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Contact image Setting up personal properties Changing the zoom, pan and scroll functions of the mouse Tips and tricks Finding the next free counter Placing a DT without the Properties dialog box opening Predefinition of the identifiers Part selection with filter to identifier Terminal on left Displaying property numbers Renaming property designations Report generation Drawing a terminal strip with motorand placing a dynamic terminaldiagram form on the page Outputting a bill of materials to MSExcelError!

Entire project. Importing individual master data Choose the directory where you want to output you exported project. Press OK afteryou choose the directories. Eplan Electric p8 Basic 2 Download Report. View Download Tags: eplan electric p8 training device selection project management selection projectspecific new project basic trainingdate project structure symbol selection navigator. Device selection Moving a main function and synchronizing data..

Macro techniques Interruption points Data transfer Position the symbols on the given coordinates and fill in the properties of the components inserted, if necessary. The entries of the prepopulated properties are given in parentheses in the following listing. Symbol description 1. You can also select the menu item Line break from the popup menu.

Symbol description 4. K1, and don't enter any device tag there. Symbol description 9. As Name of potential and Potential type, you must enter PE. Inserting Terminal Strips and Terminals Terminals are a kind of device and, like general devices, can only be inserted into your schematic using symbol selection.

If you haven't yet, activate the Filter IEC symbols, multi-line. In the Direct entry field, enter X. In the list, select the terminal X and click [OK].

Here is where you determine the properties of the terminals. Terminals are also automatically numbered by default. This way, you can store the terminal parts on the individual terminals. For this purpose, the Main terminal check box is activated in the property dialog. Next, you must modify the function definition of the inserted terminal.

The function definition defines the standard behavior of a function. The terminal symbols are initially inserted with a general function definition.

You can then decide later on the specific terminal N terminal, PE terminal, etc. For this purpose, click the [ Here, in the tree of the Selection field, select the function definition Terminal with saddle jumper, 2 connection points. In the Properties components : Terminals dialog, also click [OK]. For the first two terminals, you can accept the predefined terminal designations 2 and 3, but for the last terminal change the designation to PE.

Modify the function definitions for all terminals. For the first two terminals -X and -X , also select the function definition Terminal with saddle jumper, 2 connection points, and for the PE terminal -X the function definition PE terminal with rail contact, 2 connection points.

Finish the action by selecting the menu item Cancel action from the popup menu. The terminal strip definition identifies the terminal strip and contains all the relevant data for the terminal strip as well as the terminal strip part information.

Due to the automatic numbering, the field Displayed DT is already prepopulated with the entry —X2. In the Displayed DT field on the Terminal strip definition tab, enter the strip designation -X1 already assigned in the schematic. In the Function text field, enter the text Motor, 4 connection points. The cable definition line must cross the corresponding connections.

Click with the left mouse button to establish the starting point of the line. Due to the automatic numbering, the field Displayed DT is already prepopulated with the entry —W1. In the Function text field, enter the text Motor. In the fields No. From the drop-down list for the Unit field, select the entry mm2.

When drawing the cable definition line, a connection definition point is automatically set at each intersection of connections with the cable definition line. The cable conductors are determined via the connection definition points.

You will only see these automatically generated connection definition points if you have activated the view of insertion points. For certain actions e. In doing this, new connections are generated based on the available information or existing connections are updated. The individual connection can get its data from project settings, potentials, or from a connection definition point.

Since the connection data is not automatically updated for each action, we recommend manually updating before certain actions such as the execution of check runs, or working in navigator dialogs. If the check box is not activated, updating is only carried for the current selection of pages, functions, etc.

If no other function text is entered for a component, the function text from the path will be used for reports e. On the Text tab, enter the term, Power supply. Click the left mouse button to place the text in the desired path. Note: Be sure when inserting path function texts that the insertion point of the text is aligned with the insertion point of the component which should receive the path function text.

Inserting "Interruption Point" Connection Symbols 1. Hold [Ctrl] and then move the cursor in a circle. Select the variant with the arrow pointing downwards Variant D , and release the [Ctrl] key.

Now you must insert two more action lines. Assign this "PE" line the same formatting properties you assigned to the first "PE" line. Change the formatting properties for this line, too. For instance, select a different line thickness and a different line type. Next, you will also insert components on the second schematic page, thus generating cross-references.

In this chapter, you will complete the schematic on the second page, thus generating cross-references. EPLAN differentiates between different types of cross-reference. The program automatically inserts most of these cross-reference automatically online. Based on the sample project, you will get to know some of the most common cross-reference types. More detailed information on the different types of cross-reference can be found in the EPLAN online help. Devices can consist of different elements and be distributed across multiple pages of schematics.

