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Course Criteria
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4.00 Credits
An introduction of both theory and applications in signals and systems with applications drawn from communications, automatic control, filtering, audio and image processing. Discrete and continuous time signals and systems, sampling, convolution, Fourier series and transforms, converison between analog and signals, modulation, Laplace and Z-transforms. Three lectures and one two-laboratory period per week. Prerequisite: MTSC 352. Credits, four hours.
Prerequisite:
MTSC 352
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4.00 Credits
Introduction to the physical principle of solid-state electronic devices. Quantitative study of elementary circuits including biasing, linear power amplifiers, low-frequency small signal analysis, multiple transistor circuits, and feedback. Three (3) lectures and one (1) three-hour laboratory per week.Prerequisites: ENGR 205.Credit, four hours.
Prerequisite:
ENGR 205
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3.00 Credits
An introduction to basic semiconductor physics concepts and their application to the study of electronic and optoelectronic circuits. Applications to electronic and optoelectronic devices such as diodes, transistors, LED's detectors, photodiodes, and integrated circuits. Three (3) lectures per week.Prerequisites: MTSC 351.Credit, three hours.
Prerequisite:
PHYS 202 AND MTSC 252
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4.00 Credits
Crystal binding and structure; energetic and structure of lattice defects; structures of inorganic and organic polymers; electronic and magnetic properties; elasticity, stress and strain relationship, plasticity, and fracture; phase equilibrium and transformations; reactions of structure and treatment to properties. Prerequisite: PHYS 361. Three one-hour lectures per week. Prerequisites: PHYS 202 and CHEM 101, Credit, four hours.
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3.00 Credits
Introduction of MEMS terminology, review of silicon processing techniques, bulk and surface micromachining techniques, materials used for MEMS processes and their properties, basic sensing mechanisms used in MEMS processes, study of basic MEMS based sensors, thermal micro sensors, radiation micro sensors, biochemical micro sensors, mechanical micro sensors, micro actuators, introduction to MEMS device packaging.
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3.00 Credits
Origins and characteristics of bioelectric signals, recording electrodes, biopotential amplifiers, basic sensors, chemical, pressure, sound, and flow transducers, noninvasive monitoring techniques and electrical safety. Prerequisite: PHYS 318. Credit, three hours.
Prerequisite:
PHYS 318
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3.00 Credits
An introduction to both the theory and applications in signals and systems. Discrete and continuous time signals and systems, sampling, conversion between analog and digital signals. Prerequisites: ENGR 302. Credit: 3 hours.
Prerequisite:
ENGR 302
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4.00 Credits
An introduction to the design and technology of very large scale integrated (VLSI) devices, circuits and systems; topics include logic design fundamentals, graphics layout, clocking and timing, architecture, performance, limitations, packaging, and a required design project. Prerequisite: ENGR 309 and 340. Credit 4 hours.
Prerequisite:
ENGR 309 AND ENGR 340
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3.00 Credits
Photodetectors and photodiodes, solar cells, lasers (gas, solid state and semiconductor); and application of optical devices. Prerequisites: PHYS 316 and ENGR 340. Credit 3 hours.
Prerequisite:
PHYS 316 AND ENGR 340
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3.00 Credits
AC transmission lines and underground cables, power flow in power system networks, transformers in power system, high voltage DC transmission systems, symmetric components, symmetric and unsymmetric faults. The students have to use ETAP power analysis and simulation software as part of this course. Prerequisite: ENGR 205 and ENGR 309. Credit: Three Hours.
Prerequisite:
ENGR 309 AND ENGR 205
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