HINT: You will use a timer, counter, and bit-level addressing to solve this problem (and many other concepts we've covered so far!) For this problem, you can ignore the LINE SWITCH, but don't forget to include the SAFETY WATER LEVEL SWITCH (Normally Closed) when operating the fill valve. L1 L2 Timer increment Active devices Ground Machine function

Computer Networking: A Top-Down Approach (7th Edition)
7th Edition
ISBN:9780133594140
Author:James Kurose, Keith Ross
Publisher:James Kurose, Keith Ross
Chapter1: Computer Networks And The Internet
Section: Chapter Questions
Problem R1RQ: What is the difference between a host and an end system? List several different types of end...
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Question
Using CODESYS create a PLC LADDER LOGIC
HINT: You will use a timer, counter, and bit-level addressing to solve this problem (and many other
concepts we've covered so far!) For this problem, you can ignore the LINE SWITCH, but don't forget to
include the SAFETY WATER LEVEL SWITCH (Normally Closed) when operating the fill valve.
L1
L2
Active
devices
Timer
E Ground
increment
Machine function
Timer
ff
0-1
124
1345
1456
1245
Drain
Fill
First prerinse
Rinse
4-5
Line
Drain
switch
1345
1456
1245
Fill
7
Prewash Wash
Drain
8-10
Drain
11
pump
12
13-15
1345
1456
124
Fill
(MTR
Second prerinse Rinse
Drain
16
Safety water
level switch
------
Fill
valve
134
1456
1245
Fill
17
ell
Wash Wash
Drain
18-30
31
Fill
First rinse Rinse
Drain
32
33-34
35
Timer
1345
1456
1245
motor
MTR
Fill
Second rinse Rinse
36
1345
37-41
42
Circulating
1456
Drain
1245
motor
Dry
Dry Drain
Dry
(MTR
43-58
146
59
1246
146
60
6 Heater
ww
MacBook Air
20
888
DII
DD
F3
F4
F5
F6
F7
F8
F9
&
Transcribed Image Text:HINT: You will use a timer, counter, and bit-level addressing to solve this problem (and many other concepts we've covered so far!) For this problem, you can ignore the LINE SWITCH, but don't forget to include the SAFETY WATER LEVEL SWITCH (Normally Closed) when operating the fill valve. L1 L2 Active devices Timer E Ground increment Machine function Timer ff 0-1 124 1345 1456 1245 Drain Fill First prerinse Rinse 4-5 Line Drain switch 1345 1456 1245 Fill 7 Prewash Wash Drain 8-10 Drain 11 pump 12 13-15 1345 1456 124 Fill (MTR Second prerinse Rinse Drain 16 Safety water level switch ------ Fill valve 134 1456 1245 Fill 17 ell Wash Wash Drain 18-30 31 Fill First rinse Rinse Drain 32 33-34 35 Timer 1345 1456 1245 motor MTR Fill Second rinse Rinse 36 1345 37-41 42 Circulating 1456 Drain 1245 motor Dry Dry Drain Dry (MTR 43-58 146 59 1246 146 60 6 Heater ww MacBook Air 20 888 DII DD F3 F4 F5 F6 F7 F8 F9 &
Design Problem: You have just been hired as a Controls Engineer at XYZ Systems Integrator. Your first
project is for a client who wishes to retrofit (modernize) an industrial wash unit. The current system
utilizes a mechanical drûm sequencer type motorized mechanical timing device. Based on what you
have learned in TEC 263, you know that a PLC would be a perfect solution to this problem! The customer
is willing to replace or "rewire" 1/O as necessary (e.g. switches, button, sensors, etc.) but, the process
must remain the same. Since you decided to use a PLC, you now have the ability to provide a few
enhancements! So, the customer also requests that the number of completed wash cycles is tracked and
displayed (something that was not being done before). Using the following industrial electrical (wiring/
relay) ladder diagram and the corresponding functionality chart, design a PLC system (ladder logic
program and HMI) to satisfy the customer's needs. For testing purpose, use 1 second as the default
timer increment based on a cumulative time (e.g. Timer Increment of 2 on the chart would be from 1 to
2 or a 1 second interval)
HINT: You will use a timer, counter, and bit-level addressing to solve this problem (and many other
concepts we've covered so far!) For this problem, you can ignore the LINE SWITCH, but don't forget to
include the SAFETY WATER LEVEL SWITCH (Normally Closed) when operating the fill valve.
L1
L2
Timer
Active
increment
devices
Ground
Machine function
MacBook Air
DII
DD
F12
F11
F10
Transcribed Image Text:Design Problem: You have just been hired as a Controls Engineer at XYZ Systems Integrator. Your first project is for a client who wishes to retrofit (modernize) an industrial wash unit. The current system utilizes a mechanical drûm sequencer type motorized mechanical timing device. Based on what you have learned in TEC 263, you know that a PLC would be a perfect solution to this problem! The customer is willing to replace or "rewire" 1/O as necessary (e.g. switches, button, sensors, etc.) but, the process must remain the same. Since you decided to use a PLC, you now have the ability to provide a few enhancements! So, the customer also requests that the number of completed wash cycles is tracked and displayed (something that was not being done before). Using the following industrial electrical (wiring/ relay) ladder diagram and the corresponding functionality chart, design a PLC system (ladder logic program and HMI) to satisfy the customer's needs. For testing purpose, use 1 second as the default timer increment based on a cumulative time (e.g. Timer Increment of 2 on the chart would be from 1 to 2 or a 1 second interval) HINT: You will use a timer, counter, and bit-level addressing to solve this problem (and many other concepts we've covered so far!) For this problem, you can ignore the LINE SWITCH, but don't forget to include the SAFETY WATER LEVEL SWITCH (Normally Closed) when operating the fill valve. L1 L2 Timer Active increment devices Ground Machine function MacBook Air DII DD F12 F11 F10
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