Design a basic wide-band, RC band stop filter with a lower cut-off frequency of 200HZ and a higher cut-off frequency of 900HZ. Vor Band Stap Flepone -3dB Pas Band Paes Band Freguency fie) Low Pas Hgh...


Design a basic wide-band, RC band stop filter with a lower cut-off frequency of 200HZ and a<br>higher cut-off frequency of 900HZ.<br>Vor<br>Band Stap<br>Flepone<br>-3dB<br>Pas Band<br>Paes Band<br>Freguency fie)<br>Low Pas<br>Hgh Pa<br>Response<br>Response<br>Frequancy (rie)<br>Figure 1: Band Stop Filter Characteristics<br>Assuming a capacitor, C value for both filter sections (CLP. CHP) of 0.2uF, calculate the values of<br>the two resistors, RLP and RHP using the formula:<br>1. From the Low pass filter formula, Find RLP:<br>1.<br>fi<br>2. From the High pass filter formula, Find RHP:<br>1<br>2nRypCHP<br>3. Calculate the center frequency (fc) and Bandwidth (BW):<br>a. fc = Vfi x fu<br>%3D<br>b. BW = fr - f.<br>

Extracted text: Design a basic wide-band, RC band stop filter with a lower cut-off frequency of 200HZ and a higher cut-off frequency of 900HZ. Vor Band Stap Flepone -3dB Pas Band Paes Band Freguency fie) Low Pas Hgh Pa Response Response Frequancy (rie) Figure 1: Band Stop Filter Characteristics Assuming a capacitor, C value for both filter sections (CLP. CHP) of 0.2uF, calculate the values of the two resistors, RLP and RHP using the formula: 1. From the Low pass filter formula, Find RLP: 1. fi 2. From the High pass filter formula, Find RHP: 1 2nRypCHP 3. Calculate the center frequency (fc) and Bandwidth (BW): a. fc = Vfi x fu %3D b. BW = fr - f.

Jun 10, 2022
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