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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:
The Analysis and Design of Digital Circuits Laboratory using NI LabVIEW and Multisim provides students with a comprehensive learning environment to analyse, design, simulate, and implement digital circuits.
NI LabVIEW (National Instruments Laboratory Virtual Instrument Engineering Workbench) is a powerful graphical programming environment that is widely used for system design, signal processing, and measurement systems.
Simulink, an extension of MATLAB, provides a block diagram environment for multidomain simulation and model-based design. It is widely used in engineering for system-level simulation and design.
Both NI LabVIEW and Multisim are powerful, industry-standard tools widely used for simulating, analysing, and designing electronic circuits, including both analogue and digital systems. This laboratory enables students to understand the theory behind digital circuits while giving them hands-on experience with both simulation and real-world applications.
The Analogue Electronic Circuits is a software laboratory which uses PSpice software to provide an effective learning platform for students to design, analyse, simulate, and test analogue electronic circuits. PSpice is a powerful simulation tool widely used in the field of electronics for modelling, simulating, and analysing the behaviour of electronic circuits. It allows students to virtually build circuits, run simulations, and verify their designs before physical implementation. This helps in understanding circuit behaviour, reducing errors, and improving the design process.
The Analogue and Digital Electronics Laboratory is an essential hands-on learning environment where students gain practical experience in designing, testing, and analysing both analogue and digital electronic circuits. This laboratory typically involves a variety of hardware components and test equipment that enable students to experiment with real-world circuits, from basic components to more complex systems.
Key Hardware in the Analogue and Digital Electronics Laboratory used are Power Supply Units, Oscilloscopes, Function Generators, Digital Multimeters, Digital Trainer kits, Passive Components (Resistors, Capacitors, Inductors, Potentiometers), Active Components (Diodes, Transistors, Op-amps), Digital Components (digital Integrated Circuits).
The Principles of Communication Laboratory using MATLAB is designed to help students learn and apply core communication concepts through simulations and hands-on experiments using the MATLAB environment. MATLAB, with its powerful mathematical and visualisation capabilities, is widely used in communication engineering to model, analyse, and simulate communication systems, making it an ideal tool for a laboratory dedicated to communication principles.
The Communication Laboratory is a vital learning environment for students to gain hands-on experience in the design, analysis, and testing of various communication systems. This laboratory equips students with the tools and skills necessary to understand both analogue and digital communication techniques, allowing them to explore the fundamental principles of signal transmission, modulation, coding, and data communication. It provides a robust platform for students to explore and experiment with communication concepts, from basic analogue modulations to advanced digital communication systems.
The Signal Processing Laboratory provides hands-on experience in analysing and implementing signal processing techniques using both software and hardware tools. The lab is equipped with MATLAB software. It also uses Code Composer Studio (CC Studio) in conjunction with DSP hardware kits, enabling students to implement real-time digital signal processing applications. Through this integrated environment, students gain practical exposure to filter design, spectral analysis, signal transformation, and real-time signal processing, bridging the gap between theoretical concepts and real-world applications.Â
The RF and Microwave Engineering Lab provides a platform for the students, which enables them 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 to 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 analysing communication systems operating at microwave frequencies.
The Software Defined Radio (SDR) Laboratory is a specialised facility designed to provide hands-on experience in the development, testing, and analysis of modern wireless communication systems. Using platforms like GNU Radio, USRP (Universal Software Radio Peripheral), and MATLAB/Simulink, students can implement real-time signal processing algorithms, simulate various modulation techniques, and experiment with dynamic spectrum access and cognitive radio concepts.
In the Computer Networks Laboratory, students analyse various protocol message details, such as TCP/UDP, using Wireshark. NetSim software is utilised to simulate key features like IP routing, transport layer flow and congestion control, and data link layer protocol modelling over CSMA/CD. In network programming, students develop programs to understand the client-server model. Special emphasis is placed on advanced topics such as high request throughput (including scalability), multiplexing, buffering, and stream/datagram-based communication, all of which are explored using the NetSim software.
The 5G and Beyond Laboratory is a cutting-edge research and development facility focused on next-generation wireless communication technologies. It is a dedicated space for exploring advanced wireless communication technologies. It provides students with hands-on experience in understanding and implementing key concepts related to 5G networks and future communication systems. The lab supports experimentation with high-speed data transfer, low-latency communication, and intelligent network design, fostering innovation in areas such as IoT, autonomous systems, and next-generation mobile networks.
The 5G and Beyond Laboratory is a cutting-edge research and development facility focused on next-generation wireless communication technologies. It is a dedicated space for exploring advanced wireless communication technologies. It provides students with hands-on experience in understanding and implementing key concepts related to 5G networks and future communication systems. The lab supports experimentation with high-speed data transfer, low-latency communication, and intelligent network design, fostering innovation in areas such as IoT, autonomous systems, and next-generation mobile networks.
Transform your mind, your life and the world around you at MVJ. Get in touch, schedule a visit or start your admission process today.
MVJ College of Engineering, Near ITPB, Whitefield, Bangalore-560 067