B.E. Electronics and Communication Engineering (Advanced Communication Technology)

Laboratories

In the presence of 150+ computer systems, modern spectrum analyzers, and 23+ digital software such as Cadence and Kiel, you are open to test and work in a learning environment that transforms your practical skills into valuable experience for the future. The devices, equipment, machines and other physical resources used in our Labs and classrooms are top-notch, and frequently upgraded. Some of the popular Labs that students work at, during their course:

Analysis and Design of Digital Circuits Laboratory

Analysis and Design of Digital Circuits Laboratory

In the Digital Electronics Lab, students are introduced to the foundational concepts of digital integrated circuits (ICs). Here, they gain valuable hands-on experience by working directly with ICs, learning how to implement basic circuits that form the building blocks of digital systems. This practical approach equips students with the essential skills needed to understand more complex digital circuits and systems.

Analog Electronic Circuits Laboratory

In the Analog Electronics Circuit Lab, students are introduced to the fundamental principles that underpin electronic systems. Here, they gain firsthand experience in constructing circuits and analysing their behaviour, providing a crucial bridge between theoretical understanding and practical application. As they rig up circuits and observe their operation, students develop critical skills in problem-solving and logical reasoning, preparing them for future challenges in the field of electronics engineering.

Analog and Digital Electronics Laboratory

These labs provide hands-on experience for students to understand the principles and applications of both analog and digital circuits. Both analog and digital electronics labs provide students with valuable hands-on experience and reinforce theoretical concepts taught in lectures. They also help students develop practical skills in circuit design, analysis, troubleshooting, and prototyping, which are essential for careers in fields like electrical engineering, computer engineering, and embedded systems development.

Principles of Communication Systems Laboratory

A communication software lab typically focuses on teaching students about the design, implementation, and analysis of various communication protocols and systems. Communication software labs are crucial for students pursuing degrees in Electronics engineering, or telecommunications. This lab provides hands-on experience with networking technologies and protocols, which are essential for careers in fields like network engineering, software development, cyber security, and IoT development.

Communication Laboratory

Communications Laboratory provides students with a solid understanding for analysis of signals in time domain and frequency domain. Students learn to simulate and design many types of communication circuits, and then assemble, measure, and evaluate the circuits using laboratory instruments. Students develop competency in measurement science by utilizing modern advanced instruments, which are similar to instruments presently being used by engineers in industry

Signal Processing Laboratory

A signal processing lab is designed to provide students with practical experience in analyzing, processing, and manipulating signals, both in the time and frequency domains. Signal processing labs play a crucial role in reinforcing theoretical concepts learned in signal processing courses and providing students with hands-on experience in applying those concepts to real-world problems.

Microwave Engineering Laboratory

The Microwave Engineering Lab provides a platform to the students which enable to learn the characteristics of Microwave components including their design. A key part of the microwave laboratory experience is to provide practical hands-on exposure on learning the use of microwave test equipment for making measurements of power, frequency, S parameters, SWR, return loss, and insertion loss. The microwave test benches and microwave kits are useful for such measurements. The Microwave Signal Generator, turn table and horn antennas are used to carry out the radiation pattern measurement experiment of different microwave antennas over L, S, C, X, Ku bands. This lab provides students and researchers with hands-on experience in understanding, designing, and analyzing communication systems operating at microwave frequencies.

Antenna and Wave Propagation Laboratory

In the antenna and wave propagation lab students study the variation of field strength of radiated wave with distance from transmitting antenna. Linear and circular polarization phenomenon of antennas is also studied. Students also demonstrate and validate the reciprocity property of transmitter and receiver antenna. The plot of radiation pattern, 3dB beam width, directivity, gain and VSWR measurement of various antennas- Simple dipole, folded dipole, Yagi-Uda, Hertz, Log periodic, Loop, micro strip, array, E and H plane, Slot and Helix are also studied and measured. This lab provides students and researchers with hands-on experience in understanding, designing, and analyzing communication systems operating at microwave and optical frequencies.

Computer Communication Networks Laboratory

In Computer networks laboratory, students diagnose various protocol message details like TCP/UDP using Wireshark. NetSim is used to simulate the features of IP routing, transport layer flow and congestion control, data link layer protocol modeling over CSMA/CD. In network programming, students develop programs to understand the client server model. Special emphasis is given on advanced topics like high request throughput (including ability to scale), multiplexing, buffering, stream/datagram based communication.

Image Processing Laboratory

The focus of the Digital Image Processing Laboratory is to develop visual perception of digital images and to understand image formation, spatial transformations, image enhancement, color image representation and processing, edge detection, image segmentation, and morphological image processing. Students will understand how digital images are represented and manipulated in a computer, including reading and writing from storage, and displaying, they will learn to apply computing and mathematics appropriate to the discipline.