Learn Automation Studio P6 with Tutorials, Videos and Webinars
Automation Studio P6: A Powerful Design and Simulation Software for Engineering Projects
If you are looking for a software solution that can help you create, analyze, troubleshoot and validate multi-technology circuits, you might want to check out Automation Studio P6. This software is a unique design and simulation tool that covers all project/machine technologies including fluid power, electrical, controls, HMI and communications through the entire product lifecycle. It helps you to easily combine these various technologies in order to design, document and simulate complete systems.
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In this article, we will introduce you to Automation Studio P6, explain how to download and install it, show you how to use it, and highlight what's new in the latest version, Automation Studio P6.4. By the end of this article, you will have a better understanding of what Automation Studio P6 can do for you and your engineering projects.
What is Automation Studio P6?
Automation Studio P6 is a software product developed by Famic Technologies Inc., a Canadian company that specializes in providing innovative solutions for industrial automation, hydraulics, pneumatics, electrical engineering, controls and education. Automation Studio P6 is the professional edition of the software, which is designed for engineers, technicians, trainers and maintenance specialists who work with various technologies and systems.
The main features and benefits of Automation Studio P6
Automation Studio P6 provides a user-friendly platform with access to built-in component libraries to help accelerate your design process. With integrated simulation capabilities, it makes it easy to quickly animate, analyze and validate your systems performance. All technologies can be linked together to create and simulate an entire machine.
Some of the main features and benefits of Automation Studio P6 are:
It supports multiple languages and standards, such as IEC, NEMA, JIC, SAE, ISO and CEI.
It allows you to create custom components and libraries, as well as import manufacturers' catalogues.
It enables you to generate technical documentation, such as schematics, bill of materials (BOM), reports, manuals and datasheets.
It offers advanced analysis tools, such as FMEA (Failure Mode Effects and Criticality Analysis), SFC/GRAFCET (Sequential Function Chart), Math Workshop and Block Diagram.
It integrates with other software applications, such as Unity 3D, OPC, API and CANBus.
It facilitates collaboration and communication among project stakeholders, such as designers, testers, trainers and maintenance personnel.
It improves quality, productivity, efficiency and safety of your engineering projects.
The supported technologies and industries of Automation Studio P6
Automation Studio P6 supports a wide range of technologies and industries that require design and simulation of complex systems. Some of the supported technologies are:
Hydraulics
Pneumatics
Electrical (IEC, NEMA, JIC, SAE)
PLC (Programmable Logic Controller)
HMI (Human Machine Interface) & Control Panels
Digital Electronics
Some of the supported industries are:
Aerospace
Agriculture
Automotive
Construction
Education
Energy
Manufacturing How to download and install Automation Studio P6?
If you are interested in trying out Automation Studio P6, you can download a free trial version from the official website of Famic Technologies. The trial version is valid for 30 days and allows you to access all the features and functions of the software. However, you will not be able to save or print your projects, or export them to other formats.
The system requirements and license options for Automation Studio P6
Before you download and install Automation Studio P6, you should make sure that your computer meets the minimum system requirements. According to the Famic Technologies website, these are:
Operating system: Windows 10, 8.1, 8, 7 (64-bit only)
Processor: Intel Core i5 or equivalent
Memory: 8 GB RAM
Hard disk space: 10 GB available
Graphics card: DirectX 11 compatible with 1 GB VRAM
Screen resolution: 1280 x 1024 or higher
Internet connection: Required for activation and updates
If your computer meets these requirements, you can proceed to download the trial version of Automation Studio P6 from the website. You will need to fill out a form with your personal and professional information, and then you will receive an email with a download link and an activation code.
If you want to purchase a full license of Automation Studio P6, you have two options: a single-user license or a network license. A single-user license allows you to install and use the software on one computer only, while a network license allows you to install and use the software on multiple computers connected to a server. The price of the license depends on the number of users and the duration of the subscription. You can contact Famic Technologies for more information and a quote.
The steps to download and install Automation Studio P6
Once you have downloaded the trial version of Automation Studio P6, you can follow these steps to install it on your computer:
Run the setup file that you downloaded from the website.
Follow the instructions on the screen to select your language, accept the license agreement, choose the installation folder and components, and confirm the installation.
Wait for the installation process to complete. It may take several minutes depending on your system configuration.
Launch Automation Studio P6 from the Start menu or the desktop shortcut.
Enter your activation code that you received by email when prompted. You will need an internet connection for this step.
Enjoy using Automation Studio P6 for 30 days. You can access all the features and functions of the software, but you will not be able to save or print your projects, or export them to other formats.
If you encounter any problems during the installation or activation process, you can contact Famic Technologies' technical support team for assistance. How to use Automation Studio P6?
