Electrical Science Lab
The purpose of this lab is to make students familiar with basic electrical equipment such as ammeter, voltmeter, wattmeter, multimeter, oscilloscope, transformer, and motors etc. Students starts with experiments focused on fundamental electrical circuits including series and parallel circuits, voltage dividers, and basic measurements using multimeters and oscilloscopes. They learn about one way and two-way switch wiring, and verify various network theorems. This lab also facilitates students to measure the power in single phase and three phase circuits.
Electrical Power and Machines Lab
The Power System Lab is one of the state of the art Labs of the Department. Seeing the affinity of this Lab with Electrical Machines; and therefore, to facilitate the research and project work of students and faculty members at a same place, both Labs are accommodated in the same room. This Lab has the capacity of performing more than twenty experiments and provides the facility for conducting experiments of both Power System-I and Power System-II courses. At least ten experiments are available for each of these courses. In addition to this, the Lab has the facility for conducting different experiments related to the research and project work of students and the faculty members. Moreover, the MATLAB software is also available there that can be used for carrying out the simulation for validating the results of the research and projects developed by the students and faculty members.
The Final Year students of the Department has conducted the Load Flow Analysis of the IEEE 14-Bus Interconnected Power System Network using the MATLAB. The Lab is equipped with different types of relays, circuit breakers along with other essential modern power system equipment, measuring devices and experimental sets.
Control System and Circuits Lab
In this lab students are engaged in the experiments related to Control theory and electrical circuits. Control Systems lab is equipped with experiments involving feedback control systems, PID controllers, servomechanism, stability analysis, and frequency response. The experiments are based on both hardware and software. The software-based experiments are performed on MATLAB software. The circuits and Systems lab consists of DC power supply, breadboards, ammeters and voltmeters. Students determine various parameters of two-port network, and study the transient analysis.
Power Electronics, Energy & Networks Lab
Power Electronics, Electrical Energy Conservation and Network Analysis & Synthesis (NAS) labs are set up in the Room No. 203. These labs are utilized for the 2nd year EEE & ECE, 3rdand 4th year Students
The Power Electronics Lab for undergraduate students of Electrical and Electronics Engineering (EEE) is a vital component of their curriculum, providing hands-on experience in the field. Here, students delve into the practical applications of power electronics, gaining insight into the conversion, control, and management of electrical power. Equipped with state-of-the-art instruments and simulation software, the lab facilitates experimentation with various power electronic devices such as rectifiers, inverters, and converters.
The Electrical Energy Conservation Lab provides students of Electrical and Electronics Engineering (EEE) with practical insights into energy-efficient technologies and strategies. Through hands-on experiments and simulations, students explore the principles and techniques of energy conservation in electrical systems. The lab is equipped with renewable energy models and software tools that enable students to analyse energy consumption, identify inefficiencies, and propose solutions for improvement.
The Network Analysis and Synthesis Lab is an integral component of the undergraduate curriculum for students in Electrical and Electronics Engineering (EEE) and Electronics and Communication Engineering (ECE). This lab provides a hands-on learning environment where students can explore the principles and techniques of analysing and synthesizing electrical networks. Equipped with experimental kits and simulation software, the lab enables students to study various network topologies, including resistive, capacitive, and inductive circuits. Through practical experiments and projects, students gain a deeper understanding of network theorems, impedance matching, and frequency response analysis.
Computer Lab
This lab offers a distinctive advantage for students and faculty members given that it provides a dynamic environment for learning, experimentation and innovation through the use of software.
Facilities:
- The lab has desktop computers with powerful processors and enough RAM to support resource-intensive tasks like simulation, modelling and programming.
- MATLAB/Simulink, an industry-standard simulation tool, helps students analyse and optimise electrical systems and circuits.
- The programming environment includes MATLAB and C/C++ for algorithm development, numerical analysis and system design.
- High-speed internet connectivity and a networked printer enable collaboration, research and project documentation.
Usage and Access:
- The lab is open to both students and faculty members.
- Access to the lab may be scheduled for classes such as Neuro Fuzzy Systems Lab, Advanced Control Systems Lab, Research Methodology Lab, PSLP Lab, and C++ Lab, as well as workshops and special activities.
- The lab assistant is available to provide technical support, guidance and help with software usage.
Electric Drives, Measurements & EEW Lab
This lab typically consists of experimental setups comprising power electronic converters, electric motors, control systems, and measurement instruments. These lab serves as platform for conducting experiments aimed at studying the performance, characteristics, and control strategies of electric drive systems. The main components of this lab are:
- Power Electronic Converters
- Electric Motors
- Control Systems
- Measurement Instruments