PSIM 9.3 Full 13: What's New and How to Use It for Power Electronics Design and Analysis
Download PSIM 9.3 Full 13: A Complete Guide for Power Electronics Simulation
If you are looking for a powerful, reliable, and easy-to-use software for power electronics simulation, you might want to consider downloading PSIM 9.3 full version. PSIM is a software that enables you to design, analyze, and optimize power electronics circuits and systems in a fast and accurate way. In this article, we will show you what PSIM is, what are its benefits and features, how to download and install PSIM 9.3 full version, how to use it, and what are some alternatives to it.
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What is PSIM and what are its benefits?
PSIM stands for Power Simulation, and it is a software developed by Powersim Inc., a company that specializes in power electronics simulation solutions. PSIM was first released in 1994, and since then it has been widely used by engineers, researchers, students, and educators in the power electronics industry.
PSIM has many benefits that make it a preferred choice for power electronics simulation, such as:
It has a friendly user interface that allows you to create and edit circuits easily using drag-and-drop components, wiring tools, and schematic capture.
It has a fast simulation engine that can handle large-scale circuits and systems with high efficiency and accuracy.
It has a comprehensive library of power electronics components, models, and devices that cover various applications such as motor drives, power supplies, renewable energy, electric vehicles, etc.
It has a flexible control simulation capability that allows you to implement control algorithms in different forms such as analog circuit, transfer function block diagram, custom C code, or Matlab/Simulink.
It has a rich set of analysis tools that enable you to perform various tasks such as parameter sweep, AC analysis, harmonic analysis, design verification, fault analysis, etc.
It has a powerful code generation feature that allows you to generate C code from your control schematic automatically and run it on physical hardware for real-time operation.
It has a seamless integration with other engineering platforms such as Matlab/Simulink, JMAG-RT, FEMM, LabVIEW, etc.
What is PSIM 9.3 and what are its features?
PSIM 9.3 is the latest version of PSIM that was released in March 2012. It has many new features and improvements that enhance the performance and functionality of PSIM. Some of the key new features in PSIM 9.3 are:
New Motor Control Design Suite: This is a new add-on module that provides tools for motor control design and analysis. It includes motor models for various types of motors such as induction motor, permanent magnet synchronous motor (PMSM), switched reluctance motor (SRM), etc. It also includes control blocks for various control methods such as vector control, direct torque control (DTC), maximum torque per ampere (MTPA), field weakening control (FWC), etc.
Improved HEV Design Suite: This is an existing add-on module that provides tools for hybrid electric vehicle (HEV) design and analysis. It includes models for various components such as battery, fuel cell, ultracapacitor, DC/DC converter, DC/AC in verter, AC/DC rectifier, etc. It also includes control blocks for various control strategies such as power split control, power flow control, energy management control, etc.
New Thermal Module: This is a new add-on module that provides tools for thermal analysis of power electronics circuits and systems. It allows you to model the heat generation and dissipation of components and devices, and calculate the temperature rise and distribution in the circuit. It also allows you to perform thermal stress analysis and reliability assessment of the circuit.
New SPICE Module: This is a new add-on module that provides tools for SPICE simulation of power electronics circuits and systems. It allows you to import SPICE netlists and models from other sources, and run SPICE simulation in PSIM environment. It also allows you to perform mixed-mode simulation that combines PSIM and SPICE models in the same circuit.
New Digital Control Module: This is a new add-on module that provides tools for digital control design and implementation of power electronics circuits and systems. It allows you to design digital controllers using discrete-time transfer function blocks, Z-domain blocks, or custom C code. It also allows you to generate C code from your digital control schematic automatically and run it on physical hardware for real-time operation.
Improved PSIM Elements: This is an existing add-on module that provides tools for creating custom components and models in PSIM. It includes a graphical user interface (GUI) for defining component parameters, equations, and variables. It also includes a C compiler for compiling custom C code into PSIM DLL files.
Improved User Interface: The user interface of PSIM 9.3 has been improved with new features such as tabbed document interface, dockable windows, customizable toolbars, zoom-in/out function, undo/redo function, etc.
Improved Simulation Performance: The simulation performance of PSIM 9.3 has been improved with new features such as parallel processing, multi-core support, 64-bit support, dynamic memory allocation, etc.
Why download PSIM 9.3 full version?
Downloading PSIM 9.3 full version has many advantages over using other versions or trial versions of PSIM. Some of the reasons why you should download PSIM 9.3 full version are:
You can access all the features and functions of PSIM 9.3 without any limitations or restrictions.
You can use PSIM 9.3 for unlimited time without any expiration date or license renewal.
You can get free technical support and updates from Powersim Inc. for PSIM 9.3.
You can save money by avoiding the cost of purchasing or renting other power electronics simulation software.
You can enhance your skills and knowledge in power electronics simulation by using the most advanced and comprehensive software in the market.
How to download PSIM 9.3 full version?
