process control system pcs7 advanced engineering system

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Welcome to the Advanced Engineering System

1

Basics of the Advanced Engineering System

2

Information on the application 3

SIMATIC

Flowcharts 4 Process Control System PCS 7

Advanced Engineering System User interface 5

Data transfer PCS 7 - AdvES 6

Configuration Manual7

Mapping labels

Data import from process tags and signal lists

8

Creating data in AdvES 9

Editing data in AdvES 10

11

Checking data consistency

12Reports

Supplied sample project 13

A

Appendix

12/2011 A5E03640251-01

Legal information Legal information

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Table of contents

1 Welcome to the Advanced Engineering System ........................................................................................ 7

2 Basics of the Advanced Engineering System ............................................................................................ 9

2.1 What is the Advanced Engineering System?.................................................................................9

2.2 Object structure in AdvES............................................................................................................11

2.3 Starting AdvES.............................................................................................................................11

2.4 Storage and naming of the projects.............................................................................................13

2.5 Archiving and retrieving AdvES projects......................................................................................14

2.6 License.........................................................................................................................................15

3 Information on the application.................................................................................................................. 17

3.1 General notes on use...................................................................................................................17

3.2 PCS 7 SIMATIC Manager............................................................................................................18

3.3 Import/export ................................................................................................................................18

3.4 Export with APL types..................................................................................................................19

3.5 Starting AdvES.............................................................................................................................19

3.6 Views in the Navigator .................................................................................................................19

3.7 Typifying control modules ............................................................................................................20

3.8 Consistency checks .....................................................................................................................20

3.9 Hardware assignment ..................................................................................................................20

3.10 Configuring redundant hardware ................................................................................................20

4 Flowcharts ............................................................................................................................................... 23

4.1 General working sequence ..........................................................................................................23

4.2 Example of using mapping labels ................................................................................................24

4.3 Processing options in AdvES.......................................................................................................27

5 User interface .......................................................................................................................................... 29

5.1 User interface reference ..............................................................................................................29

5.2 Workflow bar ................................................................................................................................31

5.3 AdvES menu ................................................................................................................................31

5.4 Toolbar .........................................................................................................................................32

5.5 Navigator......................................................................................................................................32 5.5.1 Introduction ..................................................................................................................................32 5.5.2 Project view..................................................................................................................................33 5.5.3 Automation view...........................................................................................................................33

Advanced Engineering System Configuration Manual, 12/2011, A5E03640251-01 3

Table of contents

Advanced Engineering System 4 Configuration Manual, 12/2011, A5E03640251-01

5.5.4 Template view ............................................................................................................................. 34 5.5.5 Properties tree............................................................................................................................. 35 5.5.6 Adapting windows individually .................................................................................................... 35

5.6 Working area............................................................................................................................... 37

5.7 Status window ............................................................................................................................. 39

6 Data transfer PCS 7 - AdvES................................................................................................................... 41

6.1 Introduction ................................................................................................................................. 41

6.2 Status window ............................................................................................................................. 41

6.3 Importing from PCS 7 to AdvES ................................................................................................. 43 6.3.1 Importing a PCS 7 project ........................................................................................................... 43 6.3.2 Importing the technological hierarchy ......................................................................................... 44 6.3.3 Import control modules................................................................................................................ 45 6.3.4 Import control module types........................................................................................................ 46 6.3.5 Importing the hardware configuration ......................................................................................... 47

6.4 Exporting from AdvES to PCS 7 ................................................................................................. 48 6.4.1 Exporting an AdvES project ........................................................................................................ 48 6.4.2 Exporting the technological hierarchy ......................................................................................... 49 6.4.3 Exporting single control units ...................................................................................................... 50 6.4.4 Exporting a hardware configuration ............................................................................................ 51

7 Mapping labels ........................................................................................................................................ 53

7.1 What are mapping labels? ......................................................................................................... 53

7.2 Assigning mapping labels ........................................................................................................... 54

7.3 Defining variants ........................................................................................................................ 57

7.4 Importing mapping labels from another project........................................................................... 57

7.5 List of mapping labels ................................................................................................................. 58

8 Data import from process tags and signal lists......................................................................................... 69

8.1 Requirements and notes ............................................................................................................. 69 8.1.1 Preconfigured Excel lists............................................................................................................. 69 8.1.2 Signal / process tag lists ............................................................................................................. 70 8.1.3 Technological hierarchy .............................................................................................................. 71 8.1.4 Order of column definition........................................................................................................... 72

8.2 Import list..................................................................................................................................... 73

8.3 Edit configuration ........................................................................................................................ 74

8.4 Column definition ........................................................................................................................ 76

8.5 Release/discard import ............................................................................................................... 80

9 Creating data in AdvES ........................................................................................................................... 83

9.1 Introduction ................................................................................................................................. 83

9.2 Creating a technological hierarchy.............................................................................................. 83

9.3 Creating control modules ............................................................................................................ 83

9.4 Creating parameters and signals ................................................................................................ 84

Table of contents


9.5 Creating messages ......................................................................................................................84

9.6 Adapting properties......................................................................................................................85

10 Editing data in AdvES.............................................................................................................................. 87

10.1 Introduction ..................................................................................................................................87

10.2 Editing a technological hierarchy .................................................................................................88

10.3 Tables ..........................................................................................................................................89 10.3.1 Basics...........................................................................................................................................89 10.3.2 List of interconnected control modules ........................................................................................89 10.3.3 Message list .................................................................................................................................90 10.3.4 Signal lists ....................................................................................................................................90 10.3.5 Signal lists (PCS mapping) ..........................................................................................................91 10.3.6 Control module list .......................................................................................................................91 10.3.7 Filter functions..............................................................................................................................92 10.3.8 Editing values...............................................................................................................................93

10.4 Assigning control module types to control modules.....................................................................94 10.4.1 Introduction ..................................................................................................................................94 10.4.2 Assigning control module types to control modules.....................................................................95 10.4.3 Standard table..............................................................................................................................97

10.5 Interconnecting control modules..................................................................................................99 10.5.1 Introduction ..................................................................................................................................99 10.5.2 Specifying interconnections to control module types.................................................................100 10.5.3 Making interconnections to control modules..............................................................................101

10.6 Hardware assignment ................................................................................................................102

10.7 Translator ...................................................................................................................................104

10.8 Deleting control module types....................................................................................................105

10.9 Delete project .............................................................................................................................105

10.10 Using placeholders ....................................................................................................................105 10.10.1 Principle .....................................................................................................................................105 10.10.2 List of wildcards .........................................................................................................................106

11 Checking data consistency .................................................................................................................... 109

11.1 Introduction ................................................................................................................................109

11.2 Running a consistency check ....................................................................................................110

11.3 Checks in in detail ......................................................................................................................111

11.4 Troubleshooting .........................................................................................................................112

12 Reports .................................................................................................................................................. 113

12.1 Introduction ................................................................................................................................113

12.2 Creating a report ........................................................................................................................113

12.3 Editing and printing a report.......................................................................................................113

12.4 Adapting a report template.........................................................................................................115

13 Supplied sample project ........................................................................................................................ 117

Table of contents


13.1 Introduction ............................................................................................................................... 117

13.2 Opening a PCS 7 multiproject................................................................................................... 119

13.3 Creating a PCS 7 import file...................................................................................................... 119

13.4 Importing a PCS 7 project into AdvES...................................................................................... 120

13.5 Generating (AdvES) control module types................................................................................ 123

13.6 Importing Excel files .................................................................................................................. 126

13.7 Typifying control modules ......................................................................................................... 131

13.8 Interconnecting control modules ............................................................................................... 133

13.9 Hardware assignment ............................................................................................................... 134

13.10 Exporting to PCS 7.................................................................................................................... 135

A Appendix................................................................................................................................................ 137

Glossary ................................................................................................................................................ 139

Welcome to the Advanced Engineering System 1Help for the Advanced Engineering System

To find the information you require quickly, use the table of contents and the flowcharts.

Sample project To illustrate the documentation and for test purposes, use the supplied AdvES sample project. You will find more detailed information in the section Supplied sample project (Page 117).

PCS 7 documentation This document deals solely with the functions of the Advanced Engineering System (AdvES). It does not include a description of the functions of PCS 7. You will find the basic functions and terminology for PCS 7 in the following manuals:

● Process Control System PCS 7; Advanced Process Library

● Process Control System PCS 7; Engineering System

The data transfer dialog between PCS 7 and AdvES is described in a separate context-sensitive help. You will be informed of this again at the relevant places in this manual:

● Process Control System PCS 7; Help on the Data Transfer Dialog

Installation Instructions You will find the installation instructions for AdvES in the "Readme" on the installation DVD.


Welcome to the Advanced Engineering System


Basics of the Advanced Engineering System 22.1 What is the Advanced Engineering System?

The Advanced Engineering System (AdvES) prepares data for use in the PCS 7 engineering system (ES). It represents an application for data import and bulk processing.

Data is imported into AdvES from process tag or signal lists and adopted in PCS 7. The technological hierarchy, signal and parameter settings as well as the hardware configuration are adopted. In AdvES, object-dependent bulk processing and queries are possible.

AdvES provides enhanced functions for plant engineering in the SIMATIC PCS 7 software.

Range of functions of AdvES ● Generation of control modules from signal lists

● Generation of control modules from process tag lists

● Creation of hardware configurations from signal lists (including the symbol table)

● Use of control module types from PCS 7 (BCM and customer-specific)

● Defining variants with optional blocks

● Bulk processing of control modules, signals, parameters and messages

● Checking data consistency and plausibility

● Generating PCS 7 automation data

● Use of messages at control modules


Basics of the Advanced Engineering System 2.1 What is the Advanced Engineering System?


Graphic overview of the range of functions You can import data from Excel files and from PCS 7 projects. Data from AdvES can be exported again to PCS 7. You can import or create engineering data in AdvES.

Import

Projects(TH, control modules,

control module types, HW)

Export

Projects(TH, control modules, HW)

Import

Signal lists, process tag lists

Creating data

TH

Control modules

Signals

Parameters

Editing data

Filtering

Bulk processing

Reports

Interconnecting control modules

Hardware assignment

Typifying control modules

Change control/reports

Consistency checks

SIMATIC PCS 7 ES Excel

Advanced ES

I/Os In AdvES, only I/Os are processed that are oriented to the outside as signals or parameters for the control module type.

Basics of the Advanced Engineering System 2.2 Object structure in AdvES


2.2 Object structure in AdvES AdvES is based on an object model that differs from the classic SIMATIC world and therefore from PCS 7.

The following section describes this object model and the object structure resulting from it.

Object orientation The database model of AdvES is based on a relational SQL database.

Here, data records are stored as objects. Each of these objects consists of certain elements, for example a name, a description and various other properties.

Five fundamental object types The properties of an object depend on the type on which the object is based. The five types of AdvES object are as follows:

● Technological hierarchy

● Control module

● Parameters of a control module

● Parameters of a signal

● Signal

Structure of the objects Each AdvES project consists of a set of objects of these types. These objects must also comply with certain structures.

● TH folders are possible below the object node or below other TH folders

● Control modules are located in TH folders

● Parameters of control modules are located below control modules

● Parameters of signals tags are located below signals

● Signals are located below control modules

You can only create objects according to these rules.

2.3 Starting AdvES Due to the direct link between the projects in AdvES and PCS 7, you call the AdvES projects using the SIMATIC Manager.

Basics of the Advanced Engineering System 2.3 Starting AdvES


Requirements ● To be able to start AdvES, a project must have been created in PCS 7.

● The PCS 7 project is selected in the SIMATIC Manager. You can establish the connection between the AdvES and PCS 7 project for individual projects or for an individual project in the multiproject.

Starting AdvES from PCS 7 Select the required individual project and start AdvES from the context menu or the "Edit" menu using the "Open project in Advanced ES" command.

Result The AdvES project is automatically linked to the PCS 7 project from which you started AdvES. The first time you call AdvES, a new AdvES project is created. Existing projects are called automatically.

Basics of the Advanced Engineering System 2.4 Storage and naming of the projects


2.4 Storage and naming of the projects An AdvES project links itself to the PCS 7 project using the name of the individual project. This means that individual PCS 7 projects with the same names in different multi-projects are only ever assigned to one AdvES project. If you want to configure projects with AdvES, make sure that they all have a unique name.

Note Names and storage of the PCS 7 projects

When configuring with AdvES, remember the following restrictions:

A PCS 7 project must have a unique name.

A PCS 7 project may not be renamed.

If the PCS 7 project is moved, the assignment to the AdvES project must be restored the first time it is called.

If you have moved the path of a PCS 7 project You will see a query the first time you open AdvES:

"Path information differs. Is this a copy, or was the project moved?"

Select "Yes" to restore the connection to the AdvES project.

Renaming PCS 7 projects with the same name You want to open a PCS 7 project and a PCS 7 project with the same name exists on a different path. AdvES has already been opened from the project with the same name.

When you open AdvES from the new PCS 7 project with the same name, AdvES finds the existing AdvES project. You will need to rename the PCS 7 project to be able to create a separate AdvES project. You then see the query shown above. When renaming, select a name that does not yet exist.

Saving the project Click "Save" in the AdvES menu.

Note The project name can only be changed in PCS 7

The assignment of the PCS 7 project is permanent and cannot be modified in AdvES. For this reason, there is no project selection in AdvES.

Basics of the Advanced Engineering System 2.5 Archiving and retrieving AdvES projects


2.5 Archiving and retrieving AdvES projects

Introduction Backing up AdvES and PCS 7 projects is not a single procedure and must be performed separately. The PCS 7 project is archived using the SIMATIC Manager. The data archiving of the AdvES project takes the form of a database export.

Requirement PCS 7 AdvES must be closed.

Archiving AdvES projects 1. Click "Start > All Programs >SIMATIC > Advanced ES > ExportDB" in the Windows Start

menu.

The "Export COMOS database" dialog opens.

2. Use "Advanced ES" as the source.

3. Under Target, select "Other" and "Microsoft Jet".

4. Select a storage path.

5. Enable the "Without deleted objects" and "With working layers" options.

6. Click "Next".

The "Projects" dialog opens.

7. Select the project name of the "Engineering" type project you want to export and click "Export".

A Microsoft Jet database is created in the target directory.

Retrieving AdvES projects 1. Click "Start > All Programs >SIMATIC > Advanced ES > ExportDB" in the Windows Start

menu.

The "Export COMOS database" dialog opens.

2. Use "Other" as the source.

3. Select "Microsoft Jet".

4. Select your AdvES project with the "Database" button.

5. Select "Universal access" from the shortcut menu of the "User name" field.

"@Setup" is entered in the "User name" field.

