Design a basic wide-band, RC band stop filter with a lower cut-off frequency of 300Hz and a higher cut-off frequency of 800Hz. 2. From the High pass Var VIN -3dB a. fc = √fL XfH -3dB b. BW= fH fL Pass Band Low Pass Response 1. From the Low pass filter formula, Find RLP: fi Band Stap Responsa Figure 1: Band Stop Filter Characteristics Assuming a capacitor, C value for both filter sections (CLP, CHP) of 0.2u calculate the values of the two resistors, RIP and RHP using the formula: = formula, Find RHP: fH = Pasand 1 2πRHPCHP Frequency (Ft) High Pa Response Frequency (Hz) 3. Calculate the center frequency (fc) and Bandwidth (BW): Copyright © Arican College of the Mic East. 2020

Design a basic wide-band, RC band stop filter with a lower cut-off frequency of 300Hz and a higher cut-off frequency of 800Hz. 2. From the High pass Var VIN -3dB a. fc = √fL XfH -3dB b. BW= fH fL Pass Band Low Pass Response 1. From the Low pass filter formula, Find RLP: fi Band Stap Responsa Figure 1: Band Stop Filter Characteristics Assuming a capacitor, C value for both filter sections (CLP, CHP) of 0.2u calculate the values of the two resistors, RIP and RHP using the formula: = formula, Find RHP: fH = Pasand 1 2πRHPCHP Frequency (Ft) High Pa Response Frequency (Hz) 3. Calculate the center frequency (fc) and Bandwidth (BW): Copyright © Arican College of the Mic East. 2020

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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