It can also be necessary to depict a device multiple times. In such cases, cross-references identify the fact that individual components belong together. A cross-reference shows you where the other part of a device can be found in the schematic. Using cross-references, you can reliably find a component or associated parts on a series of pages. How are cross-references displayed in the schematic?

The cross-references are shown by default in the order, [Separator]Page name[Separator]Column. By default, the cross-references receive a different color than the other elements displayed.

The NC power contact -K1 on the first schematic page will later be cross-referenced to a coil which then is located on page 2 in column 2. Automatically Generating Interruption Point Cross-references First, insert two interruption points on the second schematic page.

Interruption points are used to represent connections encompassing more than one page. To do this, select them in the Page navigator and double-click on the page.

For comparison, look at the procedure in section "Inserting "Interruption Point" Connection Symbols" on page EPLAN Electric P8 — Getting Started 81 Generating Cross-references Changing display settings for the interruption points To prevent the device tag from crossing future autoconnect lines, additional settings must be made in the appropriate property dialogs. In the dialog Properties components : Interruption point switch to the Display tab.

The displayed properties are shown to the left of the insertion point. The cross-references refer to the interruption points with the same displayed DT located on the first schematic page.

On this page, too, corresponding cross-references are displayed at the interruption points. Or use the Connection symbols toolbar to insert the listed components. To do this, after inserting, click on the insertion point of the T-node and then, in the T-node right dialog, select the corresponding option see section "Inserting "T-node" Connection Symbols" on page Or you can use the [Ctrl] key when inserting to rotate the symbol on the cursor and select the right variant that way.

This form of cross-reference display is often used for contactor coils or motor overload switches. In the Direct entry field, enter K. In the list, select the coil K and click [OK].

In the properties dialog, switch to the Coil tab. In the Displayed DT field, enter -K1. This includes the connection point designations, the symbols, and the schematic positions of the contacts cross-referenced to the coil and is shown below the coil. Inserting another contact for the coil Now use symbol selection to insert another contact for the coil.

For searching via direct entry enter S and then select the NO contact with symbol number 1. The DT selection dialog which then appears shows all the DTs present in the project which match the given function. Inserting Contacts and Contact Image for Motor Overload Switches Finally, insert two more contacts on this page for the motor overload switch —Q2 on the first schematic page.

In the Direct entry field, enter O. In the properties dialog, switch to the NC contact tab. In the Displayed DT field, enter -Q2.

Or apply the displayed DT using DT selection. To do so, click [ Now use symbol selection to insert another NO contact symbol name for Direct entry: S; symbol number: 1.

You have now completed the creation of the schematic on the second page. On the motor overload switch itself, you see the contacts just inserted as a contact image. The cross-referenced contacts are shown as symbols on the action line of the motor overload switch. In addition, the connection point designations and the schematic positions of the contacts can be seen in the contact image. Tip: From the NO contact you just inserted, —Q2, you can jump directly to the motor overload switch on the first schematic page.

Changing the contact image position For contacts to be shown in a contact image, appropriate display settings must be made for the contact image in the properties dialog of the motor overload switch.

Look at these settings in the motor overload switch. Double-click in the schematic on motor overload switch —Q2. In the properties dialog, switch to the Display tab. Using the On component option, the contact image is displayed next to the component.

This setting is preset by default during insertion of motor overload switches. In this dialog, you can "manually" determine the position of the contact image in relation to the insertion point of the device. Deactivate the Automatically aligned check box. In the X position field, enter the value Now you are finished with both of the schematic pages of your project. In the next chapter you will learn how to assign parts to the devices inserted. Before you start with reports and can automatically generate a parts list, you must enter parts for the devices inserted.

The Parts tab is available in the property dialog of the components to do this. Here you can manually enter the parts or select them using "part selection". Part selection is a dialog you can use to select parts and their data from a data source. What is parts management? Parts management is the part of the program in which you can manage information specific to parts and people; items such as part numbers, customer, manufacturer, or supplier data.

To manage parts data, you have to have at least advanced user knowledge, and for this reason we will not go into any more depth about parts management here. Assigning Parts 1. Double-click on the insertion point of switch -Q1. In the properties dialog, switch to the Parts tab. Click [ The button appears once you click on the corresponding table cell in the Part number column. Structurally, this dialog is exactly like Parts management. In the left half, the parts are shown in a tree, list or a combination of these two representations, where the tree structure is subdivided by default into the hierarchy levels: Electrical engineering, Fluid power, and Mechanics.