6. Under Target, select "Advanced ES".

7. Enable the "Without deleted objects" and "With working layers" options.

Basics of the Advanced Engineering System 2.6 License


8. Click "Next".

The "Projects" dialog opens.

9. Select the project name of the "Engineering" type project you want to export and click "Export".

The project is imported into AdvES.

2.6 License

Automation License Manager (ALM) Use of the software requires a product-specific license key that you install with Automation License Manager.

License for AdvES Licenses for AdvES are assigned as floating licenses by the ALM. Floating licenses are licenses without time limits providing rights of use via a network.

The license for AdvES is supplied on a USB stick that ships with the product in the DVD box.

● You can also use AdvES without a license key to familiarize yourself with the user interface and functions. There is a 14-day trial license available for this.

● However, a license is required and necessary for full, unrestricted use of the software in accordance with the license agreement.

Basics of the Advanced Engineering System 2.6 License


3Information on the application

3.1 General notes on use

Handling the user interface The views in the Navigator can be closed by the user at any time. They can then only be restored by restarting AdvES.

Any changes that you make in AdvES must be confirmed using the "Apply" or "OK" button. Only changes made for the specific work window will be accepted so that after the change has been adopted, the number of objects to be saved may still not equal 0.

At any time, you can see the objects to be saved in the footer of AdvES and you can save these using the shortcut menu. To achieve optimum performance in the system, keep the number of objects to be saved at 0.

If you are working with the English user interface of AdvES, some messages may appear in German. These are system messages and appear according to the country setting made in the operating system.

If you change the user interface language in AdvES, please restart AdvES afterwards.

Special characters for names When assigning names in PCS 7, the naming restrictions must be adhered to. You will find this information in the PCS 7 documentation.

A comma in tag names (process tags, archive tags etc.) is not allowed. Project names may only contain ASCII characters.

Importing a PCS 7 project with incorrect signal names You cannot import special characters permitted in the CFC Editor to AdvES. Make sure that you create PCS 7 projects affected without these special characters. The PIPE character and backslash are not permitted.

NOTICE Creating AdvES projects

If you cancel the creation of a new AdvES project before the function is complete, the AdvES installation may be damaged and a new installation may be required.

Inversion of IL inputs is not possible The inversion of the interlock inputs of the BCM is not supported in AdvES. If you want to work with inversions, you have to set them in PCS 7.


Information on the application 3.2 PCS 7 SIMATIC Manager


3.2 PCS 7 SIMATIC Manager AdvES can only be opened once on a system.

If the PCS 7 project exists more than once on different partitions under the same project name (for example as a result of extracting from archives) or if single projects with the same name exist in different multi-projects, problems may arise during project assignment. Make sure you read the information in the "Storage and naming" section of the manual.

3.3 Import/export

Calling the data transfer dialog

Note

In isolated cases, problems may occur when the data transfer dialog is called for the first time. If the dialog freezes, close AdvES and then restart it. The dialog will then function correctly.

Faulty generation of the HW after migration of a 7.1 project.

Note Reimport of the HW after migration from AdvES 7.1 to 8.0

If a change is made to the data model, you have to import the hardware again from PCS 7 to AdvES after migration to AdvES 8.0. The option "Delete at target" must be set in the data transfer dialog for this process.

PCS 7 export / import Updating in the view and working in the data transfer dialog may be subject to long delays depending on the size of the data to be imported.

Note In the case of redundancies, do not only export TH and process tags

If you have created a redundancy in your PCS 7 project (in the form of multiple Profibuses at one AS), always export the entire project from AdvES to PCS 7. When exporting, activate all options, that is "Technological hierarchy", "Process tags" and "Hardware".

Information on the application 3.4 Export with APL types


Excel import To import from Excel, a new work layer is created in AdvES that serves as intermediate storage for the exported data. Changes to the existing project are displayed color-coded. The work layer is used only to visualize the deviations and is similar to the color marking in the data transfer dialog. Here, you cannot make any additions or modifications. You can only continue to edit the project if you have enabled or discarded the work layer.

After importing from Excel, the work layer representation is not set automatically. The highest project node in the project view in the Navigator must be closed and then opened again before the color display becomes active.

3.4 Export with APL types If you are using types from the APL, export from AdvES to PCS 7 must be staggered in the following order:

1. Export the TH

2. Export the control modules

3. Export the hardware

3.5 Starting AdvES To make sure that the project assignment between PCS 7 and the AdvES project is made correctly, you should close AdvES before changing projects in PCS 7.

If AdvES does not start up, check the PCS 7 project path under the relevant s7_proj/Global to see whether there is a file with the extension ".por", and if there is, delete it. This situation can occur in particular with projects extracted from an archive that were edited on a different computer.

3.6 Views in the Navigator

Project view In particular with templates, make sure that you match up the PCS 7 name of the process tag in the properties of the process tag with the name visible in AdvES. Process tags with the same name within a configured AS are not permitted by PCS 7 and the process tag is therefore not created during export.

Automation view The automation view is used only for extended project information and cannot, therefore be edited.

Information on the application 3.7 Typifying control modules


Template view The template view is used only to show all the process tag types that can be used in AdvES. The view cannot be edited, the types can only be adapted in PCS 7.

3.7 Typifying control modules You may experience inconsistencies during data export if you do not save manually after typifying the process tags.

To manually save process tags, proceed as follows:

Once you have defined the process tags using the "Apply" button, save by right-clicking on "Save" in the lower right-hand margin of AdvES.

3.8 Consistency checks Before every export to PCS 7, run a consistency check.

If the status messages supplied by AdvES do not provide you with adequate information about how the action was interrupted, run a plausibility check.

3.9 Hardware assignment All types of IO modules are displayed below a DP slave type.

This also includes the modules that are not compatible with this DP slave type.

Make sure that you only use IO modules released for PCS 7; otherwise, this could result in inconsistencies when you export to PCS 7.

3.10 Configuring redundant hardware To generate and export a combination of redundant hardware (Profibus redundancy without channel redundancy) in AdvES, observe the following information:

● Fill all entries of the "PCS 7" tab in the properties of the signals in AdvES

● Take particular care that you fill in the entries "Subnet B" (redundant Profibus strand) and "H station redundancy" (use of an H station)

Information on the application 3.10 Configuring redundant hardware


4Flowcharts

4.1 General working sequence The flowchart shows all the important functions of the Advanced Engineering System as a short, schematic sequence.

It provides a fast overview of the working sequences and allows you better orientation in the documentation.

Importing HW

Importing control module types

Importing TH

Importing project data

Importing Excel files

Assigning mapping labels forPCS 7 control module types

Opening the import user interface

Creating an import configuration

Importing Excel files

Starting AdvES from PCS 7 project

Opening an existing PCS�7 project

Generating control module types

Assigning control module types to control modules

(Interconnecting control modules)

Exporting single control units

Exporting TH

Exporting project data

Exporting HW

Using data in the PCS�7 project

ExcelAdvESPCS 7

Restart AdvES after changing languages.


Flowcharts 4.2 Example of using mapping labels


4.2 Example of using mapping labels The following diagram shows the role of mapping labels (ML) in the work sequence. Based on the "FBON.VALUE" signal of the "MOTOR" control module type, you will see the function of the mapping labels when transferring data between PCS 7 and AdvES.

You will find explanations of the individual steps below the graphic.



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① Importing the PCS 7 control module types The control module types are imported into AdvES from your PCS 7 project and displayed in the "Automation view" tab. See also section Import control module types (Page 46)

② Assigning mapping labels/converting control module types to the AdvES object model To be able to continue using the control module types in AdvES, assign MLs to them and generate the control module types in the "Templates" tab. See also chapter Assigning mapping labels (Page 54).

③ Typifying control modules The control modules in the project structure on the "Project" tab (which you created or imported from Excel) are assigned to PCS 7 control module types. This makes export to PCS 7 possible. During the assignment, automation functions are available. See also chapter Assigning control module types to control modules (Page 94).

Flowcharts 4.3 Processing options in AdvES


4.3 Processing options in AdvES

Editing data in AdvES You can edit your data in AdvES as shown in the diagram.

Table viewsAssigning control module types to control modules

Editing, deleting, changingobjects

Interconnecting control modules

Assigning hardware

Project, TH, control modules,signals, parameters

Process tag lists

Signal lists

Hardware lists (DCS)

Filtering in table views

Editing in table views

AdvES

RQ SPC

B DA

① ⑥Table vies in general (Page 89) Editing in table views (bulk processing) (Page 93) ② Control module list (Page 91) ⑦ Editing objects (Page 87) ③ Signal lists (Page 90) ⑧ Assigning control module types to control modules

(Page 95) ④ Signal lists (PCS mapping)

(Page 91) ⑨ Interconnecting control modules (Page 99)

⑤ Filtering in table views (Page 92) ⑩ Hardware assignment (Page 102)

Flowcharts 4.3 Processing options in AdvES


5User interface

5.1 User interface reference The user interface of AdvES is divided into two areas: Navigator and working area. This division provides you with an overview of the project structure at each stage of editing.

Navigator (left-hand side) In the Navigator, you can see the structure of your project and can edit it.

Working area (right-hand side) You call up the functions in the working area. This is where the detailed editing and bulk processing of your project takes place.


User interface 5.1 User interface reference


User interface reference Below, you can see the user interface as it is when you first start AdvES. Each area of the user interface is described in detail in a separate subsection. Below the screenshot, you will find links to these subsections.

Upper bar Workflow bar (Page 31) Top right, "Menu" list

AdvES menu (Page 31)

Toolbar (Page 32) Top left buttons Top right "Close", "Maximize" and "Minimize" buttons Left-hand side Navigator (Page 32) Right-hand side Working area (Page 37) Footer Project name, date, fast functions via the context menu

User interface 5.2 Workflow bar


5.2 Workflow bar The Workflow bar displays the individual working steps in the logical order. Click the respective check mark to label a working step as complete and enable the next working step.

Command Description "PCS 7 Import" Opens the user interface for data transfer with PCS 7.

See Data transfer PCS 7 - AdvES (Page 41) "Assign signals/parameters" Here, you define mapping labels for the I/Os of your PCS

7 control module types. See Mapping labels (Page 57). "Import signal / process list" Opens the user interface for importing data from Excel.

See Data import from process tags and signal lists (Page 69)

"Release import" Saves the imported working layer in the project. See Release/discard import (Page 80).

"Discard import" Deletes the imported working layer irrevocably. "Typifying control modules" Here, you assign control module types to control modules

or revise existing assignments. "Interconnecting types" Here, you connect control module types with each other.

See Specifying interconnections to control module types (Page 100).

"Assigning hardware" A list is displayed showing the hardware elements of the signals and these can be adapted using a hardware catalog. See Hardware assignment (Page 102).

"Interconnecting instances" Here, you select the control module instances for which the interconnections will be adopted. See Making interconnections to control modules (Page 101).

"PCS 7 export" Opens the user interface for data transfer with PCS 7. See Data transfer PCS 7 - AdvES (Page 41)

5.3 AdvES menu The AdvES menu includes additional functions in a drop-down list.

Command Description "Check data consistency" Opens the user interface for checking data consistency. "Table view Connections" A list of all interconnected control modules. See List of

interconnected control modules (Page 89). "Table view Message list" "Table view Signal list" See Signal lists (Page 90). "Table view Signal list PLS" A list of all hardware channels. See Signal lists (PCS

mapping) (Page 91). "Table view Control module list" See Control module list (Page 91). "Table view User-defined attribute list" "Delete project" Opens a dialog in which an AdvES project can be deleted.

See Delete project (Page 105).

User interface 5.4 Toolbar


Command Description "Transfer functional codes" Opens a dialog for copying the mapping labels to other

AdvES projects. See Importing mapping labels from another project (Page 57).

"Save" Saves the current AdvES project. A link is created to the PCS 7 project from which you called AdvES. You cannot change the name of the project. The name and storage location of the PCS 7 project are used. Despite the link, archiving PCS 7 projects and AdvES projects are separate procedures.

"Switch language" Changes the user interface language and the language of the database objects. Restart AdvES after changing languages.

"Close" Closes the current AdvES project. "Translator" Opens a table view of the objects from your database.

Here, you can translate your objects into other languages. "Properties tree" Opens the "Properties tree" tab in the Navigator that shows

the properties of the selected object. "Show help at start" If this item is selected, the manual (PDF) opens

automatically when you start AdvES. "About" Shows the installed version of AdvES.

5.4 Toolbar The toolbar is a quick launch bar for some of the functions of the menu bar:

Icon Tooltip

“Back” / "Forward" Opens the last view in the Navigator.

"Save project"

5.5 Navigator

5.5.1 Introduction The Navigator shows the objects of your project in different views:

"Project" tab Is a navigation instrument for editing the outline structure of your project.

"Automation view" tab Here, you can see the hardware and control module types from the PCS 7 project.

User interface 5.5 Navigator


"Templates" tab Contains the control module types valid for the AdvES project.

"Properties tree" tab Shows the properties of the selected object.

The "Properties tree" tab is activated in the AdvES menu. This tab is displayed below the navigator. Depending on the setting, the display may first have to be maximized by dragging up the lower edge of the navigator.

You can arrange the tabs in any order. You will find more detailed information in the section Adapting windows individually (Page 35).

"Legend" command in the context menu In the Navigator, right click on the white surface to open the "Legend" window. The colors shown indicate differences in the objects after reimporting data from Excel. You will find more detailed information on this topic under the keyword "Working layers" in the section Release/discard import (Page 80).

5.5.2 Project view The project view shows the structure of your project.

Creating and editing objects In the "Project" tab, you create objects, edit them or open them by double clicking in the working area to edit their details. You will find more detailed information on this in the sections Creating data in AdvES (Page 83) and Editing data in AdvES (Page 87).

Icon Description

Project Technological hierarchy folder Control module Signal Parameters Interconnection Message

5.5.3 Automation view In the automation view, you can see all objects relevant for the data transfer between AdvES and PCS 7.

The automation view cannot be edited and simply allows you to check the data transfer between AdvES and PCS 7. This is based on references to the templates and the project view for the TH, control module types and control modules.



Recommendation To obtain a better overview, it is advisable to arrange the "Project" and "Automation view" tabs one above the other in the Navigator. You will find more detailed information in the section Adapting windows individually (Page 35).

5.5.4 Template view The template view contains all the control module types of your AdvES project. These are available after the mapping labels have been assigned. This view cannot be edited.

The control module types are created as templates for control modules. The appearance of the control modules and the control module types in AdvES is therefore the same.



5.5.5 Properties tree The properties tree shows details of the objects. It is identical to the detailed view of the objects displayed in the working area. This view cannot be edited.

It is advisable to create the properties tree as a separate window below the project view so that the details of the object selected in the project view are always displayed.

