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anonymous
 3 years ago
H12P3:Our specification is that we want there to be two break frequencies for this filter: 12Hz and 17kHz. We also want midband frequencies, such as signals around 1kHz, to be amplified by about a factor of 2.
We have available a 1.2μF and a 470pF capacitor. We also have a variety of resistors between 100Ω and 100kΩ. However, our op amp really likes RS=20kΩ.
Your job is to fill in the remaining details of this design.Please help me nurali
anonymous
 3 years ago
H12P3:Our specification is that we want there to be two break frequencies for this filter: 12Hz and 17kHz. We also want midband frequencies, such as signals around 1kHz, to be amplified by about a factor of 2. We have available a 1.2μF and a 470pF capacitor. We also have a variety of resistors between 100Ω and 100kΩ. However, our op amp really likes RS=20kΩ. Your job is to fill in the remaining details of this design.Please help me nurali

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anonymous
 3 years ago
Best ResponseYou've already chosen the best response.0Our specification is that we want there to be two break frequencies for this filter: 13Hz and 18kHz. We also want midband frequencies, such as signals around 1kHz, to be amplified by about a factor of 2. We have available a 1.0μF and a 220pF capacitor. We also have a variety of resistors between 100Ω and 100kΩ. However, our op amp really likes RS=20kΩ. Could anybody explain? Thanks!

Nurali
 3 years ago
Best ResponseYou've already chosen the best response.21. 11052.426 2. 19919.266 3. 20000 4. 1.2μF 5. 470pF 6. 11052.426 7. 19919.266 8. 1.2μF 9. 470pF 10. 1.80

Nurali
 3 years ago
Best ResponseYou've already chosen the best response.21. 12242.687 2. 40190.642 3. 20000 4. 1.0μF 5. 220pF 6. 12242.687 7. 40190.642 8. 1.0μF 9. 220pF 10. 3.28

Nurali
 3 years ago
Best ResponseYou've already chosen the best response.2if correct please click best response.

anonymous
 3 years ago
Best ResponseYou've already chosen the best response.0what for this Our specification is that we want there to be two break frequencies for this filter: 14Hz and 16kHz. We also want midband frequencies, such as signals around 1kHz, to be amplified by about a factor of 2. We have available a 1.5μF and a 390pF capacitor. We also have a variety of resistors between 100Ω and 100kΩ. However, our op amp really likes RS=20kΩ. Your job is to fill in the remaining details of this design.

anonymous
 3 years ago
Best ResponseYou've already chosen the best response.0Nurali...plz help Our specification is that we want there to be two break frequencies for this filter: 16Hz and 20kHz. We also want midband frequencies, such as signals around 1kHz, to be amplified by about a factor of 2. We have available a 0.68μF and a 470pF capacitor. We also have a variety of resistors between 100Ω and 100kΩ. However, our op amp really likes RS=20kΩ.

anonymous
 3 years ago
Best ResponseYou've already chosen the best response.0give the formula atleast

Nurali
 3 years ago
Best ResponseYou've already chosen the best response.2@ashishsmvdu 1. 7578.806 2. 25505.599 3. 20000 4. 1.5μF 5. 390pF 6. 7578.806 7. 25505.599 8. 1.5μF 9. 390pF 10. 3.36

anonymous
 3 years ago
Best ResponseYou've already chosen the best response.0Our specification is that we want there to be two break frequencies for this filter: 15Hz and 16kHz. We also want midband frequencies, such as signals around 1kHz, to be amplified by about a factor of 2. We have available a 1.2μF and a 470pF capacitor. We also have a variety of resistors between 100Ω and 100k Ω. However, our op amp really likes R S=20k Ω. Your job is to fill in the remaining details of this design.

Nurali
 3 years ago
Best ResponseYou've already chosen the best response.2if correct please click best response

Nurali
 3 years ago
Best ResponseYou've already chosen the best response.2@Coolamigo 1. 8841.94 2. 21164.22 3. 20000 4. 1.2μF 5. 470pF 6. 8841.94 7. 21164.22 8. 1.2μF 9. 470pF 10. 2.39

Nurali
 3 years ago
Best ResponseYou've already chosen the best response.2if correct please click best response.

Nurali
 3 years ago
Best ResponseYou've already chosen the best response.2@almasrsg 1. 14628.21 2. 16931.38 3. 20000 4. 0.68μF 5. 470pF 6. 14628.21 7. 16931.38 8. 0.68μF 9. 470pF 10. 1.16

anonymous
 3 years ago
Best ResponseYou've already chosen the best response.0Thanks though μF is not accepted

Nurali
 3 years ago
Best ResponseYou've already chosen the best response.2My pleasure 1.2uF= 0.0000012F

anonymous
 3 years ago
Best ResponseYou've already chosen the best response.0Can you help with P1 Q2&3

Nurali
 3 years ago
Best ResponseYou've already chosen the best response.2i will try tell me value of Vs, v and i

anonymous
 3 years ago
Best ResponseYou've already chosen the best response.0i=6mA v=5 R came out to be 833.33

anonymous
 3 years ago
Best ResponseYou've already chosen the best response.0+ Vs = 15 For 3 A=100. Using the value of R that you computed above, and assuming a load resistance of 500Ω,

Nurali
 3 years ago
Best ResponseYou've already chosen the best response.21. 833.33 2. 1665.66 3. 0.0058939

anonymous
 3 years ago
Best ResponseYou've already chosen the best response.0Our specification is that we want there to be two break frequencies for this filter: 16Hz and 19kHz. We also want midband frequencies, such as signals around 1kHz, to be amplified by about a factor of 2. We have available a 1.8μF and a 390pF capacitor. We also have a variety of resistors between 100Ω and 100kΩ. However, our op amp really likes RS=20kΩ. Your job is to fill in the remaining details of this design. Guys I need the answers
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