Labvolt - Simulator
Specific available for motors, generators, and electronics. Licensing options for institutions.
), it allows students to perform experiments in electrical power, machines, and electronics using virtualized versions of industry-standard hardware. Core Functionality The simulator mirrors the physical Electromechanical Training System (EMS) , enabling users to: Construct Circuits
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Students can perform hands-on activities involving complex electrical power and machinery concepts such as: labvolt simulator
Oscilloscopes, spectrum analyzers, RF generators, and antenna networks.
Provides a safe environment to learn about high-voltage systems and electrical safety protocols.
Festo Didactic offers certification courses. Learn to use the "Fault Manager" to build custom fault banks for exams. Specific available for motors, generators, and electronics
A data acquisition and control interface enables the collection of up to 80 configurable parameters, which can be visualized in tables or graphs.
The simulator is not merely a software tool; it is fully integrated with complete educational curricula. All student workbooks and manuals corresponding to the simulated training systems are available within the LVSIM-EMS navigation menu for online consultation. For institutions requiring printing rights, Campus Licenses can be ordered separately.
LVSIM-EMS includes a comprehensive suite of conventional and specialized instruments, including: AC/DC Voltmeters and Ammeters Power Meters Eight-channel Oscilloscope Six-channel Phasor Analyzer Harmonic Analyzer Torque, Speed, and Mechanical Power Meters 4. Safety and Feedback Can’t copy the link right now
Simulates thyristors, rectifiers, inverters, and choppers. It also includes modules for solar (photovoltaic) and wind power generation systems.
The simulator typically covers four major domains:
Users can wire and analyze permanent magnet DC motors, three-phase synchronous motors, and squirrel-cage induction motors.
One of the LabVolt simulator’s most powerful features is its ability to interface seamlessly with actual physical equipment. The real-time simulator can be interfaced with LabVolt 0.2-kW or 2-kW hardware kits, depending on research and teaching objectives. This hybrid capability allows institutions to gradually build physical laboratory capabilities while maintaining virtual options for remote learning, large-class exercises, or budget-constrained scenarios.