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Programmable Logic
Controllers

Introduction to PLCs

Electrical & Computer Engineering Dr. D. J. Jackson Lecture 1-1

Outline
Introduction
Definition and History of the PLC
Example PLCs
Overall PLC System
PLC Advantages and Disadvantages

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Definition And History Of The PLC

A PLC is a user-friendly, microprocessor-
based specialized computer that carries out
control functions of many types and levels of
complexity.
Its purpose is to monitor crucial process
parameters and adjust process operations
accordingly.
Used extensively because the PLC
– Is easy to set up and program
– Behaves predictably
– Ruggedized

Electrical & Computer Engineering Dr. D. J. Jackson Lecture 1-3

Definition And History Of The PLC

It can be programmed (to a degree),
controlled, and operated by a person
unskilled in operating (programming)
computers.
Essentially, a PLC's operator draws the lines
and devices of ladder diagrams with a
keyboard/mouse onto a display screen.
The resulting ladder diagram is converted
into computer machine language and run as
a program.

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 Example PLCs

Allen-Bradley PLC5 Allen-Bradley SLC500

Allen-Bradley Micrologix Allen-Bradley Picocontroller
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PLC basics
Some PLCs are
– integrated into a single unit (Picocontroller),
– whereas others are modular (PLC5, SLC500)
– The Micrologix product lies somewhere between
the PLC5 and the Picocontroller
Integrated PLCs are sometimes called
brick PLCs because of their small size
– These PLCs have embedded I/O (i.e. the I/O is a
part of the same unit as the controller itself)
– Modular PLCs have extended I/O

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Components in a PLC system
CPU module, containing the processor and
memory
Input and output modules, to allow the PLC
to read sensors and control actuators
– A wide variety of types are available
Power supply for the PLC, and often sensors
and low power actuators connected to I/O
modules
A rack or bus so the PLC can exchange data
with I/O modules

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PLC in a automated system
Programming unit Analog sensors Analog
(temperature, actuators
pressure sensors) (motors, etc.)
Network

CPU Digital Digital Analog Analog
Power
Module Input Output Input Output
Supply
(PLC) Module Module Module Module

Digital
Digital sensors
actuators
(limit switches,
(pneumatic valves,
proximity sensors)
Indicator lamps)
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Additional PLC components
A programming unit is necessary to create,
edit and download a user program to the PLC
Additional components can include:
– Network interfaces: to allow PLCs to function in
a networked environment
– Communication adapters for remote I/O
devices: so I/O devices do not have to be
physically close to the CPU module
– Operator interface devices: allow monitoring
and/or data entry by operators

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Definition And History Of The PLC
The PLC takes the place of much of the external
wiring required for control of a process.
– http://www.xl-technology.com/control-upgrades.html
The PLC will operate any system that has output
devices that go on and off (known as discrete, or
digital, outputs).
It can also operate any system with variable
(analog) outputs.
The PLC can be operated on the input side by on-off
devices (discrete, or digital) or by variable (analog)
input devices.

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Definition And History Of The PLC

The first PLC systems evolved from
conventional computers in the late 1960s and
early 1970s.
– These first PLCs were installed primarily in
automotive plants.
Traditionally, the auto plants had to be shut
down for up to a month at model changeover
time.
The early PLCs were used along with other
new automation techniques to shorten the
changeover time.
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Definition And History Of The PLC

One of the major time-consuming
changeover procedures had been the wiring
of new or revised relay and control panels.
The PLC keyboard reprogramming procedure
replaced the rewiring of a panel full of wires,
relays, timers, and other components.
The new PLCs helped reduce changeover
time to a matter of a few days.

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PLC Advantages
Flexibility
– In the past, each different electronically controlled
production machine required its own controller; 15
machines might require 15 different controllers.
– Now it is possible to use just one model of a PLC
to run any one of the 15 machines.
– Furthermore, you would probably need fewer than
15 controllers, because one PLC can easily run
many machines.
– Each of the 15 machines under PLC control would
have its own distinct program (or a portion of one
running program).

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PLC Advantages
Implementing Changes and Correcting
Errors
– With a wired relay-type panel, any program
alterations require time for rewiring of panels and
devices.
– When a PLC program circuit or sequence design
change is made, the PLC program can be changed
from a keyboard sequence in a matter of minutes.
– No rewiring is required for a PLC-controlled
system.
– Also, if a programming error has to be corrected
in a PLC control ladder diagram, a change can be
typed in quickly.

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PLC Advantages
Large Quantities of Contacts
– The PLC has a large number of contacts for each
coil available in its programming.
– Suppose that a panel-wired relay has four
contacts and all are in use when a design change
requiring three more contacts is made.
Time would have to be taken to procure and install a new
relay or relay contact block.
– Using a PLC, however, only three more contacts
would be typed in.
Contacts are now a “software” component

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PLC Advantages
Lower Cost
– Increased technology makes it possible to
condense more functions into smaller and less
expensive packages.
– Now you can purchase a PLC with numerous
relays, timers, and counters, a sequencer, and
other functions for a few hundred dollars.
Pilot Running
– A PLC programmed circuit can be evaluated in the
lab. The program can be typed in, tested,
observed, and modified if needed, saving valuable
factory time.
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PLC Advantages
Visual Observation
– A PLC circuit's operation can be seen during
operation directly on a CRT screen.
– The operation or mis-operation of a circuit can be
observed as it happens.
– Logic paths light up on the screen as they are
energized.
– Troubleshooting can be done more quickly during
visual observation.

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PLC Advantages
Ladder or Boolean Programming Method
– The PLC programming can be accomplished in the
ladder mode by an engineer, electrician or
possibly a technician. Alternatively, a PLC
programmer who works in digital or Boolean
control systems can also easily perform PLC
programming.
Reliability and Maintainability
– Solid-state devices are more reliable, in general,
than mechanical systems or relays and timers.
Consequently, the control system maintenance
costs are low and downtime is minimal.

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PLC Advantages
Documentation
– An immediate printout of the true PLC circuit is
available in minutes, if required.
– There is no need to look for the blueprint of the
circuit in remote files.
– The PLC prints out the actual circuit in operation
at a given moment.
– Often, the file prints for relay panels are not
properly kept up to date. A PLC printout is the
circuit at the present time; no wire tracing is
needed for verification.

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PLC Disadvantages
Fixed Program Applications
– Some applications are single-function applications. It does
not pay to use a PLC that includes multiple programming
capabilities if they are not needed.
– Their operational sequence is seldom or never changed, so
the reprogramming available with the PLC would not be
necessary.
Fail-Safe Operation
– In relay systems, the stop button electrically disconnects the
circuit; if the power fails, the system stops.
– This, of course, can be programmed into the PLC; however,
in some PLC programs, you may have to apply an input
voltage to cause a device to stop. These systems may not be
fail-safe.

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