KR101892385B1 - Profibus decentralized periphery network organization system - Google Patents

Abstract

A system for automatically configuring a PROFIBUS DP network according to an exemplary embodiment of the present invention includes a live list processing unit for scanning one or more slave devices connected to a network, a slave for extracting identification information of each slave device scanned by the live list processing unit, Output information processing unit for extracting input / output information of each of the slave devices based on the identification information of each of the slave devices extracted by the slave diagnostic information processing unit, the input / output information extracted by the input / output information processing unit and the slave devices And an automatic scan processing unit for generating operation parameters of each of the slave devices by combining analysis results of the operation support file.

Description

PROFIBUS DP network automatic configuration system {PROFIBUS DECENTRALIZED PERIPHERY NETWORK ORGANIZATION SYSTEM}

One embodiment of the present invention relates to a PROFIBUS DP network automatic configuration system, and more particularly, to a PROFIBUS DP network automatic configuration system that automatically generates operation parameters of each slave apparatus based on an operation support file.

PROFIBUS is one of the industrial communication protocols of international standard IEC 61158 and is used for real-time communication between field equipments in various fields including production, process control and building automation.

The PROFIBUS can be divided into PROFIBUS (Field Message Specification), PROFIBUS DP (Decentralized Periphery) and PROFIBUS PA (Process Automation) depending on the field of application.

Of these PROFIBUSs, Profibus DP is the most widely used for factory automation.

The PROFIBUS DP network is composed of a master device and a plurality of slave devices for inputting and outputting data, and the communication between the master device and the plurality of slave devices is performed by a network configuration ) Information.

To this end, the user analyzes the operation support file (GSD, General Station Description) through the operating software of the terminal device, sets operating parameters, and transmits the operational parameter to the master device connected to the operating software to drive the entire PROFIBUS DP network.

However, up to 126 slave devices can be connected to the PROFIBUS DP network system, and the operation support file for defining the operation parameters of the slave device is composed of various keywords (for example, 190 keywords conforming to the GSD Specification 2.0 standard) The types of operation parameters to be manually set by a user for driving each of a plurality of slave devices are very diverse.

There is no way to confirm the consistency of the operating parameters between the physical configuration of the network and the logical configuration set by the user on the operating software at the initial stage of the PROFIBUS DP network.

If, for this reason, an error occurs in setting the operation parameters of each of the plurality of slave devices by the user and an error occurs between the physical configuration of the network and the logical configuration set by the user on the operating software, it takes a long time to correct the error .

The present invention relates to a PROFIBUS DP network automatic configuration system that automatically generates operation parameters of slave devices based on an operation support file, thereby preventing an error occurring when an operation parameter is generated due to an increase in the number of slave devices And to provide the above objects.

In addition, the present invention can reduce the operation parameter setting work amount of the user by automatically generating the operation parameter of each slave device, and eliminate the possibility of inconsistency between the physical configuration and the logical configuration on the operating software, And to provide a PROFIBUS DP network automatic configuration system.

It is another object of the present invention to provide a PROFIBUS DP network automatic configuration system which can prevent a user error by automatically inputting operation parameters of each slave device and thereby shorten the time required from the network configuration to the actual operation do.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention which are not mentioned can be understood by the following description and more clearly understood by the embodiments of the present invention. Also, the objects and advantages of the invention will be readily appreciated that this can be realized by the means as claimed and combinations thereof.

In order to achieve the above object, a PROFIBUS DP network automatic configuration system includes a live list processing unit for scanning one or more slave devices connected to a network, slave diagnostic information for extracting identification information of each slave device scanned by the live list processing unit, An input / output information processing unit for extracting input / output information of each of the slave devices on the basis of the identification information of each of the slave devices extracted by the slave diagnostic information processing unit, and input / output information extracted by the input / And an automatic scan processing unit for generating operational parameters of each of the slave devices by combining analysis results of the files.

According to the present invention, an operation parameter of each slave device is automatically generated on the basis of an operation support file, so that an error generated when an operation parameter is generated due to an increase in the number of slave devices can be blocked have.

In addition, according to the present invention, since the operation parameters of each of the slave devices are automatically generated, it is possible to reduce the operation parameter setting work amount of the user and eliminate the possibility of inconsistency between the physical configuration and the logical configuration on the operating software, .

Further, according to the present invention, there is an advantage that the time required from the network configuration to the actual driving can be shortened by preventing the user's error by automatically inputting the operation parameters of each of the slave devices.

