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How PSIM Simulation Software Works for Power Electronics and Motor Drive Design
PSIM is a leading simulation and design software for power electronics and motor drive applications. It has been developed by Powersim, Inc. for over 25 years and has an intuitive, user-friendly interface and a robust simulation engine. PSIM can handle quick power converter loss calculations, motor drive efficiency calculations, conducted EMI analysis, and analog/digital control. PSIM also offers automatic embedded code generation for rapid control prototyping. Additionally, with PSIMâs various Design Suites, users can design power supplies, electromagnetic interference (EMI) filters, and motor drive systems quickly and conveniently[^1^] [^2^].
PSIM uses nodal analysis and the trapezoidal rule integration as the basis of its simulation algorithm[^3^]. It also employs a unique active switch simulation technique that allows users to simulate high-speed switching without the convergence issues typically seen in other tools due to large derivatives in current and voltage waveforms[^2^]. PSIM provides various levels of model complexity so users can optimize simulations to meet specific simulation goals. Users can also enter custom C code directly into the c-block without a compiler, and PSIM will automatically interpret and execute it at runtime by a built-in C interpreter[^2^].
PSIM integrates seamlessly with other Altair products (Activate, Embed, Flux/FluxMotor, MotionSolve) and with third-party software, such as MATLAB Simulink, Questa/ModelSim, LTspice, and any FMI-supporting software. This enables users to perform multi-domain, multi-physics systems simulation and co-simulation[^2^]. PSIM also has intuitive design verification tools, including Monte Carlo Analysis, Sensitivity Analysis, and Fault Analysis, to assist Design Failure Mode and Effect Analysis (DFMEA) of power converter designs[^2^].
PSIM is a powerful and versatile tool that can help engineers design and simulate power electronics and motor drive systems with ease and accuracy. It is trusted by thousands of users worldwide from academia to industry. To learn more about PSIMâs capabilities and applications, visit https://powersimtech.com/products/psim/capabilities-applications/ or https://www.altair.com/psim. You can also download a free demo version of PSIM from https://powersimtech.com/products/psim/psim-pricing-and-licensing/download-demo/ or request a free trial license from https://www.altair.com/trial-center.
One of the main advantages of PSIM is its speed and reliability. PSIM can simulate complex power electronics and motor drive systems in a fraction of the time compared to other tools. PSIM also has a high convergence rate and can handle large circuits with ease. Users can run multiple simulations in parallel or batch mode to save time and resources. PSIM also supports parameter sweep and optimization to help users find the optimal design parameters.
Another benefit of PSIM is its comprehensive library of components and models. PSIM has over 2000 built-in elements, including power devices, passive components, magnetic components, motors, generators, sensors, converters, inverters, controllers, and more. PSIM also supports user-defined models and custom components. Users can import models from other sources or create their own models using PSIMâs Model Builder or SimCoupler modules. PSIM also has a large database of device models for diodes, MOSFETs, IGBTs, SiC/GaN devices, and more. Users can easily select the device model from the database or enter the device parameters manually.
PSIM also has a rich set of features and functions for power electronics and motor drive design. PSIM can calculate the switching and conduction losses of switching devices as well as the core and winding losses of inductors without slowing down simulation speeds. PSIM can also perform harmonic analysis, AC sweep analysis, Bode plot analysis, and Fourier analysis to evaluate the performance and stability of power converters and control systems. PSIM can also simulate various types of motors and generators, such as DC, AC induction, permanent magnet synchronous, brushless DC, switched reluctance, and more. PSIM can also model the mechanical load and the thermal effects on the motor and power devices. 061ffe29dd