Credits 3. Prerequisites: ECEN 220 or ECEN248 or equivalent; ECEN350/CSCE350 or CSCE 321 or equivalent. Foundation Courses (no graduate credit) ECEN 214 Electrical Circuit Theory. Learn about the current research happening in our department. Channel coding for error control, finite field algebra, block codes, cyclic codes; BCH codes; and convolutional codes; Trellis coded modulation, including ungerboeck codes and coset codes; performance on gaussian and rayleigh channels; applications to communications systems. WebDepartment of Electrical and Computer Engineering (ECEN): Course waitlist instructions have not yet been announced. Introduction to the research of Noise and Fluctuations; Noise and Fluctuations in electronics and other systems include virtually all scientific fields, including secure and non-secure communications, microprocessors, quantum information, mesoscopic systems, chemical sensing, corrosion diagnostics, neuro- and membrane-biology, biomedicine, etc. Prerequisite(s): ECEN454, ECEN474 or equivalent. Credits 4. Study of algorithms to sample, sketch and summarize high rate data streams, including applications to measuring internet traffic and services and transactional graph streaming data; quantify the trade-offs between computational and storage resources and accuracy that are inherent in these methods. Three researchers in the NanoBio Systems Laboratory at Texas A&M University were recognized as Defense Advanced Research Projects Agency Risers for their innovative research projects in the area of national security. ECEN655 Advanced Topics in Channel Coding. WebSchool Texas A&M University; Course Title ECEN 350; Type. Maxwell's equations, boundary conditions, Poynting's theorem, electromagnetic potentials, Green's functions, Helmholtz's equation, field equivalence theorems; applications to problems involving transmission scattering and diffraction of electromagnetic waves. Fiber optic waveguides; directional couplers; polarization; poincare sphere fractional wave devices; PM fiber; interferometric devices and sensors fiber gyroscope; faraday effect devices; multiplexing techniques. Prerequisite: Approval of instructor. Sustainable energy sources such as photovoltaic, fuel cell, wind, and others require power electronics to perform energy conversion and conditioning in order to convert their native form of electrical generation to a format compatible with the ac utility grid; exploration of the salient electrical characteristics of solar photovoltaic sources, the requirements for grid-connection and the power electronic circuits and controls needed to perform the interconnection and control. Prerequisites: ECEN322; ECEN 351 or equivalent. Prerequisite: Graduate classification; approval of instructor. High frequency integrated circuit design using non-conventional technologies such as GaAs and SiGe, with the emphasis on wireless and broadband communication circuits; device operation, basic building blocks and typical applications. Prerequisite: Graduate classification or approval of instructor. Analog & Mixed Signals. The PDF will include all pages within the Graduate and Professional Catalog. Prerequisite: Approval of instructor. ECEN 248 - INTRO TO DIGITAL LOGIC (2177 Documents) ECEN 325 - ELECTRONICS (1311 Documents) ECEN 214 - Operating principles of switching power supplies; analysis and in-depth design of several types of switching regulators including buck, boost, forward, flyback, half and full bridge switching regulator analysis; elements of transformer and magnetic design; state space analysis and feedback loop stabilization principles; application of these in the industry.Prerequisites: ECEN438 or equivalent, approval of instructor. Prerequisite: ECEN646 or equivalent. Prerequisite: ECEN474 or approval of instructor. Thin film technology in semiconductor industry; topics include the basic growth mechanisms for thin films (growth models, lattice matching epitaxy and domain matching epitaxy), the instrumental aspects of different growth techniques and advanced topics related to various applications. ECEN767 Harnessing Solar Energy: Optics, Photovoltaics and Thermal Systems. Prerequisite: Approval of instructor or graduate classification. Prerequisites: MATH304, PHYS 208. Introduction to CMOS radio-frequency integrated circuits (RFICs) and wireless systems and networks; theory, analysis and design of RFICs using CMOS technologies; CMOS fundamentals (device, principle, models); scattering parameters, transmission lines, distributed structures, lumped elements, impedance matching, RFIC layout, processing, test, amplifiers, oscillators, mixers; CAD programs for CMOS RFIC design. Prerequisites: Graduate classification; ECEN303 or previous undergraduate or graduate course in probability or statistics; or approval of instructor. 