The Basic Electrical and Electronics Engineering (BEEE) & Electronic Devices and Circuits (EDC) Laboratory serves as a foundational lab for students in electronics and biomedical engineering. This lab enables students to experiment with devices such as diodes, transistors, and operational amplifiers while learning about circuit design and analysis. Students perform hands-on experiments related to analog and linear electronics, electric circuits, and digital IC-based applications. This lab is essential for understanding fundamental concepts in electric and electronic circuits and analog electronics, helping students build skills in circuit assembly and testing. 

The Linear Integrated Circuits (LIC) Laboratory is designed for students to gain expertise in digital circuit design, logic systems, and integrated circuit (IC) design. It covers key courses such as Digital System Design, Digital Logic for Medical Systems, and IC Design for Bioinstrumentation, equipping students with the skills to work with logic gates, combinational and sequential circuits, and programmable devices. Practical exercises involve designing and testing flip-flops, multiplexers, counters, and microcontrollers, reinforcing theoretical concepts. 

The Communication Laboratory is dedicated to providing students with hands-on experience in wireless and wired communication systems, signal transmission, and microcontroller-based applications. Key courses offered in this lab include Communication Systems, Microcontroller Programming, and Biomedical Sensors. Students work with modulation and demodulation techniques, signal processing, and network protocols to understand real-world telecommunication and IoT applications. The microcontroller section focuses on programming embedded systems, enabling students to develop applications in automation, robotics, and biomedical signal processing.

The System Lab is a modern facility focusing on PCB (Printed Circuit Board) design, VLSI (Very Large Scale Integration) design, biomedical signal processing, and communication system development. This lab is essential for students interested in advanced electronics, system-level integration, and biomedical applications. Students get hands-on experience with circuit board design software, VLSI tools, and biomedical data acquisition systems, learning to develop optimized hardware solutions for communication and healthcare applications. The lab supports the study of high-speed data processing, real-time signal analysis, and biomedical instrumentation, bridging the gap between theoretical learning and industrial applications. 

The Electrical Machines Laboratory is an essential facility for students specializing in Electrical and Electronics Engineering (EEE), offering hands-on experience with DC and AC machines, transformers, and synchronous motors. This lab supports courses on Electrical Machines I & II, enabling students to perform load tests, efficiency calculations, and speed control experiments. The lab is well-equipped with single-phase and three-phase transformers, induction motors, alternators, and dynamometers, providing a comprehensive platform for practical learning. Technical staff assist in equipment maintenance and troubleshooting. The lab helps students build foundational skills required for power engineering, industrial automation, and renewable energy systems, making them proficient in handling electrical machines in diverse applications, including electric vehicle technology and power grid management.

The Electrical Simulation Laboratory focuses on Control Systems and Power System Analysis, providing students with a software-based approach to electrical engineering concepts. It is equipped with MATLAB, PSCAD, LabVIEW, and ETAP software, allowing students to simulate and analyze control system dynamics, power flow, fault analysis, and system stability. This lab is crucial for understanding modern power systems, renewable energy integration, and automation control. By simulating real-world electrical systems, students gain insights into system behavior under various conditions, preparing them for careers in power systems engineering, automation, and research. The lab also plays a crucial role in research and industrial collaborations for developing advanced solutions in energy management and control engineering.

The Power Electronics Laboratory is a specialized facility designed to introduce students to power conversion, motor drives, and advanced semiconductor devices. This lab supports Sensors and Instrumentation and Power Electronics courses, providing hands-on experience with DC-DC converters, inverters, rectifiers, and power factor correction circuits. Students explore the role of power electronics in renewable energy systems, electric vehicle technology, and industrial motor control. The lab is equipped with oscilloscopes, power analyzers, and simulation tools for real-time analysis and testing. By working on real-world applications like solar inverters, battery management systems, and motor controllers, students develop expertise in power conversion efficiency, high-frequency switching techniques, and modern energy systems, preparing them for careers in automotive electronics, energy management, and industrial automation.

The Biomedical Laboratory is a cutting-edge facility dedicated to biomedical instrumentation, medical image processing, biomechanics, and clinical equipment analysis. This lab supports biomedical engineering students by providing hands-on experience with biosensors, medical imaging systems, prosthetics, and assistive devices. Students work with ECG, EEG, and EMG machines, perform tissue interaction studies, and explore advanced imaging techniques using MATLAB and image processing software. The lab plays a crucial role in developing innovative healthcare solutions, enabling students to contribute to prosthetic design, rehabilitation technology, and AI-driven medical diagnostics. With guidance from faculty and technical staff, students gain valuable insights into biomechanics, bioinstrumentation, and medical device development, preparing them for careers in healthcare technology, clinical research, and biomedical product development.