Why Choose PSIM ?
PSIM Demo Version Demo
Version		 PSIM European Community PSIM
Comm.
PSIM Video Tutorials Video
Tutorials		 PSIM Version 7 PSIM
v7.0
Why choose PSIM ? Here are four good reasons


PSIM Simulation Software
You will find more time to analyse the results
because... 		PSIM is adaptable
to your application
because... 		PSIM is ideal
for training
because... 		You will take pleasure using it
because...
The creation of a model
is intuitive and rapid
because...
The use is comfortable

because...
PSIM is easy to use

because...
PSIM is easy to use


because...
You have rapid results

because...
The creation
of a model
is intuitive and rapid
because...
PSIM is adaptable
to your field
of applications
because...
You have a robust solver

because...
PSIM is easy to install

because...
You have a flexible use

because...
PSIM is open

because...
You have a flexible control simulation

because...
You have rapid results


because...
You have a macroscopic overview

because...
The use is comfortable and the creation of a model is rapid
because...
PSIM is adaptable
to your field
of applications

because...
PSIM is easy
to use


because...
You have a robust solver


because...
You have a library of examples
You can easily create your own model
You have an easy way to parameter
You can use C/C++ code
You have a library of examples
You can easily create your own model
You have an easy way to parameter
You have a parameter sweep
You can launch a PSIM simulation through a command line
You can easily create your own model
You have an easy way to parameter
You have a Motor Drive Module
You have a Digital Control Module
PSIM is using a Windows interface
PSIM is using a fixed time step
You have ideal switches
You have a functional circuit approach
You can use C/C++ code
You have a parameter sweep
You can launch a PSIM simulation through a command line
You have a library of examples
You can easily create your own model
You have an easy way to parameter
You can use C/C++ code
You can easily create your own model
You can use C/C++ code
You have a Motor Drive Module
You have a Digital Control Module
You have a SimCoupler Module
You can perform a frequency analysis
You can easily create your own model
You have an easy way to parameter
You have a Motor Drive Module
You have a Digital Control Module
You have a robust nonlinear solver and the exact switching instants are determined
You can easily create your own model
You can use C/C++ code
You have a Motor Drive Module
You have a Digital Control Module
You have a SimCoupler Module
You can perform a frequency analysis
You can use C/C++ code
You have a general DLL block that enables the link with other softwares
You have a SimCoupler Module
You have a MagCoupler Module
You can use analog circuit
You can use s-domain transfer function block diagram
You can use z-domain transfer function block diagram
You can use C/C++ code
You can use Matlab/Simulink
PSIM is using a fixed time step
PSIM is using ideal switches
You have a functional circuit approach
You can use C/C++ code
With PSIM you can do a parameter sweep
You can launch a PSIM simulation through a command line
PSIM is using a fixed time step
You have ideal switches
You have a functional circuit approach
You have a library of examples
You can easily create your own model
You have an easy way to parameter
You can use C/C++ code
With PSIM you can do a parameter sweep
You can launch a PSIM simulation through a command line
You can easily create your own model
You can use C/C++ code
You have a Motor Drive Module
You have a Digital Control Module
You have a SimCoupler Module
You can perform a frequency analysis
You can easily create your own model
You have an easy way to parameter
You have a Motor Drive Module
You have a Digital Control Module
You have a robust nonlinear solver and the exact switching instants are determined