EP2531911A1

EP2531911A1 - Macro management system for an engineering system for parameterizing switchgear

Info

Publication number: EP2531911A1
Application number: EP11716860A
Authority: EP
Inventors: Andre Turnaus
Original assignee: Siemens AG
Current assignee: Siemens AG
Priority date: 2010-05-03
Filing date: 2011-04-13
Publication date: 2012-12-12
Also published as: US20130055122A1; KR101639199B1; CN102870091A; KR20130077831A; WO2011138134A1; CN102870091B; DE102010019142A1

Abstract

The invention relates to a macro management system (1) for an engineering system (2) for parameterizing switchgear using core modules. The invention is distinguished by the fact that the macro management system has, as core modules, a creation module (4) which is designed to create macros (13), a display/catalogue module (5) which is designed to present all macros (13) present in the system (1), an import module (6) which is designed to integrate already existing macros (13) into the system (1), and an export module which is designed to distribute macros (13) which have already been created. The macro management system (1) is connected to a graphical user interface (3) of the engineering system (2), and the project engineer can be guided, with various options, to a restricted final selection of macros (13) via a plurality of question levels (20, 21, 22).

Description

description

Macromanagement system for an engineering system for the parameterization of switchgear

The invention relates to a macro-management system for an engineering system for the parameterization of switching devices.

In the field of industrial automation technology controllers and field devices are used. Modern and complex field devices (for example, safety relays, Motormana ^¬ management systems) are distinguished inter alia in that they have a plurality of parameters. By these parameters, they can be adapted to the actual conditions of use in the field (for example, current limits, Alarmschwel ^¬ len, internal time blocks, internal counters etc.). This Gerä ^¬ device parameters are determined by the configuration of the system with the help of an engineering system and then downloaded to the device. Also available for the project engineer usually an engineering system, which is a dialog-based parametrics ^¬ tion or a graphical parameterization made light ^¬. Controls (for example, PLC, IPC, CNC) control programs created by the user are able to cyclically elaborate from ^¬. In this way, freely definable control functions can be assigned to the controller. This in turn results in different possibilities for the project engineer with the help of an engineering system to create a control program. The project engineer, for example, rely on ^¬ classic PLC languages (for example, LD, FBD, STL), high-level languages (eg SCL), as well as a graphical programming via function block diagrams (Continuous Function Chart CFC). In graphic programming, prefabricated function ^blocks are connected to one another in a plan. The plans are then translated by the engineering system in the control program and to the target system (CPU) ge ^¬ load. Low-voltage switchgear (for example, motor starters, Mo ^¬ gate management systems or security systems) increasingly are characterized by a large number of device parameters and device functions. Complex switchgear is also able to process application logic (eg safety programs), allowing it to be flexibly adapted to the needs of the field.

The parameterization of these complex electronic Schaltgeräte usually takes place on the basis of an engineering ^¬ system, which provides the device both logic and parameters available. A modern engineering system also has a graphical user interface (GUI, Graphical User In ^¬ Interface), which makes it easy to project engineer who parameterize corresponding devices.

One aspect of the graphical user interface of the engineering system is to make functions offered by the device selectable by the configuration engineer within a function catalog and to be interconnectable in a function diagram. In such a function block diagram of the configuration engineer can interconnect function blocks together and create a complete tailored to the specific application Funktionslo ^¬ gic in this way.

With the increasing complexity of the switching devices and the increasing parameterizability, the complexity and scope of the application logic to be created in the function diagram also increases. The effort to create error-free function diagrams for a device or an entire system increases considerably without any auxiliary measures, that is to say, increased support by the engineering system. At the same time, the size of the functional logic increases the test effort and the error probability.

In order to master the increasing complexity, the systematic reuse of already created and tested functional units lends itself. However, this system will Matic reuse of prefabricated solutions often hampered by missing or insufficient documentation of the partial solutions, lack of concrete technical assistance by the engineering system when using the partial solution and by lack of assistance in the selection of the partial solution, especially in the presence of very similar partial solutions. The selection of a wrong partial solution or its incorrect application is usually cost-intensive, as this often leads to a redesign of the overall solution.

Accordingly, the object of the present invention is to provide a macro-management system for an engineering system for the parameterization of switching devices, in which the project engineer of a plant is a repertoire of ready-made partial solutions available, which he can use targeted and technically correct to in a short time for to get solve an automation task, especially Paramet ^¬ turing the switching devices involved. This task is accomplished by a macro-management system with the

Characteristics of claim 1 solved. Advantageous embodiments and developments, which can be used individually or in combination with each other, are the subject of the dependent claims.

