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Food and Beverage. Process Industry. Building Technology. Automation Technology. Electrical Engineering. Fluid Power Engineering. Wire Harness. Process Engineering. Service and Maintenance. Building Automation. EPLAN for educational institutions. Online Services. Certified companies. Customer Solutions. About Us. Join Us. Drawing rectangles 1. Click the left mouse button to determine the starting point of the rectangle.

Note: When inserting graphical elements, a small text window for inputting numbers is displayed on the cursor by default. This text window is called the "input box". The values entered in the input box relate to the graphical coordinate system with its origin at the bottom-left and which is reported in "mm" or "inch", according to the preset displayed measuring unit. If the Input box function is enabled in the Options menu, you can use the input box, for example, to position graphical elements quickly and precisely on graphical pages.

On such pages, the graphical coordinate system is preset. Click the left mouse button to determine the starting point of the first line of the rectangle. To "visually" highlight the action line, change the formatting properties of the lines inserted. Double-click, for instance, on the "PE" line the first line. In the Properties dialog, switch to the Format tab. Change the settings here. Repeat this action for the second action line. To differentiate the lines, select different formatting properties e.

Selecting a symbol In Symbol selection, you can select symbols from a tree or list view. In the tree view, symbols are divided neatly into different groups based on their function definitions.

Here, you can page through the different groups until you find the symbol you want. Example: The following illustration shows symbol selection through the tree view for the first device to be inserted.

On the right side in the dialog, the Symbol selection presents you with a preview. Once you have selected the desired symbol in the preview, you can then accept it with a double-click. For the sample project, we are using a symbol selection from the list view. You can also select a symbol very quickly using direct entry in the list view.

Note: The symbol selection via direct entry described below works only if you leave the columns of the list configured so that the name of the symbol is in the first column.

In the Symbol selection dialog, select the List tab. To reduce the number of symbols shown, select a filter now. To do this, from the Filter drop-down list, apply the IEC symbols, multiline entry. Select the Active check box to activate the filter settings.

In the Direct entry field, enter Q1. The first variant of each is selected in the preview window. The symbol will also be displayed in the Graphical preview. In the list, select the three-pole switch Q1 and click [OK]. Determining properties After placing the switch on the page, the Properties components dialog opens.

Some fields are already prepopulated with entries. This behavior is called "online numbering". Enter the value 16A into the Technical characteristics field.

In the Function text field, enter the text Load interrupter. In the schematic, you also see the connection point designations entered and the function text. Tip: To call up Symbol selection quickly, you can also use the [Insert] key or the button Symbol in the Symbols toolbar. Inserting other general devices Proceed in the same fashion as above for the components listed below.

In the list view, select Symbol selection using direct entry. To do this, enter the symbol name given below for each one, and leave the IEC symbols, multi-line filter filter activated. Before you can then select a different symbol, you must finish the action and then call Symbol selection again.

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. Yes, i've tried that before, no luck. I have also tried giving access and launch permission on dcomconfg on eplan to everyone.

I've run out of ideas. I remember i messed something inside the program on user rights. Then i couldn't launch it. When i went to version 2. Now the problem with 2. Display posts from previous: Oldest First Newest First.

EPLAN solutions make it possible for you to work in an interdisciplinary way with integrated data for building automation. The term automated engineering combines configuration with engineering.

In practice, this means automating engineering processes, integrating these processes and connecting them with configuration processes in sales, order processing and directly to engineering. EPLAN offers you solutions for implementing automated engineering in your company. The daily ordering business is getting much faster and time pressures are rising, no least due to international competitors.

At the same time, customers are demanding increasingly more individualised projects through to mass customisation. EPLAN is here supporting you with integrated engineering solutions along your value chain. Consistent data is the key to success here. We support you in saving both time and costs, in avoiding errors and in increasing your productivity over the long term. Hardly any other industry is facing such enormous upheavals as the automobile industry.

With our solutions, you can optimise the entire value chain in vehicle manufacturing. EPLAN offers you solutions for engineering the control systems of machines and plant systems, supporting you in the creation, production, further processing and packaging of agricultural products into foods and beverages.

Code compliance, ensuring supply, optimising load distribution: the energy sector has big challenges to face. EPLAN offers you optimal solutions for a broad field of applications from energy management to plant system engineering. Digitalisation, standardisation and automation are all trends that no industrial sector can evade right now. This also holds true for the maritime industry.

Planning monitoring, control, regulation and optimisation systems is an important part of technical facility management for all sorts of buildings. With EPLAN you can rely on a continuous and consistent database that goes far beyond just the engineering processes. EPLAN Electric P8 automatically generates detailed evaluations for you as an integral component of the project documentation — either on an ongoing basis or combined after project completion, as required.

Downstream process steps then get all the necessary information from engineering: from integrated planning through to manufacturing, commissioning, maintenance and repair.

You can save up to 26 variants of a circuit or system for each representation type. With 12 different representation types, you have a total of possible variants at your fingertips. You can easily manage your macro projects. Thanks to macro technology, you can create a solid foundation for standardising your processes.

Manage an unlimited number of data sets for your macros and quickly select the desired data set during the engineering design process. Autoconnecting enables you to logically connect circuit symbols with one another in an instant, making schematics design faster and increasing the quality of the generated schematic.

