Prerequisite: Approval of instructor. Electric power conditioning and control; characteristics of solid state power switches; analysis and experiments with AC power controllers, controlled rectifiers, DC choppers and DC-AC converters; applications to power supplies, airborne and spaceborne power systems. Prerequisites: ECEN454 or equivalent undergraduate VLSI course. Single input single output systems, multivariable systems, linear servomechanism problem and linear quadratic optimal control; emphasis on linear systems, classical linear control theory and modern state space control theory. WebECEN 214 Electric Circuit Theory, Spring 2022 Course information Lecture time: Spring 2022, MW 4:10-5:25pm Lecture location: ZACH 341 Lab location: ZACH 333 (Times vary, see syllabus) Instructor: Prof. Adam Birchfield, abirchfield@tamu.edu Office hours: Mondays 1-4pm, WEB 215-E, or by request ECEN665 Integrated CMOS RF Circuits and Systems. Our graduate programs are consistently ranked among the top 15 public Number of courses: 195 All Courses Documents Q&A Popular Courses ECEN 248 2,162 Documents 59 Q&As ECEN 325 1,310 Broad overview of various probabilistic graphical models, including Bayesian networks, Markov networks, conditional random fields, and factor graphs; relevant inference and learning algorithms, as well as their application in various science and engineering problems will be introduced throughout the course. Basic biological systems from individual neuron to neural networks in the brain/nervous system by leveraging engineering principles, basic electrical circuit theory and electromagnetic theory; applications include biosensors including electrodes, chemical, mechanical and optical sensors and bioelectronic systems. Instructor: Sebastian Hoyos . 3 Lab Hours. Prerequisite: Approval of instructor. Phone: 979-845-7441; WebFinancial Assistance and Scholarships University Policies International Opportunities for Students Honors and Undergraduate Research Interdisciplinary ProgramsToggle Interdisciplinary Programs Entrepreneurship - Minor Leadership - Minor College of Agriculture and Life SciencesToggle College of Agriculture and Life Sciences ECEN 214 Electrical Circuit Theory ECEN 248 Introduction to Digital Systems Design CSCE 221 Data Structures and Algorithms ECEN 303 Random Signals and Systems ECEN 314 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. Techniques available to analyze and synthesize nonlinear and discontinuous control systems; modern stability theory, time-varying systems, DF, DIDF, Lyapunov Theory, adaptive control, identification and design principles for using these concepts; examples from a variety of electronic and electromechanical systems. WebECEN 424 Fundamentals of Networking ECEN 424 Fundamentals of Networking Location and Timings Lectures: MWF 3:00 PM 3:50 PM Location: ZACH 361 Recitation: Fri 4:10 PM 5:00 PM Location: ZACH 361 Instructor: Dheeraj Narasimha Office Hours: MW 3:50 PM 4:50 PM, Location: Online Course Description Networks are ubiquitous in our modern society. Introduces the quantum mechanics, quantum gates, quantum circuits and quantum hardware of potential quantum computers; algorithms, potential uses, complexity classes, and evaluation of coherence of these devices. Our distance learning programs offer the same level of education as our highly reputed on-campus programs. Computer communication and computer networks; use of the International Standards Organization (ISO) seven-layer Open Systems Interconnection model as basis for systematic approach; operational networks to be included in the study of each layer; homework assignments to make use of a campus computer network. Cross Listing: STAT683 and CSCE725. Prerequisite: Approval of instructor or graduate classification. Deviations from the prescribed course sequence, however, should be made with care to ensure that prerequisites for all courses are met.
