Question (C4, CO1, PO1) Figure 2 shows a circuit that combines double-bounded comparator with integrator. Ratio of R3 to R2, R3/R2 : 0.3 PR2 C1 PR3 D1 D2 4.7V 4.7V 0.1pF PR1 R1 U1 U2 R4 4 1 1kQ R2 V1 5V 3 R5 1kHz 0° 1kQ R3 Figure (i) Analyse comparator circuit (op-amp UU1) and compute its output voltage VV001 sampled by probe PR2. (ii) Compute the upper trigger point (UTP) and lower trigger point (LTP) for the comparator. (iii) Op-amp UU2 is configure as an integrator, compute the rate of change of output voltage VV002 during charging and discharging of the capacitor CC1. (iv) Based on result in (iii), compute output voltage of integrator for the period of 500µs. (v) Illustrate the input and output voltages of the circuit in Figure 2 in the graph paper provided. Make sure the axis is appropriately labelled.

Question (C4, CO1, PO1) Figure 2 shows a circuit that combines double-bounded comparator with integrator. Ratio of R3 to R2, R3/R2 : 0.3 PR2 C1 PR3 D1 D2 4.7V 4.7V 0.1pF PR1 R1 U1 U2 R4 4 1 1kQ R2 V1 5V 3 R5 1kHz 0° 1kQ R3 Figure (i) Analyse comparator circuit (op-amp UU1) and compute its output voltage VV001 sampled by probe PR2. (ii) Compute the upper trigger point (UTP) and lower trigger point (LTP) for the comparator. (iii) Op-amp UU2 is configure as an integrator, compute the rate of change of output voltage VV002 during charging and discharging of the capacitor CC1. (iv) Based on result in (iii), compute output voltage of integrator for the period of 500µs. (v) Illustrate the input and output voltages of the circuit in Figure 2 in the graph paper provided. Make sure the axis is appropriately labelled.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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