In the right half of the dialog, you see the data belonging to the element or elements selected in the left window. Now expand the parts tree on the left side. To do this, click, for example, on the associated plus sign in front of the levels Parts, Electrical engineering, Component, General, and on the levels of other product groups like Cables.

Or select the various levels in the tree, and then select Expand in the popup menu. The parts numbers are shown on the lowest level in the tree.

To reduce the amount of data shown, select a filter now. The check box Identifier Q is already prepopulated.

Click [OK] to confirm the setting. In Part selection, select the corresponding Active check box for the Automatic filter so that the filter settings will be used. In the tree from product group Power switchgear, select the part SIE. The image file stored in the part will also be displayed in the Graphical preview. Whenever there is a difference between the data stored for the part and the data in the component, this dialog is called during Part selection.

For the property Technical characteristics, click the Option field and select the entry Retain from the drop-down list. Close the properties dialog with [OK]. If you specified the entry, Parts data, here, then you will initially be shown no data.

Only after you have clicked [OK] or [Apply] in the properties dialog will the data from parts management. Part number, Type number, etc. These values cannot be modified here. If you selected Part reference data, then data such as Service time is shown here, which you can also store in Parts management for a particular part. In contrast to the "pure" parts data, however, you have the option of changing this data in the properties dialog and adapting it to the corresponding device in your own project.

Repeat this action for the devices listed below. When doing so, assign the various parts to the devices based on the listed parts numbers. To do this, you must always select the Retain option for each property.

Reports represent queries of the project data. They are created automatically and can be output directly in pages or labeling files. This includes e. What are report pages? Report pages are project pages that show the results of a report.

The reports are divided into different report types. In order to clearly structure and format project data in the report pages, these report types are assigned forms in the settings. The forms contain placeholders that are filled with project data during reporting. You can use this dialog to create and manage project reports.

Change to the Reports tab. If you expand the tree e. Up until now, of course, no reports have been created for your sample project! Click the [New] button. In the Output format field, apply the default value Page. In the Select report type field, select the Terminal diagram entry.

For this entry to be displayed, you must either enlarge the dialog or scroll through the entries using the scrollbar. Using this dialog, you can determine filter, sorting, and page break settings for the pages to be output. For your project, however, this is not required.

Click [OK] to confirm the predefined settings. In this dialog, you determine the start page for the respective report, in this case the terminal diagram. This will sort the report pages in the existing page structure of the project.

In the Higher-level function field, enter ANL. Since the identifier already exists in your project, however, you can select it using a selection dialog. In the Mounting location field, enter ASW. Now expand the tree on the left side. Click [Close]. In the Page navigator, you now see the new page. By deactivating the Automatic page description check box, you also have the option of entering your own description for each report page in the Page description field. Open the page by double-clicking on it, and look at the terminal diagram in the Graphical editor.

Otherwise, parts entered on the cable definition line will not be taken into account during output of the parts list. Click the [Settings] button. Select the Parts menu item. In the Include parts table, deactivate the Devices without part number check box so that this device is ignored when outputting the parts list.

The Terminal strip parts check box is activated by default due to the project template being used. If this is not the case for you, activate it. Also activate — if necessary — the Terminal parts and Cable part check boxes. Deactivate all other check boxes that are enabled by default.

Now continue with the output of the other report pages. Printing Other Report Pages Repeat the action described in the first section of this chapter for the reports Cable diagram, Parts list, and Table of contents. On each report, select the corresponding report type from the Select report dialog. For instance, you do not need to enter new identifiers in the Cable diagram Total dialog, but rather can apply an existing structure from the Page navigator field.

The identifiers of this page are applied to the Higher-level function and Mounting location fields, and for the Page name, the next free page is suggested. Instead of "2", enter the page number 10 into the Page name field.

This time, enter the page number 20 in the Page name field. Finally, organize the Table of contents behind the cover sheet by selecting the page with the Cover sheet description in the Page navigator field.

The is used to mark all report types that represent report overyellow icon views e. The orange icon characterizes function-relevant report types e. The level below that, marked in the tree with a yellow or orange icon with an opened drawer or is called a "report block" or just a "block". All report pages belonging to a particular element e.