Header Icon Description

Pin selected object "AdvES sorting" Standard sorting "Alphabetic sorting" Sorting according to initial letters "Attribute filter" Shows only the attributes

Properties The displayed attributes are identical to the properties displayed in the working area. You will find more detailed information in the section Working area (Page 37).

Here, you can also see the properties of the automation view. Note that these properties are required only for service and support.

Pin selected object With this function, you lock object selection in the Navigator by fixing the selected object. If you now select a different object, the fixed object will continue to be used for the editing and displayed in the "Properties tree".

The function is active when the bracket is shown with a yellow background and the fixed object is displayed below it.

5.5.6 Adapting windows individually You have the option of adapting the view of the Navigator and the working area.

To adapt the width of the Navigator window, click and hold the mouse pointer on the dividing line and move this in the required direction.

Creating tabs Each object can be stored as a separate tab in the Navigator. Click on the object (for example a TH) and drag it to the white area beside the "Project" tab.



Setting up a window in the Navigator To create an individual view of the window, follow the steps below:

1. Click on the icon of the tab below the Navigator window and hold down the mouse button.

Queery This allows you to position the selected tab as a separate window above, below or to the right or left of the current window.

2. Hold down the left mouse button and position in the mouse pointer on one of the direction

buttons.

In the background, the area in which the new window will be created changes color.

3. To create the window, release the left mouse button.

4. To merge separate windows to form one window, release the tab in the middle of the Navigator cross.

User interface 5.6 Working area


5.6 Working area The working area is the central element of the user interface of AdvES. In the working area, you edit the properties of your objects from the project structure in the Navigator. You also call the main functions of AdvES in this window.

The user interface shown below shows the properties of a technological hierarchy.

Icon Description

"Reuse tab/window" Leave tab/window open" (yellow = fixed) Navigate to the object in the Navigator Opens owner (higher-level structure) Duplicate object Release / Lock (locked objects cannot be modified) Create a suffix for the object name (for example: Mixer_100), or increments an existing suffix.

OK Save change and close properties Cancel Discard changes Apply Save change and leave properties open

Call properties If you double click on an object in the Navigator, its properties are opened in the working area. The entries are therefore identical to the entries in the "Properties tree".

The properties are called as a tab. When you call functions or properties, a previously opened tab is overwritten. The new tab opens in the already open tab and overwrites its content.

User interface 5.6 Working area


Properties The displayed attributes depend on the type of object. The following table shows all the attributes along with a description of them:

Attribute Description General information "Name" Display name after the icon in the project view. "Label" Overwrites the "Name" attribute in the user interface but not in

the database. Here, the "Name" attribute remains stored. "Description" Editable extension of the project name. The "Description" is

the object type by default. AdvES system "Function of the control module" Process control function "Interconnected predecessor control module 1"

Control module 1 connected to the control module

"Interconnected predecessor control module 2"


"Interconnected predecessor control module 3"


"Data type" PCS 7 data type "Enumeration" PCS 7 enumeration "I/O" Input / output "Signal name" Name of the signal from imported Excel lists / PCS 7 "HW signal type" Type of IO module PCS 7 "Author" Person who created the PCS 7 project Value is adopted

automatically. "PCS 7 hierarchy name" Name and level of the technological hierarchy (TH1, 2...) "ISA-88" Shows ISA-88 value from PCS 7. Value can be changed. "PCS 7 Control module name" Name of the process tag in PCS 7 "PCS 7 CM description" Displays the description of the control module "PCS 7 Control module type" Name of the control module type from PCS 7 "Station name" Name of the SIMATIC station "Value" Shows the value of the parameter. The value can be adapted. "Interconnection" Shows the connected parameters of a previous control

module. "Signal description" Description of the signal "PCS 7 signal name" Name of the signal "H station redundancy" Redundant H station "Subnet" Name of the PROFIBUS DP System "Subnet B" Name of the redundant PROFIBUS DP system "Address" Address of the DP slave "Address B" Address of the redundant DP slave "DP slave order number" MLFB for DP slave (machine readable fabrication ID)

User interface 5.7 Status window


Attribute Description "Slot" Slot of the signal module "Slot B" Slot of the redundant signal module "Signal module order number" MLFB for signal module "Channel" Channel number of the signal on the signal module "Block icon" Icon from PCS 7 for the block "Cycle time" Adjustable time value

Fixing the tab To prevent new tabs from overwriting the content of tabs that are already open, fix the tab using the "Reuse tab/window" button. A yellow dot indicates a fixed tab, a green dot indicates that a tab is not fixed.

5.7 Status window The status window is located in the lower area of the working area. It displays messages relating to the data transfer between PCS 7 and AdvES.

The status window displays a message for each generated object. To navigate to the object of a status message, double click on any point in the status line.

You will find additional information in the section Status window (Page 41).

User interface 5.7 Status window


Data transfer PCS 7 - AdvES 66.1 Introduction

The following section describes how to transfer data between PCS 7 and AdvES.

● Importing projects / data from PCS 7

● Exporting projects / data from AdvES to PCS 7

Generation view for PCS 7 - the "Automation view" The automation view maps the TH, hardware and types of your PCS 7 project following import. Here you have an insight into the AS, PROFIBUS and all the slaves and channels of your hardware. The hardware is not visible in the project view and in the object properties in the working area.

This view is only used for checking the data transfer between PCS 7 and AdvES and cannot be edited. The AdvES project is configured in the project view.

Data transfer dialog Every data transfer between PCS 7 and AdvES is implemented using the data transfer dialog. You will find more information on the data transfer dialog in the help:

● Help on data transfer dialog

Connection between the PCS 7 project and AdvES project You will find more detailed information in the section Storage and naming of the projects (Page 13).

6.2 Status window The status window shows all the actions of the generation procedure.

At the top edge of the status window. you can decide what type of system messages are output using three filters. The following levels can be selected:


Data transfer PCS 7 - AdvES 6.2 Status window


● Error

Shows errors. Exporting is not possible.

● Warnings

Shows information about errors that, although they allow export, may lead to an undesired result.

● Messages

Here, the export procedure itself is visualized and output as a status. The entries in the status window are context-sensitive. This means that the mouse pointer in the source text jumps to the corresponding location when the entry in the status window is activated by double clicking on it.

Log files of the status messages To create a log file of the status messages, right click on the "Create log file" button at the bottom of the status window.

Data transfer PCS 7 - AdvES 6.3 Importing from PCS 7 to AdvES


6.3 Importing from PCS 7 to AdvES

6.3.1 Importing a PCS 7 project

Procedure 1. Click "PCS 7 Import" in the Workflow bar.

The "PCS7 Import/Export" tab opens in the working area.

2. Select the "Import from PCS 7" tab.

3. Under "Filter", enable all options.

4. To start the import, click the "Import" button.

The data transfer dialog opens. You will find more information on this topic in the help for the data transfer dialog.

5. Here, click the "Import objects from B to A" button.

The project data is generated in the automation view.

6. To generate the project data in the project view in AdvES, close the data transfer dialog.



Result The PCS 7 project is imported into AdvES. Errors, warnings and messages relating to the import appear in the status window. You will find more detailed information in the section Status window (Page 41).

6.3.2 Importing the technological hierarchy When you import the technological hierarchy from PCS 7, this is mapped in AdvES. If there is already a TH in AdvES, the data transfer dialog compares the hierarchy folders with each other.

Importing the technological hierarchy from PCS 7 1. Click "PCS 7 Import" in the Workflow bar.



3. Under "Filter", enable the "Technological hierarchy" option.


If there is already a TH in AdvES prior to the import from PCS 7, the THs are matched up. You will find more information on this topic in the help for the data transfer dialog.

5. Click the "Import objects from B to A" button in the data transfer dialog.

Effects of the matching The matching checks the existing TH and the newly imported TH for differences. During the comparison, no hierarchy folders are deleted. Existing hierarchy folders are not created twice.

New hierarchy folders from PCS 7 Hierarchy folders from PCS 7 that do not exist are added to the TH in AdvES.

Note Delete hierarchy folder

If you have selected the "Delete at target" option in the data transfer dialog, the hierarchy folders and all the control modules below the TH are deleted in the Navigator.



Example

6.3.3 Import control modules

Note Control modules can only be reimported

Control modules can only be imported into AdvES if they were previously created in AdvES and then exported to PCS 7. This function simply serves to import values of parameters and signals that were changed in PCS 7 back into AdvES.

This function cannot be used to generate control modules in AdvES.

Requirements To be able to import control modules into AdvES, the following information must be available for each control module in PCS 7:

● TH

● Control module type

● Parameters used

● The control module must exist in AdvES.



Importing control modules from PCS 7 1. Click "PCS 7 Import" in the Workflow bar.



3. Under "Filter", enable the "Control modules" option.




Result The control modules are imported into the project in AdvES and displayed in the automation view.

6.3.4 Import control module types The mapping labels in AdvES are based on the blocks of the PCS 7 library. You cannot modify control module types manually in AdvES. Make any adaptations in PCS 7 and then reimport the types into AdvES.

Requirements To be able to import your user-specific control module types, all the control module types in PCS 7 must be located in your master data library. You will find these as a flat list below the "Process tag types" folder.

Importing PCS 7 control module types 1. Click "PCS 7 Import" in the Workflow bar.



3. Under "Filter", enable the "Control module types" option.




Result The control module types are imported into the project in AdvES and displayed in the automation view.



Reimport of changed control module types Any changes to control module types also change the instances. It is, however, possible to leave the instances as the old types that no longer exist in the library. We recommend that you create all instances based on the same types. It is possible to define exceptions but this will lead to inconsistencies that can cause errors during the bulk processing in AdvES.

If you have assigned types to your control modules in AdvES and then adapted these types in PCS 7, make sure that you take account of the following information when you reimport:

NOTICE Loss of control module information

Changes to control module types have a direct effect on the instances.

All the objects and values that no longer exist in the new type are deleted in the instances.

Modified values of objects that continue to exist in the modified type are not affected. Values entered for remaining objects are also unaffected. A modified value is, for example, set to empty again by the reimport.

Exporting to PCS 7 is only possible if identical control module types are used in PCS 7 and AdvES.

For more information on deleting types, refer to the chapter Deleting control module types (Page 105).

6.3.5 Importing the hardware configuration You will find the hardware in AdvES only in the automation view.

Requirements ● The hardware has been created in the PCS 7 project right through to PROFIBUS

● The module and channel of the signals are known

Importing the hardware configuration from PCS 7 1. Click "PCS 7 Import" in the Workflow bar.



3. Under "Filter", enable the "Hardware" option.




Data transfer PCS 7 - AdvES 6.4 Exporting from AdvES to PCS 7


Result The hardware is generated in the automation view.

Modifying or expanding hardware The signals are automatically connected to the channels of the known modules. You can adapt the hardware imported into AdvES in the hardware assignment. You will find more detailed information in the section Hardware assignment (Page 102).

6.4 Exporting from AdvES to PCS 7

6.4.1 Exporting an AdvES project



2. Select the "Export to PCS 7" tab.



3. Drag the highest project node from the Navigator to the "Start object" box.

4. Select all check options.

5. To start the export, click the "Export" button.


6. Here, click the "Import objects from A to B" button to transfer the TH and hardware.

7. Then click on "Generate/synchronize process tags from A to B" to generate the process tags. If you want to export cross-chart interconnections, enable the "Close textual interconnection" option in the Import/Export wizard.

Result The AdvES project is exported to PCS 7.

Exporting parts If you only want to export parts of the AdvES project to PCS 7, drag the relevant TH from the Navigator to the "Start object" box.

6.4.2 Exporting the technological hierarchy When you export the technological hierarchy from AdvES, this is mapped in PCS 7. If there is already a TH in PCS 7, the data transfer dialog compares the hierarchy folders with each other.





4. Under "Filter", enable the "Technological hierarchy" option.



6. Here, click the "Import objects from A to B" button.

Effects of the matching The matching checks the existing TH and the newly imported TH for differences. During the comparison, no hierarchy folders are deleted. Existing hierarchy folders are not created twice.



New hierarchy folders in PCS 7 Hierarchy folders that do not exist in PCS 7 are added to the TH.

Delete existing hierarchy folders Hierarchy folders included in the existing TH in PCS 7 but that are not included in the imported TH from AdvES lead to a query.

Decide whether or not hierarchy folders from AdvES will be integrated in PCS 7. As an alternative, the TH from AdvES overwrites the TH in PCS 7 completely and deletes all additional hierarchy folders.

In the project, this means that all the process tags in old hierarchy folders are also deleted.

6.4.3 Exporting single control units Control modules can only be exported along with the technological hierarchy If you export control modules, the "Technological hierarchy" option is automatically activated.

Requirement The Technological hierarchy must have been exported from AdvES and matched with the TH from PCS 7.



2. Select the "Export from PCS 7" tab.


4. Under "Filter", enable the "Control modules" option.



6. Here, click the "Generate/synchronize process tags from A to B" button. If you want to export cross-chart interconnections, enable the "Close textual interconnection" option in the Import/Export wizard.

Result The control modules are exported to the PCS 7 project.



Exporting control modules from specific hierarchy folders If you only want to export control modules from individual hierarchy folders of the AdvES project to PCS 7, drag the relevant TH from the Navigator to the "Start object" box.

6.4.4 Exporting a hardware configuration

Requirement The hardware must have been created in AdvES as far as the communications processor.





4. Under "Filter", enable the "Hardware" option.



6. Here, click the "Import objects from A to B" button.

Result The hardware configuration has been exported to the PCS 7 project. In the symbol table, the "Symbol" entries are filled with the "PCS 7 signal name" values from AdvES.

Note Do not rename PROFIBUS

Once you have exported the hardware from AdvES to PCS 7, the PROFIBUS may no longer be renamed.

Note Differences in the data transfer dialog

There may be some differences in the data transfer dialog for a few hardware attributes. In such a case, export the hardware to PCS 7 and then reimport the hardware to AdvES with the option "Delete at target" selected.

7Mapping labels

7.1 What are mapping labels?

Link between two data sources: The mapping labels. The use of mapping labels allows automated data import over several projects. The labels act as the link between Excel tables and AdvES as well as between PCS 7 and AdvES.

The object models of an Excel list of a planner and the automation engineering implementation in PCS 7 are different. These two different data structures are linked to a common standard, the mapping labels.

On the one hand, mapping labels link different naming conventions.

On the other hand, they allow the structure to be retained during import; in other words, the assignment of signals and parameters to control module types.

Different names: Mapping labels for data import from Excel The mapping labels allow different naming conventions to be merged with the same significance beyond the limits of the project.

The names (the character string) in PCS 7 and in your Excel control module and signal lists are different.