Downloading PSIM 9.3 full version is easy and simple if you follow these steps:
Requirements and precautions
Before you download PSIM 9.3 full version, you need to make sure that you have the following requirements:
A computer with Windows XP/Vista/7/8/10 operating system (32-bit or 64-bit).
A minimum of 1 GB RAM and 500 MB hard disk space.
An internet connection for downloading and activating PSIM 9.3.
You also need to take some precautions before you download PSIM 9.3 full version:
Make sure that you have a valid license key for PSIM 9.3 full version from Powersim Inc. You can purchase or request a license key from their website or contact them by email or phone.
Make sure that you have a backup of your existing PSIM files and projects before you install PSIM 9.3 full version. You can use the File > Export > Project function in PSIM to export your projects to a zip file.
Make sure that you have closed all other applications and programs before you run the setup file of PSIM 9.3 full version.
Steps to download and install PSIM 9.3 full version
Once you have the requirements and precautions ready, you can follow these steps to download and install PSIM 9.3 full version:
Go to the official website of Powersim Inc. at https://powersimtech.com/.
Click on the Download tab at the top menu bar.
Select the option "PSIM Full Version" and enter your license key and email address in the form. Then click on the Submit button.
You will receive an email from Powersim Inc. with a link to download the setup file of PSIM 9.3 full version. Click on the link and save the file to your computer.
Run the setup file and follow the instructions on the screen to install PSIM 9.3 full version on your computer. You can choose the default settings or customize them according to your preferences.
After the installation is complete, launch PSIM 9.3 full version from your desktop or start menu. You will be asked to activate PSIM 9.3 full version online or offline. Choose the online option and enter your license key and email address again. Then click on the Activate button.
You will receive a confirmation message that PSIM 9.3 full version has been activated successfully. You can now use PSIM 9.3 full version for power electronics simulation.
How to activate PSIM 9.3 full version offline?
If you do not have an internet connection or you prefer to activate PSIM 9.3 full version offline, you can follow these steps:
After installing PSIM 9.3 full version, launch it from your desktop or start menu. You will be asked to activate PSIM 9.3 full version online or offline. Choose the offline option and click on the Next button.
You will see a window with a request code and a website address. Copy the request code and go to the website address on another computer that has an internet connection.
Enter your license key and email address, and paste the request code in the form. Then click on the Submit button.
You will receive an email from Powersim Inc. with an activation code. Copy the activation code and go back to the computer where you installed PSIM 9.3 full version.
Paste the activation code in the window and click on the Activate button.
You will receive a confirmation message that PSIM 9.3 full version has been activated successfully. You can now use PSIM 9.3 full version for power electronics simulation.
How to use PSIM 9.3 full version?
Using PSIM 9.3 full version is easy and fun if you follow these steps:
Basic functions and interface of PSIM 9.3
The basic functions and interface of PSIM 9.3 are similar to other Windows applications, such as:
You can create, open, save, print, export, and import files using the File menu or the toolbar buttons.
You can edit, copy, paste, cut, delete, undo, redo, zoom, align, rotate, flip, group, ungroup, lock, unlock, and change properties of components using the Edit menu or the toolbar buttons.
You can view, hide, arrange, zoom, fit, pan, scroll, and measure components using the View menu or the toolbar buttons.
You can run, stop, pause, resume, step, debug, probe, plot, animate, and analyze simulations using the Simulate menu or the toolbar buttons.
You can access help topics, tutorials, examples, videos, manuals, FAQs, forums, and technical support using the Help menu or the toolbar buttons.
The main interface of PSIM 9.3 consists of four windows:
The Schematic window: This is where you create and edit circuits using components from the library or custom components from PSIM Elements.
The Simulation window: This is where you run and control simulations using various options such as simulation time, time step size, solver type, initial conditions, etc.
The Waveform window: This is where you view and analyze the simulation results using various tools such as cursors, markers, measurements, calculations, etc.
The Message window: This is where you see the messages and errors from PSIM during simulation or other operations.
How to create and simulate a circuit in PSIM 9.3
To create and simulate a circuit in PSIM 9.3, you can follow these steps:
Create a new file using the File > New > Circuit function or the toolbar button. You can also open an existing file using the File > Open function or the toolbar button.
Select the components you need from the library window on the left side of the screen. You can browse the library by categories or search by keywords. You can also use custom components from PSIM Elements if you have them.
Drag and drop the components to the schematic window on the right side of the screen. You can adjust the position, orientation, size, and color of the components using the mouse or the keyboard.
Connect the components using wires or buses. You can draw wires by clicking on a terminal of a component and dragging to another terminal. You can draw buses by clicking on a terminal of a component and dragging to an empty space. You can also use junctions, labels, ports, and grounds to connect components.
Double-click on a component to open its property dialog box. You can change the parameters, values, models, and options of the component according to your needs.
Save your circuit using the File > Save function or the toolbar button. You can also export your circuit to other formats such as netlist, image, or text using the File > Export function or the toolbar button.
Run your simulation using the Simulate > Run function or the toolbar button. You can also use other functions such as Simulate > Pause, Simulate > Resume, Simulate > Stop, Simulate > Step, Simulate > Debug, etc. to control your simulation.
