Electrical and Electronics Engineering Department Laboratories
Our department has seven specialized laboratories where students reinforce their theoretical knowledge through hands-on practice and research. Each laboratory features modern infrastructure, up-to-date measurement and test equipment, and industry-standard software, supporting both undergraduate courses and joint graduate–industry projects.
1. Circuit Analysis Laboratory
Characterization of basic and advanced electrical circuits
- Equipment: Multimeters, function generators, dual-channel oscilloscopes, DC power supplies, electronic loads
- Applications: Experimental verification of Ohm’s and Kirchhoff’s laws; transient and steady-state measurements in RC/RL/RLC circuits; determination of Thevenin–Norton equivalents; power-factor analysis
- Learning Outcomes: Measurement-error analysis; data acquisition and reporting; comparison of SPICE-based simulations with real circuits
2. Analog Electronics Laboratory
Semiconductor devices and analog signal processing
- Equipment: High-bandwidth oscilloscopes, spectrum analyzers, signal generators, PCB prototyping stations
- Applications: Diode–transistor characteristics; multi-stage amplifier design; active/passive filters; op-amp-based integrators/differentiators; oscillators
- Learning Outcomes: Biasing techniques; frequency-response optimization; feedback-stability assessment
3. Digital Electronics Laboratory
Logic circuits and FPGA-based systems
- Equipment: FPGA development kits (Xilinx/Intel), logic analyzers, programmable power supplies, high-speed prototyping boards
- Applications: Boolean optimization; sequential circuit design; module development with VHDL/Verilog; digital-to-analog interfacing
- Learning Outcomes: Hardware description languages; timing analysis; collaboration with embedded processors
4. Embedded Systems Laboratory
Microcontrollers, real-time control, IoT
- Equipment: Arduino training kits
- Learning Outcomes: Hardware–software co-development; industrial communication standards
5. Telecommunications Laboratory
Analog/digital communications and RF systems
- Equipment: Vector network analyzers, software-defined radio (SDR) kits, microwave training sets, antenna measurement chambers
- Applications: AM/FM/PM modulation–demodulation; digital modulation techniques (QAM, OFDM); channel coding/decoding; antenna characterization
- Learning Outcomes: Spectrum management; communication chain design; RF safety and compliance testing
6. Electrical Machines Laboratory
Rotating machines, transformers, and electrical energy conversion
- Equipment: Three-phase synchronous and asynchronous motor–generator sets, DC machine stations, variac-equipped power panels, transformer test units, torque-speed sensors
- Applications: No-load and short-circuit transformer tests; torque-speed characteristic extraction; efficiency and loss analysis; motor-drive parameter tuning; regenerative braking experiments
- Learning Outcomes: Electromechanical energy conversion principles; determination of equivalent-circuit parameters; industrial motor-control strategies
7. Control Laboratory
Feedback systems and industrial automation
- Equipment: PID training kits, servo/DC motor platforms, PLC-SCADA stations, Matlab/Simulink real-time HIL units
- Applications: Position-speed control; process control (temperature, pressure, flow); robotic arm kinematics; drone oscillation damping
- Learning Outcomes: Model–simulation consistency; controller tuning methods (Z-N, IMC); Industry 4.0 integration