Consider a manual washing machine with five (5) buttons: WASH, RINSE, SPIN, STOP andPAUSE. Press any of these buttons will change the state of the washing machine. Without anyinterruption, wash, rinse and spin process will take 15 minutes each to complete the process andthen stop. Button WASH transfer the washing machine state from stop to washing state. Atwashing state, it will change to rinse state if button RINSE is pressed, spin state if button SPIN ispressed or pause state if button PAUSE is pressed. If the machine at any state(wash/rinse/spin/pause), the machine will stop if button STOP is pressed. Nothing will happen ifthe same button is pressed while the process still going on. For example, press WASH buttonwhile the machine is at washing state will not change the state. Based on the above description,the states, inputs and outputs are as follow:StateInputsOutputsSo: Stopa: WASH button0: Nothing happenSı: Washb: RINSE button1: ProcessS2: Rinsec: SPIN buttonS3: Spind: STOP buttonS4: Pausee: PAUSE buttonComplete the state transition table in Table 3 to represent the FSM for the washing machine.(Note: Use Table 3 as template to show your work and complete the unshaded cells only).Table 3fsfoStateabdeabсdeSoSiS2S3S4

Answered: Image /qna-images/answer/faf79e00-2624-47ed-b8a6-9d02f30c0d52.jpg

Answered: PAUSE. Press any of these buttons will…

PAUSE. Press any of these buttons will change interruption, wash, rinse and spin process will tak then stop. Button WASH transfer the washing

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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Concept explainers

Protection System

A system that protects electrical systems from faults by isolating the problematic part from the remainder of the system, preventing power from being cut from healthy elements, improving system dependability and efficiency is the protection system. Protection devices are the equipment that are utilized to implement the protection system.

Predictive Maintenance System

Predictive maintenance technologies are designed to assist in determining the state of in-service equipment so that maintenance can be scheduled. Predictive maintenance is the application of information; proactive maintenance approaches examine the condition of equipment and anticipate when it should maintain. The purpose of predictive maintenance is to forecast when equipment will fail (depending on a variety of parameters), then prevent the failure through routine and corrective maintenance.Condition monitoring is the continual monitoring of machines during process conditions to maintain optimal machine use, which is necessary for predictive maintenance. There are three types of condition monitoring: online, periodic, and remote. Finally, remote condition monitoring allows the equipment observed from a small place and data supplied for analysis.

Preventive Maintenance System

To maintain the equipment and materials on a regular basis in order to maintain those running conditions and reduce unnecessary shutdowns due to unexpected equipment failure is called Preventive Maintenance (PM).

Question

Consider a manual washing machine with five (5) buttons: WASH, RINSE, SPIN, STOP and
PAUSE. Press any of these buttons will change the state of the washing machine. Without any
interruption, wash, rinse and spin process will take 15 minutes each to complete the process and
then stop. Button WASH transfer the washing machine state from stop to washing state. At
washing state, it will change to rinse state if button RINSE is pressed, spin state if button SPIN is
pressed or pause state if button PAUSE is pressed. If the machine at any state
(wash/rinse/spin/pause), the machine will stop if button STOP is pressed. Nothing will happen if
the same button is pressed while the process still going on. For example, press WASH button
while the machine is at washing state will not change the state. Based on the above description,
the states, inputs and outputs are as follow:
State
Inputs
Outputs
So: Stop
a: WASH button
0: Nothing happen
Sı: Wash
b: RINSE button
1: Process
S2: Rinse
c: SPIN button
S3: Spin
d: STOP button
S4: Pause
e: PAUSE button
Complete the state transition table in Table 3 to represent the FSM for the washing machine.
(Note: Use Table 3 as template to show your work and complete the unshaded cells only).
Table 3
fs
fo
State
a
b
d
e
a
b
с
d
e
So
Si
S2
S3
S4

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