View your simulation results in the waveform window at the bottom of the screen. You can use various tools such as cursors, markers, measurements, calculations, etc. to analyze your results.
How to use PSIM modules and tools for advanced applications
To use PSIM modules and tools for advanced applications, you need to have the corresponding add-on modules installed and activated in PSIM 9.3 full version. Some of the modules and tools that you can use are:
Motor Control Design Suite: This module allows you to design and analyze motor control systems using various motor models and control blocks. You can access this module by selecting Simulate > Motor Control Design Suite from the menu bar or clicking on the toolbar button.
HEV Design Suite: This module allows you to design and analyze hybrid electric vehicle systems using various components and control blocks. You can access this module by selecting Simulate > HEV Design Suite from the menu bar or clicking on the toolbar button.
Thermal Module: This module allows you to perform thermal analysis of power electronics circuits and systems using various thermal models and tools. You can access this module by selecting Simulate > Thermal Module from the menu bar or clicking on the toolbar button.
SPICE Module: This module allows you to perform SPICE simulation of power electronics circuits and systems using various SPICE netlists and models. You can access this module by selecting Simulate > SPICE Module from the menu bar or clicking on the toolbar button.
Digital Control Module: This module allows you to design and implement digital control systems using various digital control blocks and tools. You can access this module by selecting Simulate > Digital Control Module from the menu bar or clicking on the toolbar button.
PSIM Elements: This module allows you to create custom components and models in PSIM using various tools such as GUI, C compiler, etc. You can access this module by selecting Simulate > PSIM Elements from the menu bar or clicking on the toolbar button.
Code Generation: This feature allows you to generate C code from your control schematic automatically and run it on physical hardware for real-time operation. You can access this feature by selecting Simulate > Code Generation from the menu bar or clicking on the toolbar button.
Integration with other platforms: This feature allows you to integrate PSIM with other engineering platforms such as Matlab/Simulink, JMAG-RT, FEMM, LabVIEW, etc. You can access this feature by selecting Simulate > Integration from the menu bar or clicking on the toolbar button.
Alternatives to PSIM 9.3 full version
PSIM 9.3 full version is not the only power electronics simulation software available in the market. There are some alternatives that you can consider if you want to try something different or compare with PSIM. Some of the alternatives are:
Comparison of PSIM with other power electronics simulation software
The following table shows a comparison of PSIM with some of the other power electronics simulation software in terms of features, functions, and performance.
Software
Features
Functions
Performance
PSIM
- Friendly user interface- Fast simulation engine- Comprehensive library of components, models, and devices- Flexible control simulation capability- Rich set of analysis tools- Powerful code generation feature- Seamless integration with other platforms
- Power electronics circuit and system design, analysis, and optimization- Motor control design and analysis- Hybrid electric vehicle design and analysis- Thermal analysis of power electronics circuits and systems- SPICE simulation of power electronics circuits and systems- Digital control design and implementation- Custom component and model creation
- High efficiency and accuracy- Large-scale circuit and system handling- Multi-core support- 64-bit support- Dynamic memory allocation
Simplorer
- Graphical user interface- Multi-domain simulation engine- Library of components, models, and devices for various domains such as electrical, mechanical, thermal, etc.- Control simulation capability using VHDL-AMS or C/C++- Set of analysis tools such as parameter sweep, optimization, etc.- Code generation feature for FPGA or DSP targets- Integration with other platforms such as Matlab/Simulink, ANSYS Maxwell, etc.
- Multi-domain system design, analysis, and optimization- Power electronics circuit and system design and analysis- Motor drive design and analysis- Electric vehicle design and analysis- Thermal analysis of multi-domain systems- VHDL-AMS or C/C++ simulation of multi-domain systems- FPGA or DSP implementation of multi-domain systems
- Moderate efficiency and accuracy- Medium-scale circuit and system handling- Single-core support- 32-bit support- Static memory allocation
PSPICE
- Text-based user interface- SPICE simulation engine- Library of components, models, and devices for SPICE simulation)- Control simulation capability using PSpice SLPS interface- Set of analysis tools such as AC analysis, transient analysis, etc.- Code generation feature for microcontroller targets- Integration with other platforms such as Matlab/Simulink, Cadence Allegro, etc.
- SPICE simulation of electrical circuits and systems- Power electronics circuit and system design and analysis- Analog and digital circuit design and analysis- Microcontroller implementation of electrical systems
- Low efficiency and accuracy- Small-scale circuit and system handling- Single-core support- 32-bit support- Static memory allocation
Saber
- Graphical user interface- Multi-domain simulation engine- Library of components, models, and devices for various domains such as electrical, mechanical, thermal, etc.- Control simulation capability using MAST or C/C++- Set of analysis tools such as parameter sweep, optimization, etc.- Code generation feature for FPGA or DSP targets- Integration with other platforms such as Matlab/Simulink, ANSYS Maxwell, etc.
- Multi-domain system design, analysis, and optimization-