Question #4 v(t) Ra Rb Ve(t) In the above circuit, the initial conditions are all zero and the op-amp is ideal. A. Determine the transfer function, H(s) = v() in one of the following forms: i) H(s) = kwhere k, b and c are constants; ii) H(s)k- where k, b and c are constants; iii) H(s) k ba ba where k, b and c are constants; B. iv) H(s) k ,where k, b and c are constants. Determine the type of filter implemented by the circuit C. If the circuit is a low-pass or high-pass filter, do Parts i and ii. If the circuit is a band- pass or band-reject filter, do Parts iii. i) Determine the order of the filter. ii) Find the values for the relevant components that will yield a gain of 8 under the requirement that ALL resistors must have a resistance greater than or equal to 1kn iii) Find the values for the relevant components that will yield a bandwidth of 8 = 12500 rad/s and a gain of 8 at the resonance frequency under the requirement that ALL resistors must have a resistance greater than or equal to 1kn. Solution #4 A. H(s) k ba where k = -B b = c B. с C = CARD Bandpass Filter R₂ = 1 kn, R₁ 16 kn, C=10nF
Question #4 v(t) Ra Rb Ve(t) In the above circuit, the initial conditions are all zero and the op-amp is ideal. A. Determine the transfer function, H(s) = v() in one of the following forms: i) H(s) = kwhere k, b and c are constants; ii) H(s)k- where k, b and c are constants; iii) H(s) k ba ba where k, b and c are constants; B. iv) H(s) k ,where k, b and c are constants. Determine the type of filter implemented by the circuit C. If the circuit is a low-pass or high-pass filter, do Parts i and ii. If the circuit is a band- pass or band-reject filter, do Parts iii. i) Determine the order of the filter. ii) Find the values for the relevant components that will yield a gain of 8 under the requirement that ALL resistors must have a resistance greater than or equal to 1kn iii) Find the values for the relevant components that will yield a bandwidth of 8 = 12500 rad/s and a gain of 8 at the resonance frequency under the requirement that ALL resistors must have a resistance greater than or equal to 1kn. Solution #4 A. H(s) k ba where k = -B b = c B. с C = CARD Bandpass Filter R₂ = 1 kn, R₁ 16 kn, C=10nF
Delmar's Standard Textbook Of Electricity
7th Edition
ISBN:9781337900348
Author:Stephen L. Herman
Publisher:Stephen L. Herman
Chapter18: Resistive-inductive Parallel Circuits
Section: Chapter Questions
Problem 13PP: In an R-L parallel circuit, IT=1.25 amps, R=1.2k, and XL=1k. Find IR
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