements. Triggering Triggering enables the user to move along back and forth in the times of the wave.
AC Coupling I applied a large DC voltage of 12V (as instructed),and I decreased the frequency on the function generator substantially down to about 1 X 2.0 Hz. Instead of a round graph, I changed it to square. I adjusted the screen. Then, I measured the fall and rise times by using the measure button, an equation on Wikipedia, and with the cursor button:
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