Lab Facilities

Learn, Explore, and Innovate.

Symbiosis Skill and Professional University's Analog and Digital Electronics Lab serves the School of Mechatronics with cutting-edge training capabilities.
This facility features modular, hands-on equipment enabling exploration of AC/DC conversion, inverters, rectifiers, choppers, and motor control circuits.
Students assemble and test analog circuits using operational amplifiers, filters, oscillators, and waveform generators on breadboard stations.
Digital electronics workstations support TTL/CMOS logic gates, flip-flops, counters, and multiplexers for sequential circuit design.
FPGA development boards facilitate programmable logic implementation and VHDL/Verilog coding for modern embedded systems.

Power electronics modules demonstrate thyristor firing circuits, IGBT drivers, and SMPS topologies essential for motor drives.
Integrated oscilloscopes, function generators, and multimeters provide precise measurements during live experimentation.
Safety features include isolated power supplies, short-circuit protection, and emergency shutdowns for high-voltage experiments.
Interactive simulation software complements hardware, allowing circuit design validation before physical prototyping.
The lab bridges theoretical electronics with mechatronics applications, preparing students for automation and robotics industries.

Symbiosis Skill and Professional University's Automation Mechatronics Lab supports hands-on training for the School of Mechatronics and Automobile.
This advanced facility features Programmable Logic Controllers (PLCs) from Siemens S7-300, S7-1200, and S7-1500 series for industrial automation programming.
Industrial robots and collaborative cobots enable students to master robot programming, path planning, and human-robot interaction scenarios.
Transfer systems with DC drives and factory automation setups simulate real production lines including sorting, assembly, and testing subsystems.

SCADA systems integrate with PLCs for supervisory control, monitoring live data from process stations and handling subsystems.
Hydraulics and pneumatics workstations teach fluid power control circuits essential for automated machinery actuation.
Sensors lab covers interfacing analog and digital sensors with microcontrollers for smart automation feedback loops.
Microprocessor setups include PIC, ARM Cortex M3, and DSP boards for embedded system development and real-time control algorithms.
The lab partners with Lucas Nulle Germany, ensuring industry-standard equipment for power electronics and process automation training.
These facilities prepare students for careers in smart manufacturing, robotics integration, and Industry 4.0 applications.

Symbiosis Skill and Professional University's Central Chemistry Lab serves multiple schools and programs with advanced experimental capabilities.
This spacious facility features individual workstations equipped with fume hoods, gas connections, and safety showers for organic synthesis and inorganic analysis.
High-precision analytical balances, pH meters, and spectrophotometers enable accurate quantitative experiments across chemistry and related sciences.
Glassware drying ovens, distillation setups, and refrigerated storage support diverse protocols from polymer chemistry to nutraceutical testing.

Well-ventilated with emergency eyewash stations, it accommodates 30+ students during shared sessions for architecture materials or nutrition programs.
Digital interfaces log reaction data while UV-Vis and FTIR instruments facilitate spectroscopic characterization for interdisciplinary projects.
Fire-rated cabinets store reagents securely, meeting safety standards for programs in beauty wellness and smart energy materials.
Faculty supervision ensures proper handling during titrations, chromatography, and synthesis shared by CSIT, architecture, and health sciences.
Adjacent prep rooms streamline material distribution, enhancing efficiency for multi-school lab rotations.
The lab embodies SSPU's skill-focused infrastructure, bridging theoretical chemistry with practical industry applications.

Symbiosis Skill and Professional University's Central Physics Lab supports hands-on experiments for Schools of Mechatronics and Automobile.
This well-equipped facility features oscilloscopes, multimeters, and function generators for circuit analysis and electromagnetism studies.
Laser optics benches enable interference, diffraction, and fiber optics experiments crucial for mechatronics sensor development.
Vernier calipers, spectrometers, and torsion apparatus facilitate precision measurements in mechanics and material properties for automobile design.

High-voltage setups and cathode ray oscilloscopes support electrostatics and semiconductor physics relevant to automotive electronics.
Spacious workstations accommodate 25+ students with safety shields, grounding mats, and emergency power shutdowns.
Digital data loggers integrate with computers for real-time graphing of motion, waves, and thermal experiments.
Faculty demonstrate robotics kinematics and vehicle dynamics using air tracks and inclined planes.
Adjacent storage maintains apparatus inventory while ventilation handles minor demonstrations safely.
The lab bridges foundational physics with practical applications, preparing students for industry innovation.

Strength of Materials Lab at SSPU supports practical training for School of Mechatronics students analyzing structural integrity.
This essential facility features Universal Testing Machines (UTM) conducting tensile, compressive, and shear strength tests on metals, composites, and polymers.
Extensometers precisely measure strain during loading, generating stress-strain curves for material property characterization.
Hardness testing equipment including Brinell, Rockwell, and Vickers testers evaluate surface resistance critical for mechatronic component selection.
Impact testing machines like Charpy and Izod pendulums assess material toughness under sudden dynamic loads.
Torsion testing rigs examine shaft materials for robotic joints and drive systems under twisting forces.
Fatigue testing setups simulate cyclic loading relevant to machine elements experiencing repeated stresses.
Non-destructive testing tools like ultrasonic flaw detectors ensure component quality without damage.
Digital data acquisition systems provide real-time graphing and analysis for accurate experimental results.
The lab equips mechatronics students with material selection expertise for reliable system design and automation projects.