3.2 A transfer function with Ho = 1 has a zero at s = +1 kNp/s and a pole pair at -1±jl complex kNp/s. (a) Find its impulse response. (b) Find its steady-state response to an ac input with unity amplitude, zero phase, and w = 1 krad/s.
3.2 A transfer function with Ho = 1 has a zero at s = +1 kNp/s and a pole pair at -1±jl complex kNp/s. (a) Find its impulse response. (b) Find its steady-state response to an ac input with unity amplitude, zero phase, and w = 1 krad/s.
Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
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Chapter1: Introduction
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For this one, trying to solve 3.1, however the answer to 3.2 is the major block. A rough sketch is all that is needed for 3.1 since I have no access to Spice.
Transcribed Image Text:3.1 The transfer function
3.1 Use PSpice to plot the impulse response of Example 3.2, compare with the calculated
response, and comment. Hint: You can approximate an impulse by means of a pulse
having much shorter width than the lowest time constant of the circuit and sufficient
amplitude to ensure unity area. Presently, a 1-us, 1 MV pulse will do. Also, make sure
to impose zero initial conditions for L and C.
3.2 A transfer function with Ho = 1 has a zero at s = +1 kNp/s and a pole pair at -1±jl
complex kNp/s. (a) Find its impulse response. (b) Find its steady-state response to an
ac input with unity amplitude, zero phase, and w = 1 krad/s.
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