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Posted: **Sun Jul 10, 2022 11:36 am**

: Using C 120 Nf Capacitors Design An Active Broadband First Order Bandpass Fiter That Has A Lower Cutoff Frequency Of 1 1 (21.36 KiB) Viewed 52 times

: Using C 120 Nf Capacitors Design An Active Broadband First Order Bandpass Fiter That Has A Lower Cutoff Frequency Of 1 2 (32.81 KiB) Viewed 52 times

: Using C 120 Nf Capacitors Design An Active Broadband First Order Bandpass Fiter That Has A Lower Cutoff Frequency Of 1 3 (34.42 KiB) Viewed 52 times

: Using C 120 Nf Capacitors Design An Active Broadband First Order Bandpass Fiter That Has A Lower Cutoff Frequency Of 1 4 (44.16 KiB) Viewed 52 times

: Using C 120 Nf Capacitors Design An Active Broadband First Order Bandpass Fiter That Has A Lower Cutoff Frequency Of 1 5 (42.22 KiB) Viewed 52 times

: Using C 120 Nf Capacitors Design An Active Broadband First Order Bandpass Fiter That Has A Lower Cutoff Frequency Of 1 6 (40.14 KiB) Viewed 52 times

Using C= 120 nF capacitors, design an active broadband first-order bandpass fiter that has a lower cutoff frequency of 1000 Hz, an upper cutoff frequency of 5000 Hz, and a passband gain of 0 dB. Use prototype versions of the low-pass and high-pass fiters. Part A Select the correct circuit diagram for the filter. The parameters of the titer will be determined in the following parts. 10+ M₂ C R₂ www 6 Den senin Ma www
Y Part B Determine value of resistance in the high-pass filter R. Express your answer to three significant figures and include the appropriate units. View Available Hint(s) RH = 1.33 k Submit Correct Part C Previous Answers Determine the value of resistance in the low-pass filter R Express your answer to three significant figures and include the appropriate units. RL = 265 Submit Previous Answers Correct
▾ Part D Suppose that the resistance in the inverting amplifier R₁ = 1 k. Determine the value of resistance R. Express your answer to three significant figures and include the appropriate units. R 1.00 k Correct Part E Select the correct transfer function for the scaled filter. H(s) = H(s): Previous Answers H(s) H(s) = H(s) 10,000ms (s+ 2000m) (8+10,000) 5000ks (s+1000m) (s+ 5000T) 10,000KS (8+1000) (8 + 5000T) 2000ms (s+2000) (s + 10,000) 5000ms Review | Constants (8+2000m) (s+10.000m) Pearson 4
Part F Calculate H (jw), where w, is the center frequency of the filter. Express your answer using three significant figures. Enter your answer using angle notation. Express argument in degrees. ▸ View Available Hint(s) H (jw) = 8.33 Submit 5. ΑΣΦ It Part G Previous Answers X Incorrect; Try Again; 9 attempts remaining K= vec Determine the passband gain (in decibels) of the filter at wo. Express your answer in decibels to three significant figures. 195| ΑΣΦ ↓↑ vec Pearson Dime ERING ? Review | Constants dB
Part H Select the correct Bode magnitude plot of the filter transfer function. H) 4B O O ap Centr -10 100 -30 100 10² 10² (H₂) f(H₂) 10 10² 10% 10²
HydB -30 jo) dB 100 -100 -200 -300 100 10⁰ 10 Submit Request Answer (H₂) (Hx) 10⁰ 10⁰ 10⁰