A first-order filter circuit along with its Bode plot is shown in the following figure. 1. Determine filter resistance, R, in ohms if filter capacitance, C in uF, is given. Present three significant...


Break frequency is 1000 Hz, filter resistance is 318 Ohms


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A first-order filter circuit along with its Bode plot is shown in the following figure.<br>1. Determine filter resistance, R, in ohms if filter capacitance, C in uF, is given. Present three<br>significant digits.<br>2. Determine the absolute transfer function value Hm (NOT IN dB) at 10,000 Hz.<br>3. Determine filter type (low-pass or high-pass).<br>Hint: Solving the problem in MATLAB and a attaching a basic MATLAB script is most welcome!<br>H<br>dB<br>-5<br>R<br>-10<br>-15<br>V(t)<br>Vour(t) -20<br>-25<br>-30<br>-35<br>-40<br>-45<br>10<br>10<br>10<br>frequency, Hz<br>10<br>10<br>

Extracted text: A first-order filter circuit along with its Bode plot is shown in the following figure. 1. Determine filter resistance, R, in ohms if filter capacitance, C in uF, is given. Present three significant digits. 2. Determine the absolute transfer function value Hm (NOT IN dB) at 10,000 Hz. 3. Determine filter type (low-pass or high-pass). Hint: Solving the problem in MATLAB and a attaching a basic MATLAB script is most welcome! H dB -5 R -10 -15 V(t) Vour(t) -20 -25 -30 -35 -40 -45 10 10 10 frequency, Hz 10 10

Jun 11, 2022
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