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Structure of PLCs

Several bus systems and PLC controllers can be managed in an EPLAN project. Several bus systems may be connected to a single PLC, or a single bus system may contain several PLCs. To distinguish between several PLC controllers within a project, the addresses are assigned to a processor (i.e., a CPU).

Configuration projects

The so-called configuration projects can be used to define subsets of PLC devices within an EPLAN project. All PLC boxes, bus ports and I/O connection points assigned to the same configuration project belong together and represent a PLC configuration. In the process the I/O connection points are automatically assigned to a configuration project via the respective PLC box. The data of the resulting specified set of devices can be exchanged with the PLC configuration programs of various PLC manufacturers. Using the Configuration project property it is possible to export and import, for example, a complete PLC controller, different networks together, or parts of a network.

A configuration project can contain several stations and bus connection points. Stations are subsets of PLC devices within a configuration project and can contain several racks with PLC devices as well as one or several CPUs. The rack and the CPU are represented in the project by PLC boxes.

For a successful data exchange at least one CPU must exist on the main rack within a configuration project. A CPU is uniquely identified by specification of the CPU name in the form [Configuration project].[Station ID].[CPU identifier].

PLC configurations

Bus systems and bus ports must be represented graphically on single-line or multi-line schematic pages so that the network structures are included during the PLC data exchange. For the PLC data exchange in the AutomationML format the network structure to be replaced is determined from the single-line or multi-line bus ports connected to each other. For all other formats only the single-line representation is considered. "Bus connection points" are PLC connection points with the "Network / bus cable connection point" function definition. With the exception of PLC functions, general functions (e.g. converters, motors, valves, etc.) can be part of a bus system or network.

An additional overview display is possible. It is not used for the determination of the network structures.

Tip:

For the sake of clarity, we recommend using the single-line representation. If bus ports are drawn both as single-line and multi-line, we recommend entering the bus data at the single-line bus ports.

When PLC configuration files are imported, the individual bus ports are identified on the basis of the combination of bus interface name and plug designation. The connection point designation is not identifying and can be omitted.

Bus capable devices

Bus-capable devices are converters, motors, valve terminals, etc. that, in addition to the actual function, have one or more bus ports, but no I/O connection points. Such devices can be defined via the common DT or be configured as a black box. The resultingly structured devices are taken into consideration during the export and import of PLC configuration files.

PLC devices are always to be configured as PLC boxes. These are:

Tip:

If you want to display certain properties (for example the bus ID) of the single-line bus ports at the associated PLC box or device, you can use the block properties to this purpose. When editing the format properties belonging to a block property the Format dialog provides the format element Network / bus cable connection point (single-line) of the device with the index values 1 to 5. This format element allows the data of the first five single-line bus ports of the device to be accessed and these to be displayed at the PLC box / device in the case of PLC devices bus-capable devices.

PLC cards

A bus system or a PLC usually contains several PLC cards, e.g., digital input or output modules. These are represented on the schematic by PLC boxes; a card can also be represented in distributed form using several boxes. In this case the PLC card data must be entered at the PLC box declared as the main function. You can also enter data at the other boxes, but this is not taken into account in reports.

Card power supplies

The PLC cards of a PLC or of a bus system also receive their operating voltage via separate power supply connection points (card power supply). Card power supply connection points and channel power supply connection points are usually represented separately. In EPLAN, multiple card power supply connection points can have the same connection point description.

Racks and head stations

PLC cards are usually mounted on a rack or adjoined at a head station. Such a rack is configured as a PLC box in EPLAN. EPLAN assumes that devices on the same rack are connected by means of a "backplane". This is not configured separately.

A head station is the first PLC card of a station (also "field bus station") and includes the bus ports. Such a head station is simultaneously always a rack. Additional PLC cards can both be adjoined next to the head station, placed on the head station or integrated into it.

Drives

Drive systems consist of different components such as motors, converters, sensors etc. To group such components belonging to a drive in EPLAN, the indexed property Drive [1-10] (ID 20576) is available at the functions in the schematic. With this property up to ten drives can be assigned to a function.

In the drive-oriented view of the PLC navigator, the PLC data within the project structure is assigned according to the drives. The Drive property is identifying at the display in the tree view and therefore in one language.

For functions that are assigned to a drive you specify the type of device more precisely in the property Drive: Device type (ID 20577), for example "Synchronous motor", "Converter", "Encoder", etc. The property is displayed in the part reference data. The values to be entered in the device type are as a rule specified by the manufacturer.

With the part property of the same name Drive: Device type (ID 40349) you can store the device type at the part. During a part selection the device type is transferred to the function.

See also