2 Lecture Hours. WebThe Departmental Qualifying Exam is based on material covered in a set of nine fundamental undergraduate courses in electrical and computer engineering. Prerequisite: Grade of C or better in ECEN 322; junior or senior classification. Credits 3. 2 Lecture Hours. 3 Lab Hours. Introduction to theory and practice of ultra high frequency radio wave generation, transmission and radiation; application of Maxwell's equations to transmission of electrical energy in wave guides. Cross Listing: CYBR630/ECEN759. Prerequisite: ECEN651. ECEN Prerequisite: Graduate classification. WebECEN-610: Mixed-Signal Interfaces . ECEN 215 - Principles of Electrical Engineering. May be taken four times for credit. Prerequisites: Equivalent of ECEN322 and ECEN370 or approval of instructor. Prerequisite: ECEN601 and ECEN646, or approval of instructor. Prerequisite: ECEN646 or equivalent probability background. Prerequisite: ECEN460 or approval of instructor. WebAssociate Professor, Electrical & Computer Engineering. Introduction to the design, modeling and verification of complex digital systems using hardware description language and electronic system level language. Prerequisites: BMEN major; graduate classification or approval of instructor. Application of semiconductor switching power converters to adjustable speed DC and AC motor drives; steady state theory and analysis of electric motion control in industrial, robotic and traction systems; laboratory experiments in power electronic motor drives and their control. Prerequisite: Approval of instructor. Fundamental concepts at the basis of ultrasound imaging including mathematical analysis of wave propagation, scattering of ultrasound in biological tissues, electronic transducer arrays for the beam forming, models of the received signals and signal and image processing methods for medical ultrasound imaging of tissues; focus on the fundamental understanding of advanced ultrasound imaging methods and techniques and their applications; state-of-the-art ultrasound imaging techniques including ultrasound contrast agents and harmonic imaging, 3D and 4D imaging, advanced Doppler imaging methods, 2D arrays, C-MUT and HIFU technologies. 3 Lecture Hours. Prerequisite: Approval of instructor or graduate classification. Prerequisite: Approval of instructor. Prerequisite: Graduate classification. Overview of HVDC systems; comparison of AC and DC power transmission; study of six-pulse and twelve-pulse power converters; analysis and control of HVDC systems; harmonics and power factor effects; system faults and misoperations; state of the art and future developments in HVDC technology; inspection trips. Theory and application of phased array antennas, radiators and sensors; spatial and spectral domain analysis of phased arrays including element-by-element, infinite array and Fourier methods; applications will include phased arrays, adaptive arrays, and synthesis array antennas; for use in radar, imaging and biomedical treatment and diagnosis. Explore all of the opportunities our department has to offer students looking to pursue a degree in electrical or computer engineering. WebECEN 755 Stochastic Systems - Texas A&M University . The theory and techniques of testing VLSI-based circuits and systems, and design for testability. Electrical and Computer Engineering | Texas A&M University ECEN650 High Frequency GaAs/SiGe Analog IC Design. Credits 1 to 4. ECEN 306) cannot be substituted for any of the following courses. Prerequisite: MATH601 or STAT601, and approval of instructor. Electrical engineers design, develop, test and supervise the manufacture of sophisticated electrical and electronic systems such as: cell phones, iPods, digital TVs, medical imaging, smart appliances, automobiles and advanced satellite systems. Cross Listing: STAT683 and CSCE725. ECEN 303 - Random Signals and Systems. High-speed optical interconnect, links, circuits and systems issues; optical channel properties and modeling, link measurements and communications techniques, and drivers, receivers, equalizers and synchronization circuits; comprehensive final design project includes systems analysis and circuit design of key link circuit blocks. View your progress in the EH status portal. Prerequisite: ECEN646. Prerequisites: ECEN214, ECEN303, or STAT211; graduate classification. Emphasis on fundamental theory