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Course Criteria
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3.00 Credits
Hardware and software for real-time microprocessor-based digital systems. Basic concepts and operations of on-chip components related to digital system functionality. Architectures, instructions sets, and interfacing with peripherals through serial or parallel ports. Introduction to 32-bit machines with in-depth treatment of 16- and 8- bit machines. Emphasis on C language cross-compilers. Laboratory exercises are included to demonstrate hardware and software development techniques practiced in industry. Prerequisites/Corequisites: Prerequisites: ECSE 2610 and ENGR 2350. Corequisites: ENGR 4010 and senior standing. When Offered: Fall term annually. Credit Hours: 3 Contact, Lecture or Lab Hours: 6 contact hours
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3.00 Credits
An introduction to the basics of subsurface sensing and imaging: Properties of probes such as optical beams, X-rays, ultrasonic waves, and electromagnetic waves. Physical interaction of probes with various media-transmission, reflection, attenuation, scattering, diffusion, fluorescence. Contrast agents and molecular sensing/imaging systems. Biomedical and security applications. Extracting information from subsurface signals using multi-view tomography (MVT), localized probing and mosaicing (LPM), and multi-spectral discrimination (MSD). Prerequisites/Corequisites: Prerequisites: ECSE 2410 and ECSE 2100. ECSE 2800 or BMED 2800 or permission of instructor also required. When Offered: Spring term annually Cross Listed: Cross-listed as BMED 4800. Students cannot receive credit for both this course and BMED 4800. Credit Hours: 3
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3.00 Credits
A capstone design course. Provides all ECSE majors senior design experience by engaging them in clientsponsored projects. The students work in multidisciplinary teams, jointly responsible to the faculty, the client liaison, and to each other for project management, execution and reporting. Contemporary design tools and practices are emphasized. Senior standing required. Prerequisites/Corequisites: Corequisites: ECSE 4010 and senior standing. When Offered: Fall and spring terms. Credit Hours: 3
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1.00 - 3.00 Credits
Supervised reading and research. Credit Hours: 1 to 3
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3.00 Credits
Credit Hours: 3
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3.00 Credits
Get information from the curriculum office. This is designated as a writing-intensive course. Prerequisites/Corequisites: Corequisite: ENGR 4010. Credit Hours: 3
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3.00 Credits
The analysis of active and passive linear networks, including sensitivity, topological formulas, energy functions, positive real functions, and realizability conditions. The determination of input and transfer functions that approximate a prescribed response. Active circuit elements including negative converters, gyrators, and operational amplifiers. Prerequisites/Corequisites: Prerequisite: ECSE 2050. When Offered: Fall term alternate years. Credit Hours: 3
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3.00 Credits
Design and analysis of wideband amplifiers, differential amplifiers, and operational amplifiers; the characteristics of op-amps and their use as linear and nonlinear elements, including compensation techniques; regulated power supplies. Prerequisites/Corequisites: Prerequisite: ECSE 2050. When Offered: Fall term alternate years. Credit Hours: 3
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3.00 Credits
An introduction to emerging electronic and optoelectronics technology. Topics cover cutting edge technologies and novel device concepts, such as quantum devices, silicon-on-insulators (SOI), compound semiconductor devices and technologies, thin film transistors (TFTs), wide band gap semiconductor devices and technologies, Si-Ge devices, solar cells, photodetectors, semiconductor lasers, opto-electronic ICs, optical interconnects and display technologies. Prerequisites/Corequisites: Prerequisite: ECSE 2210 or equivalent. When Offered: Fall term annually. Credit Hours: 3
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3.00 Credits
The physical operation of modern semiconductor devices and the determination of their internal parameters. Devices include diodes, unipolar and bipolar transistors, and metal-oxide-semiconductor devices. Emphasis is placed on the fundamental mechanisms that contribute to device performance. The interrelationship between device parameters and circuit performance is stressed. Prerequisites/Corequisites: Prerequisite: ECSE 2210 or equivalent. When Offered: Fall term annually. Credit Hours: 3
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