The following figure shows a system that couples an inverting band pass filter with a high pass filter. Using parameters given in the figure, derive the transfer function of Vo(s)/V;(s) Inverting band pass filter R₁ www C₂₁ C₂ R₂ High pass filter C3 R3 R4 R5 Vo Hint: You could start with writing the transfer function of the two filters separately, then combine the two equations into one. Your transfer function may be written as the product of multiple filters and/or gain stages - you do not need to reduce to simplest form but you should have each piece derived somewhere.

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The following figure shows a system that couples an inverting band pass filter with a high pass filter. Using parameters
given in the figure, derive the transfer function of Vo(s)/Vi(s)
Vi
Inverting band pass filter
R₁
ww
C₁
C₂
R₂
High pass filter
C3
R3
R4
R5
Vo
Hint: You could start with writing the transfer function of the two filters separately, then combine the two equations
into one. Your transfer function may be written as the product of multiple filters and/or gain stages - you do not need to
reduce to simplest form but you should have each piece derived somewhere.
Transcribed Image Text:The following figure shows a system that couples an inverting band pass filter with a high pass filter. Using parameters given in the figure, derive the transfer function of Vo(s)/Vi(s) Vi Inverting band pass filter R₁ ww C₁ C₂ R₂ High pass filter C3 R3 R4 R5 Vo Hint: You could start with writing the transfer function of the two filters separately, then combine the two equations into one. Your transfer function may be written as the product of multiple filters and/or gain stages - you do not need to reduce to simplest form but you should have each piece derived somewhere.
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