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Course Criteria
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3.00 Credits
Characterizing, modeling, and specifying real-time systems. Software life cycle. Designing and programming sequential and concurrent real-time systems. Scheduling. Distributed real-time computing. Engineering case studies using C++/Ada. Prerequisites & Corequisites: Prerequisite: CENM, EENM, or ELCD admission. Credits: 3 hours
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3.00 Credits
Basic, transformer isolated and resonant switchmode converter topologies. Steady-state analysis, large-signal, small-signal modeling and analysis, state-space and discrete-time models. Magnetics, transformers, control techniques and power conditioning of converters. PWM control. Advanced application areas: electric drives, power systems HVDC, FACTS and STATCOM. New materials Galium arsenide (GaAs), polytypes of silicon carbide (SiC), and gallium nitrate (GaN). Prerequisites & Corequisites: Prerequisite: Admission to the master's in Computer Engineering or Electrical Engineering or the doctorate in Electrical and Computer Engineering.. Credits: 3 hours
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3.00 Credits
This course will focus on two major areas of electronic design. First, we will study effective implementation of circuit board designs to address the technical issues in Surface Mount Technology (SMT). The second area will include a study of solid-state devices and digital circuits. Technical discussions will explore advantages and disadvantages of SMT, SMT processes and equipment, design tools and guidelines, internal circuit structure and device operation, and defect analysis. Prerequisites & Corequisites: Prerequisite: CENM, EENM, or ELCD admission. Credits: 3 hours
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3.00 Credits
A course in VLSI semiconductor devices, modern CMOS technology, crystal growth, fabrication, and basic properties of silicon wafers. It will focus on lithography, thermal oxidation, (Si/Si)2, interface, dopant diffusion, ion implantation, thin film deposition, etching, and back-end technology. Prerequisites & Corequisites: Prerequisite: CENM, EENM, or ELCD admission. Credits: 3 hours
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3.00 Credits
This course introduces students to rapidly emerging, multi-disciplinary, and exciting field of Micro Electro Mechanical Systems (MEMS). It will teach fundamentals of micromachining and microfabrication techniques, including planar thin-film process technologies, photolithographic techniques, deposition and etching techniques, and the other technologies that are central to MEMS fabrication. Skills needed for the design and analysis of devices and systems in mechanical, electrical, fluidic, and thermal energy/signal domains, and will teach nasic techniques for multi-domain analysis (e.g., electromechanical, electrothermal). Fundamentals of sensing and transductionmechanisms (i.e. conversion of non-electronic signals to electronic signals), including capacitive and piezoresistive techniques, and design and analysis of micromachined miniature sensors and actuators using these techniques will be covered. Many examples of existing devices and their applications will be reviewed. Notes: Open to Upperclass and Graduate students only. Credits: 3 hours Semester Offered: Fall
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4.00 Credits
Design, analysis and implementation of application-specific circuits (ASIC.) Emphasis will be placed on programmable design (including field programmable gate arrays (FPGA) and programmable logic devices (PLD). Semi-custom design will also be discussed and full-custom design will bebriefly introduced. Introduction to contemporary CAD systems. Prerequisites & Corequisites: Prerequisites: ECE 3500 and ECE 3550 and CENM, EENM, or ELCD admission. Credits: 4 hours
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4.00 Credits
Introduction to the theory and application of switching theory and automata theory. Sets, relations, functions. Boolean and combinational functional composition and optimization. Finite automata theory. Automata composition and optimization. Regular sets and recognizers. Fault tolerance. Prerequisites & Corequisites: Prerequisites: ECE 2500 and CS 5540 and CENM, EENM, or ELCD admission. Credits: 4 hours
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3.00 Credits
This course is intended to give graduate students and seniors the ability to specify, design, and test microcontroller based digital systems. Prerequisites & Corequisites: Prerequisite: CENM, EENM, or ELCD admission. Credits: 3 hours
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3.00 Credits
Discrete-time signals and systems, time and frequency domain representations. Structures of discrete-time systems and digital filters. DFT and FFT methods of special analysis and estimation. Discrete Hilbert Transforms and multidimensional signal processing. Prerequisites & Corequisites: Prerequisite: ECE 4550 and CENM, EENM, or ELCD admission. Credits: 3 hours Lab Hours: (3 to 0)
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3.00 Credits
Introduction to hardware design languages. Modeling and simulation using VHDL. Advanced design techniques for digital machines based on Field Programmable Gate Arrays and Complex Programmable Logic Devices. System design with on-line reprogrammable FPGAs. Prerequisites & Corequisites: Prerequisites: CENM, EENM, or ELCD admission. Credits: 3 hours
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