1. Design the cet. shown to generate f= 572 Hz, 2. Use R,=7 KQ, R;= 10 KQ , C,= 0.1 µF ; Vec= +- 12 V, 3. Show the Vo & Vci waveforms on the same oscilloscope view, 4. Complete the table shown below; change R, in order to vary (B), 5. If any change occurs to the waveforms, then show the new states. R, Vopp Veipp f. ? 7 ΚΩ 572.326 Hz 0.3334 0.1667 0.0476 0.0099

1. Design the cet. shown to generate f= 572 Hz, 2. Use R,=7 KQ, R;= 10 KQ , C,= 0.1 µF ; Vec= +- 12 V, 3. Show the Vo & Vci waveforms on the same oscilloscope view, 4. Complete the table shown below; change R, in order to vary (B), 5. If any change occurs to the waveforms, then show the new states. R, Vopp Veipp f. ? 7 ΚΩ 572.326 Hz 0.3334 0.1667 0.0476 0.0099

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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