Quanser Magnetic Levitation System

• Demonstrates the principles of magnetic levitation control using electromagnetic actuation.
• Allows study and design of linear and nonlinear control systems with real-time implementation.
• Supports controller design using PID, LQR, and state-feedback techniques.
• Provides real-time position sensing and actuator current feedback.
• Fully compatible with QUARC/MATLAB-Simulink for simulation and hardware control.
• Enables linearization and modeling of a nonlinear plant for system identification experiments.
• Ideal for undergraduate, postgraduate, and research-level control and automation experiments.

Software and Control Environment

• Uses QUARC Real-Time Control Software integrated with MATLAB/Simulink.
• Supports real-time parameter tuning, simulation, and data logging.
• Facilitates implementation of advanced control algorithms including state observers and optimal control.
• Integrates with other Quanser hardware for advanced control education and research.

• Nonlinear control and real-time system identification.
• Magnetic field-based actuation and feedback control systems.
• PID, LQR, and state feedback control verification.
• Research in electromagnetic levitation and precision control.
• Consultancy and collaborative work in advanced control technologies.

TT045, Control Systems Laboratory
School of Electrical Engineering (SELECT)
Room No. TT045
Vellore Institute of Technology (VIT), Vellore – 632 014, Tamil Nadu, India

Dr. M. Geetha
Professor Grade-2
Control Systems Laboratory, School of Electrical Engineering (SELECT)
Vellore Institute of Technology (VIT), Vellore – 632 014, Tamil Nadu, India
Email: geetha.mani@vit.ac.in
Phone: 0416-220 2431

Consultancy and Training Opportunities

This facility supports industrial consultancy and collaborative research in:

• Magnetic levitation system modeling and control
• Real-time control prototyping and optimization
• Customized training workshops using Quanser systems

Charges are per session (+ applicable GST)