Electrical Engineering - BS < Texas A&M Catalogs < Texas Prerequisites: Graduate classification. Modeling, analysis and real-time control of electric power systems to meet the requirements of economic dispatch of voltage and power. Quantum properties of light and matter as related to optical and optoelectronic devices such as lasers and their applications; Maxwell's equations, classical optics and optical devices; basic quantum theory of light and atoms; laser resonators and short pulse generation. 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. ECEN668 High Voltage Direct Current (HVDC) Transmission. Prerequisite: ECEN646 or equivalent. Learn more about how our faculty and students are making a positive impact on the world. 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 ECEN611 General Theory of Electromechanical Motion Devices. 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. Design, construction and application of instrumentation for MR imaging; fundamentals of the architecture of an MR spectrometer and the gradient subsystem used for image localization; emphasis on the radiofrequency sensors and systems used for signal generation and reception. Analog-to-digital and digital-to-analog converter architectures including Nyquist rate and oversampled converters; definition of basic data converter specifications and figures of metric; background and foreground calibration techniques to improve performance of data converters; low-power (green topologies) data converters design; state of the art mixed-signal interfaces such as transmitters and receivers front-ends in wireless and wireline communications transceivers; introduction to calibration techniques for digitally-assisted transceivers. Characterization and representation of waveforms; digital coding of waveforms including PCM, delta modulation, DPCM, tree/trellis coding, runlength coding, sub-band coding and transform coding; rate distortion theoretic performance bounds. ECEN640 Thin Film Science and Technology. Advanced topics in Channel Coding including turbo codes, low density parity check codes, iterative decoding and applications of iterative decoding principles. Steady-state, dynamic and transient stability of power systems; solution techniques; effect of generator control systems. Winding function theory; inductances of an ideal doubly cylindrical machine; inductances of salient-pole machines, reference frame and transformation theory; dynamic equations of electric machines; steady-state behavior of electric machines. Prerequisites: Approval of instructor. Prerequisite: Graduate classification in engineering. Introduction to neuro-electronics system; provide basic knowledge for interests in designing electrical system interacting with human nervous system and human body; basics of neuroscience, action potential and nervous, muscular and skeletal systems of humans; design process of the neuro-electronics system that can communicate with the nervous system and replace, assist and augment the body function. WebApril 21, 20239:10am ECEN Energy and Power Group Seminar: Improving Power System Models for Optimal Power Flow Calculations Jordan Cook Ph.D. Student Texas A&M Prerequisite: ECEN474 or approval of instructor. Prerequisite: ECEN460. Phone: 979-458-3555. Prerequisites: ECEN601 or equivalent. Prerequisite: ECEN438 or approval of instructor.
Graduate Program | Texas A&M University Engineering Engineering Honors Scholars may complete regular sections of senior design courses (ECEN 403 and ECEN 404) in addition to their UGRS and Honors Thesis requirements, if they so choose. Of the 21 hours shown as University Core Curriculum electives, 3 must be from creative arts (see AREN curriculum for more information), 3 from social and behavioral sciences (see IDIS curriculum for more information), 3 from language, philosophy and culture (see CVEN, EVEN and PETE curriculum for more information), 6 from American history and 6 from government/political science. Application of data science methods including machine learning to research problems; team project-based training for project management, interdisciplinary collaboration and communication skills.
MATH 147 Calculus I for Biological Sciences Credits 4. Prerequisite: Graduate classification; approval of instructor. M 29 Aug. Class 3: Principles, Part 3. Office: WEB 318C. Logic representation, manipulation, and optimization; combinational and sequential logic; Boolean function representation schemes; exact and heuristic two-level logic minimization; multi-valued logic representation and manipulation; multi-level logic representation and minimization; testing; technology mapping. Prerequisite: Approval of instructor. Prerequisite: ECEN601 and ECEN646, or approval of instructor. Prerequisite: ECEN322 or equivalent. Prerequisite: Approval of instructor. Integrated circuit design in a computational standpoint; VLSI circuit simulation, interconnect modeling and analysis, design and analysis of IC subsystems, parallel computing techniques for complex system design. Prerequisites: Equivalent of ECEN322 and ECEN370 or approval of instructor. WebAreas of specialization include analog and mixed-signal electronics; biomedical imaging, sensing and genomic signal processing; computer engineering and systems; device science
Electrical and Computer Engineering | Texas A&M University ECEN687 Introduction to VLSI Physical Design Automation. Email: karsilay@tamu.edu. Data security; cryptography; key exchange; conditional security; unconditional (information-theoretic) security; quantum key distribution; the Kirchhoff-law-Johnson-noise (KLJN) key exchange, electronic noise; advanced issues of KLJN including schemes, protocols, attacks, defense, privacy amplification, credit cards, PUF, autonomous vehicles and smart grids. Many electrical engineers also work in areas closely related to computers. The educational objectives of the electrical engineering program are to produce graduates whose expected accomplishments within a few years of graduation are: Before commencing course work in the major, students must be admitted to the major or have the approval of the department. 1 Lab Hour. Definition of information; coding of information for transmission over a noisy channel including additive gaussian noise channels and waveform channels; minimum rates at which sources can be encoded; maximum rates at which information can be transmitted over noisy channels.
