(b) Figure Q4(b) shows an electro-mechanical system. The solenoid in the electrical sub- system behaves as an inductor L. The resistor R is connected in series with L in order to limit the current i(t) through the solenoid. Current i(t) energizes the solenoid such that the mass M is displaced to x(t) by the external force f(t). During experimental set-up, inventor tabulates the system parameters in Table Q4(b), and approximates the force-current relationship as f(t) = KAi(t) with KA> 0. Formulate the system's transfer function in order to measure the displacement x(t) due to the input voltage v(t). x(1) i(1) R K O v(1) D M L |D, Figure Q4(b)

(b) Figure Q4(b) shows an electro-mechanical system. The solenoid in the electrical sub- system behaves as an inductor L. The resistor R is connected in series with L in order to limit the current i(t) through the solenoid. Current i(t) energizes the solenoid such that the mass M is displaced to x(t) by the external force f(t). During experimental set-up, inventor tabulates the system parameters in Table Q4(b), and approximates the force-current relationship as f(t) = KAi(t) with KA> 0. Formulate the system's transfer function in order to measure the displacement x(t) due to the input voltage v(t). x(1) i(1) R K O v(1) D M L |D, Figure Q4(b)

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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