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Course Criteria
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3.00 Credits
Principles of analog and digital CMOS VLSI logic circuits using schematics, symbolic, and physical layout representations are presented in context with their mathematical design parameters. Prerequisite: ELEC667 Advanced Programmable Logic. Day Course.
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3.00 Credits
The fabrication of nanostructured materials, nanoscale films, compositions, devices, their unique properties and recent advances and issues in molecular nanotechnology are studied. Prerequisite: Junior status. Day Course.
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4.00 Credits
This course examines the operation of a computer system including microprocessor, I/O, mass storage, monitors, and memory. Introduces machine language and compilers as applied to current and state-of-the-art systems. Interfacing with stepper motors and sensors are also introduced. Prerequisite: Junior status; ELEC296 Digital Applications. Day Course.
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3.00 Credits
This course introduces the concepts of optical fiber communications and some other applications of fiber optics. Analysis of optical transmitters and receivers is also covered. Prerequisite: ELEC206 Semiconductor Devices and ELEC355 Integrated Circuits with Applications. Day Course.
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4.00 Credits
Topics include linear and nonlinear sensors, high-performance instrumentation amplifiers for signal conditioning, temperature sensors, analog computational units with application of linear regression techniques, and design of multiplier circuits. Modern sensors and interfacing with microcontrollers are introduced. Prerequisite: ELEC306 Integrated Circuits with Applications. Day Course.
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4.00 Credits
This course introduces first and second order differential equations, initial condition problems, Laplace Transforms with partial fraction expansion, pole/zero analysis, and Fourier Transforms. Associated laboratory experiments parallel the theory and help demonstrate the practical usefulness of the topics as they apply to electronic and computer engineering technology problems. Prerequisite: Junior status; MATH510 Calculus III. Day Course.
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4.00 Credits
Discrete signals and systems are identified and studied. The use of difference equations, convolution techniques, and z-transforms are included. The need for anti-aliasing filters, sample-and-hold circuitry as well as limitations of ADCs are emphasized. Laboratory exercises address practical solutions to problems. Prerequisite: Junior status; Corequisite: ELEC505 Linear Network Analysis. Day Course.
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4.00 Credits
This course covers local (LAN), metropolitan (MAN) and wide area (WAN) networks, topologies and transmission media, network interface and management, congestion/flow/error control, routing and addressing. Laboratory exercises include simulation and installation of small network. Prerequisite: ELEC426 Data Communications. Day Course.
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4.00 Credits
In this course, circuit equations are developed using a matrix format. Solutions obtained by computer techniques are included. The characteristics of controlled sources and Thevenin's and Norton's Theorems are studied. The response of RLC circuits toimpulse, step and ramp time functions are explored. The Laplace transform and its use in the determination of circuit behavior is introduced. Network functions are characterized and studied using pole-zero and frequency response diagrams. Prerequisite: ELEC580 Signals and Systems; and MATH495 Applied Calculus and Differential Equations. ACPE Course.
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3.00 Credits
The important static and time-varying characteristics of electric and magnetic fields are explored. The wave equation is developed. The propagation behavior of electromagnetic waves is investigated, and study is extended to transmission lines. Methods and devices used in the generation, detection and amplification of high frequency electrical signals are studied. Laboratory applications cover antennas, filters, circulators, couplers and matching techniques. Prerequisite: MATH495 Applied Calculus and Differential Equations; Junior status. ACPE Course.
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