a) Design a parallel RLC BPF using scaling. The specifications are:
Q=25,\omega ^(')=50kra(d)/(s)
, and
R^(')=40k\Omega
. Start with a prototype circuit with
\omega _(0)=1ra(d)/(s),C=1F,L=1H
, and
R=Q\Omega
. Find
k_(m),k_(f),L^(')
and
C^(')
. Show your work to show you are using scaling in this design. b) Design a series RLC BPF using scaling. The specifications are:
Q=16,\omega _(0)^(')=25kra(d)/(s)
, and
R^(')=10k\Omega
. Start with a prototype circuit with
\omega _(0)=1ra(d)/(s),R=1\Omega ,L=QH
, and
C=(1)/(Q)F
. Find
k_(m),k_(f),L^(')
and
C^(')
. Show your work to show you are using scaling in this design.