ECEN Credits 3. Design and application of mathematical models for estimating various measures of reliability in electric power systems. Prerequisite: Approval of instructor. WebElectrical Academics Degrees Undergraduate Bachelor of Science - Electrical Engineering Bachelor of Science - Electrical Engineering First Year Undergraduate Curriculum The freshman year curriculum is identical for most engineering undergraduate degree programs. ECEN720 High-Speed Links Circuits and Systems. Explore all of the opportunities our department has to offer students looking to pursue a degree in electrical or computer engineering. Prerequisite: Approval of instructor.
Online Master of Science - Electrical Engineering Gate and wire delays, CMOS transistors, DC and AC characteristics, VLSI fabrication, Static, Dynamic, Pass-gate and PLA implementation styles, SOI and GaAs technology, DRAM, SRAM and FLASH memory design, leakage and dynamic power, sub-threshold computation, clocking, transmission lines, packaging, off-chip IO, process variation and compensation, radiation tolerance. Prerequisite: Approval of instructor or graduate classification. 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. ECEN721 Optical Interconnects Circuits and Systems. Design of analog circuits using conventional and non-conventional voltage techniques, including floating gate, bulk driven and enhanced wide swing structures.
Courses Offered | Texas A&M University Engineering Prerequisite: Approval of instructor. ECEN767 Harnessing Solar Energy: Optics, Photovoltaics and Thermal Systems. ECEN 314 Signals and Systems. The required 3 hours of international and cultural diversity and 3 hours of cultural discourse may be met by courses satisfying the creative arts, social and behavioral sciences, language, philosophy and culture, and American history requirements if they are also on the approved list of international and cultural diversity courses and cultural discourse courses.
ECEN-610: Mixed-Signal Interfaces Instructor: Sebastian Credits 3. The large electric power system state estimation problem; issues of network observability; bad measurements detection/identification; sparse matrix vector techniques for computational efficiency. Associate Professor, Electrical & Computer Engineering. ECEN679 Computer Relays for Electric Power Systems. Tutorial introduction to the current engineering research in genomics; necessary molecular biology background presented and techniques from signal processing and control are used to (i) unearth intergene relationships (ii) model genetic regulatory networks and (iii) alter their dynamic behavior. ECEN751 Computational Methods for Integrated System Design. Prerequisite: ECEN605. The basic requirements for EH students in ECEN are below. ECEN748 Data Stream Algorithms and Applications. Prerequisite: Approval of instructor. Representations and algorithms for signal processing; linear algebra, vector spaces, normed and inner product spaces; projection, orthogonalization, rank-nullity theorem; matrix representations, singular value decomposition; sampling, Fourier analysis, spectral methods; statistical signal processing and linear estimation. ; techniques to optimize hardware implementation of cryptographic systems; different types of side-channel attacks and countermeasures; supply-chain vulnerabilities hardware Trojans, IP piracy, and reverse engineering; security modules for system-on-chip; physical unclonable function.