Lab Facilities

Within our state-of-the-art labs, students explore the fascinating world of robotics and programmable logic controller (PLC) automation. Our facilities are equipped with the latest robotic systems, including industrial robots and collaborative robots (cobots), allowing students to gain practical experience in programming, control, and optimization of automated systems.

Power electronics and microcontrollers are essential components of mechatronic systems, enabling efficient energy conversion and intelligent control. In our Power Electronics and Microcontroller lab, students explore the principles and applications of power semiconductor devices, microcontrollers, and embedded systems. Through practical experiments and projects, students gain proficiency in designing and implementing power electronic circuits, microcontroller-based systems, and IoT devices, preparing them for careers in diverse industries such as renewable energy, consumer electronics, and automation.

Digital Signal Processing

Digital signal processing (DSP) plays a crucial role in mechatronic systems, enabling real-time analysis and manipulation of sensor data and control signals. In our DSP lab, students learn fundamental concepts of signal processing, including filtering, spectral analysis, and digital control algorithms. Using software tools and programmable hardware platforms, students gain hands-on experience in implementing DSP algorithms for applications such as audio processing, image processing, and control systems, preparing them for roles in research, development, and innovation.

Control Engineering and Process Automation

Control engineering is essential for regulating and optimizing the behavior of complex systems in mechatronics and automation. In our Control Engineering and Process Automation lab, students study feedback control theory, system modeling, and advanced control techniques. Through practical experiments and projects, students gain experience in designing and implementing control systems for mechatronic devices, industrial processes, and automation solutions, preparing them for careers in industries such as manufacturing, aerospace, and robotics.

Hydraulics and Pneumatics

Hydraulic and pneumatic systems play a crucial role in mechatronic applications for actuation, control, and power transmission. In our Hydraulics and Pneumatics lab, students explore the principles and applications of fluid power systems, including hydraulic actuators, pneumatic valves, and control circuits. Through hands-on experiments and simulations, students learn to design, analyze, and troubleshoot hydraulic and pneumatic systems, preparing them for roles in industries such as manufacturing, construction, and automotive engineering.

Sensors and Basic Electronics

Sensors are fundamental to mechatronic systems, providing crucial input for monitoring, control, and feedback. In our Sensors and Basic Electronics lab, students study a wide range of sensor technologies, including analog and digital sensors, transducers, and signal conditioning circuits. Through practical exercises and projects, students learn to interface sensors with microcontrollers, acquire and process sensor data, and develop smart devices and IoT solutions for real-world applications, preparing them for careers in sensor technology, automation, and robotics.

In addition to specialized labs, the School of Mechatronics Engineering provides facilities for exploring fundamental concepts in electrical engineering. These labs cover topics such as circuit analysis, electromagnetic theory, power systems, and digital electronics, providing students with a strong foundation for their studies in mechatronics.

The collaboration between the School of Mechatronics Engineering at Symbiosis Skills and Professional University and Lucas Nullle Labs in Germany offers students an unparalleled opportunity to gain hands-on experience in a wide range of mechatronics disciplines. Through state-of-the-art facilities, industry partnerships, and experiential learning opportunities, we prepare students for successful careers in mechatronics and related fields, driving innovation and advancing technology for a sustainable future.