22 Electronics Engineering Courses
This course is typically meant for an Masters-level or final-year BE student. Error-correcting codes are in widespread use for data storage as well as most forms of communication...
This course covers lessons on information theory and coding, entrophy, block code and its properties, huffman coding,Shannon-Fano-Elias, arithmetic coding, information channels,...
This course covers lessons in micro sensors, MEMS materials and its properties, micro electronic and micro machining technology for MEMS, etch stop techniques, microstereolithography,...
Introduction to pattern recognition, introduction to classifier design and supervised learning from data, classification and regression, basics of Bayesian decision theory, Bayes...
Course outline: Introduction to Probability, Random variables, Sequence of random variables and convergence: Random process,
This course focuses on designing RF circuits with CMOS technology, emphasizing mobile phone front-end applications through comprehensive study and practical design methodologies....
Explore the foundational concepts of Signals and Systems, focusing on signal properties, system characterization, transformations, and analysis techniques including Fourier and...
Course topics: Applications of Electromagnetic waves, Transmission Lines, Maxwell’s Equations, Uniform Plane Wave, Plane Waves at a Media Interface, Waveguides, Dielectric Wave...
Explore the fundamentals of wireless communication, including systems, propagation, modulation, and coding techniques, as well as GSM and CDMA architectures.
Welcome to the world of Electronics Engineering, a dynamic field that integrates principles of electrical engineering with innovative technologies to design, develop, and improve electronic systems. This subject is at the forefront of modern technology, enabling advancements in various sectors such as telecommunications, consumer electronics, automation, and renewable energy.
In this course, students will explore a wide range of topics essential for mastering Electronics Engineering:
Students will engage in both theoretical and practical components, including laboratory sessions where they can apply their knowledge to real-world problems. This course is designed not only to build a strong foundation in electronics but also to encourage innovative thinking and problem-solving skills that are critical in the ever-evolving tech landscape.
Upon completion, graduates will be well-equipped to pursue careers in a variety of fields such as telecommunications, robotics, automotive engineering, and consumer electronics, or to undertake further studies in specialized areas of Electronics Engineering. With the rapid pace of technological advancement, the demand for skilled electronics engineers continues to grow, making this an exciting and rewarding career choice.