Figure Q4 shows a Front Panel of a control system used in a production line. When the system starts, a conveyor belt will turn on and will always running until a proximity sensor detect a product. A conveyor LED will also turn on when the conveyor moves. The proximity LED will turn on and the conveyor will stop when the proximity sensor sense a product. Then a process will be carried out for 10 seconds while its temperature and pressure will be monitored. After that, a robot arm will pick the product and place it in a box for storage. A robot arm LED will also turn on when the robot arm moves. Then the conveyor belt runs again. The front panel will show process time and also product count. The system will stop when the operator press STOP button or if the pressure is higher than 900 psi or the temperature is higher than 450°C. Process Time 100 Pressure -200 400 600 0 1000 Proximity Counter 50 800- Figure Q4 Temperature 500- Conveyor Robot Arm STOP STOP (a) Identify the flowchart for the system. 250- (b) Break down the system into component parts including all control, measuring devices and sensors as well as their specifications.

Figure Q4 shows a Front Panel of a control system used in a production line. When the system starts, a conveyor belt will turn on and will always running until a proximity sensor detect a product. A conveyor LED will also turn on when the conveyor moves. The proximity LED will turn on and the conveyor will stop when the proximity sensor sense a product. Then a process will be carried out for 10 seconds while its temperature and pressure will be monitored. After that, a robot arm will pick the product and place it in a box for storage. A robot arm LED will also turn on when the robot arm moves. Then the conveyor belt runs again. The front panel will show process time and also product count. The system will stop when the operator press STOP button or if the pressure is higher than 900 psi or the temperature is higher than 450°C. Process Time 100 Pressure -200 400 600 0 1000 Proximity Counter 50 800- Figure Q4 Temperature 500- Conveyor Robot Arm STOP STOP (a) Identify the flowchart for the system. 250- (b) Break down the system into component parts including all control, measuring devices and sensors as well as their specifications.

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

DC Generator

An electromechanical machine which converts input mechanical energy to respective output electric energy is called a generator.

Question

Figure Q4 shows a Front Panel of a control system used in a production line. When the system
starts, a conveyor belt will turn on and will always running until a proximity sensor detect a
product. A conveyor LED will also turn on when the conveyor moves. The proximity LED will
turn on and the conveyor will stop when the proximity sensor sense a product. Then a process
will be carried out for 10 seconds while its temperature and pressure will be monitored. After
that, a robot arm will pick the product and place it in a box for storage. A robot arm LED will
also turn on when the robot arm moves. Then the conveyor belt runs again. The front panel will
show process time and also product count. The system will stop when the operator press STOP
button or if the pressure is higher than 900 psi or the temperature is higher than 450°C.
Process Time
Counter
50
100
Pressure
Temperature
500-
400
-200
250-
0
0-
Proximity.
STOP
STOP
Figure Q4
(a) Identify the flowchart for the system.
(b) Break down the system into component parts including all control, measuring devices and
sensors as well as their specifications.
600
1000
800-
Conveyor
Robot Arm

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