For the following bandpass filter circuit, select the circuit elements in order to satisfy the following specifications: fl= 100Hz fu= 200Hz First, consider the lowpass filter on the left, which has a transfer function Hw= Rf1/R11 1/Rf1C1jw+1 The desired lowpass transfer function, written in hertz frequency, is H(w)= -1/(jf/fu+1) If R1 is selected to be 1000Ω then determine R11 in ohms. Enter R11. Omit the units. (hint: remember to convert between fand w when needed) Referring to question 1, what is C1 in μf Consider the highpass filtter on the night, which has a transfer function H(w)= - Rf2/R12 R12/C2jw/R12C2jw+1.The desired highpass transfer function is -if/ft/if/ft+1. If R12 is selected to be 1000Ω then determine Rf2 in ohms and C2 in μf.Enter Rf2 (hint: remember to convert between fand w when needed) Referring to problem 3, what is C2 in μf
For the following bandpass filter circuit, select the circuit elements in order to satisfy the following specifications:
fl= 100Hz
fu= 200Hz
First, consider the lowpass filter on the left,
which has a transfer function
Hw= Rf1/R11 1/Rf1C1jw+1
The desired lowpass transfer
function, written in hertz frequency, is
H(w)= -1/(jf/fu+1)
If R1 is selected to be 1000Ω then determine R11 in ohms. Enter R11. Omit the units. (hint: remember to convert
between fand w when needed)
Referring to question 1, what is C1 in μf
Consider the highpass filtter on the night, which has a transfer function H(w)= - Rf2/R12 R12/C2jw/R12C2jw+1.The desired highpass transfer function is -if/ft/if/ft+1. If R12 is selected to be 1000Ω then determine Rf2 in ohms and C2 in μf.Enter Rf2 (hint: remember to convert
between fand w when needed)
Referring to problem 3, what is C2 in μf
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