AdvES does not know how to assign the data contents to each other. This is done by the mapping labels that assign the different names to each other. As a result, AdvES knows which table contents are parameters, signals or control modules.

You specify the mapping labels once. If your Excel tables have an identical structure, you can use the mapping labels for further projects and therefore import subsequent Excel lists immediately.

Example: Different names A signal list in the Excel file format contains the parameters for a signal. This also includes the parameter that specifies the maximum temperature value before an alarm is triggered. In the Excel table, the column title is "high limit value".

In a PCS 7 project, there is a type to which precisely this signal is applied. Here, the I/O is called "PV_AH_lim".

AdvES performs the function of transferring the limit value to the PCS 7 control module type or even of creating the connection to the control module type. This requires several steps to be taken: In the first step, you import the PCS 7 control module types and assign mapping labels to them. You then assign the same mapping labels to the Excel column. This standardizes the free naming convention of the Excel table.


Mapping labels 7.2 Assigning mapping labels


This makes the mapping labels the link to PCS 7 and the Excel table. AdvES can now import the Excel table and then transfer the values to the PCS 7 project.

You apply the mapping label to a connector once and all the I/Os of the same name belonging to other control module types adopt this mapping label automatically.

You will find more detailed information in the section Example of using mapping labels (Page 24).

7.2 Assigning mapping labels The assignment of mapping labels must be made separately for two different areas.

This section describes how to specify the mapping labels for the PCS 7 data transfer. You create this assignment for signals and parameters of control module types.

You specify the mapping labels for the import from Excel signal and process tag lists during the column definition in the import configuration. You will find more detailed information in the section Data import from process tags and signal lists (Page 69).

Requirements A control module library was imported from PCS 7 to AdvES.

Remember that signal parameters without a corresponding signal cannot be processed in AdvES.

You will find more detailed information in the section Import control module types (Page 46).



Call Click "Assign signals/parameters" in the Workflow bar. The "Assign signals/parameters" tab opens in the working area.

Left table "Control module types":

"Status" Indicates whether mapping labels were assigned for all I/Os of the

relevant type. (red = no assignment exists; yellow = mapping labels missing; green = all I/Os have mapping labels)

"Control module type" All the types from the imported PCS 7 library are listed here. If you left click on a type, all the I/Os are listed in the right-hand table.

Right table "Mapping labels for PCS 7 I/Os"

"PCS 7 I/O" Specifies name of the PCS 7 I/Os. Gray lines indicate the division

into blocks. In other words, the gray line specifies the block. All the following white lines represent I/Os for this block.

"Signal/Parameter" Indicates whether the connector represents a signal or a parameter. This information is transferred automatically. If the information cannot be called up, the setting can be inserted manually from a list box.



"Parameter of signal" This column is relevant only for parameters. From this list, you can assign the parameter to a signal. If the entry is left empty, the parameter is assigned to the process tag ("PCS 7 connection").

"Mapping label" Select the mapping labels here. The list always contains only the values for one type of mapping label; in other words, MLs for signals, signal parameters or control module parameters.

Note

When you assign a mapping label to a connector for the first time, this mapping label is applied to all I/Os with the same name in all types.

If you change an existing mapping label, you can decide whether or not the mapping label is changed for all the I/Os with the same name in all types. As an alternative, you can create exceptions "Only for this connector".

"Generate" After the mapping labels have been assigned the first time, the

process tag types are generated in the "Templates". If they already exist, they are overwritten. You can then use the assignment in other projects as described in section Importing mapping labels from another project (Page 57).

Procedure To specify mapping labels for PCS 7 control module types, follow the steps below:

1. Select a type in the "Control modules" table.

The definition of whether a connector is a signal or a parameter is imported automatically.

2. In the "Parameter of signal" column, you select the signal to which the parameter belongs. If this row remains empty, the parameter is assigned to the control module.

3. Select a "mapping label" for each "PCS 7 connector".

The status changes to green as soon as valid mapping labels have been specified for each connector.

4. Generate the control module types using the "Generate" button.

Result Control module types are generated in the "Templates". Here, the I/Os have the names of the mapping labels. These types can now be used for the control modules in the AdvES project view. You will find more detailed information in the section Assigning control module types to control modules (Page 94).

Mapping labels 7.3 Defining variants


7.3 Defining variants You can define the variants of control modules.

Control modules are assembled from different blocks in this case. AdvES identifies all blocks that were labeled as variant in PCS 7.

Procedure 1. Click "Assign signals/parameters" in the Workflow bar.

2. Navigate to the "Variants" tab.

3. Select a control module type which includes variants.

4. Left-click to create a new variant. Define a "Variant name" and specify the associated signals/parameters by selecting the options.

Result Variants are created in addition when control module types are generated.

7.4 Importing mapping labels from another project The assignment of the mapping labels can be used in further projects. To do this, you can import mapping labels. You cannot export mapping labels from a project.

Requirements ● You have assigned mapping labels once to the I/Os of the control module types using the

"Signals/parameters" command in the Workflow bar.

● The same control module types exist in the initial project and in the target project.

Mapping labels 7.5 List of mapping labels


Copying mapping labels Remember that only the mapping labels can be imported and not the control module types themselves. Furthermore, it is also only possible to transfer mapping labels of identical control module types. To copy mapping labels, follow these steps:

1. Open the "Transfer mapping labels" command in the AdvES menu.

2. Select the source project in which the mapping labels have already been assigned.

3. Click the "Apply mapping labels" button.

Result The mapping labels are imported into your current AdvES project. This does not create the control module types.

Note Creating control module types

To be able to use the control module types, create the templates with the "Assign signal/parameters" command in the Workflow bar and then by using the "Generate" button. Following this, you can assign the control module types to the control modules in the "Typify control modules" dialog.

7.5 List of mapping labels A list containing mapping labels ships with AdvES. You can neither create mapping labels manually nor modify the existing names. Below you will find a list of all the mapping labels. How you assign the mapping labels is up to you. AdvES distinguishes between three different types of mapping labels:

● Signals

● Parameters of control modules

● Parameters of signals

Mapping labels for signals Abbreviation Description ASM Analog signal for monitoring BREAKTIME Minimum break duration [s] BSM Binary signal for monitoring BSMT Binary signal for monitoring with time stamp CPI Control performance index CPI-M Control performance index master controller CPI-S Control performance index slave controller



Abbreviation Description CPM Control performance monitoring CPM1 Control performance monitoring 1 CPM2 Control performance monitoring 2 CR Creep flow Dead time Dead time DEADTIME-M Dead time master controller DEADTIME-S Dead time slave controller DERIVATIVE Derivative DQ Dosing DQ2 Dosing 2 DV Disturbance variable ER Error signal ER-M Error signal master controller ER-S Error signal slave controller FBC Feedback for closed FBD Feedback for direction FBD1 Feedback for direction 1 FBD2 Feedback for direction 2 FBO Feedback for open FBP0 Feedback from position 0 FBR Feedback running FBS Feedback speed FBS1 Feedback speed 1 FBS2 Feedback speed 2 FBV0 Feedback control output 0 FBV1 Feedback control output 1 FBV2 Feedback control output 2 FFWD Input for disturbance feedforward control FFWD-M Input for disturbance feedforward control master controller FFWD-S Input for disturbance feedforward control slave controller GSC Gain scheduling (adapting parameter values for a PID controller) IL Interlock IL-AUX1 Auxiliary value 1 interlocked IL-AUX2 Auxiliary value 2 interlocked IL-PERM Interlock permitted IL-PERM-AUX1 Auxiliary value 1 permitted IL-PERM-AUX2 Auxiliary value 2 permitted IL-PR Interlock protection IL-PR-AUX1 Auxiliary value 1 protected IL-PR-AUX2 Auxiliary value 2 protected INT Integral LMN Manipulated variable



Abbreviation Description LMN-CPM Control performance monitoring setpoint LMN-CPM1 Control performance monitoring setpoint 1 LMN-CPM2 Control performance monitoring setpoint 2 LMN-M Setpoint master controller LMN-Q Setpoint quality LMN-S Setpoint slave controller LMN1 Control value 1 LMN2 Control value 2 LMN3 Control value 3 LMN4 Control value 4 MA Manual/auto MA-M Manual/auto master controller MA-S Manual/auto slave controller MOTORTIME Motor actuating time [s] MPC Model predictive control NOFBC No feedback for valve closed NOFBO No feedback for valve open NOFBP0 No feedback for position 0 NOFBV0 No feedback for control output 0 NOFBV1 No feedback for control output 1 NOFBV2 No feedback for control output 2 NOT ASSIGNED Not assigned OUTC Close control output OUTD Output for direction OUTD1 Output for direction 1 OUTD2 Output for direction 2 OUTDN Control output down OUTO Open control output OUTOC Close control output OUTR Output run OUTS Output speed OUTS1 Output speed 1 OUTS2 Output speed 2 OUTUP Control output up OUTV0 Control output valve 0 OUTV1 Control output valve 1 OUTV2 Control output valve 2 OV Output value PULSETIME Minimum pulse duration [s] PV Process value PV-CPM1 Control performance monitoring 1 for process value PV-CPM2 Control performance monitoring 2 for process value



Abbreviation Description PV-LIM Process value limit value PV-M Process values master controller PV-Q Process value quantity PV-S Process value slave controller PV1 Process value 1 PV2 Process value 2 PV3 Process value 3 PV4 Process value 4 PV5 Process value 5 PV6 Process value 6 PV7 Process value 7 PV8 Process value 8 RATIO Ratio for ratio control RATIO-IN Input for process variable ratio control RATIO-OUT Output for process variable ratio control RBI Readback input RBI-M Readback input master controller RBI-Q Readback input quantity RBI-S Readback input slave controller RBI1 Readback input 1 RBI2 Readback input 2 SIM Delay SIM-M Delay master controller SIM-S Delay slave controller SIM1 Delay 1 SIM2 Delay 2 SP Setpoint SP-M Setpoint master controller SP-P Fine dosing setpoint SP-S Setpoint slave controller SP1 Setpoint 1 SP2 Setpoint 2 SP3 Setpoint 3 SP4 Setpoint 4 SPEXT External setpoint SPEXT-M External setpoint master controller SPEXT-S External setpoint slave controller SPR Split range VLV Valve VLVMOT Motor valve



Mapping labels for parameters of control modules Abbreviation Description 0ALARM Alarm at 0 0STATE State at 0 0TRIP Switch at 0 1ALARM Alarm at 1 1STATE State at 1 1TRIP Switch at 1 BYPASSPROT Interlocks bypassed BYPPROT Bypassing interlocks during simulation / local operation CANCEL-MSG-EN Enable cancel message CHAR Characteristic CONZONE-M Control zone master controller CONZONE-S Control zone slave controller CTRL-DIR AO: Control direction CTRL-MODEL Controller model CTRL-TYPE Controller type D TV (derivative action time) D-M TV master controller D-S TV slave controller D1 TV1 (derivative action time 1) D2 TV2 (derivative action time 2) D3 TV3 (derivative action time 3) DC-ON Disturbance variable compensation on DEADBAND-M Width of dead band master controller DEADBAND-S Width of dead band slave controller DG Derivative action gain DG-M Derivative action gain master controller DG-S Derivative action gain slave controller I TN (integral action time) I-M TN (integral action time) master controller I-S TN (integral action time) slave controller I1 TN1 (integral action time 1) I2 TN2 (integral action time 2) I3 TN3 (integral action time 3) IDLETIME Wait time IL-PERM1 1. Signal for interlock permission IL-PERM2 2. Signal for interlock permission IL-PERM3 3. Signal for interlock permission IL-PERM4 4. Signal for interlock permission IL-PERM5 5. Signal for interlock permission IL-PERM6 6. Signal for interlock permission



Abbreviation Description IL-PERM7 7. Signal for interlock permission IL-PERM8 8. Signal for interlock permission IL-PR1 1. Interlock protection signal IL-PR2 2. Interlock protection signal IL-PR3 3. Interlock protection signal IL-PR4 4. Interlock protection signal IL-PR5 5. Interlock protection signal IL-PR6 6. Interlock protection signal IL-PR7 7. Interlock protection signal IL-PR8 8. Interlock protection signal IL1 Interlock signal 1 IL2 Interlock signal 2 IL3 Interlock signal 3 IL4 Interlock signal 4 IL5 Interlock signal 5 IL6 Interlock signal 6 IL7 Interlock signal 7 IL8 Interlock signal 8 INTL-EN Interlock without reset INV Inversion INV-M Inversion master controller INV-S Inversion slave controller LMN-HR Setpoint limitation max. LMN-LR Setpoint limitation min. MMON-EN Monitoring of the feedback of the motor on/off MMON-TDYN Motor monitoring time for feedback error with operator intervention MMON-TSTATIC Motor monitoring time after operator intervention MSG-PRIO Message priority NOT ASSIGNED Not assigned P KP (proportional coefficient) P-M KP master controller P-S KP slave controller P-SP-M Proportional action in feedback path master controller P-SP-S Proportional action in feedback path slave controller P1 PID gain for operating point 1 P2 PID gain for operating point 2 P3 PID gain for operating point 3 PERMIT-EN Activation enable POSTDOSETIME Dribble time PROT-EN Protective interlock PULSEWIDTH Pulse width of the control signal RELAX-TIME Duration of dribble phase



Abbreviation Description SUBVAL Substitute value SWS-TYPE Software signal type TU Time unit (sec/min/hr) VMON-EN Monitoring of the feedback of the valve on/off VMON-TDYN Valve monitoring time after operation in [s] VMON-TSTATIC Monitoring time for valve feedback errors without operation VMONP0-TDYN Monitoring time valve feedback position 0 for feedback error with

operator intervention VMONSAFEPOS-EN 1 = Position 0 (safe position) for monitoring errors VMONV0-TDYN Monitoring time for valve 0 feedback errors with operator interventionVMONV1-TDYN Monitoring time valve feedback 1 for feedback error with operator

intervention VMONV2-TDYN Monitoring time valve feedback 2 for feedback error with operator

intervention WARNTIAUT Prewarning of motor start in automatic mode WARNTIMAN Prewarning of motor start in manual mode WP-UNIT Operating point unit WP1 Operating point 1 (support point) for X WP2 Operating point 2 (support point) for X WP3 Operating point 3 (support point) for X

Mapping labels for parameters of signals Abbreviation Description BAD Signal state bad COUNTLIM Startup counter limit D Derivative action time DEADBAND Width of dead band DEFPOS1 Output signal parameter setting for position 1 DEFPOS2 Output signal parameter setting for position 2 DEL Time delay DEL-HL1-C Time delay high limitp 1 entering state DEL-HL1-G Time delay high limit 1 exiting state DEL-HL2-C Time delay high limit 2 entering state DEL-HL2-G Time delay high limit 2 exiting state DEL-HL3-C Time delay high limit 3 entering state DEL-HL3-G Time delay high limit 3 exiting state DEL-L1-C Time delay limit 1 entering state DEL-L1-G Time delay limit 1 exiting state DEL-L2-C Time delay limit 2 entering state DEL-L2-G Time delay limit 2 exiting state DEL-L3-C Time delay limit 3 entering state