1 is a view for explaining a conventional PROFIBUS DP network system.
2 is a block diagram for explaining an internal structure of the terminal device of FIG.
3 is a block diagram illustrating an internal structure of an apparatus for automatically configuring a PROFIBUS DP network according to an embodiment of the present invention.
4 is a flowchart illustrating an automatic configuration method of a PROFIBUS DP network according to an embodiment of the present invention.
5 is a flowchart illustrating a method of automatically configuring a PROFIBUS DP network according to another embodiment of the present invention.

The above and other objects, features, and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings, which are not intended to limit the scope of the present invention. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to denote the same or similar elements.

1 is a view for explaining a conventional PROFIBUS DP network system.

1, the PROFIBUS DP network system includes a master device 10, a plurality of slave devices 20_1 to 20_N, a terminal device 30 and a PLC 40. [ At this time, the master device 10 and the plurality of slave devices 20_1 to 20_N are connected by a PROFIBUS so that they can transmit predetermined data to each other.

The master device 10 is a device for controlling each of a plurality of slave devices 20_1 to 20_N by providing a control command to a plurality of slave devices 20_1 to 20_N according to the information received from the terminal device 30. [

That is, when the master device 10 receives the operating parameters of each of the plurality of slave devices 20_1 to 20_N via the operating software of the terminal device 30, the master device 10 determines the operating parameters of the plurality of slave devices 20_1 to 20_N And provides them to each of the plurality of slave devices 20_1 to 20_N after generating the control command.

At this time, the operation parameter is generated by the user based on the operation support file for each slave device. These operating parameters will be described in more detail in the following terminal device 30.

The plurality of slave devices 20_1 to 20_N are devices that operate according to a control command upon receiving a control command from the master device 10. [

The terminal device 30 is provided with operating software for transmitting information necessary for network configuration to the master device 10, communicating with the master device 10, and monitoring the entire network.

When the operation support file for each slave device is input to the operating software of the terminal device 30, the terminal device 30 analyzes the operation support file for each slave device and provides basic information necessary for the user to configure the PROFIBUS DP network The user may modify the slave device to each slave device so that the operating parameters of each of the slave devices are set.

Thereafter, when the terminal device 30 provides the operating parameters of each of the slave devices to the master device 10, the master device 10 transmits the operation parameters of each of the slave devices 20_1 to 20_N Generates control commands for controlling the operation and provides them to each of the plurality of slave devices 20_1 to 20_N.

The operation parameters of each of the slave devices are generated by the user based on the operation support file for each slave device. The operation support file for each slave device described above is a file that the manufacturer of the PROFIBUS device describes the specification of the device and distributes to the user according to the protocol defined by the PNO (PROFIBUS User Organization). Such an operation support file for each slave device includes various keywords (for example, 190 keywords based on Specification 2.0 specification standard).

That is, the user analyzes the operating support file for each slave device provided by the manufacturer of the PROFIBUS device using the operating software of the terminal device 30, and then sets the operating parameters of each of the slave devices so that the master device 10 To configure the PROFIBUS DP network.

However, up to 126 slave devices can be connected to the PROFIBUS DP network system, and since the operation support file defining the operation parameters of the slave device is composed of various keywords (for example, 190 keywords), a plurality of slave devices There are many kinds of operation parameters that the user must set manually for each driving, and the amount of the operation parameters is too large to set correctly.

There is no way to confirm the consistency of the operating parameters between the physical configuration of the network and the logical configuration set by the user on the operating software at the initial stage of the PROFIBUS DP network.

If, for this reason, an error occurs in setting the operation parameters of each of the plurality of slave devices by the user and an error occurs between the physical configuration of the network and the logical configuration set by the user on the operating software, it takes a long time to correct the error .

2 is a block diagram for explaining an internal structure of the terminal device of FIG.

2, the terminal device 30 includes a data input unit 31, an output display unit 32, an operation support file input unit 33, a setting logic processing unit 34, a communication processing unit 35, .

The data input unit 31 receives data for setting operation parameters for each slave device based on the basic information necessary for configuring the PROFIBUS DP network, and provides the data to the setting logic processing unit 34.

That is, when the user inputs data for setting operation parameters for each slave device based on the basic information necessary for constructing the PROFIBUS DP network displayed through the output display unit 32, the data input unit 31 inputs the data And provides the setting logic processing unit 34 with the setting information.

For example, the data input unit 31 may provide the configuration logic processing unit 34 with basic information necessary for configuring the PROFIBUS DP network by the user, in accordance with the slave device connected to the physical network.

