100

This course covers DC fundamentals. Students will learn about the concepts of current flow, resistance, and units of electrical measurement. Ohm's law is used for circuit analysis of series, parallel and series-parallel circuits. Upon successful course completion, students will be able to use test equipment for data collection and troubleshooting to ensure the fundamental understanding of DC concepts discussed.

This course covers AC fundamentals. Students will learn about AC signals, capacitors, inductors, and transformers. AC analysis of pure resistive, inductive, and capacitive circuits will be covered. AC frequency response of RL, RC, and RLC circuits will also be covered. Upon successful course completion, students will be able to use test equipment for data collection and troubleshooting to ensure the fundamental understanding of AC concepts

This course covers practical applications of DC and AC concepts. Students will learn about use of simulation software and test equipment for DC and AC circuit analysis and troubleshooting. Upon successful course completion, students will be able to acquire, analyze, and interpret experimental data.

This course provides an introduction to AC and DC circuits through simple series and series-parallel circuits used to illustrate applications of Ohm’s Law and Kirchhoff’s Laws.  Students will learn about power in DC resistive circuits and sine waves, complex numbers, and phasors applications in the analysis of AC circuits.  Upon successful course completion, students will be able to implement and analyze basics of AC and DC circuits.

This course covers the theory and operation of analog electronic devices and circuits. Students will learn about the use of diodes, bipolar junction (BJT) transistors, and field effect transistors as circuit elements in application circuits such as; Power supplies, Clippers, Clampers, Amplifiers, and Multipliers. Upon successful course completion, students will be able to build, analyze and test common amplifier configurations.

This course is a continuation of the theory and operation of analog electronic devices and circuits. Students will learn about large-signal amplifiers, operational amplifiers, oscillators, multi-vibrators and regulated power supplies. Upon successful course completion, students will be able to build, test, and analyze common electronic circuits.

This course covers basic digital concepts. Students will learn about number systems, Boolean algebra, logic minimization, and combinational design. Upon successful course completion, students will be able to design and implement combinational logic circuits with input and output interfacing devices.

This course introduces students to both theoretical and practical industry-standard practices. Students will learn about structures, properties, and applications of metals, ceramics, polymers, and composites commonly used in industry while also developing problem-solving skills in materials selection, evaluation, measurement and testing. Upon successful course completion, students will be able to apply theoretical and practical industry-standard practices to select material(s) for practical engineering applications.

This course introduces students to the fundamentals of sketching, engineering drawings, and 3-D modeling using a traditional or parametric modeling software package such as AutoCAD, Pro/E or SolidWorks.  Student will learn how to draw layouts and lettering; orthographic and pictorial projections; orthographic, auxiliary, and section views; dimensioning techniques; tolerancing; manufacturing processes; fasteners; and freehand sketches.  Upon successful course completion, students will be able to integrate the basics of technical drawings and 3-D modeling into engineering concepts.

This course introduces students to fundamental concepts and techniques of solid modeling and parametric modeling as a drawing/design tool using software such as Creo Parametric.  Students will learn part and assembly creation, creation of 2-D engineering drawings from 3-D models, and mechanisms animation.  Upon successful course completion, students will be able to model complex 3-D objects and produce their engineering drawings.