With the design of the I/O system of a large PLC, the application engineer needs to determine the
local and peripheral I/O modules, their number and type per local or peripheral category, the com-
munication hardware and any other auxiliary equipment, and generally the overall I/O hardware
Basic Operating Principles of PLCs
◾
237
needed so that the PLC is connected to the controlled process. The design of the I/O system includes
counting I/O devices and the recording of their operational characteristics; grouping I/O devices
based on various criteria such as operating voltage, position, operational function, etc.; incorporation
of the I/O devices into the local or peripheral I/O system; and determination of the number and type
of required I/O modules and the required complementary communication equipment.
The design of the I/O system begins with counting the I/O devices and examining their opera-
tion. For example, we measure the power relays, various simple coils, light indicators, signaling
devices, control buttons, selector switches, sensors and, in general, any device that can be an input
or output to the PLC. By taking the positions and the characteristics of the I/O devices into con-
sideration, the ability to incorporate them into similar groups is investigated, either because they
exist on the same machine or in the same production process; because they are topographically
close and have a similar functionality; or because they have the same technical characteristics (e.g.,
nominal operating voltage). After determining the groups with the I/O devices, the selection of
the groups that will constitute the local I/O system and those that will constitute the peripheral
I/O system will follow. A prerequisite for defining the local and peripheral I/O system is the
determination of the location in which the PLC will be installed, a decision taken on the basis of
general technical and economic criteria.
An example would be the above design steps that are necessary for the configuration of the I/O
system of a central PLC, which will be better understood by means of a hypothetical automation
system. Figure 6.37 presents the topographic diagram of the departments of a hypothetical indus-
trial process. The PLC will be located in the area of the first department and will be connected to
its devices with local I/O equipment, while for connecting to the corresponding second and third
departments, peripheral I/O equipment will be utilized. Based on the I/O devices that have been
1st department, basic production
Motors DS = 20
Motors IR = 5
Motors S/D = 8
Buttons* = 6
Lamps* = 20
Limit switches = 20
Valve coils = 12
Photocells = 10
Proximity switches = 5
Signaling devices = 2
Analog inputs = 4
Analog outputs = 2
(*) These devices are additional over those required for handling, indicating operation of motors
DS = direct starting, IR = inversible rotation, S/D = star-delta starting
PLC location
Motors DS = 6
Motors S/D = 6
Lamps* = 8
Limit switches = 10
Photocells = 6
Rotational switches = 3
3rd department, packaging
2nd department, product processing
Motors DS = 12
Motors IR = 2
Motors S/D = 10
Limit switches = 5
Valve coils = 20
Photocells = 10
Proximity switches = 20
Signaling devices = 10
Analog inputs = 2
Analog outputs = 2
Figure 6.37 A small production procedure consisting of three departments controlled by a
central PLC.
238
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Introduction to Industrial Automation
counted in each department and the examination of their technical characteristics, a detailed
table of local and peripheral I/O devices can be synthesized. Table 6.2 shows the I/O devices
divided into three groups (columns), one including the local I/O devices and two including the
peripheral I/O devices for the second and third departments, respectively. This table shows also
the type, quantity, and technical characteristics of each device. From the technical characteristics,
we should only emphasize the ones that influence the choice of the I/O equipment of the PLC,
such as the nominal operating voltage of the I/O devices. Also included in the table are those
devices that have not been counted directly from consideration of the process, but are necessarily
imported by the automation system (circuit or program of automation) that the PLC will real-
ize. For example, the control buttons of any kind of motors do not result from counting, but are
imported necessarily by the automation circuit, since the latter provides the possibility of manual
control of the motors in addition to any automatic operation. The same is valid for the indication
lights of a motor’s operation. To meet the I/O equipment requirements identified in Table 6.2,
PLCs with similar capabilities are assumed. These capabilities of PLCs concern the RAM (> 4 K),
Table 6.2 Local and Peripheral I/O Devices of the Industrial Production Application
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