ID
7257

Engineering Design Graphics

Principles of visually communicating engineering designs. Topics include technical sketching, technical drawing, engineering graphics and design; 3-D visualization with orthographic projection; dimensioning and tolerancing practices; computer aided drafting/design (CAD) software; graphical analytical methods of solutions to three-dimensional problems. Assignments develop sketching and 2-D and 3-D CAD skills. The use of CAD software is an integral part of this course.

Introduction to Circuit Analysis Laboratory

An introduction to the construction and measurement of electrical circuits exercising DC, transient, and sinusoidal steady-state (AC) conditions. Use of test and measurement instruments, including multimeters, oscilloscopes, power supplies, and function generators. Introduction to component value tolerance and non-ideal aspects of laboratory instruments. Use of circuit simulation software. Interpretation of measured and simulated data based on principles of circuit analysis.

Introduction to Circuit Analysis

Introduction to circuit analysis. Determination of the natural, forced and complete responses of zero, first and second-order networks. Standard circuit-analysis techniques including Kirchhoff's Laws, mesh and nodal analysis, Thevenin and Norton's Theorems, generalized impedance and admittance techniques and phasor methods.

Electronics III: Digital Circuit Interfaces and Programming

Course covers digital interfaces and hardware programming. Topics include digital to analog interfacing using integrated circuits, programmable logic devices, field programmable gate arrays (FPGA), hardware description languages (e.g. VHDL and Verilog), and computer memory. Course requires hands-on project construction and troubleshooting. Industry standard testing methods, equipment, and protocols are used throughout the course.

Electronics II: Digital Circuits and Practical Applications

This course covers Boolean logic concepts, flip-flops, memory, counters, clocks, display decoders, and timers. Analysis of digital logic principles is practiced by building and testing functional and practical projects. There will be intense hands-on troubleshooting using logic analyzers, signal generators and digital multimeters. Standard industry testing methods, equipment, and protocols are used throughout the course.

Electronics II: Active Analog Circuits and Practical Applications

This course covers diode characteristics, power supplies, bipolar transistors, simple one-stage amplifiers, constant current sources, and transformers. The students will learn the intermediate use of the oscilloscope and multi-meter for both calibration and troubleshooting. Hands-on electronic projects include building their own power supply, a current regulator, and various amplifier circuits.