This object is a macro management ^¬ system for an engineering system for parameterizing

Switchgear with the following core modules solved: - a build module that is designed to create macros;

a display module designed to present all the macros present in the system;

an import module designed to integrate existing macros into the system;

- an export module designed to distribute already created macros, wherein the macro-management system is connected to a graphical user interface of the engineering system and where ^¬ in the project engineer on a plurality of question levels with different options for a limited final selection of macros is feasible.

A macro is a reusable partial solution of a parameterization. An engineering system is a computer-based system for the conception of an automation solution, in particular for the parameterization of switching devices.

The system according to the invention is characterized in that it is connected to an engineering system for programmable switching devices and, in particular, to its graphical user interface (GUI). In addition, this system is modular, that is, it contains core modules ^¬ which fulfillment the main tasks of the management system ^¬ len. Furthermore tegriert in the system various subsystems domestic that support the core modules in meeting their on ^¬ reproducing. These subsystems provide access interfaces through which they offer their services. The macro management system manages an unlimited number of macros and makes them available to the engineering system when needed.

The four core modules are formed by the Erstellungsmo ^¬ dul, the display module, the export module and import module. The creation module serves to create or create macros. When creating a macro, all components that make up a macro are taken into account. Macros can also be created by the Erstel ^¬ development module in different ways, entwe ^¬ by a graphical user interface (dialogs) or program-technically interface calls. Newly created macros are added to the system. The display / Catalog module is responsible for the presen tation ^¬ all in the system of existing macros on the user interface. All displayed macros are offered to the project engineer for selection and use. The module fulfills two functions, on the one hand the hierarchical presentation, on the other hand the user administration. Macros can be placed in main categories and subcategories of any hierarchy depth. This facilitates the selection of particularly at a large number of macros ^¬ SEN. In addition, macros can be arranged according to various technical or other criteria. The hierarchy can be defined either by the macro itself, that is, the hierarchy information optionally contained therein, or by the configuration engineer. The macro-ma- nagement system can be configured so that the project engineer can make changes to the hierarchy or that changes in this regard are blocked.

The user administration provides that the users can be assigned to user groups. Depending on the user group, the selection of displayed macros may be different. This has the advantage that each user group can be offered a specific selection of macros depending on the function (for example, project engineers, testers, commissioning engineers). It is also conceivable to set up a licensing model for an engineering system based on this feature by offering more or less macros depending on the license.

The import module is able to integrate existing macros created by another configuration engineer into the system. This has the advantage of further increasing the reusability of found solutions since the solutions can be exchanged between users or provided centrally to a group of users. The import of macros is done either via a graphical interface (dialogs), programmatically by interface calls, if necessary via a batch system from the outside or alternatively via an automatic or manual update. The destination of this latter function may be a proprietary server or an Internet address. In all cases it is possible to import an unlimited number of macros.

The export module is the counterpart to the import module. Part ^¬ solutions that have been created can be distributed in this way. The special feature here, however, that the ex ^¬ port module can be connected to a converter component to convert the export data in different formats in order to pass it on to other systems.

In a particularly advantageous embodiment, it is provided that the macro-management system has subsystems in addition to the core modules, which support the core modules in the fulfillment of the task. The online help subsystem is able to display a multi-page structured description text. The content of the text is hereby makrospezi ^¬ fish. For this purpose, a unique key of the macro is passed to the subsystem. The online help subsystem is controlled by the import module and the display / catalog module, as the online help can be displayed both during the import process and during actual use. The online help subsystem can visualize himself or this, a separate module, the Be ^¬ stand part of the engineering system or completely outside the Sys ^¬ tems is to use the online help either. The content of the macro-specific online help is part of the documentation data of the macro. The document display subsystem serves to visualize additional documentary ^¬ elements such as manuals and reference books, which are linked to a macro. The reason ^¬ sätzlichen mechanisms similar to those of the online help. This supports the different formats that are currently in use (doc, pdf, rtf, etc.). The list of supported formats can be extended later by installing additional format filters. The documents that are visualized by this subsystem can either be stored physically in the macro itself, that is, in the documentation data, or alternatively be accessible via a reference. The document display subsystem ert angesteu- the import module and the display / Catalog module, since macro-specific documents in the context of the can be displayed in ^¬ port program and in actual use.

The short description subsystem is able to display short description texts used for macro selection. The subsystem provides the import module and the display / catalog module with a macro-specific short text that is helpful when importing or using macros. Brief descriptions are part of the documentation data of the macro.