Abbreviation Description DEL-L3-G Time delay limit 3 exiting state DEL-LL1-C Time delay low limit 1 entering state DEL-LL1-G Time delay low limit 1 exiting state DEL-LL2-C Time delay low limit 2 entering state DEL-LL2-G Time delay low limit 2 exiting state DEL-LL3-C Time delay low limit 3 entering state DEL-LL3-G Time delay low limit 3 exiting state DIM Unit DV-ON Activation of disturbance feedforward EN-HL1 Enable high limit 1 EN-HL2 Enable high limit 2 EN-HL3 Enable high limit 3 EN-HM1 Enable reporting of high limit 1 EN-HM2 Enable reporting of high limit 2 EN-HM3 Enable reporting of high limit 3 EN-LL1 Enable low limit 1 EN-LL2 Enable low limit 2 EN-LL3 Enable low limit 3 EN-LM1 Enable reporting of low limit 1 EN-LM2 Enable reporting of low limit 2 EN-LM3 Enable reporting of low limit 3 EN-M Enable message(s) ER-HL1 Error high limit 1 ER-HL2 Error high limit 2 ER-HL3 Error high limit 3 ER-HYS Error hysteresis (%) ER-LL1 Error low limit 1 ER-LL2 Error low limit 2 ER-LL3 Error low limit 3 FILTFACTOR Filter factor (for example low pass filter for CPI ) FLUT-M-EN Flutter message enabled FLUTFACTOR Number of flutter signals that can be suppressed FLUTSUPRESS Flutter suppression on/off FLUTSUPTIME Flutter time: If a certain number of state changes take place within this

time, fluttering is suppressed. FSD Initial value detection on/off GAINVALIDATION Boolean parameter for gain valid/invalid GRADLAGTIME Lag time gradient GRADLL Low limit value for absolute gradients HBARSCALE High limit value scale in PV bar graph of faceplate HDEV-HL1 High deviation alarm limit value high 1 HDEV-HL2 High deviation alarm limit value high 2



Abbreviation Description HDEV-HL3 High deviation alarm limit value high 3 HDEV-LL1 High deviation alarm limit value low 1 HDEV-LL2 High deviation alarm limit value low 2 HDEV-LL3 High deviation alarm limit value low 3 HDEVSUP-HL1 High deviation alarm suppressable limit value high 1 HDEVSUP-HL2 High deviation alarm suppressable limit value high 2 HDEVSUP-HL3 High deviation alarm suppressable limit value high 3 HDEVSUP-LL1 High deviation alarm suppressable limit value low 1 HDEVSUP-LL2 High deviation alarm suppressable limit value low 2 HDEVSUP-LL3 High deviation alarm suppressable limit value low 3 HL1 Limit value 1 H HL2 Limit value 2 HH HL3 Limit value 3 HHH HLIMIT High limit of input value (4-20 mA) HOLD Hold signal HR Measuring range end HRM Upper range in manual mode (scaling) HYS Hysteresis (%) HYS-HL1 Hysteresis (%) high limit value 1 HYS-HL2 Hysteresis (%) high limit value 2 HYS-HL3 Hysteresis (%) high limit value 3 HYS-LL1 Hysteresis (%) low limit value 1 HYS-LL2 Hysteresis (%) low limit value 2 HYS-LL3 Hysteresis (%) low limit value 3 LAGTIME Lag time LBARSCALE Low limit value for scale in PV bar graph of faceplate LDEV-HL1 Low deviation alarm limit value high 1 LDEV-HL2 Low deviation alarm limit value high 2 LDEV-HL3 Low deviation alarm limit value high 3 LDEV-LL1 Low deviation alarm limit value low 1 LDEV-LL2 Low deviation alarm limit value low 2 LDEV-LL3 Low deviation alarm limit value low 3 LDEVSUP-HL1 Low deviation alarm suppressable limit value high 1 LDEVSUP-HL2 Low deviation alarm suppressable limit value high 2 LDEVSUP-HL3 Low deviation alarm suppressable limit value high 3 LDEVSUP-LL1 Low deviation alarm suppressable limit value low 1 LDEVSUP-LL2 Low deviation alarm suppressable limit value low 2 LDEVSUP-LL3 Low deviation alarm suppressable limit value low 3 LIMIT Low limit of input value (4-20 mA) LIOPMODE Operating mode LL1 Limit value 1 L LL2 Limit value 2 LL



Abbreviation Description LL3 Limit value 3 LLL LR Measuring range start LRM Lower range in manual mode (scaling) NEUTPOS Neutral position NGRADHL Limit (high) for negative gradients NOT ASSIGNED Not assigned OFFSET Offset OUT1-HR High limitation of output 1 OUT1-LR Low limitation of output 1 OUT2-HR High limitation of output 2 OUT2-LR Low limitation of output 2 PGRADHL High limit value for positive gradients PREFILT Time constant of the filter PULSEWIDTH Pulse width SAFEPOS Safe position SAFEPOSAUX Safe position for servo-valve SCALE-BEH Scaling value behavior SDIM Signal dimension SHR End of measuring range signal SLR Start of measuring range signal SUBST Switch to substitute value SUP-HL1 High limit value 1 suppressable SUP-HL2 High limit value 2 suppressable SUP-HL3 High limit value 3 suppressable SUP-LL1 Low limit value 1 suppressable SUP-LL2 Low limit value 2 suppressable SUP-LL3 Low limit value 3 suppressable TI Reset time TIMEWINDOW Width of the sliding time window for statistical evaluations TRKCV Track control value TRKEXT Track external setpoint (for bumpless takeover) TRKPV Track process value

8Data import from process tags and signal lists

This section describes how to import process tag or signal lists into AdvES. With the mapping labels, AdvES provides you the option of automated import of your lists once you have defined an import configuration.

You use the same user interface to import process tag and signal lists.

Mapping labels You will find more detailed information in the section Mapping labels (Page 53).

Import sequence To import data from Excel lists into AdvES, follow these steps:

1. Open the tab for the import with the "Import signal/process list" menu command in the Workflow bar.

2. Create an import configuration.

See Edit configuration (Page 74)

3. Create the column definitions for your Excel table.

See Column definition (Page 76)

4. Test the import configuration

5. Import the data into AdvES.

See Release/discard import (Page 80)

8.1 Requirements and notes

8.1.1 Preconfigured Excel lists

Process tag list and signal list for automated import When AdvES ships, it includes two Microsoft Excel lists. A process tag list and a signal list each in the Excel version 2003. You will find the lists in the installation folder of AdvES in the "Template Lists" folder.

These lists support you when you import your data into AdvES. If you transfer your data to the supplied signal or process tag list, you can skip the assignment of the mapping labels. These lists are accompanied by configuration files containing predefined column definitions.


Data import from process tags and signal lists 8.1 Requirements and notes


Introduction The supplied Excel list contains predefined assignments for importing. You have the option of entering your data in the list and importing this into AdvES without any further action.

NOTICE Changes in the list structure cancel the import assignments

Do not remove any columns. Do not add any new ones. Do not move columns.

If you make changes, the import assignment using assignment labels must be reconfigured.

Adapting the Excel list If you adapt the Excel list, you will then need to redefine the import rules.

● Columns added.

Solution: Open the configuration file and redefine the assignments starting at the column you deleted. To do this, you will need to reassign the table headers after the deleted row.

● Columns deleted.

Solution: As above. In addition to this, delete the assignment of the deleted column completely from the configuration file.

● Column moved

After moving columns, you will need to adapt the configuration file manually.

8.1.2 Signal / process tag lists

Requirements for importing signal and process tag lists ● The following hardware information must exist in the Excel list:

– Automation station

– PROFIBUS name

– PROFIBUS address

– Slot / slots

– Module types

– Channels

● It must be possible to derive the following information from the signal / process tag list:

– Technological hierarchy

– Name of the control module

– Function

– Signal identifier



Example of signal names NH3\0400\E01_TIC0815.PV

NH3 First technological hierarchy 0400 Second technological hierarchy E01 Third technological hierarchy TIC0815 Name of the control module type TIC Function PV Signal identifier

Further example of signal names A1K14-TIC18-PV

A1 TH1 Plant 1 K14 TH2 tank 14 TIC(A) Control module type Temperature indication control (alarm) PV I/O parameter of the

control module Process value

8.1.3 Technological hierarchy

Importing the technological hierarchy from Excel lists If the information about the PH is contained in an Excel list, AdvES can generate the TH from it. The generation is performed automatically. The names of the TH are adopted from the Excel list.

For projects in which data is imported from Excel lists after a TH has already been created or was imported from PCS 7, there are is a comparison of the TH during import.

Effects of the matching The matching checks the existing TH and the newly imported TH for differences. Hierarchy folders from the Excel list are inserted in the existing TH. No TH folders are deleted during the comparison. Existing TH folders are not created twice.



Example

Missing values in an Excel list An error occurs if hierarchy levels are missing when importing from the Excel list. Each hierarchy following the missing one automatically moves one level up in the import user interface. For example PH3 then becomes PH2. This means that the data is inconsistent and that the elements are created incorrectly.

Technological hierarchy does not exist Unless a TH is specified, the control modules are created as a list. During subsequent editing, you can create hierarchy folders and move the control modules manually to the folders.

8.1.4 Order of column definition

Note

Specify the import assignments only in the following order. A changed order causes errors.

1. Technological hierarchy

2. Control module

3. Attributes of the control module

4. Parameters of the control module

5. Signals

6. Attributes of the signals

7. Parameters of the signals

Data import from process tags and signal lists 8.2 Import list


8.2 Import list

Requirements ● To import data from Excel, you must have already created an import configuration.

● The status of the configuration test must be green.

Procedure 1. Click "Import signal/process list" in the Workflow bar.

The "Import signal/process list" tab opens.

2. Select the "Import" tab.

3. Select an entry in the "Import type" list.

The import type is a description of the import job to be executed and has no technical effect.

4. Select an entry in the "Configuration" list.

The selected configuration controls how the data of the Excel file is assigned to the control modules, signals and parameters.

– Optional: Edit the selected configuration by clicking the "Edit" button. See the chapter "Edit configuration (Page 74)" for information on editing configurations.

– Optional: Create a new configuration. See the chapter "Edit configuration (Page 74)" for information on creating configurations.

5. Use the "Excel file" button to select a file in "xls" or "xlsx" format.

6. Use drag-and-drop to move an object from the "Project" tab or the "Templates" tab to the "Import target" box.

7. Click "Import...".

Result In the lower window, status messages are displayed relating to the import that are initiated by the automatic consistency check.

Data import from process tags and signal lists 8.3 Edit configuration


You will find more detailed information on this window in the chapter Checking data consistency (Page 109). The imported data is stored in a separate working layer.

8.3 Edit configuration The first step in importing your data records from Excel is the definition of a configuration.

In this configuration, you specify how data is assigned to control modules, signals and parameters. On the one hand, the data will then be imported at the correct point in the project without requiring manual editing later. On the other hand, it is possible to generate control modules if you have assigned the mapping labels in the configuration.

Specifying the import type From the "Import type" list in the "Import" tab, entries "AdvES process tag list" and "AdvES signal list".

Data import from process tags and signal lists 8.3 Edit configuration


Open the "Configuration" tab Change to the "Configuration" tab. You will see the following user interface:

Create a new configuration 1. Click the "New..." button.

2. Enter a name and confirm the creation with "OK".

Data import from process tags and signal lists 8.4 Column definition


Properties of the configuration 1. Select the Excel file for the import with the "..." button.

2. Open the Excel file with the "Load" button.

3. In the "Excel worksheet" list, select the worksheet that includes the data.

4. In the "Excel start row" list, select the row from which the data records start.

In order to prevent descriptions from being imported and resulting in errors, specify the start row of the data values.

5. Drag an object from the Navigator to the "Import target" box.

Excel data records are generated below this object after the import.

Exporting/importing the import configuration To save a complete import configuration, click the "Export" button. You can import the file you have created into other AdvES projects using the "Import" button.

8.4 Column definition In the column definition, you create an assignment for each column of your Excel file. If, for example, an Excel column contains signals, define that this column contains signals in the column definition. AdvES does not automatically recognize how the values from the Excel table need to be interpreted and assigned. This is achieved with the column definition.

Example of a column definition To illustrate: a sample column definition:

Row Content "Column" Contains the letters of the Excel column. "Caption" Contains the cell value of the "Excel start row" you specified

in the configuration.



Row Content "Mapping class" Here, define a category of mapping labels for the cell values.

Possible mapping classes are: Technological hierarchy Control module Control module attribute Control module parameter Signal Signal attribute Signal parameter

"Data" Contains the first three values of the Excel column starting at the specified "Excel start row".

Creating the column definition Using the "Apply all Excel columns" button, create a column definition for all the columns present in your Excel table.

As an alternative, you can create individual column definitions. Follow the steps below:

1. Open the Excel file with the "Load" button.

2. Drag the first data cell of a column from Excel to the empty area of the column definition. Work steps in detail:

– Click the cell in Excel.

– Position the mouse pointer on the frame of the cell until the mouse pointer changes its appearance. This functions on one of the sides of the cell but not in the corners.

– Click and hold down the left mouse button and drag it to AdvES.

Defining the "mapping class" (AdvES data type) When you have created all the column definitions, specify the AdvES data type for each column definition. To do this, select an entry from the "Mapping class" list for each column definition.



"Properties of the column definition" In this window, you specify the information relating to the AdvES data type from the column definition.

"Splitting" function

The "Splitting" function allows you to split the content of an Excel cell. An Excel cell, for example with the content MFB.100 can be split into the values MFB and 100. You only use this function when you want to separate certain parts of the cell value.

You call this function with the ">>" button.

The criteria are available for the splitting function:

1. Fixed start/end position

2. Nth appearance of delimiters

3. Nth appearance of letters

4. Nth appearance of digits

With "Show/hide", you can show or hide partial values. Hidden values are not adopted during import. A hidden value is grayed out and can be activated again using the "Show" button. All shown values are adopted in the column definition area by clicking the "Apply" button. A previous splitting can be canceled again with the "<<" button.

"Static mapping"

Here, the AdvES data type must be specified in more detail. For example for hierarchy folders, you specify the level. For parameters and signals, you specify the mapping label. Below, you will find the lists available for selection depending on the AdvES data type.

