04.) You are given a design of a low-pass unity gain Sallen-Key filter has the following component values shown below: C; = 200NF C, = 100NF R = 112.50 R, = 112.50 a.) Calculate the Q and break frequency fo of this filter. b.) The original filter designer clearly didn't take this course, otherwise they'd have never chosen the resistor values they did! You know better, therefore you must scale the filter to have more appropriate resistor values, keeping the break frequency and Q value exactly the same. c.) The system engineers come back with new specs and decide they want to change the break frequency to f, = 1KH . Appropriately re-scale the filter so that it achieves this new break frequency without changing the Q of the filter.

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04.) You are given a design of a low-pass unity gain Sallen-Key filter has the following component
values shown below:
C; = 200NF
C, = 100NF
R =112.50
R, = 112.52
a.) Calculate the Q and break frequency f, of this filter.
b.) The original filter designer clearly didn't take this course, otherwise they'd have never chosen
the resistor values they did! You know better, therefore you must scale the filter to have more
appropriate resistor values, keeping the break frequency and Q value exactly the same.
c.) The system engineers come back with new specs and decide they want to change the break
frequency to f, = 1kHz. Appropriately re-scale the filter so that it achieves this new break
frequency without changing the Q of the filter.
Transcribed Image Text:04.) You are given a design of a low-pass unity gain Sallen-Key filter has the following component values shown below: C; = 200NF C, = 100NF R =112.50 R, = 112.52 a.) Calculate the Q and break frequency f, of this filter. b.) The original filter designer clearly didn't take this course, otherwise they'd have never chosen the resistor values they did! You know better, therefore you must scale the filter to have more appropriate resistor values, keeping the break frequency and Q value exactly the same. c.) The system engineers come back with new specs and decide they want to change the break frequency to f, = 1kHz. Appropriately re-scale the filter so that it achieves this new break frequency without changing the Q of the filter.
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