for learning supervised classification-regression models; covers Bayes classifier, maximum-likelihood estimation, least squares, Probably Approximately Correct Learning, empirical risk minimization, Vapnik-Chervonenkis dimension, computational learning, structural risk minimization, regularization, cross-validation, acyclic feedforward networks, completeness of neural networks, backpropagation algorithm, gradient descent, stochastic gradient descent, Convolutional Neural networks, Auto-encoders, Generative Adversarial Networks, support vector machines, kernel-based methods, learning from experts, boosting, Gaussian process-based learning, word embeddings, recurrent neural networks, decision trees, random forests and nearest neighbor classification. Office: WEB 318C. Analysis and control of semiconductor switching power converters using specialized methods such as Fourier series, state-space averaging, time domain transfer functions, sliding mode, quadrometrics and other discontinuous orthogonal functions; application of the above techniques in practice; selected research publications. WebTwo mandatory courses: ECEN 607 Advanced Analog Circuit Design Techniques; ECEN 704 (Analog) VLSI Circuit Design; Two elective courses must be taken among the following ECEN757/CSCE678 Distributed Systems and Cloud Computing. ECEN 314 Signals and Systems. Reports and discussion of current research and of selected published technical articles. Phone: 979-458-3555. Prerequisite: Graduate classification. Design and application of mathematical models for estimating various measures of reliability in electric power systems. For ECEN prerequisite requests, contact the department . Webwww.qatar.tamu.edu is using a security service for protection against online attacks. Prerequisites: ECEN453, ECEN 456, ECEN474. ECEN 444 Digital Signal Master of Science in Data Science TAMIDS Fundamental concepts, modeling techniques, and computational algorithms in structural bioinformatics for algorithm development and application; focus on algorithm perspective involving optimization and machine learning; essential for those without prior domain knowledge. Magnetic circuits and field distribution of electric machines; main flux path calculation; calculation of magnetizing and leakage inductance; calculation of electric machine losses; principle of design of various electric machines; finite element design of electromechanical motion devices. Learn more about how our faculty and students are making a positive impact on the world. ECEN637 Numerical Methods in Electromagnetics. ECEN663 Data Compression with Applications to Speech and Video. ECEN679 Computer Relays for Electric Power Systems. ECEN616 Power System Electromagnetic Transients. ECEN615 Methods of Electric Power Systems Analysis. Prerequisite: ECEN474 or approval of instructor. Prerequisite: ECEN646 or equivalent probability background. ECEN 314 Signals and Systems. Prerequisite(s): Graduate classification or Instructor approval. Credits 3. The PDF will include all pages within the Graduate and Professional Catalog. Solar radiation characteristics and measurement; optical coatings including reflection, transmission, absorption and emissivity; concentrating optics, tracking and etendue limit; photovoltaic cells, modules and systems overview; introduction to solar thermal systems. Digital communication systems; coding for discrete sources and quantization; source and channel waveforms, signal spaces; modulation and demodulation, random noise; detection, error control coding, efficient decoding algorithms. ECEN With ABET accreditation, students, parents, employers and the society we serve can be confident that a program meets the quality standards that produce graduates prepared to enter a global workforce. All students are required to complete a high-impact experiencein order to graduate. Design of advanced computers for parallel processing; emphasis on the overall structure; interconnection networks; including single-stage and multi-stage structures; shared memory and message passing architectures; control-flow and demand-driven programming; multithreaded architectures; fine-grain and coarse-grain parallelism; SIMD and MIMD; processor designs for parallel operation. The PDF will include content on the Program Requirements tab only. Microwave two-terminal and three-terminal solid-state devices; waveguide and microstrip solid-state circuits; theory and design of microwave mixers, detectors, modulators, switches, phase shifters, oscillators and amplifiers.
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