"Mapping target": Technological hierarchy



Hierarchy folder level 1 Hierarchy folder level 2 Hierarchy folder level 3 Hierarchy folder level 4 Hierarchy folder level 5 Hierarchy folder level 6 Hierarchy folder level 7 Hierarchy folder level 8

"Mapping target": Control module

AdvES control module

"Mapping target": Control module attribute

Function of the control module Author PCS 7 control module description PCS 7 control module name First interconnected control module Second interconnected control module Third interconnected control module PCS 7 control module type Station name

"Mapping target": Control module parameter/signal parameter/signal

Here, those mapping labels that were used for the control module types need to be assigned. You will find more detailed information in the section List of mapping labels (Page 58).

"Mapping target": Signal attribute

Signal name Automation station (AS) cabinet Main controller Controller Subnet DP address A DP address B Slot IO module (order number) Channel Hardware signal type AI, AO, DI, DO, …

Data import from process tags and signal lists 8.5 Release/discard import


Signal redundancy Start of measuring range signal End of measuring range signal Signal dimension

8.5 Release/discard import

Requirements ● The import has taken place.

Release / discard working layer Initially, a working layer represents a separate project structure. Following the import, this is located next to your AdvES project. You cannot, however, switch back and forth between the project structure and the working layer.

The working layer presents the differences between your project and the imported data using a color code.

Color Status value Black Unchanged Purple Changes to lower-level objects Blue Modified Green New Red Deleted Magenta Collision Pink Collision in lower-level objects

To return to your project following the import, release the working layer or discard it.

NOTICE Editing data in the working layer causes errors

Do not edit your project in the working layer. This is used only to display the changes between the import and the existing project. Immediately following import, either release the working layer or discard it.

Workflow bar, "Release import" command

If you release the imported working layer, the objects are included in your project.

Workflow bar, "Discard import" command



If you discard the working layer, it is deleted.

9Creating data in AdvES

9.1 Introduction In AdvES, you have the option of creating a technological hierarchy and filling it with control modules. This allows you to complete or modify imported data.

It is, however, also possible to create a complete project structure in AdvES.

9.2 Creating a technological hierarchy

Procedure To create a technological hierarchy manually, follow the steps below:

1. Right-click on the symbol of the project or on the project name.

2. To create the first hierarchy folder, click the entry "New > "01 hierarchy folder level 1".

3. You can create further hierarchy folders by right clicking on existing hierarchy folders and selecting "New > 01 hierarchy folder level 2".

Example

9.3 Creating control modules

Requirement There must be a technological hierarchy.

Procedure To create a control module manually, follow the steps below:

1. Right-click on the symbol of the technological hierarchy in which you want to create the control module.

2. Click on the entry "02 control module AdvES" in the context menu.


Creating data in AdvES 9.4 Creating parameters and signals


9.4 Creating parameters and signals

Requirement There must be a technological hierarchy and a control module.

Procedure To create signals or parameters for control modules manually, follow the steps below:

1. Right-click on the control module for which the signal/parameter is to be created.

2. Click on the entry "New > 01 parameter" or "New > 02 signals" in the context menu.

3. Click on a list entry.

Example

Creating parameters for signals manually To create parameters for signals, follow the steps below:

1. Right-click on the signal for which the parameter will be created.

2. Click on a list entry in the context menu.

9.5 Creating messages

Requirement There must be a technological hierarchy.

There must be a control module.

Creating data in AdvES 9.6 Adapting properties


Procedure To create a message, proceed as follows:

1. Right-click on the symbol of the control module in which you want to create the message.

2. Click on the entry "New > 08 message" in the context menu.

9.6 Adapting properties To adapt the properties (for example "Name" or "Description") of an object, open it by double-clicking on it in the working area.

Here, the boxes can be edited. You will find more detailed information on the boxes in the section Working area (Page 37).

Note Non-editable properties of objects

The "Name", "Label" and "Description" of signals and parameters cannot be adapted manually.

Creating data in AdvES 9.6 Adapting properties


Editing data in AdvES 1010.1 Introduction

You can edit objects in the Navigator using the context menu. To open the context menu right click on the required object. The following editing options are available to you:

● Delete

● Cut

● Copy

● Paste

● Move

● Print

● Open properties (in the working area)

● Search

"Search" command in the context menu Searches for the entered text in the objects that are visible in the Navigator.


Editing data in AdvES 10.2 Editing a technological hierarchy


"Options" tab of the search

● "Type of search"

Select what you want to search for from this list:

– "Database based search": Searches the entire database.

– "Search in Navigator text": Searches through the texts in the Navigator

● "With pattern matching"

Activating the option changes the interpretation of certain characters. Example: If pattern matching is disabled, a question mark is searched for as a character in the text. If pattern matching is enabled, the question mark represents a placeholder for any single character. Note that when you search in the Navigator with pattern matching, the blanks at the end of Navigator texts are truncated. The number of hits increases.

10.2 Editing a technological hierarchy When editing the technological hierarchy, remember that all elements below the TH are also edited. If you delete a TH, you automatically delete all the process tags or sub-hierarchies below it. The same applies when you move: Folder contents remain in the folder.

To move a technological hierarchy, drag it to any other TH or to the project node.

Editing data in AdvES 10.3 Tables


10.3 Tables

10.3.1 Basics There are four table views available in AdvES:

1. "Connections"

2. "Process tag list"

3. "Signal list"

4. "Signal list (PCS mapping)" /list of hardware channels

Call Open the table views in the AdvES menu with the "Table view..." command.

A tab with the relevant list opens in the working area. The following functions are available to you here:

Icon Tooltip Description

"Refresh - F5" Refreshes the table, for example if objects have been modified or added.

"Export" Allows the export of the current table view in one of the following formats: Excel (.xls), Access (.mdb), text file (.txt), XML (.xml). This function is not available in the list of interconnected control modules.

Defining "start object(s)" Objects in the table views depend on the defined start object. The filters search for objects below the start object.

To define the start object, drag an object from the Navigator to the "Start object(s)" box. The list is generated automatically. If objects below the start object have changed, click the "Refresh" button to update the results list.

10.3.2 List of interconnected control modules Below, you can see all the columns of the "Connections"; in other words, of the list of all interconnected control modules.



List of connections Column header name Description "Control module" Preceding control module "Interconnected" Subsequent control module(s) "I/O" Input or output "Data type"

10.3.3 Message list

Table 10- 1 Message list

Column header Description Superior object Displays the control module under which the

message is located. Message Number and name of the message. Message class Displays the message class from PCS 7. Event Displays the incoming event. Priority Displays the priority of the message. Info text Freely selectable description for message. Origin

10.3.4 Signal lists Below, you can see all columns of the signal list.

Signal list Column header name Description Technological hierarchy Displays the icon and name of the TH. Control module Displays the icon and name of the control module. Signal name Name of the process signal, which is made up of the name of the

control module (FC111) and the signal label (PV) separated by a period.

Signal description A textual description of the signal. This has no function and serves only for documentation.

Mapping label Displays the icon and abbreviation of the mapping label that was assigned to the signal.

Mapping label (description) Displays the description of the mapping label. PCS 7 signal name Name of the signal from PCS 7. Station name Name of the SIMATIC station from the hardware configuration.



Column header name Description Limit value Limit value of the signal Unit Measuring range start Measuring range end End of measuring range signal Start of measuring range signal Limit value 1 H Low deviation alarm limit value high High deviation alarm limit value high Low deviation alarm limit value low High deviation alarm limit value low

10.3.5 Signal lists (PCS mapping) Below, you can see the columns of the signal list (PCS mapping).

Signal list (PCS mapping) Column header Description Technological hierarchy Displays the icon and description of the TH. Control module Displays the name and description of the control module. Signal name Signal name attribute of the signal Signal description Signal description attribute of the signal Mapping label Object property name of the signal Mapping label description Object property description of the signal PCS 7 signal name Attribute PCS 7 signal name of the attribute Station name Station name attribute of the signal Subnet Subnet attribute of the signal Address DP address attribute of the signal Address B DP address (redundancy) attribute of the signal DP slave DP slave order number attribute of the signal Slot Slot attribute of the signal signal module Signal module order number attribute of the signal Channel Channel attribute of the signal

10.3.6 Control module list Below, you can see all columns of the control module list.



Control module list Name of the column header Description Control module name Icon and name of the control module. Control module description Description of the control module. Technological hierarchy Object property name of the hierarchy folder. PCS 7 control module name Attribute PCS 7 control module name of the control

module. PCS 7 control module type Attribute PCS 7 control module type of the control

module. Interconnected predecessor control module 1

Attribute interconnected predecessor control module 1 of the control module.

Interconnected predecessor control module 2


Interconnected predecessor control module 3


Station name Attribute station name of the control module. VMON-EN (mapping label)

Column displays value for parameter / signal.

10.3.7 Filter functions To allow you to filter lists, there are two basic functions available. Autofilter and manual filter. You activate the autofilter using the icons in each column header. To activate the manual filter functions, right-click in the column header.

Autofilter You can filter the list for status values. A filter operator can be set in each column. To do this, select one of the two icons in a table header.

Using the "AutoSort" button, you can sort the results in ascending or descending order.

Using the "Autofilter" button, you filter the results. Depending on the option you select, only certain values are displayed. Here, as an example, the filter options of the "Status value" column.



Manual filters You can set one manual filter for each column. By right clicking in the column header, you open the context menu.

Here you can create manual filters using the "Edit" button.

Filter criteria 1. Included character strings "Include"

2. Non-included character strings "<>"

3. Numeric values greater than / less than or equal to / not equal to a value ">" "<" ">=""<="

4. Filter for empty values " "

5. Empty cells

6. Combination

10.3.8 Editing values Within the tables, you can edit several values at the same time. Grayed out cells cannot be edited. Edit the values by double clicking on the cell or pressing the <F2> key.

Selecting several rows You can select several cells by holding down the <Ctrl> key and selecting the entries with a mouse click. You can select entire columns by holding down the <Shift> key and clicking with the left mouse button. Selected entries can then be edited together by entering the value in any cell.

Searching and replacing With the "Search and replace" function, you can edit entries in bulk.

This function is called from the context menu after right clicking in a column header.

Editing data in AdvES 10.4 Assigning control module types to control modules


10.4 Assigning control module types to control modules

10.4.1 Introduction

Assigning control modules to control module types in AdvES You assign control modules you created in AdvES or imported from Excel lists to control module types. This process is necessary to allow you to export the control module to PCS 7. When you assign a type to a control module, the control module is adapted according to the structure of the type. The assignment of the control module type can be undone at any time.

Control module type attribute at control module The control module type is stored as an attribute at the control module. You will find it in the properties under "PCS 7 control module type".

Requirement To use control module types, mapping labels must be assigned to the control module types. You will find more detailed information in the section Assigning mapping labels (Page 54).

How the assignment works As a result of the assignment, the control module and control module type are synchronized with each other and an aggregation created from all the objects. The following rules apply to generation:

1. Missing objects in the control module are adopted 1:1 from the control module type.

2. Identical objects are not overwritten. The object of the control module remains.



3. Missing objects in the control module type are not deleted at the control module.

4. Empty values of the control module adopt the values of the control module type.

10.4.2 Assigning control module types to control modules

User interface Call up the user interface in the Workflow bar with the "Typify control modules" command.

Icon Description

Displaying the standard table Automatically typify not typified control modules. Calculate status (all / selected). Saves the values in the table and the assignments Function of the control module - PCS 7 control module type in the standard table. The status becomes yellow if a PCS 7 control module type value exists.

Execute allocation. The control module is added to or modified according to the control module type (selected/all).

Undo allocation



Icon Description "Status" Specifies the status of the assignment:

Red = no control module type assigned Yellow = assignment stored in the standard table.

Assignment of the control module types not yet performed. Green = assignment made. The control module is adapted

according to the structure of the control module type.

"AdvES control module" Name of the control module from the project view. "Function of the control module" Function of the control module (editable) "PCS 7 control module type" Displays assigned control module types.

Assigning PCS 7 control module types 1. Drag a start object from the project view to the "Start object" cell.

The control modules are displayed.

2. Drag a control module type from the "Templates" view to the "PCS 7 control module type" cell. You only need to make the assignment once per function of the control module; it is stored in the standard table.

3. You can automatically assign a control module type to all control modules with the same function using the button.

4. Make the assignment to the control modules using the button.

Undoing the assignment of the control module type u cancel the assignment of the control module type.

Note ts of the control module are lost

ssignment, all the objects that were added to the t

d.

5. Save.

With the "Undo assignment" button, yo

Objec

If you cancel the control module type acontrol module as a result of the assignment are lost. The only control module objects tharemain are those that existed prior to the type assignment or that were added manually. Manually modifying values does not prevent the corresponding objects from being delete

This cancelation does not affect the values entered for remaining objects. A value adopted from the control module type, for example, is not set back to empty.



Reimport of control module types If you have assigned control module types to your control modules and then adapted these control module types in PCS 7, take account of the following information when you reimport.

NOTICE Loss of control module information

Control module types have a direct effect on the control module instances.

"Apply changes"

Types and control modules are overwritten with the new type. All the objects and values that no longer exist in the new type are deleted in the control module instances. Modified values of objects that continue to exist in the modified type are not affected.

"Do not apply changes"

Control modules and their types remain unchanged in AdvES. Your PCS 7 control module types now differ from those in AdvES. Exporting to PCS 7 is therefore no longer possible until identical control module types are used again in PCS 7 and AdvES. The consistency check returns the error "Different control module types".

10.4.3 Standard table

Standard table for assignments After you have assigned the type manually to a control module, it is automatically assigned to the function. AdvES is capable of reapplying this assignment rule to subsequent control modules with the same function and can assign the control module type automatically. The PCS 7 control module type is adopted based on an existing entry for the function of the control module from the standard table. This does not apply in the opposite direction, because the value for "Function of the control module" only serves as a substitute value to define a missing control module type.

You open the standard table with the "Show standard table" icon. You can change the assignments in the list or create new entries.



"Name" Preset name of the standard table (AdvES

standard table). Cannot be modified. "Description" Preset description of the standard table (assign

control module type to control module) "Default value" Displays the value from which you opened the

standard table. "Name" Name of the function of the control module. "Description" Description of the function of the control module. "Value 1" Assigned PCS 7 control module type

Only one control module type can be assigned to each function.

When you create the assignment, a prompt is displayed if you assign a control module type to a function that already has an entry in the standard table.

To overwrite the existing entry, click the "Yes" button. A new control module type is assigned to the function. If you click "No", there is no action.

Creating, modifying and deleting entries

In the context menu, you have the option of creating new entries, modifying existing values or deleting them. To create entries in bulk, click "New > Standard table value" and create the entries with the "New standard table entry" button.

