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[DOC File]Op-Amps: Experiment Guide
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Connect the output of the inverting amp to act as the input voltage for the non-inverting amp. Use R2 = 10k in the inverting circuit and R2’=5k in the noninverting circuit. The input signal should be a 1 kHz, 50mVPP (on the function generator display) sine wave and you have to pick the correct offset for the circuit to amplify linearly.

[DOC File]ECE U403
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The function generator lets you inject well-controlled voltage signals into your circuit. Typically, you can select sine waves, triangle waves and square waves and then control the frequency and voltage amplitude of the wave. Most circuits are meant to receive “real world” signals, but these signals are often noisy and irregular.

[DOC File]EE 210 - Lab #1 - Elementary Measurements
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This will be followed by the construction of an inverting, non-inverting, and buffer amplifier. Throughout the lab, you will be asked to observe some of the non-ideal characteristics of the op-amp. ... function generator to 0.5Vp-p, 1000Hz sine wave. Verify this with the oscilloscope. Then with RL . open, infinite resistance, measure Vout.

[DOC File]OPERATIONAL AMPLIFIER
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(Hint: You need to increase the frequency to a value beyond the reciprocal of the time constant for the integrator to work.) Now change the function generator back to a sine wave input. Create a log plot of gain vs. frequency from 1Hz to 100kHz. Differentiator: Build the inverting amplifier but put a 0.1 uF capacitor in series with R1.

Inverting a sine function