Courses

    Real and reactive power in single phase circuits, power triangle, balanced three-phase circuits, wye and delta connections, introduction to electromagnetic machines, transformers (single and three-phase) and their equivalent circuits, AC-machinery fundamentals, synchronous generator from a magnetic field point of view, synchronous motors and condensers, three-phase induction motors, DC machinery fundamentals, DC motors, single phase motors. Matlab/Simulink will be used. Prerequisites: Requires prerequisite courses of ECEN 2260 and PHYS 1120 (minimum grade C-). Restricted to College of Engineering majors only.
    Develops a basic understanding of active semiconductor devices. Focuses on building an understanding of BJT and CMOS devices in both digital and analog applications. Prerequisites: Requires prerequisite course of ECEN 2260 (minimum grade C-). Restricted to College of Engineering majors only.
    Characterization of linear time-invariant systems in time and frequency domains. Continuous time systems are analyzed using differential equations and Laplace and Fourier transforms. Discrete time systems are analyzed using difference equations, Z-transforms and discrete time Fourier transforms. Sampling and reconstruction of signals using the sampling theorem. Applications of linear systems include communications, signal processing, and control systems. Prerequisites: Requires prerequisite course of ECEN 2260 (minimum grade C-). Restricted to College of Engineering majors only.
    Introduces students to fundamental concepts in autonomous, mobile robotics: mechanisms, locomotion, kinematics, control, perception and planning. The course consists of lectures and lab sessions that are geared toward developing a complex robot controller in a realistic, physics-based multi-robot simulator. CSCI 3302 and ECEN 3303 are the same course. Prerequisites: Requires prerequisite courses of CSCI 2270 and CSCI 2824 or ECEN 2703 or APPM 3170 (all minimum grade C-).
    Highlights the fundamentals of semiconductor materials and devices. Topics include the electrical and optical properties of semiconductors, the theory of Pn junctions, bipolar and field-effect transistors, and optoelectronic devices. Prerequisites: Requires prerequisite course of ECEN 3250 (minimum grade D-). Restricted to College of Engineering majors only.
    Explores how computers and programmable hardware in general are used to implement digital systems by looking at the capabilities of central processing units, the use and control of various input/output (I/O) devices, memory organization, and concurrency management. Topics include computer architecture, instruction sets, I/O device programming, interrupts, data transfer mechanisms, semaphores, and memory management. Prerequisites: Requires prerequisite course of ECEN 2350 (minimum grade C-). Restricted to College of Engineering majors only.
    Introduces digital system design, including system software and hardware building blocks, and system software-hardware integration. Emphasizes hands-on system development and debugging. Uses mainstream electronic system design platforms, including FPGAs, embedded and mobile computing platforms, and Assembly/C/Java/Verilog programming languages. Prerequisites: Requires prerequisite course of ECEN 3350 (minimum grade C-). Restricted to College of Engineering majors only.
    Electromagnetic fields are covered at an introductory level, starting with electrostatics and continuing with DC current, magnetostatics, time-varying magnetic fields, waves on transmission lines, Maxwell's equations and the basics of plane waves. The use of fields in inductors, capacitors, resistors, transformers, and energy and power concepts are studied. Prerequisites: Requires prerequisite courses of APPM 2350, APPM 2360, PHYS 1120 and ECEN 2250 (all minimum grade D-). Restricted to College of Engineering majors only.
    Covers reflected and transmitted plane waves in layered media, Poynting's theorem of electromagnetic power, two-conductor transmission line theory and practice, Smith chart usage and impedance matching, waveguides, and elements of antenna theory. Prerequisites: Requires prerequisite course ECEN 3400 (minimum grade C-). Restricted to College of Engineering majors only.
    Covers the fundamentals of probability theory, and treats the random variables and random processes of greatest importance in electrical engineering. Provides a foundation for study of communication theory, control theory, reliability theory, and optics. Credit not granted for this course and MATH 4510 or APPM 3570. Prerequisites: Requires prerequisite course of APPM 2350 or MATH 2400 (minimum grade C-). Restricted to College of Engineering majors only.

    Offers an opportunity for juniors to do independent, creative work. Numbered ECEN 3840-3849. Department consent required.

    Participate in a cooperative education program working with a corporate or government entity. Individual assignments are arranged between the department and the outside employer. This course is offered only through Continuing Education. May be repeated up to 24 credit hours. Department restriction, sophomore, junior and senior EEEN and ECEN majors with GPA of 2.85 or above. Prerequisites: Requires prerequisite courses of ECEN 2260 and ECEN 3350 (all minimum grade D-).

    Credit and subject matter to be arranged. Numbered ECEN 4001-4049. Department enforced prerequisites will vary.

    Same as ECEN 5011.

    Prerequisites: Restricted to students with 87-180 credits (Senior, Fifth Year Senior) College of Engineering majors only.

    Same as ECEN 5023.

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