However, when the operation parameter setting of the slave device is manually set through the data input unit 31, as the number of devices constituting the PROFIBUS DP network increases, the types of operation parameters to be set by the user are very various And there is a problem that the correct setting is difficult due to a large amount.

The output display unit 32 displays basic information necessary for configuring the PROFIBUS DP network under the control of the setting logic processing unit 34. [ The reason for this is to allow the user to set operational parameters for each slave device through the data input unit 31 by displaying the basic information necessary for configuring the PROFIBUS DP network.

The operation support file input unit 33 receives an operation support file (General Station Description) for each slave device. At this time, the operation support file for each slave device is a file that the manufacturer of the PROFIBUS device describes the specification of the device and distributes to the user according to the protocol defined by the PNO (PROFIBUS User Organization). Such an operation support file for each slave device includes various keywords (for example, 190 keywords based on Specification 2.0 specification standard).

Then, the operation support file input unit 33 analyzes the operation support file for each slave device and provides basic information necessary for configuring the PROFIBUS DP network. Here, the basic information necessary for configuring the DP network includes the slave device identification information, input / output information, and the like. Input / output information among the basic information necessary for configuring the DP network means input information input according to the specification of each slave device and output information output according to input information.

In one embodiment, the operation support file input unit 33 may analyze the operation support file for each slave device and extract the input / output information for each identification information of the slave device to provide basic information necessary for configuring the PROFIBUS DP network.

The setting logic processing unit 34 displays basic information necessary for configuring the PROFIBUS DP network analyzed by the operation support file input unit 33 through the output display unit 32. [

When the setting logic processing unit 34 receives the data for setting the operating parameters for each slave device from the data input unit 31, it compares the data for setting the operating parameters for each slave device and the configuration information for each slave device stored in the shared memory 36 And checks the validity and correlation of the data received from the data input unit 31 and outputs the data through the output display unit 32.

The communication processing unit 35 provides network configuration information (i.e., operation parameters for each slave device) to the master device under the control of the setting logic processing unit 34. [ Accordingly, the master device can control the operation of each of the slave devices existing on the PROFIBUS DP network according to the operation parameter of each slave device.

The shared memory 36 stores configuration information for each slave device. At this time, the configuration information for each slave device stored in the shared memory 36 can be a basis for checking the validity and correlation of the data received through the data input unit 31. [

3 is a block diagram illustrating an internal structure of a PROFIBUS DP network automatic configuration system according to an exemplary embodiment of the present invention.

3, the PROFIBUS DP network automatic configuration system includes a data input unit 110, an output display unit 120, an operation support file input unit 130, a setting logic processing unit 140, a communication processing unit 150, An automatic scan processing unit 170, a live list processing unit 171, a slave diagnostic information processing unit 172, and a slave input / output information processing unit 173.

The operation support file input unit 130 receives an operation support file (General Station Description) for each device. At this time, the operation support file for each device is a file that the manufacturer of the PROFIBUS device describes the specification of the device and distributes it to the user according to the protocol defined by the PNO (PROFIBUS User Organization). Such an operation support file for each slave device includes various keywords (for example, 190 keywords based on Specification 2.0 specification standard).

Then, the operation support file input unit 130 analyzes the device-specific operation support file and provides basic information necessary for configuring the PROFIBUS DP network to the automatic scan processing unit 170. [

In one embodiment, the operation support file input unit 130 extracts input / output information for each identification information of the slave device through analyzing operation support files for each device, and supplies basic information necessary for configuring the PROFIBUS DP network to the automatic scan processing unit 170).

For example, the operation support file input unit 130 analyzes an operation support file for each device and extracts angles, speeds, and the like as input / output information corresponding to the identification information AAA of the slave device and provides the extracted information to the automatic scan processing unit 170 .

The live list processing unit 171 scans the slave devices connected to the physical network and provides them to the slave diagnostic information processing unit 172 and the automatic scan processing unit 170. [ More specifically, when the slave device connected to the physical network is scanned, the live list processing unit 171 scans the slave devices connected on the physical network and determines the slave devices normally connected to the slave devices I understand.

The slave diagnostic information processing unit 172 obtains the identification information of each of the slave devices based on the processing result by the live list processing unit 171 and then transmits the identification information of each of the slave slave devices to the slave input / output information processing unit 173 and the automatic scan processing unit 170).

The slave input / output information processing unit 173 grasps the input / output information of each of the slave devices based on the processing result of the slave diagnostic information processing unit 172. [ More specifically, the slave input / output information processing unit 173 can request input / output information of each slave device to the master device through the communication processing unit 150 connected to the automatic scan processing unit 170, and can grasp the input / output information of each slave device.

