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Course Criteria
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1.00 Credits
Loew, Zara, and Staff The courses are taken in sequence by students in the biomedical engineering major. Students choose their specialty lab affiliation and participate in research projects of the lab. Journal club, written reports, and oral presentations. (Fall and spring)
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1.00 Credits
Zara and Staff Elements of project design; formulation of project ideas. (Fall)
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1.00 - 3.00 Credits
Korman and Staff The courses are taken in sequence by departmental majors beginning in the second semester of the junior year. After an introduction to the formal design process, the student plans, refines, designs, and constructs a one-year project. (Fall and spring)
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1.00 Credits
Loew and Staff Experiments are selected from the random walk model of diffusion, macroscopic diffusion processes, optical extinction in tissue, carrier-mediated transport (CMT), spectroscopy, hearing measurement, DNA identification, bioinformatics, and data mining. Prerequisite or corequisite: Phys 128. (Spring)
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3.00 Credits
Pardavi-Horvath and Staff Measurement of dc, ac, and high-frequency signals. Interface electronic circuits. Sensors for measurement of mechanical, optical, magnetic, electromagnetic, thermal, chemical, and biochemical signals. Prerequisite: ECE 32, 121, 140. May be taken for graduate credit. (Spring, even years)
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3.00 Credits
El-Ghazawi and Staff Microcontrollers and their application in embedded systems. Topics include assembly and C for microcontroller programming, serial and parallel I/O interfacing, and multimedia interfacing. Students perform laboratory experiments and a final project to develop a microcontroller-based embedded system. Prerequisite: CSci 49, ECE 141. (Spring)
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4.00 Credits
Zaghloul and Staff Lecture (3 hours), laboratory (3 hours). Introduction of ASIC design techniques; design and programming of FPGAs using CAD tools; timing in sequential circuits; essential hazards; races in sequential circuits; design-and-build FPGA project. Prerequisite: ECE 140. (Fall)
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1.00 Credits
Harrington and Staff Experiments in support of the analysis and design of electrical power systems. Measurements of the characteristics of devices to generate electric power. Rectification and inversion processes for power systems and drives. Prerequisite or corequisite: ECE 177. (Fall)
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1.00 Credits
Lang and Staff Experiments in transmission lines, network analyzer measurements of scattering parameters, microwave systems, fiber-optic systems and antennas. Introduction to the characteristics of laser and optical systems. Prerequisite: ECE 32. (Spring)
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3.00 Credits
Carroll and Staff Mathematical models of linear systems; steady-state and transient analyses; root locus and frequency response methods; synthesis of linear feedback control systems. Prerequisite: ApSc 114, ECE 12 or MAE 134. (Fall)
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