In addition, the macro-management system has a selection system that serves to help the user to make a selection of macros for the technical problem. Macro selection is important when using a macro and importing it.

According to the macros from different Bestandtei ^¬ len composed. These include function blocks, interconnections, device parameterizations, documentation data, hierarchy information and selection metadata.

The function blocks are functions that are offered by the switching device and are selected on the user interface of the engineering system and all in one

Function chart can be parameterized. Function blocks have inputs and / or outputs in order to be able to interconnect them with other function blocks. Typical examples of function blocks are monitoring blocks (for example emergency stop) or logic blocks.

Interconnections are connections between inputs and outputs of function blocks. The entirety of the function modules ne with the intervening links forms the function plan and the application logic.

A switching device offers a variety of device parameters, such as load type, cooling time, threshold values. Also functi ^¬ onsbausteine can be set as a rule, for example, the limit for counter blocks. All these parameters form the parameterization and are components of a macro. In the documentation data is additional Informa ^¬ tions that support the project engineers when importing macros in their use and continuing with the parameter.

The hierarchy information is used to classify the macro in a technological hierarchy. The information consists of all categories and subcategories in which the macro is arranged. The display / catalog subsystem evaluates this information and places the macro in the respective catalog area, with the specified categories being recreated if necessary.

The selection metadata represents the database on which the selection system guides the user to a solution-oriented selection of a macro.

The gist of the present invention is to guide the designer to a limited final selection of macros across multiple question levels and different options at each question level. The list of available macros at the end of the selection process depends on the options path that the project engineer has completed. The macros in the final selection usually differ only slightly. The final selection can now be made using the short description of the macro or a live preview. In the second case, the macro is temporarily generated in the macro management system and generates therefrom a visualization without integrating the macro even in the engineering ^¬ ring system. The purpose is to give the user an overview of the structure of the macro. Optionally, a function test could already offered here who ^¬. A macro is selected in this way, is integrated in the connection to the engineering system instantiated in functi ^¬ onsplan is designed depending on the initial selection process in which context. The selection metadata includes all the information required to describe exactly one option path, that is, a set of options to be selected across the question levels that leads to this macro. In doing so, certain rules are taken into account:

1. Several macros (macro 1, macro 2, macro 3) can describe the same option path. In this case, these macros are offered in the final selection. A final selection can then be made with the help of live

Preview or short description.

2. The number of tripple (consisting of question level, question in text form, option) is not limited, it determines the number of question levels of an option path. The

Number of question levels may be different for different macros.

3. If a macro refers to a question layer to an existing question level by moving to the ^¬ chen ID, so the options are at this level to the option that is described in this macro expands. If a non-existent question level is specified, a new question level is created from this. Overall, it is integrated through all the macro-management system

Macros spanned a hierarchical question / option tree.

The live preview serves to support the project engineer in the final selection of the macro. To this end, the macro tempo ^¬, temporarily and instantiated locally in the selection subsystem and is visualized. The selection subsystem accesses the visualization on the engineering system and in particular on its graphical GUI and their programming interfaces. The advantage of this live preview, ie a dynamic visualization generated at the selection time, as opposed to a static display of an image that could be stored in the macro, is that the preview always adapts to the engineering system. If changes to the graphical interface are specifically made the representation of the function plan with an update, the display will fit reasonable in the live preview ^¬ there automatically. The advantage of the previous point is that, for a version change described here, the selection metadata need not be changed. In contrast to a static image, the live preview is scalable without effort and without loss of quality. The graphical scaling is done by the engineering system with its GUI. In addition, functions for the preview can be adopted in the selection system. It also adds that the display can be made more dynamic. It is conceivable that the selected macro is simulated in advance to test the behavior of the macro in advance. These, too, would facilitate the selection ei ^¬ nes macros.

The concrete realization of the selection system is not defined by the invention. Also, the selection metadata in the macros describe only the questions of the question levels and the options, but not the technical design of the system itself. The following design options are conceivable: 1. A multi-level dialog with one question level and one option list on one page.

2. A dialog with a tab for each

Question level. The configuration engineer will be listed in order of all tabs. 3. A non-vertical dialog in which all question levels including options are displayed. The main advantage of the macromanage system according to the invention is the modular design. Hauptfunktionalitä ^¬ th covered by core modules. Possible extensions can be introduced by additional modules. The sub ^¬ systems that act as a service provider for the core modules, contribute to a clear overall structure of the Makromanagementsys- tems. There is only a small interface to the engineering system. The macro-management system works largely autonomously. This facilitates the design and Realisie ^¬ tion of the entire system. Also inventive is the specific structure of the macros. The macros not only contain the purely configuration-technical content, but also documentation data and selection data. Another advantage is that all the macros a hierarchical selection system be ^¬ writes. No further information needs to be deposited elsewhere for the selection of macros. As long ^¬ ren advantage is to still call the live preview, which is taken the place of static images.

