Analog and Digital Filters andCommunications Circuits
Characterization, properties, and analysis of analog filters. Buderworth, Chebyshev, and elliptic approximations. Introduction to the realization of LC one- and two-port circuits; Darlington's method. Active elements such as gyrators and generalized impedance converters, and their representation by singular elements. Design of high-performance, low-sensitivity active filters. The course includes a project in which a complete analog filter is designed. Recursive and nonrecursive digital filters, decimation and interpolation, A/D and D/A conversion as digital filtering problems. Implementation of nonrecursive filters via FFT, quantization problems, e.g., companding and limit.
Develop and conduct appropriate experimentation and/or simulation, analyze and interpret data, assess and evaluate findings, and use statistical analyses and objective engineering judgment to draw conclusions.Develop and conduct appropriate experimentation and/or simulation, analyze and interpret data, assess and evaluate findings, and use statistical analyses and objective engineering judgment to draw conclusions.Practice research techniques and methods of investigation as an inherent part of learning.Design, model and analyze an electrical, electronic, microwave and optical system or component for a specific ICT application and identify the tools required to optimize this design.Use appropriate specialized software packages, write computer programs, and use relevant laboratory equipment for the analysis and design of electronics and communications components and systems