Labs

Integrated Circuits Laboratory impart the basic knowledge of different ICs, their characteristics, to gain practical knowledge and applications.  

The ICs used to make up linear analog amplifiers, oscillators, and filters as examples. Students will also learn to practice, circuit design which contributes significantly to providing them with Engineering skills. This Laboratory is well equipped with both hardware and software facilities required by the students to perform the necessary experiments designed for this lab. 

Experiments are designed in such a way that the students become well aware of the concepts they learn in the theory sessions. In the Integrated Circuit Lab, students can create their own Electronic circuits and do measurements on them. 

The Electronics Circuits Laboratory is equipped with advanced instruments, including CROs with bandwidths up to 30 MHz, Function Generators up to 3 MHz, DSOs up to 150 MHz, fixed and regulated power supplies, and a wide range of Voltmeters, Ammeters, and Multimeters. The lab also features DRBs, DIBs, and DCBs for Experimental setups, along with specialized equipment such as LCR meters, component testers, and IC testers. 

The primary objective of the Electronics Circuits Laboratory is to facilitate the study and analysis of various Electronic components by Designing and Implementing Electronic Circuits using discrete components. Students measure and evaluate circuit characteristics under guided experimentation. A dedicated team of highly experienced faculty members and technicians provides technical support to students, extending assistance even beyond regular working hours. 

The Advanced Communication Laboratory provides a fundamental understanding of the various functional modules of a communication system. This lab serves as a platform for conducting experiments on different digital modulation techniques and analyzing their limitations. A generic communication system consists of a transmitter, channel, and receiver, which are explored through end-to-end communication links. Additionally, various channel coding techniques are applied and evaluated to validate their effectiveness in improving the noise performance of communication systems. 

The laboratory is equipped with trainer kits for AM and FM modulation and demodulation, sampling and reconstruction, time-division multiplexing (TDM), pulse code modulation (PCM), pulse amplitude modulation (PAM), pulse position modulation (PPM), pulse width modulation (PWM), delta modulation (DM), and line coding schemes to demonstrate their principles of operation. The lab also includes simulation tools for digital modulation schemes, error control coding, communication link analyses, and performance evaluation. 

To support robust academic activities, the lab is well-equipped with PCs, trainer kits, CROs, DSOs, MSOs, function generators, and communication simulation software such as MATLAB for simulation experiments. 

Advanced Microprocessor and Embedded Systems Laboratory is equipped with a campus-wide unlimited license for MATLAB, Xilinx Vivado ISE Simulator, Keil, and LP2148 floating licenses. The hardware resources include 8051, PIC, and ARM microcontrollers. 

The objective of the lab is to enhance students’ knowledge of the architecture, programming, and interfacing of various processors and microcontrollers. It aims to provide experience in programming languages used in current industrial practices, encourage innovative projects in both hardware and software, and promote the use of KEIL software for various embedded applications and software testing during the development process. Additionally, the lab serves as a platform for students to undertake multidisciplinary projects using Arduino, Raspberry pi, and advanced sensors. 

The DSP & VLSI Laboratory is dedicated to undergraduate students of the ECE department. The objective of the laboratory is to enable students to simulate and experiment with Digital Signals and Systems, applying the theoretical concepts studied in DSP courses. Additionally, this lab was established to facilitate research in various aspects of the rapidly growing field of VLSI and to foster collaborations with industry partners. 

The laboratory provides students with opportunities to test Signal processing algorithms, ranging from basic experiments to advanced research topics, in practical scenarios. It is equipped with high-performance Computers and Software packages, including MATLAB with Simulink, Code Composer Studio, and EDA tools. The lab also features Texas Instruments DSP kits and VLSI kits, enabling students to perform advanced experiments in Digital Signal Processing and VLSI design.