Choose between a graphical, a logical or device-oriented design approach to support various work processes. Reports such as terminal and wire diagrams or bills of materials are automatically created for you to be used in downstream project phases. Thanks to its end-to-end Unicode capability, the software generates circuit diagrams and schematics in a wide variety of languages based on your customised translation databases — from schematics in Chinese to bills of materials in Russian.

The development environment offers you an efficient possibility to implement your own required functionalities or automatic functions. With this individual customization in the core of EPLAN you can optimize your engineering workflow specifically.

 

EPLAN Electric P8 - EPLAN Electric P8 for Your Areas of Application

 

EPLAN Electric P8 is a consistent, integrated and fast engineering system for you to plan and design the electrical engineering for machines and plant systems. The software supports 2D computer aided engineering and a wide variety of engineering methods: from manual creation to standardized and template-based approaches. The project data, once entered into the schematic, becomes the foundation for the automated completion of machine and plant system documentation. Planning electrical engineering is a complex field of topics, particularly as several people are often working in various disciplines on the same project.

Electrical engineering data must also be usable for other departments. At the same time, electrical engineering is always under time pressures, must deliver on time and always keep an eye on incurred costs. EPLAN offers you an integrated software solution for efficient electrical engineering. Success for industrial companies is strongly related to their work in maintenance and servicing, which prevents machine and system failures and enables the best possible utilization and availability of plant systems over their entire service life.

EPLAN offers you integrated solutions for digitalizing your processes. To ensure cost-effective engineering processes, architects, engineers, planning offices and construction companies need a transparent foundation of information and efficient digital tools. EPLAN solutions make it possible for you to work in an interdisciplinary way with integrated data for building automation.

The term automated engineering combines configuration with engineering. In practice, this means automating engineering processes, integrating these processes and connecting them with configuration processes in sales, order processing and directly to engineering. EPLAN offers you solutions for implementing automated engineering in your company.

The daily ordering business is getting much faster and time pressures are rising, no least due to international competitors. At the same time, customers are demanding increasingly more individualized projects through to mass customization.

EPLAN is here supporting you with integrated engineering solutions along your value chain. Consistent data is the key to success here. We support you in saving both time and money, in avoiding errors and in increasing your productivity over the long term. Hardly any other industry is facing such enormous upheavals as the automobile industry.

With our solutions, you can optimize the entire value chain in vehicle manufacturing. EPLAN offers you solutions for engineering the control systems of machines and plant systems, supporting you in the creation, production, further processing and packaging of agricultural products into foods and beverages. Code compliance, ensuring supply, optimizing load distribution: the energy sector faces many challenges.

EPLAN offers you optimal solutions for a broad field of applications from energy management to plant system engineering. Digitalization, standardization and automation are all trends that no industrial sector can evade right now. This also holds true for the maritime industry. Planning monitoring, control, regulation and optimization systems is an important part of technical facility management for many types of buildings. With EPLAN you can rely on a continuous and consistent database that goes far beyond just the engineering processes.

EPLAN Electric P8 automatically generates detailed evaluations for you as an integral component of the project documentation — either on an ongoing basis or combined after project completion, as required. Downstream process steps then get all the necessary information from engineering: from integrated planning to manufacturing, commissioning, maintenance and repair.

You can save up to 26 variants of a circuit or system for each representation type. With 12 different representation types, you have a total of possible variants at your fingertips. You can easily manage your macro projects. Thanks to macro technology, you can create a solid foundation for standardizing your processes. Manage an unlimited number of data sets for your macros and quickly select the desired data set during the engineering design process.

Autoconnecting enables you to logically connect circuit symbols with one another in an instant, making schematics design faster and increasing the quality of the generated schematic. Choose between a graphical, a logical or device-oriented design approach to support various work processes. Reports such as terminal and wire diagrams or bills of materials are automatically created for you to be used in downstream project phases.

Thanks to its end-to-end Unicode capability, the software generates circuit diagrams and schematics in a wide variety of languages based on your customized translation databases — from schematics in Chinese to bills of materials in Russian. Moving images explain things better! EPLAN offers you comprehensive services and support beyond our software.

We are here to support you! In addition, the consultants can work with you to unlock the enormous potential for implementing integrated working processes in your company. Are you stuck? It shows you how to work in a functionally structured way and follow uniform standards. You can also increase your engineering efficiency step by step with a solid data basis. Find out how companies use our solutions to address current technical and business developments and improve their productivity.

The SOFIA research aircraft has now been operating for 8 years, enabling close observation of space by recording infrared radiation. The complex electrical engineering of this unique telescope has so far been available only on paper and in the form of PDF documents.

The underlying principle is consistent, cross-disciplinary design processes from mechanical and process engineering through to fluid power and electrical engineering. Good things sometimes come from chance events. Jeddah, Mecca, Benin City. Many systems are also travelling the high seas, i.

This is possible only by electrical design being as consistent as possible and highly automated. Everyone is talking about Industry 4. But what about the strategic digitization of design processes and designing control technology for machines and plant systems? Researchers at the E4TC in Aachen introduced an engineering workflow model among other things and prepared an evaluation matrix with five efficiency levels.

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Discover more. Macro Technology. Placeholder Technology. Various Design Approaches. Automatic Reports. Editing of Mass Data. International Codes, Consistently Localized. Watch videos. Solutions for Your Engineering. Download now. System Requirements. System requirements. Highlights around the current release. Get an overview of innovative functionalities that make your project planning more efficient. To the highlights of the current release. EPLAN documentation for a unique "flying observatory".

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