Difference between revisions of "GradFinalLab RS"
Jump to navigation
Jump to search
Line 12: | Line 12: | ||
# <math>R_1 = (1.01\pm0.01)\ k\Omega</math> | # <math>R_1 = (1.01\pm0.01)\ k\Omega</math> | ||
# <math>R_2 = (1.01\pm0.01)\ k\Omega</math> | # <math>R_2 = (1.01\pm0.01)\ k\Omega</math> | ||
− | # <math>R_3 = ( | + | # <math>R_3 = (5.09\pm0.01)\ k\Omega</math> |
# <math>\mbox{OP}\ \mbox{AMP}\ 741</math> | # <math>\mbox{OP}\ \mbox{AMP}\ 741</math> | ||
# <math>V_{ref} = (+11.90\pm0.01)\ V</math> | # <math>V_{ref} = (+11.90\pm0.01)\ V</math> |
Revision as of 17:01, 26 April 2011
Construct a Schmitt Trigger using the 741 Op Amp
Draw the Schmitt Trigger circuit you constructed. Identify the values of all components
To construct the circuit above I am going to use the following components and voltages:
Graph as a function of . Is there a hysteresis loop?
Identify the input voltage threshold levels at which a will produce
1) if the output is high:
2) if the output is low:
where
By substituting the actual values:
and doing math and handling the error propagation we end up with the following threshold voltages:
Compare the threshold values to what is expected.
Go Back to All Lab Reports Forest_Electronic_Instrumentation_and_Measurement