Discussion1. Derive the transfer function of the (R-L-R) circuit, and then find the statespace representation of the circuit.2. Find the output Y(1) for the system represented by transfer function shownin figure (4-2) analytically and compare with thesimulatedresult.(Assuming all initial conditions is zero)

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Answered: Discussion 1. Derive the transfer…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

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(b) A robot arm control system is represented by a block diagram shown in Figure Q.1b. R(s)- 1 5+2 1 2 system. 10 5+4 → C(s) Figure Q.1b (1) Simplify the block diagram in Figure Q.lb by using the block diagram reduction technique and determine the final transfer function, - C(s) C(s) using Mason's rules and R.(s) (ii) Draw the equivalent signal flow diagram of the system Figure Q.Ib. Then. determine the system's transfer function, - validate your answer in part (b)(i) of the
Consider the control system shown in Figure 1. Copy it into your answer book, labelling the actual output, control signal, desired output, plant, proportional action and derivative action. Also write down the control algorithm. Q1 (a) + s+1 kas I+ s+ 5 kp Figure 1 Determine the open-loop transfer function for the system shown in Figure 1 and hence obtain an expression for the closed-loop transfer function. (b) Find the state-space representation in phase-variable form for the above closed- loop system. Assume kp = 2 and ka = 1. (c) (d) Draw a signal flow diagram for the above system, assuming phase-variable form.
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