Labvolt Simulator -
Students can experiment with high-voltage AC/DC systems without any physical risks.
Courses are also available as eLab courses on Festo LX, the digital learning portal that serves as the centerpiece of Festo Didactic’s learning concepts. This digital learning environment helps create comprehensive learning environments tailored to individual customer requirements while ensuring maximum return on investment.
Select the electrical network requirements (e.g., 50Hz or 60Hz and local voltage).
The Smart Electric Power System (SEPS) Laboratory at The College of New Jersey (TCNJ), funded by the National Science Foundation’s Major Research Initiative grant, is fully operational with LabVolt equipment. The laboratory physically emulates the structure and behavior of real electric power systems, allowing students and researchers to manipulate the parameters and topology of physical power systems and observe the effects of their actions. This hardware, combined with emerging smart grid technologies including photovoltaic cells, wind turbines, NiMH battery storage, solid-state power electronic converters, and embedded data acquisition capabilities, provides an unparalleled research and educational environment. labvolt simulator
One of the most compelling aspects of LabVolt simulation software is its comprehensive set of virtual measuring instruments. Rather than requiring students to master complex external measurement equipment, the simulator provides integrated tools that mirror professional-grade instruments:
Understanding three-phase induction motors, synchronous generators, and single-phase induction motors.
Choose from the pre-built LabVolt student manuals. These workbooks guide users step-by-step through specific experiments. Select the electrical network requirements (e
Simulation serves as a powerful adjunct to traditional hands-on learning. Key advantages include: LVSIM-EMS
This module simulates industrial fluid power circuits. Students design and test hydraulic pumps, pneumatic valves, directional controls, and logic circuits, observing fluid velocity and pressure changes in real time. 3. Process Control and Automation
The LabVolt simulator represents a mature, sophisticated, and continuously evolving solution for technical education. From its origins as a standalone software package for electromechanical systems training to its current position as a comprehensive ecosystem spanning power electronics, smart grid technologies, renewable energy, hydraulics, and digital communications, the LabVolt simulator has helped define what is possible in simulation-based technical training. or equipment fires.
It allows educators to teach topics like power generation, electrical machines, and power electronics without needing physical equipment for every student. Key Features of LVSIM-EMS
: Available in specialized simulation packages such as LVSIM-DCOM for digital communications training.
Students can work with dangerous 120V, 240V, or 3-phase power configurations virtually. There is zero risk of arc flash, electrocution, or equipment fires.
Bridging Theory and Practice: An Evaluation of the LabVolt Simulation Environment in Technical Education