Further advantages and embodiments of the invention will be explained below with reference to exemplary embodiments and with reference to the drawing.

1 shows a schematic illustration of an inventive modular macro-management system for parameterizable

Switching devices;

FIG. 2 is a schematic representation of the composition of a macro; FIG. Fig. 3 in a perspective view of the selection system according to the invention over several question levels with different options. 1 shows the structure of a modular macro-management system for programmable switching devices. The modular macro-management system 1 according to the invention is characterized in that it is connected to an engineering system 2 for parameterizable

Switching devices and in this case in particular its graphical user interface 3 (GUI, Graphical User Interface) is connected. The macro-management system 1 has a modular structure, that is, it contains core modules that fulfill the main tasks of the management system. Furthermore, various subsystems can be integrated into the system, which support the core modules in the fulfillment of their task. These subsystems provide access interfaces for their services.

The macro-management system 1 manages an unlimited number of macros and makes them available to the engineering system 2 as needed. The four core modules include build module 4, which is used to create macros. When creating a macro, all components that make up a macro are taken into account. Macros can be generated by the creation module 4 in different ways he ^¬, either through a graphical user interface or programmatically through interface calls. Newly created macros are added to the system 1. The Ad / Catalog module 5 is responsible for the pre ^¬ presentation of all existing in the system 1 macros on the user interface 3. All displayed macros are available to the planning engineer to select and use. The import module 6 is able to integrate existing ^macrocycles into the system 1. This has the advantage of further increasing the reusability of found solutions because of solutions between users exchanged or centrally provided to a group of users. The import of macros is done either through a graphical interface, program ^¬ technically interface calls from outside or alter- natively an automatic or manual update. The destination of this latter function may be a proprietary server or an Internet address. In all cases it is possible to import an unlimited number of macros.

The export module 7 forms the counterpart to the import module 6. Part solutions that have been created can be distributed in this way. However, the special feature here is that the export module 7 can be connected to a converter component 8 in order to convert the export files into various formats so that they can be passed on to other systems.

Furthermore, subsystems are mentioned in FIG. 1. The online help subsystem 9 is capable of displaying a multi-page structured description text. The content of the text is macro specific. For this purpose, a unique key of the macro is passed in subsystem 9. The online help subsystem 9 is controlled by the import module 6 and by the display / catalog module 5, since the online help is available both in the

The import process as well as the actual usage.

The Dokumentenazeige subsystem 10 serves additional ^¬ Do kumente that are linked to a macro, reindeer to visualize. The basic mechanisms are the same as

Online help. It supports a variety of formats that are currently in use. The list of supported formats can be expanded later. The short description subsystem 11 is anzuzei ^¬ gen able short descriptive texts that serve the macro selection. The subsystem 11 provides the import module 6 and index the on / Catalog module 5 a macro specific short text that helpful when importing or using macros is. Brief descriptions are part of the documentation data of the macro.

The selection system 12 serves fen to HEL while the user to make from a set of macros suitable for the technical prob ^¬ lem selection. Macro selection is important when using a macro and importing it. 2, the composition of a macro 13 is shown. The inventive macro 13 has function blocks 14, interconnections 15, device parameters 16, documentation data 17, hierarchy information 18 and selection metadata 19. The function blocks 14 are functions which are offered by the switching device, and which can be selected on the user interface 3 of the engineering system 2 and parameterized in a function diagram. The function blocks 14 have inputs and / or outputs in order to be able to interconnect them with other function blocks. Typical see examples of function blocks are monitoring modules ^¬ stones or logic devices.

The interconnections 15 are connections between inputs and outputs of function blocks 14. The totality of the function blocks 14 with the intervening connections, forms the function plan and the application logic. Device parameterization 16 involves the fact that a switching device offers a multitude of device parameters. The function blocks 14 can also be parameterized as a rule. All these parameters form the device parameterization 16 and are part of a macro 13.

The documentation data 17 is additional information that supports the project engineer in importing macros, in their use and in further parameterization. The hierarchy information 18 is used to classify the macro 13 into a technological hierarchy. The information be ^¬ stands from all categories and sub-categories into which the macro is filed. 13 The display / catalog subsystem 5 evaluates this information and places the macro 13 in the respective catalog area, with the specified categories being recreated if necessary.

