- ENEE 2211
- Electronics
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ENEE 2211 (4 qtr. hrs.)
Circuit behavior of semiconductor devices. Bipolar and field-effect transistors and their models; basic physical explanation of the functioning of these devices; large- and small-signal analysis of practical circuits; electronic design using both hand and computer methods of calculation and design; biasing methods for amplifier circuits; power supplies and current-source circuits. Design laboratory. Prerequisites: ENEE 2021, ENEE 2025.
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- ENCE 3210
- Microprocessor Systems I
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- AHSS foundation
- [AHUM 1000 or SOCS 1000]
- Foundation courses
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AHUM 1000 (4 qtr. hrs.)
This foundational requirement exposes students to the perspective of the arts and humanities. Each student will take two foundational arts and humanities classes to complete the requirement (8 hours). These classes promote students' engagement with ideas, texts and creative expressions to help them recognize the power of these expressions to shape human experiences. Students reflect critically on multiple perspectives and their impact on human history, diverse cultures and the world around us.
SOCS 1000 (4 qtr. hrs.)
This foundational requirement exposes students to the perspectives of the social sciences. Each student will take two foundational social science classes to complete this requirement (8 hours). Each course explicitly addresses the interaction between human conduct and the context/environment in which that conduct occurs, the character of knowledge in the social sciences and how that may or may not differ from the character of knowledge in other fields, and how the subject matter of the courses is relevant for understanding one or more contemporary social problems.
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- ENEE 3011
- Physical Electronics
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ENEE 3011 (4 qtr. hrs.)
The basic physical concepts of electronics, electrons and holes in semiconductors, transport and optical processes. Concentration on device concepts, including material synthesis and device processing, P-N junction diodes, junctions with other materials, bipolar transistors, field effect transistors (JFET, MESFET, MOSFET) and optoelectronic devices (lasers, detectors). Prerequisites: CHEM 1010, PHYS 1213 or permission of instructor.
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- ENEE 2222
- Advanced Electronics
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ENEE 2222 (3 qtr. hrs.)
High frequency transistor models and determination of parameters; Laplace and Fourier analyses of common amplifier circuits; design and analysis of broad-band amplifiers and multistage amplifiers. Basic feedback topologies; Nyquist, root-locus and Bode plot investigations of stability; introduction to amplifier noise; active filter design; sinusoidal oscillators. Prerequisite: ENEE 2211.
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- ENCE 3220
- Microprocessor Systems II
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ENCE 3220 (4 qtr. hrs.)
Introduction to microprocessors and to the design and operation of computer systems. A study of the microprocessor and its basic support components. Analysis of CPU architectures of modern computers. Assembly language programming. Use of an assembler and other development tools for programming and developing microprocessor-based systems. Laboratory. Prerequisite: ENCE 3210.
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- ENEE 3111
- Signals & Systems
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ENEE 3111 (4 qtr. hrs.)
Introduces continuous time and discrete time linear system analysis, Fourier series, Fourier and Laplace transforms. Specific engineering tools for discrete time linear system analysis include discrete time convolution, Z-transform techniques, discrete Fourier transform and fast Fourier transform (DFT/FFT), and the design and analysis of analog and digital filters for real-world signal processing applications. Prerequisites: ENEE 2021, MATH 2070.
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- ENEE 2610
- Electromagnetic Fields I
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ENEE 2610 (3 qtr. hrs.)
The study of Maxwell's equations and their experimental and theoretical foundations. Topics include coordinate systems, Coulomb's law, Gauss' law, the electric field, conductors and dielectrics, plane wave propagation in unbounded and layered media, steady electric currents, the magnetic field and magnetic materials. Static and quasi-static electric and magnetic fields are presented as they apply to distributed parameters of capacitance and inductance. Electromagnetic fields in transmission lines and waveguides. Prerequisites: PHYS 1213, ENGR 3610 or permission of instructor.
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- ENEE 2620
- Electromagnetic Fields II
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ENEE 2620 (3 qtr. hrs.)
The study of Maxwell's equations and their experimental and theoretical foundations. Topics include coordinate systems, Coulomb's law, Gauss' law, the electric field, conductors and dielectrics, plane wave propagation in unbounded and layered media, steady electric currents, the magnetic field and magnetic materials. Static and quasi-static electric and magnetic fields are presented as they apply to distributed parameters of capacitance and inductance. Electromagnetic fields in transmission lines and waveguides. Prerequisites: ENEE 2610 or permission of instructor.
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- ENGR 3610
- Engineering Analysis
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ENGR 3610 (3 qtr. hrs.)
Applied mathematics for engineers. Generalized Fourier analysis, complex variables, vector calculus, introduction to Bessel functions, and applied probability and statistics. Prerequisites: MATH 2070, MATH 2080.
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- ENEE 3130
- Principles of Comm Systems
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ENEE 3130 (3 qtr. hrs.)
Introduction to the theory and analysis of communication systems. Emphasis on analog systems; application of probability and statistics, modulations and demodulations; noise and signal-to-noise ratio analysis; the measure of information, channel capacity, coding and design factors. Prerequisites: ENEE 3111, ENGR 3610 or permission of instructor.
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- ENGR 2620
- Engineering Integration II
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ENGR 2620 (3 qtr. hrs.)
Interdisciplinary course combining topics from Computer, Electrical and Mechanical Engineering, with emphasis on laboratory experience and the design, analysis and testing of interdisciplinary systems. Manufacture of mechanical systems and/or circuit boards. Team project work on interdisciplinary "design-and-build" projects. Prerequisites: ENGR 2035 and junior standing in the appropriate engineering discipline. Co-requisite: enrollment in appropriate junior level engineering courses.
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- ENGR 2610
- Engineering Integration I
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ENGR 2610 (3 qtr. hrs.)
Interdisciplinary course combining topics from Computer, Electrical and Mechanical Engineering, with emphasis on laboratory experience and the design, analysis and testing of interdisciplinary systems. Manufacture of mechanical systems and/or circuit boards. Team project work on interdisciplinary “design-and-build” projects. Prerequisites: ENGR 2035 and junior standing in the appropriate engineering discipline. Co-requisite: enrollment in appropriate junior level engineering courses.
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- ENGR 2900
- Econ & Ethics for Engineers
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ENGR 2900 (4 qtr. hrs.)
Discussion of factors for evaluating projects and ethical considerations. The cost of money, inflation, income taxes, net present value methodology, mutually exclusive projects, lease versus buy analysis, and bid evaluation; codes of ethics of professional societies and cases where ethical considerations have affected the economic viability of projects.
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