Electrical Engineering Labs
Innovate, Experiment, and Power the Future!
The Electrical Engineering Department is equipped with state-of-the-art laboratories that provide hands-on learning and practical exposure. The Basic Electrical Lab and Network Theory Lab focus on fundamental circuit analysis and design. The Electrical Machines Lab and Power System Lab cover machines, power generation, transmission, and distribution. The Control System Lab and Electrical Measurement Lab enhance automation, stability, and precision measurement skills. The Power Electronics Lab and Electrical Drives Lab focus on power conversion, motor drives, and industrial automation. The Simulation and Modeling Lab enables system analysis and design using advanced software. The Project Lab fosters innovation, allowing students to develop practical solutions. These labs bridge theory and practice, enhancing technical skills and industry readiness.
Staff
Mr. Gopal Krushna Mishra
Email: gopalkrushnamishra@driems.ac.in
Mr. Kirti Ranjan Subudhy
Email: kirtiranjansubudhi@driems.ac.in
BASIC ELECTRICAL Engineering LABORATORY
The Basic Electrical Engineering Laboratory provides students with hands-on experience in electrical circuits and fundamental electrical components. This lab enables students to perform experiments on electrical circuits, including analyzing circuit behavior. Students gain hands-on experience with basic electrical equipment, develop essential skills, and prepare for advanced studies and industry applications.
ELECTRICAL MACHINE LABORATORY
The Electrical Machines Laboratory is essential for bridging the gap between theoretical concepts and practical applications. It provides students with in-depth knowledge of electrical machines, preparing them for real-world challenges in electrical engineering. The lab is equipped with both traditional and modern electrical and electronic measuring instruments, along with a variety of AC and DC machines and transformers. Designed to meet the needs of undergraduate students, this lab helps them grasp fundamental concepts and progress to advanced experiments, such as electrical machine modeling and the study of specialized electrical machines.
NETWORK DEVICES LABORATORY
The Network Devices Laboratory provides hands-on experience in analyzing and verifying fundamental electrical circuit concepts. Students conduct experiments on Ohm’s Law, Kirchhoff’s Laws, Thevenin’s and Norton’s theorems, resonance, transient and steady-state analysis. The lab is equipped with digital multimeters, oscilloscopes, function generators, and power supplies for circuit testing and analysis. Practical sessions cover RLC circuits, network theorems, two-port networks, and frequency response analysis. This lab enhances students’ understanding of circuit behavior, preparing them for advanced studies in power systems, control systems, and electronics.
ELECTRICAL & ELECTRONICS MEASUREMENT LABORATORY
The Electrical & Electronics Measurement Laboratory offers practical training in measuring and analyzing electrical and electronic parameters. Students learn to measure voltage, current, power, energy, resistance, inductance, and capacitance using advanced instruments. The lab is equipped with digital and analog meters, oscilloscopes, wattmeter, bridges, transducers, and signal generators, enabling precise measurements and error analysis. It also covers sensor-based measurement techniques and calibration methods for industrial applications. This lab enhances technical skills, preparing students for careers in instrumentation, automation, and electrical diagnostics.
CONTROL SYSTEM ENGINEERING LABORATORY
Practical experience in the analysis and design of control systems for industrial and electrical applications is offered by the Control Systems Engineering Laboratory. PID control, time and frequency response, stability analysis, and system modeling are among the ideas that students study. For real-time system testing, the lab is furnished with stepper motors, DC and AC servo motors, synchros, PLC trainers, and simulation tools. To improve comprehension of automation and process control, real-world experiments use state-space modeling, closed-loop control, and root locus analysis. Students who complete this lab will be ready for jobs in control system design, industrial automation, and robotics. This lab prepares students for careers in robotics, industrial automation, and control system design.
ELECTRICAL DRIVES LABORATORY
The Electrical Drives Laboratory provides hands-on training in the operation, control, and performance analysis of electrical drives. Students explore DC and AC motor control, speed regulation techniques, torque-speed characteristics, and closed-loop control systems. The lab is equipped with DC motors, induction motors, synchronous motors, variable frequency drives (VFDs), power electronic converters, and digital controllers. Experiments cover PWM techniques, vector control, regenerative braking, and industrial drive applications. This lab enhances students’ skills in motor control, automation, and industrial drive systems, preparing them for careers in power electronics, electric vehicles, and industrial automation.
POWER ELECTRONICS LABORATORY
The Power Electronics Laboratory gives students practical experience with semiconductor devices, motor drives, and power conversion. Students can work with DC-DC converters, inverters, rectifiers, and power factor correction circuits in this lab, which supports courses like Sensors and Instrumentation and Power Electronics. It is essential for investigating applications in electric vehicles, industrial motor control, and renewable energy. The lab’s oscilloscopes, power analysers, and simulation tools enable testing and analysis in real time. Students acquire proficiency with motor controllers, battery management systems, and solar inverters while improving their high-frequency switching and energy-saving techniques. This equips students for jobs in industrial automation, energy management, and automobile electronics.
POWER SYSTEM LABORATORY
The Power System Laboratory in the Electrical Engineering Department provides hands-on experience in power generation, transmission, distribution, and protection. It enables students to analyze power flow, fault detection, load balancing, and stability in electrical networks. Equipped with transformers, relays, circuit breakers, and power analyzers, the lab allows real-time testing of power system components. Students also work with smart grid technologies, renewable energy integration, and power system simulation tools to understand modern energy systems. This lab prepares students for careers in power generation, grid management, and electrical infrastructure development.
SIMULATION & MODELING LABORATORY
The Simulation & Modeling Laboratory provides students with hands-on experience in analyzing and designing electrical systems using advanced simulation tools. It focuses on power systems, control systems, power electronics, and signal processing through software-based modeling. Equipped with MATLAB, Simulink, & other simulation tools, students perform circuit analysis, system stability studies, fault analysis, and renewable energy simulations. This lab enhances problem-solving skills and enables real-time testing of electrical models, preparing students for careers in system design, automation, and research in electrical engineering.
PROJECT LABORATORY
The Project Laboratory in the Electrical Engineering Department provides a dedicated space for students to design, develop, and implement innovative projects. It enables hands-on learning in areas such as power systems, control systems, power electronics, embedded systems, and renewable energy. Equipped with microcontrollers, simulation tools, PCB prototyping kits, and testing equipment, students work on real-world challenges, from circuit design to system integration. The lab encourages creativity, problem-solving, and interdisciplinary collaboration, preparing students for research, industry projects, and entrepreneurial ventures in electrical engineering.