The selection metadata 19 represents the database on which the selection system guides the user to a solution-oriented selection of a macro 13.

3 shows the selection system according to the invention over several question levels with different options. The core of the invention consists in leading the project engineer to a limited final selection of macros 13 over several question levels with different options in each question level. The individual question levels 20, 21, 22 contain questions such as "In which industrial sector would you like to use the macro?"; "What is the objective of the task?" or

"What type of plant is it?". Are "milling machines ne" or "catalytic unit" via the respective selections 23, for example, to Question 1 to Question 2 "Ferti ^¬ supply industry" or "process industry", "control system" or "protect system" and to Question 3 can, the projek ^¬ teur arrives at an option path 24, which leads to a list of the angeo ^¬ tenen macros 13 at the end of the selection process in dependence on the option path 24. In this case, the macros differ 13 in the final selection usually only slightly. The final selection can now be made on the basis of the short description 25 of the macro or a live preview 26. In the second case, in the case of the live preview 26, the macro 13 is temporarily generated in the macro-management system 1 and from this a visualization is generated, without integrating the macro 13 itself into the engineering system 2. The purpose is to give the user a

To give an overview of the structure of the macro 13. Optionally, a functional test could already be offered here. A macro 13 selected in this way is integrated circuit to the engineering system 2 or instantiated in functi ^¬ onsplan, depending on the off ^¬ selection process in which context is started. The selection metadata 19 of a macro 13 thus contains all the data required to describe exactly one option path 24 which leads exactly to this macro 13. The following rules are taken into ^¬ into account:

1. Several macros can describe the same option path 24. In this case, these macros 13 are offered in the final selection. A final selection can then be made using the live preview 26 or Kurzbe ^¬ scription 25 2. The number of triple (consisting of question-level question in writing, option) is not limited. It defines the number of question levels of an option path 24. The number of question levels may be different for different macros 13.

3. If a macro 13 Refers to a question on level ei ^¬ ne question existing level, the Optio ^¬ nen be at this level to the options that are described in this macro 13, extended. If a non-existent question level is specified, a new question level is created from this. Total macros spanned a hierarchical question / option tree by al ^¬ le in the macro management system 1 integrated. The main advantage of the macromanage system according to the invention is the modular design. Hauptfunktionalitä ^¬ th covered by core modules. Possible extensions can be introduced by additional modules. The sub ^¬ systems that act as a service provider for the core modules, contribute to a clear overall structure of the Makromanagementsys- tems. There is only a small interface to the engineering system. The macro-management system works largely autonomously. This facilitates the conception and realization tion of the overall system. Also inventive is the specific structure of the macros. The macros not only contain the purely configuration-technical content, but also documentation data and selection data. Another advantage is that all the macros a hierarchical selection system be ^¬ writes. No further information needs to be deposited elsewhere for the selection of macros. As long ^¬ ren advantage is to still call the live preview, which is taken the place of static images.

Claims

claims

1. Macromanagement system (1) for an engineering system (2) for the parameterization of switching devices with the following core modules:

- A creation module (4) which is designed to create macros (13);

- a display / catalog module (5), which is designed for the PRESENTATI ^¬ on all in the system (1) existing macros (13);

- an import module (6) which is formed to integrate before ^¬ handener macros (13) in the system (1);

an export module (7) designed to distribute already created macros (13),

wherein the macro-management system (1) is connected to a graphical user interface (3) of the engineering system (2) and wherein the project engineer can be guided over a plurality of question levels (20, 21, 22) with different options for a limited final selection of macros (13) ,

2. Macromanagementsystem according to claim 1, characterized in that the system (1) in addition to the core modules has subsystems that support the core modules in the fulfillment of the tasks ^¬ ben.

3. Macromanagementsystem according to claim 2, characterized in that the system (1) has an online help subsystem (9) which is adapted to display a multi-page structured ^¬ text description.

4. Macromanagementsystem according to claim 2, characterized in that the system (1) comprises a document display subsystem (10), which is adapted to additional document ^¬ te, which are associated with a macro (13) visualize ren.

A macro-management system according to claim 2, characterized in that the system (1) is a short description subsystem (11), which is designed to display short Beschreibungs ^¬ texts.

6. Macro management system according to claim 2, marked thereby characterized in that the system (1) comprises a selection system (12) which is arranged such that the configuring of egg ^¬ ner amount of macros (13) has a ge for the technical problem ^¬ appropriate selection applies.

7. Macromanagementsystem according to any one of the preceding claims, characterized in that a macro (13) func ^¬ onsbausteine (14), which include ^¬ offered by the switching device ^¬ NEN functions.