Prob 2. A FSM has two flip flops with outputs A(t) and B(t) and inputs D(A) and D(B) respectively (as in the previous problem). The FSM has an input I and one output Z (as in the previous problem). The equations for the FSM are given below. The flip flops are positive edge triggered. DA)- (A().Β () + 1 D(B) = B(t) XOR A(t) Z= A+I (XOR = exclusive OR) Initially, at t=0, A(0) = B(0) = 0. Draw the waveforms for the outputs of the flip flops corresponding to A and B and the output Z below, given the waveform for the input I. A B

Prob 2. A FSM has two flip flops with outputs A(t) and B(t) and inputs D(A) and D(B) respectively (as in the previous problem). The FSM has an input I and one output Z (as in the previous problem). The equations for the FSM are given below. The flip flops are positive edge triggered. DA)- (A().Β () + 1 D(B) = B(t) XOR A(t) Z= A+I (XOR = exclusive OR) Initially, at t=0, A(0) = B(0) = 0. Draw the waveforms for the outputs of the flip flops corresponding to A and B and the output Z below, given the waveform for the input I. A 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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Question

Prob 2. A FSM has two flip flops with outputs A(t) and B(t) and inputs D(A) and D(B)
respectively (as in the previous problem). The FSM has an input I and one output Z (as in
the previous problem). The equations for the FSM are given below. The flip flops are
positive edge triggered.
D(A) = (A(t).B(t)) +I
D(B) = B(t) XOR A()
Z= A +I
(XOR = exclusive OR)
Initially, at t=0, A(0) = B(0) = 0.
Draw the waveforms for the outputs of the flip flops corresponding to A and B and the
output Z below, given the waveform for the input I.
A
B

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