The automatic scan processing unit 170 analyzes the processing results of the live list processing unit 171, the slave diagnostic information processing unit 172 and the slave input output information processing unit 173 and the analysis result of the operation support file by the operation support file input unit 130 To generate operating parameters of each of the slave devices.

In one embodiment, the automatic scan processing unit 170 determines whether the identification information of each of the slave devices extracted by the slave diagnostic information processing unit 172 among the analysis results of the device-specific operation support file by the operation support file input unit 130 exists .

In the above embodiment, the automatic scan processing unit 170 determines whether the identification information of each of the slave devices extracted by the slave diagnostic information processing unit 172 among the analysis results of the device-specific operation support file by the operation support file input unit 130 exists , The input / output information corresponding to the identification information of each slave device is extracted.

The automatic scan processing unit 170 then stores the operation parameters of each of the slave devices in the shared memory 160 so that the setting logic processing unit 140 can provide the user with the operation parameters via the data input unit 110 and the output display unit 120 .

4 is a flowchart illustrating an automatic configuration method of a PROFIBUS DP network according to an embodiment of the present invention. One embodiment disclosed in FIG. 4 relates to an embodiment in which operation parameters of each slave device can be generated based on the analysis result of the device-specific operation support file.

Referring to FIG. 4, the PROFIBUS DP network automatic configuration system analyzes an operation support file for each device (step S410). The PROFIBUS DP network automatic configuration system determines whether identification information of each of the slave devices connected to the physical network among the analysis results of the device-specific operation support file exists (step S420).

In the PROFIBUS DP network automatic configuration system, if there is identification information of each of the slave devices connected to the physical network among the analysis results of the device-specific operation support file (step S421), the analysis result of the device-specific operation support file Output information corresponding to the identification information of each slave device (step S430).

The PROFIBUS DP network automatic configuration system uses the input / output information of each of the slave devices connected on the physical network among the input / output information corresponding to the identification information of each of the slave devices extracted from the analysis result of the device operation support file, (Step S440).

5 is a flowchart illustrating an automatic configuration method of a PROFIBUS DP network according to an embodiment of the present invention. One embodiment disclosed in FIG. 5 relates to an embodiment in which information of a slave device connected to a physical network can be grasped.

Referring to FIG. 5, the PROFIBUS DP network automatic configuration system scans a slave device connected to a physical network (step S510). The PROFIBUS DP network automatic configuration system extracts identification information of each slave device connected to the physical network (step S520).

The PROFIBUS DP network automatic configuration system extracts the input / output information of each of the slave devices based on the identification information of each of the slave devices (step S530).

In one embodiment of operation S530, in the PROFIBUS DP network automatic configuration system, the terminal device can extract the input / output information of each slave device by requesting the master device for the input / output information of each of the slave devices.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, the spirit of the present invention should be understood only in accordance with the following claims, and all equivalents or equivalent variations thereof are included in the scope of the present invention.

Claims (6)

An operation support file input unit for analyzing an operation support file for each slave device and generating basic information;
A live list processing unit for scanning one or more slave devices connected to the physical network;
A slave diagnostic information processing unit for extracting identification information of each of the slave devices scanned by the live list processing unit;
An input / output information processing unit for extracting input / output information of each of the slave devices corresponding to the identification information of each of the slave devices extracted by the slave diagnostic information processing unit;
An automatic scan processing unit for generating operation parameters of each of the slave devices by combining input / output information and basic information of each of the slave devices and storing the generated operation parameters in a common memory; And
And a setting logic processor for providing operating parameters of each of the slaves stored in the shared memory to the output display,
The input /
And input information input according to the specification of each of the slave devices and output information output according to the input information.
PROFIBUS DP network automatic configuration system.
delete delete The method according to claim 1,
The input / output information processing unit
Output information of each of the slave devices through the communication processing unit, receives input / output information of each of the slave devices from the master device through the communication processing unit, and outputs input / output information corresponding to the identification information of each of the slave devices Is extracted.
PROFIBUS DP network automatic configuration system.
5. The method of claim 4,
The automatic scan processing unit
Output information corresponding to identification information of each of the slave devices extracted from the basic information on the analysis result of the operation support file for each slave device, the input / output information of each of the slave devices extracted by the input / Characterized in that the operating parameters of each of the devices are generated
PROFIBUS DP network automatic configuration system.
The method according to claim 1,
The operating parameters of each of the slave devices
Characterized in that the master device is used for controlling the slave device by being provided to each of the slave devices by the master device after being transmitted to the master device
PROFIBUS DP network automatic configuration system.

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