Now that you have installed Automation Studio P6 on your computer, you might be wondering how to use it. In this section, we will give you a brief overview of the user interface and tools of Automation Studio P6, and show you the workflow and examples of using the software to design and simulate different systems.
The user interface and tools of Automation Studio P6
The user interface of Automation Studio P6 consists of several elements that allow you to access the various functions and features of the software. These elements are:
The menu bar, which contains the main menus such as File, Edit, View, Insert, Tools, Window and Help.
The toolbar, which contains the most frequently used commands and icons such as New, Open, Save, Print, Cut, Copy, Paste, Undo, Redo, Zoom, Simulation and Library.
The workspace, which is the main area where you create and edit your projects. It consists of one or more tabs that display different views of your project, such as schematic view, 3D view, block diagram view and report view.
The library browser, which is a window that displays the available component libraries for different technologies. You can drag and drop components from the library browser to the workspace to create your circuits.
The property editor, which is a window that displays the properties and parameters of the selected component or object. You can modify the properties and parameters to customize your components and objects.
The project explorer, which is a window that displays the structure and hierarchy of your project. You can organize your project into folders and subfolders, and rename or delete any element of your project.
The status bar, which is a horizontal bar at the bottom of the screen that displays information such as the current mode, zoom level, cursor position and simulation status.
You can customize the layout and appearance of the user interface by resizing, docking, floating or hiding any of the windows. You can also change the theme, color scheme and font size of the user interface from the Options menu.
Automation Studio P6 provides a variety of tools to help you create, edit, simulate and document your projects. Some of these tools are:
The drawing tools, which allow you to draw lines, curves, shapes, text and symbols on your schematics.
The editing tools, which allow you to select, move, rotate, scale, align, group, ungroup, copy, paste and delete components and objects on your schematics.
The connection tools, which allow you to connect components with wires or tubes on your schematics. You can also use automatic connection or routing functions to simplify your connections.
The simulation tools, which allow you to run dynamic or static simulations of your systems. You can also use measurement instruments such as oscilloscopes, multimeters and gauges to monitor and record your simulation results.
The analysis tools, which allow you to perform various types of analysis on your systems. For example, you can use FMEA to identify potential failures and their effects on your systems. You can also use SFC/GRAFCET to model the logic and sequence of your systems.
The documentation tools, which allow you to generate technical documentation for your projects. For example, you can create schematics with annotations and cross-references. You can also create BOMs with part numbers and prices. You can also create reports with tables, charts and graphs.
The workflow and examples of Automation Studio P6
The workflow of using Automation Studio P6 to design and simulate systems is generally as follows:
Create a new project or open an existing project from the File menu or the toolbar.
Select the technology or technologies that you want to use for your project from the Library menu or the toolbar.
Drag and drop components from the library browser to the workspace to create your circuits. You can also use drawing tools to add lines, shapes, text and symbols to your schematics.
Connect components with wires or tubes using connection tools. You can also use automatic connection or routing functions to simplify your connections.
Edit the properties and parameters of components and objects using property editor. You can also use editing tools to modify the position, size, orientation and alignment of components and objects on your schematics.
Run dynamic or static simulations of your systems using simulation tools. You can also use measurement instruments to monitor and record your simulation results.
Analyze your systems using analysis tools such as FMEA or SFC/GRAFCET. You can also use math workshop or block diagram to create and solve mathematical equations or logic expressions for your systems.
Generate technical documentation for your projects using documentation tools. For example, you can create schematics with annotations and cross-references. You can also create BOMs with part numbers and prices. You can also create reports with tables, charts and graphs.
Save, print or export your projects to other formats using the File menu or the toolbar. You can also share your projects with other users or applications using the collaboration and integration features of Automation Studio P6.
To give you some examples of how to use Automation Studio P6 to design and simulate different systems, we have created a table that shows some common scenarios and the corresponding technologies and tools that you can use in Automation Studio P6.
Scenario
Technology
Tool
You want to design and simulate a hydraulic circuit for a crane that can lift and lower a load.
Hydraulics
You can use the hydraulic library to select and place components such as pumps, valves, cylinders, motors and reservoirs. You can also use the connection tools to connect them with pipes. You can then run a dynamic simulation to see how the circuit behaves under different conditions. You can also use the measurement instruments to measure the pressure, flow and force of the hydraulic system.
You want to design and simulate an electrical circuit for a motor that can be controlled by a switch.
Electrical (IEC, NEMA, JIC, SAE)
You can use the electrical library to select and place components such as power sources, switches, relays, contacts, coils and motors. You can also use the connection tools to connect them with wires. You can then run a static simulation to see how the circuit responds to different inputs. You can also use the measurement instruments to measure the voltage, current and power of the electrical system.
