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Course Criteria
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3.00 Credits
This course presents the fundamentals of microprocessor architecture and interfacing. Topics include instruction set architecture, assembly language, debugging and IO device interfacing techniques. The PIC processor architecture will be studied, utilizing windows based integrated development environment and tools suite. A PIC hardware evaluation board is used as the basis for interfacing experiments. Software will be written in assembly language. The Pentium processor architecture and the PCI bus will be studied. A hardware/software project will be assigned towards the end of the course. The course is 50% lab and 50% lecture. Prerequisite: EE 326 Switching Circuits and Logic Design
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3.00 Credits
Study of feedback, the analysis, design, and applications of operational amplifiers, oscillators, multivibrators, wideband amplifiers, tuned amplifiers, and power amplifiers. Prerequisites: EE 311, ENGR 321.
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3.00 Credits
Analysis and design of digital circuits, number systems, combinational and sequential circuits. Basic computer arithmetic, applications and implementation of logic design. Prerequisite: permission of instructor.
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3.00 Credits
Theory and application of electromagnetic waves. Maxwell's equations in vector differential form introduced; solutions to the wave equation for bounded and unbounded cases examined. The rectangular waveguide and the transmission line are studied. Radiation from simple geometrics included. Prerequisites: ENGR 222, PHYS 216.
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2.00 Credits
Correlated sequence of laboratory experiments designed to illustrate the theory of junior-level electrical engineering courses, including active filters, nonlinear applications of operational amplifiers, switching and logic circuits, digital system design, push-pull amplifiers, oscillators, A/D and D/A converters, signal processing and digital filters. Prerequisites: EE 326, ENGR 355; concurrent: EE 322.
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1.00 Credits
This laboratory course is offered in conjunction with the junior level courses on Electromagnetic Fields and Waves (EE342) and Analog and Digital Signal Processing (EE362). The electromagnetic component of the lab covers experiments related to the basic concepts, fundamental principles of antennas and electromagnetic fields. The signal processing component covers experiments related to techniques for analysis and synthesis of signals and includes techniques such as the Fourier series, Fourier and Laplace transforms digital filter design. Computer-aided design methods will be used to obtain hands-on experience in analysis and simulation. Prerequisite: In conjunction with EE342 Prerequisite: EE326, ENGR 355; concurrent: EE322
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3.00 Credits
Analysis and synthesis of analog and digital filters. Laplace and Fourier analysis used in analog filter design, with z-transform analysis in digital filter design. Fundamentals of digital signal processing, relevant to digital filtering. Computer-aided design and simulation. Prerequisite: EE 311.
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3.00 Credits
Electronic properties of materials including conductivity, dielectric and magnetic permitivity. Semiconductor theory with emphasis on junction devices. Introduction to semiconductor lasers. Prerequisite: EE 342.
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3.00 Credits
No course description available.
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3.00 Credits
This course presents the fundamentals of microprocessor architecture and interfacing. Topics include instruction set architecture, assembly language, debugging and IO device interfacing techniques. The PIC processor architecture will be studied, utilizing windows based integrated development environment and tools suite. A PIC hardware evaluation board is used as the basis for interfacing experiments. Software will be written in assembly language. The Pentium processor architecture and the PCI bus will be studied. A hardware/software project will be assigned toward the end of the course. The course is 50% lab and 50% lecture. Prerequisites: EE 326 Switching Circuits and Logic Design
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