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Course Criteria
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3.00 Credits
Focuses on the design of a stand-alone, embedded computer system. Introduces advanced concepts in computer architecture; timing, memory devices, peripheral devices, interrupts and polling, embedded system software, and design issues (Design for Manufacture [DFM] and Design for Test [DFT]). Students design, implement, and program a complete embedded computer system having real-time requirements. Requires project reports and demonstrations. Prerequisite: ECE 332.
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3.00 Credits
Modeling and analysis of discrete and continuous linear systems; transfer function models; discrete and continuous signals; solutions of linear systems using classical, convolution, and Laplace/z-transform methods; Fourier series and Fourier transforms; spectral analysis of continuous, deterministic energy and power signals. Prerequisites: ECE 214 (minimum grade of C-) and M 242.
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4.00 Credits
Introduction to electromagnetic fields; vector analysis; development of Maxwell's equations; Poisson's and Laplace's equations;experimental laws of Coulomb, Gauss, Ampere, and Faraday; time-varying fields. Prerequisites: ECE 214 (minimum grade of C-), ECE 216 (minimum grade of C-), and M 240.
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4.00 Credits
Theory, analysis, and application of diodes, transistors, and four-terminal devices; circuit models and mathematical analysis of electronic devices, including operational amplifiers. Laboratory included, requiring written reports and oral presentations. Prerequisites: ECE 210 and M 242 (may be taken concurrently). Laboratory fee.
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3.00 Credits
Semiconductor physics, junction diode, bipolar transistor, and field effect transistor characteristics and models. Analysis and design of bias circuits and the basic configurations, such as common emitter, common base, and the follower circuits. Emphasis on design practice. Prerequisite: ECE 214 (minimum grade of C-).
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3.00 Credits
Continuation of ECE 361. In-depth study of the analysis and design of power amplifiers, multistage amplifiers, differential and operational amplifiers, feedback amplifiers, active loads, and oscillators. Emphasis on design practice. Prerequisite: ECE 361 (minimum grade of C-).
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1.00 Credits
An introduction to electronics laboratory. Experiments include diode and transistor characteristics, voltage rectification, biasing, single and multistage amplifiers, h-parameters. Computer-aided electronic circuit analysis and design are used. Must be taken concurrently with ECE 361. Laboratory fee.
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1.00 Credits
An electronics circuits laboratory course. Experiments include JFET characteristics and amplifiers, operational amplifier characteristics and use, functional circuits, and power supply design. Computer-aided electronic circuit analysis and design are used. Must be taken concurrently with ECE 362. Laboratory fee.
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3.00 Credits
An introduction to electronic instrumentation and measurements and how they relate to design and manufacturing. Course will be project based. Prerequisites: ECE 332 or ECE 351 or ECE 361, and junior standing. Laboratory fee.
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3.00 Credits
Probability, random variables, distribution and density functions, statistics of random variables, sampling and estimation, random processes, correlation functions, spectral density functions, noise characteristics, random input response of linear systems, matched filters. Prerequisite: ECE 341 (minimum grade of C-).
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