The OP AMP integrator in Figure P6-20 has (R=22) (mathrm{k} Omega, mathrm{C}=0.068 mu mathrm{F}), and (v_{mathrm{O}}(0)=10 mathrm{~V}).
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The OP AMP integrator in Figure P6-20 has \(R=22\) \(\mathrm{k} \Omega, \mathrm{C}=0.068 \mu \mathrm{F}\), and \(v_{\mathrm{O}}(0)=10 \mathrm{~V}\). The input is \(v_{\mathrm{S}}(t)=6 e\) \(-250 t u(t) \mathrm{V}\). The OP AMP has a \(V_{\mathrm{CC}}= \pm 15 \mathrm{~V}\).
(a) Find \(v_{\mathrm{O}}(t)\) for \(t>0\).
(b) Using Multisim, plot the input and the output versus time.
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Related Book For
The Analysis And Design Of Linear Circuits
ISBN: 9781119913023
10th Edition
Authors: Roland E. Thomas, Albert J. Rosa, Gregory J. Toussaint
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