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ELE 432: Semiconductor Device Fabrication Laboratory

3.00 Credits

Northern Illinois University

Design and fabrication of active semiconductor devices. Laboratory exercises include artwork and pattern generation, mask making, oxidation, photolithographic processing, diffusion, metallization, and device testing. Prerequisites & Notes PRQ: ELE 335 or consent of department. Credits: 3

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ELE 433: Design of Gallium Arsenide Integrated Circuits

3.00 Credits

Northern Illinois University

Fundamentals of GaAs devices and logic families; fabrication processes; physical layout for VLSI circuits; interconnection and testing of high speed systems. Prerequisites & Notes PRQ: ELE 335. Credits: 3

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ELE 434: Semiconductor Material and Device Characterization

3.00 Credits

Northern Illinois University

Study of fundamentals and principles of semiconductor material properties with applications to device characterization. Modern measurement techniques of semiconductor industry including electrical, optical, chemical, and physical methods. Prerequisites & Notes PRQ: ELE 335 or consent of department. Credits: 3

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ELE 435: Integrated Circuit Engineering

3.00 Credits

Northern Illinois University

Basic theory of integrated circuits including MOS processing technology. Principles of layout design, simulation, and design rule checking of large-scale integrated circuits. Introduction to design tools and techniques including utilization of available design software packages. Requirements include the design, simulation and layout of an integrated circuit to the point of mask generation. Prerequisites & Notes PRQ: ELE 250 and ELE 330. Credits: 3

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ELE 436: Analog MOS VLSI Engineering

3.00 Credits

Northern Illinois University

Introduction to analog MOS (nMOS and CMOS) circuits. MOS transistor as both a switch and a linear device. Different MOS circuits such as amplifiers, switches, comparators, sensors, D/A-A/D converters, multipliers, and neural networks are investigated. Prerequisites & Notes PRQ: ELE 330 or consent of department. Credits: 3

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ELE 437: Hybrid Circuit Design

3.00 Credits

Northern Illinois University

Lecture/laboratory course covering thick film processing techniques as they apply to the design and fabrication of miniature electronic circuits. Topics include minimum design rules, design of electronic components, artwork generation, screen preparation, screen printing, drying and firing profiles, and trimming. Prerequisites & Notes PRQ: ELE 360. Credits: 3

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ELE 438: Thin Film Engineering

3.00 Credits

Northern Illinois University

Lecture/laboratory course designed to demonstrate theory and principles of thin film processing including vacuum processing and deposition techniques. Topics include resistive evaporation, DC sputtering, RF sputtering, ion beam sputtering, electron beam evaporation, methods of achieving vacuum, and measurement techniques. Prerequisites & Notes PRQ: ELE 335. Credits: 3

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ELE 440: Power Electronics

3.00 Credits

Northern Illinois University

Introduction to concepts involved with switch mode power electronic circuits. Analysis of basic circuit topologies including AC/DC, DC/DC, and DC/AC converters. Discussion of the desired outputs of these circuits as well as undesired components such as harmonies and ripple. Prerequisites & Notes PRQ: ELE 330 and ELE 340. Credits: 3

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ELE 441: Electric Drives

3.00 Credits

Northern Illinois University

Advanced discussion of different types of electric motors under various load conditions. Application of power electronic drives to electric motors. Topics include DC drives, AC induction motor drive, and AC synchronous motor drives. Efficiency and harmonic effects discussed for each drive system. Prerequisites & Notes PRQ: ELE 330 and ELE 340. Credits: 3

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ELE 450: Digital Design with HDL

3.00 Credits

Northern Illinois University

Design, simulation, and synthesis of digital circuits and systems using Verilog HDL or VHDL. Topics include digital design methodologies, finite state automata, behavioral models, structural design, finite state machines and datapath controllers, and algorithms and architectures for digital signal processors. Includes term project to design, simulate, and synthesize a digital circuit/system. Prerequisites & Notes PRQ: ELE 250 and CSCI 240, or consent of department. Credits: 3

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