Editing data in AdvES 10.5 Interconnecting control modules


10.5 Interconnecting control modules

10.5.1 Introduction

Interconnecting I/Os of control modules In AdvES, you can connect control modules with each other. Each control module can be interconnected with up to three other control modules.

You always assign outputs of a control module to the inputs of a connected control module by means of drag-and-drop. The user interface always shows two control modules, a preceding control module and a subsequent control module.

As described below, the connections are created in the control module types and stored in the library. When you create the instances, you can use these connections.

Requirement Mapping labels must be assigned to the control module types.



10.5.2 Specifying interconnections to control module types

User interface Call up the user interface in the Workflow bar with the "Interconnect types" command.

Specifying a connection in the tables Two tables are opened. "Predecessor control module" is your starting control module and "Successor control module" is the one to which you are connecting. Using the "..." button, select the two control module types or drag them from the "Templates" tab to the cells.

The I/Os of the control module types are displayed in the "Name" row. You cannot connect inputs with inputs or outputs with outputs.

To specify the connection, drag the outputs to the inputs of the subsequent control module. To do this, click and hold down the mouse button on a cell in the "Name" column (predecessor) and drag it to a "Connected output of the predecessor control module" cell (successor).



Feedback To define feedback, drag the outputs of the subsequent control module from the "Name" column to the "Connected output of the successor control module" column.

Background Interconnections are stored in the control module type. The interconnections in the control module type are templates. Specific connections are created only in the control module instances. With this background, several interconnections can be stored for an I/O that connect various control modules in the control module type.

This is illustrated by an example: An output has a connection to an input of two different control module types. These are only templates because, in practice, the interconnection only exists between two control modules. You specify which interconnection will be configured only when you generate the instances. With this method, interconnections between two control modules of the same type are also possible.

10.5.3 Making interconnections to control modules To make interconnections to control module instances, the connections must first be specified in the control module types. You will find more detailed information in the section Specifying interconnections to control module types (Page 100).

Editing data in AdvES 10.6 Hardware assignment


User interface Call up the user interface in the Workflow bar with the "Interconnect instances" command.

Icon Tooltip

"Calculate status" "Execute" "Undo"

Making interconnections Note what you specified for the control module types.

Connect the control modules by dragging the control module from the project view to the "Predecessor control module" box. To make the interconnections, click the " Calculate status" button. If all the entries are green, click the "Execute" button.

10.6 Hardware assignment The hardware assignment shows your signals in a table view. Here you seen detailed information, for example about the module assigned to the signals and you can adapt the hardware signal type, DP slave and I/O module type of the signals.

The SIMATIC hardware catalog is available to allow you to do this.

Editing data in AdvES 10.6 Hardware assignment


User interface Call up the hardware assignment in the Workflow bar with the "Assign hardware" command.

Assigning hardware to signals 1. Drag an object from the project view to the "Start object" cell.

2. For the "DP slave type" and "I/O assembly type" columns drag elements from the hardware catalog to the relevant cell. Assign only one element per hardware signal type.

3. Click the "Execute" (all) button. The assignment is made for all signals. The assignments can be seen in the "standard table". See also Standard table (Page 97)

4.

"H station redundancy" station redundancy" entry can be edited manually and any value entered.

.

Save.

The "H

Editing data in AdvES 10.7 Translator


Plausibility check Prior to generating the hardware, AdvES checks whether all the signals are assigned to modules and channels. Missing entries in the list are reported as errors. You will find more detailed information on the plausibility check in the section Checking data consistency (Page 109).

AdvES does not check whether the signals are assigned to the correct modules. It is therefore possible that channels are interconnected to more signals than the maximum number of slots.

Viewing symbol tables The symbol table is generated automatically for data that has a hardware assignment. You will find the symbol table only in the data transfer dialog.

10.7 Translator The translator provides you with all the objects of your project in a table overview. Here, you can adapt the texts of the objects and translate them to other languages.

Translating texts To translate the texts for objects, follow the steps below:

1. Open the translator in the AdvES menu with the "Translator" command.

2. Drag the an object from the Navigator to the "Start object(s)" box.

3. The search starts automatically.

The table lists all the objects below the start object.

4. Enter the translations in the language columns.

5. Save your entries.

Columns of the bulk translator The following table describes the columns displayed in the bulk translator:

Column Description "Object" Object and project path in the Navigator. "German" Column for the display text in German. "English" Column for the display text in English.

Editing data in AdvES 10.8 Deleting control module types


10.8 Deleting control module types To delete control module types in AdvES, follow the steps below:

1. Delete the control module types in PCS 7.

2. Import the control module types into AdvES. At the same time, enable the "Delete in target project" option in the data transfer dialog.

The control module types are deleted in the automation view.

3. Open the "Assign signals/parameters" dialog and generate new control module types.

The control module types are also deleted in the "Templates" view.

NOTICE

Control modules are adapted in the background

When you delete a control module type in AdvES, the control modules are also adjusted. All the objects of the deleted control module type are also deleted from the control modules.

10.9 Delete project You can only delete the currently open AdvES project from another AdvES project. To an AdvES project, follow the steps below:

1. Close your current project.

2. Open a different AdvES project from the SIMATIC Manager.

3. Open the user interface in the AdvES menu with the "Delete project" command.

4. Select the required project and click the "Delete project" button.

Result Your AdvES project is deleted. When you call AdvES again from the still existing PCS 7 project, a new, empty AdvES project is created.

10.10 Using placeholders

10.10.1 Principle

Purpose of placeholders You use placeholders to navigate to specific objects in your project and adopt the value of such objects as return value.

Editing data in AdvES 10.10 Using placeholders


Placeholders consist of a chain of marker calls. The marker chain is evaluated in the table views and prior to export to PCS 7. Your return value replaces the placeholder in the code.

There are two types of markers:

● Markers you use to navigate through the object structure of the project. They return an object. The next marker is called at this object.

● Markers that return a value.

The markers are executed at the respective context object. The first context object is the object at which the placeholder is entered. The last marker in the chain must return a value.

Purpose You can use placeholders at the following locations.

In the properties of the objects under the "PCS 7" tab at the following attributes:

● "Event"

● "Info text"

● "PCS 7 control module name"

● "PCS 7 CM description"

● "Author"

● "Block icon"

● "Station name"

Placeholder syntax ● Enter the placeholder in curly brackets: "{...}"

● Separate markers with a period: "."

● Enter the parameter of the marker in square brackets: "[...]"

● To access an attribute of an object, use the NestedName: "<Tab name>.<Attribute name>"

10.10.2 List of wildcards Each marker is executed at the respective current context object.



Possible markers Marker Input parameter Return type Description A NestedName of

the attribute Value Returns the value of the attribute.

Example: {O.A[SYS.MA11]} AL NestedName of

the reference attribute

Object Returns the object which is referenced in the reference attribute. Example: {AL[SYS.Link].P[Name]}

O - Object Returns the owner. The owner has either system type "Document" or "Device". Example: {O.P[Name]}

P Property name Object or value Returns the value or the object of the property. The following properties are permitted as parameters: "Name": The name "Description": The description "Label": The label *"Unit": The unit reference *"Location": The location reference *"Implementation": The implementation

link "FGName": The name of the associated

function group Properties marked "*" return an object. Example: {P[FGName]}

E Name of the child object

Object Returns the child object addressed via the input parameter. Intellisense offers all objects which are located below the context object and have the "Device" system type. Example: {E[DB10].A[SYS.MA11]}

R - Object Returns the function group. Example: {R.P[Name]}

T Name of the task Object Returns the target object of the task. Intellisense offers all tasks which belong to the function group of the context object and start with the hierarchical classification "BOASTKPR". Example: {T[CPU]}

D Document name Object Returns the document. Intellisense offers the documents which are located below the context object. Example: {D[NT01]}



Marker Input parameter Return type Description C Connector name Object Returns the resource which is linked to the

connector. Intellisense offers all the connectors of the function group, including those which are not linked. Example: {C[OUT].P[Name]}

S Local name Value Returns the symbol that is assigned to the local name in the symbol table. Intellisense offers all local names in the symbol table of the function group. If, in the case of nested function groups, the local name is not found in the symbol table of the current function group, it is searched for in the opposite function group and its symbol is then returned.

W Name of the project fragment

Object Returns the project fragment. Only available in the message editor for WinCC flexible. Intellisense offers the project fragments that are located below the context object. Example: {W[01].V[Conveyor_H]}

V Tag name Value Returns the name of the tag. Only available in the message editor for WinCC flexible in the connector for marker "W". Example: {W[01].V[Conveyor_H]}

11Checking data consistency

11.1 Introduction AdvES allows consistency checks at all times. Automatic consistency checks are also run during data transfer. If errors are detected, the transfer is aborted.

You start the consistency checks in the AdvES menu with the "Check data consistency" command.

Consistency checks make the bulk editing of data much easier. They ensure that your data is correct with a simple user prompt. Consistency checks make inconsistencies visible both quickly and clearly.


Checking data consistency 11.2 Running a consistency check


Checkable objects ● Technological hierarchy

● Control modules

● Signals

● Parameters

● Messages

11.2 Running a consistency check

Elements and functions of the user interface select the option for objects for which the check will be made.

If you only want to search specific hierarchy folders, drag these from the Navigator to the "Start object" box. If you have not set a start object, the check is run for the entire project.

Running the check

A consistency check is started with the "Refresh" button. If you define a new start object, the check is started automatically.

Results of the check The checks made are displayed in a list.

Status values:

Status State Description

1 Entire AdvES object is consistent and complete. A transfer to PCS 7 can take place.

2 Inconsistency warning A warning can indicate an error or a deviation from the standard created deliberately by the user.

3 Inconsistency error There is an error that prevents generation for PCS 7.

Filtering the results list You can filter the error list for status values. You will find more detailed information in the section Filter functions (Page 92).

Checking data consistency 11.3 Checks in in detail


11.3 Checks in in detail

Overview of the checks 1. Signal attributes

2. Control modules without control module type

3. Control modules without TH

4. Differences in the structure for control module and control module type

5. SIMATIC compliant naming

Signal attributes The attributes of the signals are checked for plausibility. Empty attributes are filled with placeholders because empty values would cause errors during the transfer to PCS 7.

Control modules without control module type If the control module type is not set, the control module is reported as being incorrect. Each control module is also checked against the assigned control module type to make sure it is complete. Control modules with errors cannot be exported to PCS 7.

Control modules without TH Here, control modules are checked to make sure that the superior object they are assigned to is a technological hierarchy. Control modules without TH are reported as being incomplete. These control modules cannot be exported to PCS 7.

Differences in the structure between control module and control module type This check makes it possible to identify signals and parameters of the control module although they are missing in the control module type. Such signals and parameters are ignored during import, because only signals and parameters that have mapping labels, and must therefore be based on a control module type, can be adopted.

SIMATIC compliant naming A SIMATIC compliant naming convention is absolutely necessary at the following points: Symbol tables, hardware components, control modules.

Note the following restrictions when naming objects:

● Max. 24 characters

● Do not use: ‚&‘ ‚\‘ ‚*‘ ‚?‘ ‚<‘ ‚>‘ ‚:‘ ‚"‘ ‚|‘

Checking data consistency 11.4 Troubleshooting


11.4 Troubleshooting

Eliminating errors in the data consistency or plausibility To open the properties of the bad object, double click on a row in the results display of the consistency check.

To eliminate the inconsistency, check the "Description" column.

12Reports

12.1 Introduction Reports are a printable representation of your data from AdvES.

These table views can be represented as reports and are therefore printable:

● Signal lists

● Process tag lists

● Hardware lists (DCS).

Fixed design templates are used for reports.

The labeling of objects is not included in the report since these texts do not fit on the template due to their length.

12.2 Creating a report You can only create reports below a technological hierarchy.

1. Right-click on the hierarchy folder below which you want to create a report and the context menu opens.

2. To create a report, select the "New > RP report folder" command in the context menu.

3. In the context menu for the report folder, you can select a report type and create it by left clicking.

12.3 Editing and printing a report To edit a report, open it by double clicking in the working area.

The report contains all the lower-level data. If a report folder is located, for example in TH 2, all the content of TH 2, TH 3 and the hierarchy folders following are evaluated on the report but not the content of TH 1.


Reports 12.3 Editing and printing a report


The functions that are available in reports are illustrated here based on the example of a control module report.

Icon Tooltip Description

"Reevaluate document" Refreshes the report if objects have changed in the Navigator.

"Refresh screen" Refreshes the report if errors in the graphics are displayed during loading.

"Print" Prints the report on a printer. Remember that reports can only be created and stored in A3 format. To achieve optimal resolution and readability, they should also be printed on A3.

"Zoom" Enlarge / reduce view with a rectangle.

"Move sheet" Moves a sheet to allow specific areas to be seen in enlarged views.

"Zoom INOUT" Enlarge / reduce view with the mouse wheel.

"Total view" Changes the view to page view.

Reports 12.4 Adapting a report template


12.4 Adapting a report template

Changing the logo To show your own company logo on the report, replace the following file:

"Storage location of AdvES>\S01\Reports\AdvES\sie_logo.bmp"

The file must meet the following requirements:

● Ratio of height to width: 1 : 6.3

● File format: bit map

Reports 12.4 Adapting a report template


Supplied sample project 1313.1 Introduction

Sample project AdvES ships with a sample project. This includes a PCS 7 project and an Excel list (signal list) for which the mapping labels are specified in this section.

As an example, a mixer will be configured with the structure shown in the figure below:


Supplied sample project 13.1 Introduction


The sample project involves the working sequence as described in the flowchart. See General working sequence (Page 23).

Templates The sample project uses control module types from the BCM.

Storage path You will find the sample project along with the signal list in the installation directory of AdvES in "Getting Started".

Supplied sample project 13.2 Opening a PCS 7 multiproject


13.2 Opening a PCS 7 multiproject 1. Retrieve the supplied sample project in the SIMATIC Manager.

2. Open the sample project in the SIMATIC Manager.

3. Select the single project "AdvES_Example_Prj".

4. Start AdvES from the context menu or the "Edit" menu using the "Open project in Advanced ES" command.

13.3 Creating a PCS 7 import file

Import File The sample project ships without import files. Generate these in PCS 7 before you export the data from AdvES to PCS 7. Create an import file for each of the control module types.

Procedure 1. Select a control module type.

2. Call "Process tags → Assign/create import file" with a right-click.

Supplied sample project 13.4 Importing a PCS 7 project into AdvES


3. Click "Next".

4. Create an import file with the "Create file template" button.

5. Select a storage location and confirm the creation with the "OK" button.

6. Click "Finish" to close the dialog.

Create suitable import files for all control module types.

13.4 Importing a PCS 7 project into AdvES

Requirement You are currently in AdvES.



Procedure Import the sample project from PCS 7 to AdvES.

