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Course Criteria
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4.00 Credits
(213) Semester by arrangement. Four credits. Prerequisite: ECE 3608 and ECE 3609; or ECE 3201. Three 1-hour lectures and one 2-hour laboratory. This course and ECE 3221 may not both be taken for credit. Fabrication, testing, and yield of digital integrated circuits. Design and analysis of bipolar and MOS digital integrated circuits. Bistable circuits and digital memories. System implementation with digital integrated circuits. Layout of digital integrated circuits. Integrated circuit packages. Computer analysis tools. Design and laboratory evaluation of digital electronic circuits.
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3.00 Credits
(223) First semester. Three credits. Prerequisite: ECE 3001or PHYS 3201. Not open to students who have passed ECE 4231. Principles and techniques of optical engineering, including geometrical optics, optical fibers and systems, sources and detectors, measurements, imaging, lenses, wave optics, polarization, interference, diffraction, optical Fourier transforms, holography, interferometry, integrated optics, frequency conversion, interaction of light and matter.
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3.00 Credits
(225) Second semester. Three credits. One 3-hour laboratory period. Prerequisite: ECE 3223 or 4231. Not open to students who have passed ECE 4232. Hands-on design and measurement of optical systems and components. Lens systems and imaging, fiber- optic communications and fiber-optic sensors, diffraction and Fourier Optics, interferometry, etc. Structured experiments and design projects centered on available equipment.
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3.00 Credits
(272) (Also offered as BME 3101.) (Formerly offered as EE 272.) Semester by arrangement. Three credits. Prerequisite: BIOL 1107. Corequisite: PHYS 1501Q and MATH 2110Q. Survey of the ways engineering and medical science interact. The art and science of medicine, and the process of medical diagnosis and treatment. Diagnostic instrumentation and measurements including medical imaging. Introduction to bioelectric phenomena, biomechanics, and biomaterials. Biochemical engineering. Computers in medicine. Molecular medicine and biotechnology.
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3.00 Credits
(230) (Formerly offered as EE 230.) Semester by arrangement. Three credits. Prerequisite: ECE 3101 and (ECE 3201 or 3608) and (CSE 2300W or 2363). Measurements of physical quantities by means of electrical circuits and electronic instruments. Analysis of measurement systems using equivalent circuits. Methods of measuring signals in the presence of noise. Use of computers in measurement systems. Recording and display devices.
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3.00 Credits
(252) (Also offered as CSE 3302.) (Formerly offered as EE 252.) Second semester. Three credits. Prerequisite: 2300W. Design and evaluation of control and data structures for digital systems. Hardware design languages are used to describe and design alternative register transfer level architectures and control units with a microprogramming emphasis. Consideration of computer architecture, memories, digital interfacing timing and synchronization, and microprocessor systems.
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3.00 Credits
(266) (Formerly offered as EE 266.) Either semester. Three credits. One class period and one 4-hour laboratory. Design of software and interface hardware to use a microcomputer as an on-line, real-time element in data acquisition, filtering and control systems. Use of clocks, DAC's, ADC's, speech synthesis modules, andmovement generators. Design project. Written and oral presentations of laboratory results.
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4.00 Credits
(249) (Formerly offered as EE 249.) Second semester. Four credits. Two-hour lecture and three-hour laboratory period. Prerequisite: ECE 3221. Not open to students who have passed EE 248 or EE 269. Design of MOS transistors, including short channel effects in sub-micron devices; scaling laws; design rules. Layout of NMOS and CMOS logic gates; powerdelay calculations. Design of static and/or dynamic memories. Laboratory emphasizes schematic capture, simulation, timing analysis and testing; layout of custom IC's; use of VHDL.
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3.00 Credits
(257) (Also offered as CSE 3802.) (Formerly offered as EE 257.) First semester. Three credits. Prerequisite: CSE 1100C and MATH 2110Q and 2410Q and prerequisite or corequisite: MATH 2210Q. Introduction to the numerical algorithms fundamental to scientific computation. Equation solving, function approximation, integration, difference and differential equations, special computer techniques. Emphasis is placed on efficient use of computers to optimize speed and accuracy in numerical computations. Extensive digital computer usage for algorithm verification.
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3.00 Credits
(204) (Formerly offered as EE 204.) Semester by arrangement. Three credits. Prerequisite: ECE 2608. This course and ECE 239 may not both be taken. Physical electronics underlying the operation of modern solid-state devices. Diodes and diode circuits. The bipolar junction transistor and field-effect transistors. Models of transistors. Applications of transistors to integrated circuits such as operational amplifiers and logic gates.
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