![]() ![]() This course is taught in a studio style with mixed lecture and lab. Includes the gain and frequency response of linear amplifiers, power supplies, and other practical electronic circuits. Studies the modeling, analysis, design, computer simulation, and measurement of electrical circuits which contain non-linear devices such as junction diodes and field effect transistors. Topics include technologies or application areas that relate to ongoing design and research activities of faculty and students. Topics in Applied Research and Design Lab (1.5)Ī lab-based course that provides a hands-on way to learn about new developments in electrical and computer engineering fields. Offering is based on student and faculty interests.Ĭourse was offered Spring 2023, Spring 2021, Spring 2020, Spring 2019, Spring 2014, Spring 2013, Spring 2012 The topic usually reflects new developments in the electrical and computer engineering field. ![]() Special Topics in Electrical and Computer Engineering (0.5 - 4.5)Ī second-level undergraduate course covering a topic not normally covered in the course offerings. Students will collect and interpret data, learn machine learning theory, build systems-level thinking skills required to strategize how to break the problem down into various functions, and to implement, test and document those functions. ![]() Applications include image classification, removing noise from images, and linear regression. Learn about and experiment with machine learning algorithms using Python. Analysis and design of combinational and sequential components including multiplexers and demultiplexers, decoders and encoders, comparators, adders and ALU, registers and register files, counters and timers, RTL design, culminating in the design of a simple programmable processor. Introduction to analysis and design of digital systems from switches to gates to components to CPU. Prerequisites: APMA 1110 or MATH 1320 AND ENGR 1624 or ENGR 2595 - Engineering Foundations I Content includes fundamental concepts such as voltage, current, power, energy and Ohm's Law as well as circuit analysis techniques including node-voltage and mesh-current based on circuit laws and theorems such as Kirchhoff Laws, source superposition, and equivalent circuits. This course introduces electrical engineering theory and its application to circuits containing active and passive circuit elements. Prerequisite: PHYS 1425 or PHYS 1420, and APMA 1110 Calculus 3 (Multivariable) may be taken concurrently however, students should be proficient with vectors and calculus, including the chain rule and trigonometric functions. An integrated lab component will provide team-based, hands-on examples and reviews of key concepts. Course was offered Spring 2022, Spring 2021, Spring 2020, Fall 2019, Spring 2019, Fall 2018, Spring 2018, Fall 2017, Spring 2017, Fall 2016, Spring 2016, Fall 2015, Spring 2015, Fall 2014, Spring 2014, Fall 2013, Spring 2013, Fall 2012, Spring 2012, Fall 2011, Spring 2011, Fall 2010, Spring 2010, Fall 2009Īn applied physics course in electricity and magnetism, with emphasis on the technologies derived from them. ![]()
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