In your current sample project, there is only one report block for each report. If, on the other hand, there were two terminal strips -X1 and -X2 in the schematic, then, for instance, the terminal diagram pages for terminal strip -X1 would make up their own block, just as the terminal diagram pages for terminal strip -X2. They have as in the Page navigator. Then open the newly generated pages and look at these pages in the Graphical editor.

With the generation of report pages, the creation and editing of your sample project is finished for now. In the following chapters, we will cover some additional topics, such as creating and inserting macros and searching project data. Then you will update the reports in your project using report templates. If you like, you can now print your project pages out. For more information on this, see chapter "Printing a Project" on page You can, of course, print out the project pages at a later time, for example, at the end in the order of chapters.

In the following sections, for instance, you will create a window macro and then insert it. Creating and inserting macros of other types, such as pages and symbol macros, is done in a similar manner. Creating macros is helpful because you do not have recreate cut-outs every time a routine operation comes up.

What is a window macro? A window macro is an arbitrary area of a page. All objects whose insertion points are inside this area are stored in the window macro. Creating a Window Macro 1. Position the cursor in the upper right corner of the schematic e. In the Directory field, the preset default directory for macros is displayed. A project is a database in which, besides the project pages, all master data used in the project symbols, plot frames, forms, parts data, etc.

Projects are stored and organized in a second database — the so-called project management. Select the project you want to open, and click OPEN. Here you go. Type in your project name in the file name column and click SAVE.

For example company name, company address, project approved by, date and etc…. Then press ok Sysnet Controls Sdn. To delete a project. The function irretrievably removes any deleted pages from the project and removes gaps in the database. The project can be examined at the same time for data consistency. In addition, you can continue to edit a Sysnet Controls Sdn. Only the deleted pages can no longer be accessed.

Press OK. Compressing in Process Sysnet Controls Sdn. Using the backup system, you can back up and restore all of the data that you have created.

For automated backups, the "Extra storage" method is available. The source project remains unchanged. To back up a project, go to Project, back up, project.. As standard, all master data is restored on a project basis and then finally compared with the master data pool.

If differences exist, then you must decide which data you wish to use. To restore the project, go to project, restore, project. Click Yes if you would like to overwrite the original one. Click no if you do not wish to overwrite the original copy Sysnet Controls Sdn. The average project size is approximately pages. Large projects contain tens of thousands of pages, usually split into several sub-projects. EPLAN can manage projects of up to , pages. Example of page navigator Sysnet Controls Sdn.

To see the page properties, go to your page navigator, select a page, right click, properties. Example of the page poperties. Highlight the pages that you want to copy to another project. Right click and select COPY. Modified the target according to your design and then press ok. Select Yes to all. In this manner, pages within a project can be renamed and thus moved.

For automated allocation of page names, EPLAN suggests the next available page name in the target project. Subpages are automatically incremented. For DIN projects, the suggestion is group referenced.

You can either retain the suggested start page names, or change them. For several pages, you can also customize the increment defaults. To do that go to page, number Highlight the project Sysnet Controls Sdn. Press ok if you accept the numbering numbered for you All pages are number. Sub element becomes main element. The page types help to structure a project and accelerate the analysis processes, since non-relevant pages can be skipped.

All page types behave the same way in the page navigator. Pages are basically either logic pages or graphical pages: On Logic pages the device data is analyzed and reported, and autoconnect lines are automatically generated. This does not occur with Graphical pages; these are only used for displaying data or for drawing graphics but not schematics. The page types "Schematic multi-line", "Schematic single-line", "Fluid power schematic" and "Overview" are all logic pages, all other page types are graphical pages.

The page type is assigned when a page is created, but can be subsequently changed. When a page type is changed, all other page properties remain unchanged, the page is just analyzed and reported differently. Specify the starting point of the line and click the left mouse button. Specify the end point of the line and click the left mouse button.

Specify the starting point of the polyline and click the left mouse button. Specify the next points of the polyline, and click with the left mouse button each of the points to place. Specify the starting point of the rectangle and click the left mouse button. Pull the rectangle out in any direction, and click with the left mouse button to specify the end point.

Draw circles Circles can either be defined using the center and radius, or using three points on the circle. Define the center of the circle, and click the left mouse button. Pull the circle out from the center, and click the left mouse button to define the radius. Define the first point on the circle, and click the left mouse button.

Define the second point on the circle, and click the left mouse button. Define the third point on the circle, and click the left mouse button. Define the first point on the arc, and click the left mouse button. Define the second point on the arc, and click the left mouse button. Pull the circle out from the center, and click the left mouse button to define the arc.

