Minor in Electrical Engineering
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Build a strong foundation of electronics and fundamentals of engineering design concepts in the electrical engineering minor.
Students will continue to develop their skills by learning the basics of electronics including analog and digital circuits, power systems and electricity, and computational methods.
Is a minor in electrical engineering right for me?
Do you want to know more about electricity and electronics? Would you be interested in building your own circuits and systems? Then this minor is good for you!
Minoring in electrical engineering is a great way to round out your education with highly sought after system design skills.
When should I declare a minor?
By the end of your freshman year, since it takes a minimum of 4 semesters to complete the required courses. Please talk with your advisor before declaring a minor.
Required Courses | 24 credits
A first course in programming using a structured programming language. Topics include iteration, selection, procedures, functions, and arrays with the use of flowcharts and modules. Presents applications in both business and scientific areas.
This course provides a hand-on introduction to the School of Computer Science and Engineering programs and allows students to learn about each program in more detail by completing hands-on learning exercises in a laboratory environment. This course is offered by a team of SCSE faculty and each cohort will rotate through program-specific laboratories.
Introduction to engineering design process including project management, team work, and organizing outreach events outside university campus. This course utilizes IDEA Lab (makerspace) tools and equipment.
Introduction to computation methods in engineering using MATLAB, C, Arduino, and discrete sensors.
Prerequisite: Take CS-111
Introduction to basic concepts: voltage, current, power, energy, Ohm's law and Kirchhoff's laws. Resistor circuits: Parallel and series resistors, nodal and mesh analysis; independent and dependent sources, Thevenin's theorem, Norton's theorem, Operational Amplifiers and their applications, the first order, RL or RC, circuits and the second order RLC circuits. Introduction to PSPICE and MATLAB with application to electric circuits. Laboratory use of Electronics equipment: Multimeter, power supply, breadboard, and oscilloscope.
Prerequisite: Take MA-152
This course will examine the number systems; computer arithmetic; analysis and synthesis of combinational and sequential logic circuits, use of a hardware description language; organization and structure of computing systems.
Prerequisite: Take CS-113
Analog and digital systems, diode models and circuits, bipolar junction transistors and MOSFETs with emphasis on amplifier integrated circuits, and operational amplifiers.
Prerequisite: Take ENGR-211
AC machines: synchronous machines; synchronous motors; induction motors, DC machines, generators, power transformers, transmission line parameters, computation of power flows, single- and three-phase power circuits.
Prerequisite: Take ENGR-211