1. Call up the import dialog in the Workflow bar with the "PCS 7 import" command.

2. On the "Import from PCS 7" tab, select all options and click the "Import" button.

3. The data transfer dialog opens. Here, click the "Import objects from B to A" button.

Remember that generation starts in AdvES only when the data transfer dialog is closed. You will find more information on the colors in the help for the data transfer dialog.



4. Following successful import, the status window appears.

To close the window, click the "OK" button.

5. Close the data transfer dialog.

Result The technological hierarchy is generated in the "Project" view.

Supplied sample project 13.5 Generating (AdvES) control module types


The hardware and the control module types are generated in the "Automation view".

See also Release/discard import (Page 80)

13.5 Generating (AdvES) control module types 1. Open the dialog for the mapping labels with the "Assign signals/parameters" menu

command in the Workflow bar.

2. Assign the mapping labels as shown in the following lists.

Control module type "TYPE_CONTROL_PID" PCS 7 connection Signal/Parameter Parameter of signal Mapping label PIDConL MV.Value Signal LMN MV_Unit Parameters PIDConL.MV SDIM PV_AH_Lim Parameters PV.PV_In HDEV-HL1 PV_AL_Lim Parameters PV.PV_In HDEV-LL1 PV_WH_Lim Parameters PV.PV_In LDEV-HL1 PV_WL_Lim Parameters PV.PV_In LDEV-LL1 MV_LoLim.Value Parameters PIDConL.MV SLR TD.Value Parameters D TI.Value Parameters I Gain.Value Parameters P MV_HiLim.Value Parameters PIDConL.MV SHR PV Scale.High Parameters PV.PV_In SHR Scale.Low Parameters PV.PV_In SLR PV_In Signal PV PV_InUnit Parameters PV.PV_In SDIM

Control module type "TYPE_MEAS_MON" PCS 7 connection Signal/Parameter Parameter of signal Mapping label MonAnL PV_AH_Lim Parameters PV.PV_In HDEV-HL1 PV_AL_Lim Parameters PV.PV_In HDEV-LL1 PV_WH_Lim Parameters PV.PV_In LDEV-HL1



PCS 7 connection Signal/Parameter Parameter of signal Mapping label PV_WL_Lim Parameters PV.PV_In LDEV-LL1 PV Scale.High Parameters PV.PV_In SHR Scale.Low Parameters PV.PV_In SLR PV_In Signal PV PV_InUnit Parameters PV.PV_In SDIM

Control module type "TYPE_MOTOR" PCS 7 connection Signal/Parameter Parameter of signal Mapping label FbkRun PV_In Signal FBR MotL Monitor Parameters MMON-EN MonTiDynamic Parameters MMON-TDYN Start PV_Out Signal OUTR

Control module type "TYPE_MOTOR_SPEED" PCS 7 connection Signal/Parameter Parameter of signal Mapping label FbkFwd PV_In Signal FBR Fwd PV_Out Signal OUTR MotSpdCL Monitor Parameters MMON-EN MonTiDynamic Parameters MMON-TDYN SP_HiLim Parameters SP_Out.PV_Out HL1 SP_LoLim Parameters SP_Out.PV_Out LL1 SP_Ext Signal SP RbkSpeed Scale.High Parameters RbkSpeed.PV_In SHR Scale.Low Parameters RbkSpeed.PV_In SLR PV_In Signal FBS PV_InUnit Parameters RbkSpeed.PV_In SDIM SP_Out Scale.High Parameters SP_Out.PV_Out SHR Scale.Low Parameters SP_Out.PV_Out SLR



PCS 7 connection Signal/Parameter Parameter of signal Mapping label PV_InUnit Parameters SP_Out.PV_Out SDIM PV_Out Signal OUTS

Control module type "TYPE_VALVE_2_WAY" PCS 7 connection Signal/Parameter Parameter of signal Mapping label Ctrl PV_Out Signal OUTOC FbkClose PV_In Signal FBC FbkOpen PV_In Signal FBO VlvL Monitor Parameters VMON-EN MonTiDynamic Parameters VMON-TDYN

3. Navigate to the "Variants" tab. Define variants according to the following lists:

Table 13- 1 TYPE_MOTOR_SPEED

Variant name FbkFwd RbkSpeed default x x TYPE_MOTOR_SPEED_FbkFwd x TYPE_MOTOR_SPEED_RbkSpeed X

Table 13- 2 TYPE_VALVE_2_WAY

Variant name FbkClose FbkOpen default x x TYPE_VALVE_2_WAY_FbkClose x TYPE_VALVE_2_WAY_FbkOpen x

Supplied sample project 13.6 Importing Excel files


4. When all the status messages are green, click the "Generate" button.

The control module types are generated in the "Templates" view.

13.6 Importing Excel files

Creating a configuration 1. Open the import dialog with the "Import signal/process list" command in the Workflow bar.

2. Select the "Import" tab.

3. Create a new configuration.

4. The "Configuration" tab opens.

5. Using the "..." button, select the supplied Excel file "AdvES_Example_Signalliste_V1.0.xls".

6. Click "Load".

The Excel list opens.



7. Select Table 1 for the "Excel worksheet" and 2 for the "Excel start row".

8. In the "Columns of" area, click "Apply all Excel columns".

The column definitions are created.

Specifying column definitions 1. Select column A.

2. In the lower window "Properties of column A (signal), click ">>". Separate the character string from the front with "\".

The "Mixer" is now in its own column.

3. Separate the character string as shown below until the achieve the following result:

4. In the last column, click on "Hide".

5. Select the first column with the content "Mixer". Under "Columns of" select the entry "Technological hierarchy" for "Mapping class".

6. For "Static mapping", select the entry "01 (hierarchy folder level 1)" for "Mapping target".



7. Repeat the procedure for the other columns with the following entries: Vessel_100: "Technological hierarchy" and "02 (hierarchy folder level 2)" Inlet: "Technological hierarchy" and "03 (hierarchy folder level 3)" V-100: "Process tag" and "02 (control module AdvES)".

8. change to the Excel file. Select row 2 of column A. Position the mouse pointer on the border of the cell until the mouse pointer changes to a crosshair. Hold down the left mouse button and drag the cell to AdvES as shown in the following figure. This procedure describes the creation of an individual column definition.

9. From the character string, separate the new column definition "V-100". Select the

mapping class "Process tag attribute" and the attribute mapping "PCS 7 control module name".

10. Duplicate the newly created column definition. Separate only the letter "V".

11. Select "Process tag attribute" and "Function of the control module".

12. Swap over the following columns "B" and "C" by dragging them.

13. For column "C", select "Process tag attribute" and "Station name".

14. Duplicate column "A" twice after column "C".



15. Select the first copy of column "A". Separate the signals from the character string (FBO). Select the mapping class "Signal". For "Tag assignment", assign the mapping labels as follows. Double click on the signals on the left column to fetch them below "Template" as shown in the figure.

16. Separate the second copy of column "A" from the back following "\" (V-100.FBO).

Select " Signal attribute" and "PCS 7 signal name".

17. The moved column "B" follows. Select "Signal attribute" and "Signal description".

18. Duplicate column "B". Select "Signal attribute" and "Description in English".

19. Duplicate the previous column "C", insert this after column "B" with the signal description in English and select "Signal attribute" and "Station name".

20. Check your column definition. It must now be completed as shown below.

Column Mapping class Mapping target / mapping label A "Technological hierarchy" "01 (Hierarchy folder level 1) "Technological hierarchy" "02 (Hierarchy folder level 2) "Technological hierarchy" "03 (Hierarchy folder level 3) "Process tag" "02 (Process tag AdvES)



Column Mapping class Mapping target / mapping label A "Process tag attribute" "Function of the process tag" A "Process tag attribute" "PCS 7 process tag name" C "Process tag attribute" "Station name" A "Signal" FBO - FBO

FBC - FBC OPEN - OUTOC FBFWD - FBR RBSPEED - FBS FWD - OUTR SPEED - OUTS PV - PV FBRUN - FBR RUN - OUTR

A "Signal attribute" "PCS 7 signal name" B "Signal attribute" "Signal description" B "Signal attribute" "German" C "Signal attribute" "Station name"

21. Complete the following columns as shown in the table below:

Column Mapping class Mapping target / mapping label D "Signal attribute" "Subnet" E "Signal attribute" "Address" F "Signal attribute" "Slot" G "Signal attribute" "Channel" H "Signal attribute" "HW signal type" I Delete columns J Delete columns K "Signal parameter" "SHR" L "Signal parameter" "SLR" M "Signal parameter" "SDIM" N "Signal parameter" "HDEV-HL1" O "Signal parameter" "HDEV-LL1" P "Signal parameter" "LDEV-HL1" Q "Signal parameter" "LDEV-LL1" R "Signal parameter" "SDIM"

22. To save the column definition, click "Apply".

Supplied sample project 13.7 Typifying control modules


23. Drag the top project node to the "Import target" cell. The status color code changes to green.

Importing Excel files 1. Change to the "Import" tab.

2. Click the "Import" button. A working layer of the Excel import is generated in the project view in the Navigator.

3. To change to the working layer mode, click "OK". Changes are now indicated by different colors.

4. Include the working layer in your project using the menu command "Release import" in the Workflow bar.

Result You have imported your Excel list.

13.7 Typifying control modules 1. Open "Typify control modules" in the Workflow bar.

2. Assign the control module types according to the table below. Here, it is adequate to assign one control module type to each function of the control module.

Supplied sample project 13.7 Typifying control modules


AdvES control modules Function of the control module PCS 7 control module type LIC-101 LIC TYPE_CONTROL_PID P-101 P TYPE_MOTOR_SPEED V-100 V TYPE_ VALVE_2_WAY V-102 V TYPE_ VALVE_2_WAY LIC-201 LIC TYPE_CONTROL_PID P-201 P TYPE_MOTOR_SPEED V-200 V TYPE_ VALVE_2_WAY V-202 V TYPE_ VALVE_2_WAY LI-301 LI TYPE_MEAS_MON M-300 M TYPE_MOTOR V302 V TYPE_ VALVE_2_WAY

3. Control modules that have not been typified are added automatically by means of the "Automatically typify not typified control modules" button.

4. Click the "Execute" (all) button.

ssignment. 5. Save the a

Supplied sample project 13.8 Interconnecting control modules


13.8 Interconnecting control modules

Specifying an interconnection in control module types 1. Open the dialog in the Workflow bar with the "Interconnect types" command.

2. From the templates, drag the control module type "CONTROL_PID" to the "Predecessor control module" box and "MOTOR_SPEED" to the "Successor control module" .

3. Drag the "LMN" row to the "SP" row.

4. Save.

Supplied sample project 13.9 Hardware assignment


Interconnecting control modules 1. Open the dialog in the Workflow bar with the "Interconnect instances" command.

2. Drag the highest project node to the "Start object" box.

3. Drag the control modules from the project structure to the "Interconnected predecessor control module" cell.

4. Click "Execute" (all).

5. Save.

13.9 Hardware assignment

Assigning hardware for signals 1. Open the dialog in the Workflow bar with the "Assign hardware" command.

2. Drag the highest project node to the "Start object" box.

3. Select the "DP slave type" and I/O module type" for each hardware signal type from the "Hardware catalog" from "Distributed I/O SIMATIC ET200 > ET 200M" according to the following table:

Supplied sample project 13.10 Exporting to PCS 7


HW signal type DP slave type I/O assembly type H station redundancy DI 6ES7 153-1AA03-0XB0 IM 153-1 6ES7 321-1BH01-0AA0 SM 321,

16DI, 24 VDC

DO 6ES7 153-1AA03-0XB0 IM 153-1 6ES7 322-1BH01-0AA0 SM 321, 16DO, 24 VDC

AI 6ES7 153-1AA03-0XB0 IM 153-1 6ES7 331-1KF00-0AB0 SM 331, 8AI, 13 bits

AO 6ES7 153-1AA03-0XB0 IM 153-1 6ES7 332--5HB01-0AB0 SM 332, 2AO, U/I, 11/12 bits

4. Click the "Execute" (all) button.

5. Save.

13.10 Exporting to PCS 7 Follow the procedure described in chapter Exporting from AdvES to PCS 7 (Page 48).

Result ● The technological hierarchy is imported and displayed in the "Technological view".

● The control modules are imported and created in the TH.

● Interconnections via control modules are created.

● The modules are created in the hardware.

● The modules obtain the signals along with the symbols from the generated symbol table.

Supplied sample project 13.10 Exporting to PCS 7


AAppendix

AdvES Advanced Engineering System ALM Automation License Manager PCS 7 Process Control System 7 ES Engineering system TH Technological hierarchy THO Hierarchy folders APL Advanced Process Library (control module type library) AS Automation station CFC Continuous function chart HW Hardware IO Input Output OS Operator station PLT process control engineering CP Communications processor CPU Central processing unit MLFB Machine readable fabrication identifier (order number) NAMUR User association of automation technology in process industries PCS Process control system BCM Basic Control Modules, standard control module types from PCS 7 8.0


Appendix


Glossary

List of glossary entries I/O Function of the control module Control module Control module type Parameters Assigning parameters Configuring Signal

Assigning parameters Assigning parameters means the entry of values for I/Os (for example the integral action time of a controller).

Configuring Configuring is a synonym for planning. The term is used when operating procedures are prepared or hardware is simulated (for example when creating hardware in HW Config).

Control module A control module in AdvES is a structure object used to create a control module in PCS 7. A control module is based on a control module type and therefore represents an instance of a template.

Synonyms

Process object (PO)

Process control point

Function of the control module The function of a control module relates to its technological function. The function describes the task of the control module in the system. The function is used for the bulk assignment of control module types to control modules, but is not necessary for generating control modules from AdvES to PCS 7.

Example

TIC = Temperature Indication Control

Example in signal names


Glossary


NH3\0400\E01_TIC0815.PV

I/O The input or output of a control module type/control module. I/Os in AdvES are defined as signals or parameters.

Parameters Parameters are the I/Os of a control module. Parameters define fixed values, such as high and low limits, measuring ranges and statuses and are therefore not variable values that can be read out or passed on.

Parameters of a signal

Parameters can be assigned to signals (for example limit values of the signal).

Parameters of a control module

Parameters can also be directly assigned to control modules. They then describe process values (states) of the control modules, such as automatic ON (parameter 1 or 0) or the speed of a motor.

PCS 7 control module type A control module type is a template for creating control modules in PCS 7. To be able to export a control module from AdvES to PCS 7, it must be linked to a PCS 7 control module type.

Synonym

Process object type (POT)

Signal Signals are the I/Os of a control module. They are variable values that are written to or read from the hardware and processed in the control modules by software.

process control system pcs7 advanced engineering system

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