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Course Criteria
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3.00 Credits
Design-oriented introduction to computer components and operations. Standard codes, number systems, base conversions, and computer arithmetic. Boolean algebra, minimization and synthesis techniques for combinational and sequential logic. Races, hazards, and asynchronous behavior. Registers, arithmetic logic units, memory structure, buses, and control units. Machine language programming, instruction fetch and execution, input-output devices, interrupts, and microprogram sequencers. Software and hardware tools. Prerequisites/Corequisites: Prerequisite: CSCI 1100. Corequisite: ENGR 2350. When Offered: Fall, spring, and summer terms annually. Credit Hours: 4 Contact, Lecture or Lab Hours: 6 contact hours
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3.00 Credits
Quantitative basis of modern computer architecture, processor design, memory hierarchy, and input/output methods. Layered operating system structures, process and storage management. Layered network organization, network protocols, switching, local and wide area networks. Examples from Unix and the Internet. Prerequisites/Corequisites: Prerequisite: ECSE 2610. When Offered: Spring term annually. Credit Hours: 4 Contact, Lecture or Lab Hours: 6 contact hours
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3.00 Credits
An introduction to sensing and imaging methods using electromagnetic radiation, including hands-on experiments. Topics include physical principles of sensing/imaging, instrumentation and data acquisition strategies and computational methods for image formation and sensing. Emphasis is placed on imaging with visible light and near infrared spectrum, diffuse optical imaging and spectroscopy, x-ray imaging and computed tomography and radar. Application areas include medicine and biology, security and surveillance, environmental and chemical sensing, and buried or hidden objects. Prerequisites/Corequisites: Prerequisites: PHYS 1200 and MATH 2400. When Offered: Spring term annually Cross Listed: Cross-listed as BMED 2800. Students cannot receive credit for both this course and BMED 2800. Credit Hours: 3
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1.00 Credits
Introduction to research as a professional activity in electrical, computer, and systems engineering for participants in the ECSE Honors Program. Admission to the program is by application or invitation only, made during the fall term of the sophomore year. This seminar can be taken more than once. When Offered: Spring term annually. Credit Hours: 1 Contact, Lecture or Lab Hours: 2 contact hours
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3.00 Credits
Analysis and design of switching-mode circuits: NMOS, CMOS, RTL, DTL, TTL, and ECL digital-logic families. Topics include: basic logic gates (voltage-transfer characteristics, noise margin, fan out, propagation delay, power dissipation), flip flops, Schmitt triggers, oscillators, timers, memories, A/D and D/A converters, and optional advanced topics. Prerequisites/Corequisites: Prerequisites: ECSE 2050 and ECSE 2610. When Offered: Spring term annually. Credit Hours: 3 Contact, Lecture or Lab Hours: 5 contact hours
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3.00 Credits
Analysis and design of communications circuits, including coupling networks, oscillators, mixers, Class B and C r-f amplifiers; Class B and D broadband amplifiers; AM and FM modulators and demodulators; AGC and AFC and FSK circuits; pulse modulation techniques; phase-locked loops. Prerequisites/Corequisites: Prerequisite: ECSE 2050; ECSE 4520 desirable. When Offered: Spring term. Credit Hours: 3
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3.00 Credits
The application of power semiconductor devices to the efficient conversion of electrical energy. Circuit analysis, signal analysis, and energy concepts are integrated to develop steady-state and dynamic models of generic power converters. Specific topics include AC/DC conversion, DC/DC conversion, DC/AC conversion, and AC/AC conversion. These generic converters are applied as controlled rectifiers, switching power supplies, motor drives, HVDC transmission, induction heating, and others. Ancillary circuits needed for the proper operation and control of power semiconductor devices are also discussed. Prerequisites/Corequisites: Prerequisite: ECSE 2050. When Offered: Fall term annually. Cross Listed: Cross-listed as EPOW 4080. Students cannot receive credit for both this course and EPOW 4080. Credit Hours: 3
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3.00 Credits
The synergistic combination of mechanical engineering, electronics, control engineering, and computer science in the design process. The key areas of mechatronics studied in depth are control sensors and actuators, interfacing sensors and actuators to a microcomputer, discrete controller design, and real-time programming for control using the C programming language. The unifying theme for this heavily laboratory-based course is the integration of the key areas into a successful mechatronic design. Prerequisites/Corequisites: Prerequisites: ENGR 2350, ECSE 2410, and senior standing. When Offered: Fall annually. Cross Listed: Cross-listed as MANE 4490. Students cannot receive credit for both this course and MANE 4490. Credit Hours: 3 credit hours, 5 contact hours
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3.00 Credits
A continuation of ECSE 2100. Topics include solution of boundary value problems in electromagnetics using both analytic and numerical techniques. Conducting and dielectric guiding structures for waves. Radiation from simple antennas. Low frequency applications. Prerequisites/Corequisites: Prerequisites: ECSE 2100, ECSE 2050, MATH 4600. When Offered: Offered on sufficient demand. Credit Hours: 3
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3.00 Credits
Techniques used in the analysis and design of microwave systems. Topics include wave propagation in free space and in guided structures; scattering parameters; signal flow graphs and applications to microwave networks; transmission lines and impedance matching; CAD of microwave circuits; system components; system design parameters and performance calculations. Prerequisites/Corequisites: Prerequisites: ECSE 2050 and ECSE 2100. When Offered: Offered on sufficient demand. Credit Hours: 3
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