3.Differential and Integrator Circuits with Op-amp:| Build the differentiator and integrator circuits given in Step 3 in the multisim simulation program and draw the outputs of the Op-amp differentiator and integrator circuits when the triangle and square waves respectively are applied as an input. Please use the parameters (voltage, frequency, resistance and capacitor values) given in Step 3. A. Differentiator: Set up the circuit in Fig. 5.5 and apply a triangular wave with 10Vpp, 0V DC offset and f= 500 Hz. Observe and plot the input and output voltage waveforms. +12V Ra=1 kN it Ca= 100 nF -12V Figure 5.5 Differentiator circuit B. Integrator: Set up the cireuit in Fig. 5.6 and apply a square wave with 10Vpp, 0V DC offset and f= 500 Hz. Observe and plot the input and output voltage waveforms. What is the duty of the feedback resistor (Rd) in integrator circuit? R:=1 kN Ra= 2.2 kN w C; = 1 µF +12V -12V Fig. 5.6 Integrator circuit

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3.Differential and Integrator Circuits with Op-amp: Build the differentiator and integrator circuits given in Step 3 in the multisim simulation program and draw the outputs of the Op-amp differentiator and integrator eircuits when the triangle and square waves respectively are applied as an input. Please use the parameters (voltage, frequency, resistance and capacitor values) given in Step 3. A. Differentiator: Set up the circuit in Fig. 5.5 and apply a triangular wave with 10Vpp, 0V DC offset and f= 500 Hz. Observe and plot the input and output voltage waveforms. Ra +12V Ra=1 k2 v.(t) Ca= 100 nF -12v Figure 5.5 Differentiator circuit B. Integrator: Set up the circuit in Fig. 5.6 and apply a square wave with 10Vpp, 0V DC offset and f= 500 Hz. Observe and plot the input and output voltage waveforms. What is the duty of the feedback resistor (Rd) in integrator circuit? R;= 1 kN Ra= 2.2 kQ wit C;=1 µF +12V -12V Fig. 5.6 Integrator circuit