Draw arcs and sectors Arcs can also be defined using the center or with three points on the circle. Sectors of circles are defined using the center. Define the first point on the arc or sector, and click the left mouse button. Define the end point of the arc or sector, and click the left mouse button. Define the center of the ellipse, and click the left mouse button. Pull the ellipse out from the center, and click the left mouse button to define the size of the ellipse.

They contain a multitude of information such as graphical elements, connection points, the assignment to a symbol group, the logic, etc. The symbol libraries are used to manage the symbols.

A symbol library can contain an unlimited number of symbols. When editing a symbol only the changed symbol is opened and saved, not the entire symbol library. This minimizes the problems that could arise when multiple users are working in one library simultaneously. Logical data is stored in the function definitions, graphical data in the symbols. This separation is significant when working with an engineering approach and offers a number of additional advantages for a modern CAE product such as standards independence.

EPLAN supports both a graphics-oriented drawing interface copy pages, add macros, place symbols, etc. If you work with the graphics-based interface you don't need to worry about functions or function definitions. Function definitions are already assigned to the symbols in the standard symbol libraries. You simply place a symbol or a macro and the default assigned function definitions are automatically added.

If you work with the engineering interface or want to adapt reports, numbering, etc. It consists of a function and a symbol. The function contains the logical data and the symbol contains the graphical data. A component has a device tag, connection designations, and so on. They can be copied. They can be deleted. They can be labeled, and the label can be formatted individually. They generate automatic connections autoconnecting. They are listed in the reports.

The logic of the underlying function can be changed so that the device behaves differently e. Cross-references are detected automatically and can be displayed. To insert a device Sysnet Controls Sdn. Dialogs contain different control elements depending on their program function and their specific use.

Dockable dialogs The Page navigator, the device navigators and the Message management are "dockable" dialogs. Message and notification windows These dialogs inform you about particular settings or possible errors, or require you to answer a confirmation security question. Subsequent dialogs Some dialogs cause a subsequent dialog to be displayed.

Write-protected dialogs These dialogs contain data that can only be edited by users having specific access rights. A preview of the autoconnection lines is shown in the graphical editor, which shows where a connection from one symbol to another symbol is possible. As an extra aid for placement, a line is also shown between the first placed symbol and the current cursor position. This allows you to place symbols along a line. Insertion points and connection points pointing in the same direction may not lie on top of each other.

If this occurs when inserting a symbol then an error message is displayed and the action is cancelled. Exceptions to this are symbols containing opposing connections laid on top of each other at the same point, e. The device numbering setting can be changed. It has the same value before and after a fuse in normal cases. The borders of a potential are defined by the source and the consumer. By default, physical potentials end at consumers, transformers or converters.

A potential terminal is drawn in the schematic in the same manner as a "normal" terminal. It is however, only characterized by the connection properties, since it is not a separate item e. All parts number are divided into different type of category.

Only these autoconnect lines are recognized and reported as electrical connections between symbols. Autoconnecting is only active in schematic pages. By inserting connection symbols such as angles, T-nodes, double junctions, jumpers, and interruption points, you can influence the flow of automatic connections. They represent the flow of connections and have no function definitions.

The wiring model describes the logic within a symbol, that is, the connection points between which a connection flows. It is saved as a property on the symbol. It is a popular method of representing devices for which no symbol exists in a symbol library prescribed by the end customer. For allocating device tags to terminals, since the terminal DT can't be moved because otherwise the connection point designations would also be moved , e.

For special protection devices that cannot be represented using the normal symbols, but which must also display a contact image. The interruption point name can be the name of the logical potential. In the process, no distinction is made between source and target interruption point; the source and targets are automatically determined. An interruption point can be connected at both sides. If this is not desired, the connection can be inhibited by using a break point.

An interruption point with an open connection is therefore not an error. For this reason, the cross-reference must uniquely designate the page that is being searched. An orientation within the page is also required, the column.

Since a column can also be relatively large, the row provides a further orientation within the page. In the Separator group box, you define which character is to be used as a separator betweenPage and column as well as Row and column.

Select the Display settings section For each of the different page types, you define here which cross-references to other page types are to be displayed and in what order. You can also predefine terminals or terminal strip definitions in the terminal strip navigator or the device navigator and then place them from there.

Terminal strip definitions must be placed if you want to copy them later on. Click [ Click OK. You can also predefine pins and plug definition in the plug navigator or in the device navigator and place them from there with the popup menu.

Plug definitions must be placed if you would like to copy them. In the Properties dialog, enter the device data of the pin in the Pin tab.