You want to design and simulate a PLC program for a conveyor belt that can be started and stopped by sensors.
PLC (Programmable Logic Controller)
You can use the PLC library to select and place components such as inputs, outputs, timers, counters and logic gates. You can also use the drawing tools to create ladder diagrams or function block diagrams for your PLC program. You can then run a dynamic simulation to see how the PLC program controls the conveyor belt. You can also use the SFC/GRAFCET tool to model the logic and sequence of your PLC program.
You want to design and simulate an HMI screen for a machine that can be operated by a user.
HMI (Human Machine Interface) & Control Panels
You can use the HMI library to select and place components such as buttons, switches, indicators, displays and gauges. You can also use the property editor to customize their appearance and behavior. You can then run a dynamic simulation to see how the HMI screen interacts with the machine. You can also use the 3D view tool to visualize your HMI screen in a realistic environment.
You want to design and simulate a digital circuit for a calculator that can perform arithmetic operations.
Digital Electronics
You can use the digital electronics library to select and place components such as logic gates, flip-flops, registers and arithmetic units. You can also use the connection tools to connect them with wires. You can then run a static simulation to see how the digital circuit performs different calculations. You can also use the block diagram tool to create and solve mathematical equations or logic expressions for your digital circuit.
What's new in Automation Studio P6.4?
Automation Studio P6 is constantly being updated and improved by Famic Technologies to provide you with the best possible user experience and performance. The latest version of Automation Studio P6 is Automation Studio P6.4, which was released in June 2021. This version introduces several new features and improvements that make Automation Studio P6 even more powerful and versatile.
The latest features and improvements of Automation Studio P6.4
Some of the latest features and improvements of Automation Studio P6.4 are:
A new Unity 3D integration feature that allows you to import 3D models from Unity 3D into Automation Studio P6.4. This feature enables you to create realistic 3D simulations of your systems with advanced graphics and physics effects.
A new OPC UA client/server feature that allows you to communicate with OPC UA servers or clients from Automation Studio P6.4 . This feature enables you to exchange data and commands with other OPC UA compatible devices or applications.
A new API (Application Programming Interface) feature that allows you to create custom scripts or functions in Automation Studio P6.4 using Python or C#. This feature enables you to extend the functionality and flexibility of Automation Studio P6.4.
A new CANBus (Controller Area Network) feature that allows you to simulate and monitor CANBus communication protocols in Automation Studio P6.4. This feature enables you to test and troubleshoot CANBus networks and devices.
An improved hydraulic library that includes new components such as proportional valves, pressure relief valves, flow control valves, accumulators, filters and heat exchangers. These components enhance the realism and accuracy of your hydraulic simulations.
An improved electrical library that includes new components such as transformers, capacitors, inductors, diodes, transistors and LEDs. These components expand the range and diversity of your electrical simulations.
An improved PLC library that includes new components such as analog inputs, analog outputs, analog comparators, analog multipliers and analog dividers. These components increase the complexity and sophistication of your PLC simulations.
An improved HMI library that includes new components such as sliders, knobs, dials, progress bars and color pickers. These components improve the interactivity and usability of your HMI simulations.
An improved digital electronics library that includes new components such as multiplexers, demultiplexers, encoders, decoders, shift registers and counters. These components improve the logic and functionality of your digital simulations.
The advantages and applications of Automation Studio P6.4
The new features and improvements of Automation Studio P6.4 bring several advantages and applications for users of Automation Studio P6. Some of these advantages and applications are:
You can create more realistic and immersive 3D simulations of your systems using Unity 3D integration. You can also use Unity 3D to create virtual reality (VR) or augmented reality (AR) simulations for training or demonstration purposes.
You can communicate with other OPC UA compatible devices or applications using OPC UA client/server. You can also use OPC UA to create smart factories or Industry 4.0 solutions for automation and data exchange.
You can create custom scripts or functions using API. You can also use API to automate tasks, optimize processes, or integrate with other software applications.
You can simulate and monitor CANBus communication protocols using CANBus. You can also use CANBus to test and troubleshoot CANBus networks and devices in automotive, industrial or medical applications.
You can design and simulate more advanced hydraulic systems using the improved hydraulic library. You can also use the hydraulic library to model fluid power systems in aerospace, agriculture, construction or manufacturing applications.
You can design and simulate more complex electrical systems using the improved electrical library. You can also use the electrical library to model electrical power systems in energy, transportation or communication applications.
You can design and simulate more sophisticated PLC programs using the improved PLC library. You can also use the PLC library to model control systems in automation, robotics or process engineering applications.
You can design and simulate more interactive HMI screens using the improved HMI library. You can also use the HMI library to mo