An introduction to the study of electrical circuits. Topics include resistance, voltage, current, mesh analysis and nodal analysis. Network theorems pertaining to DC sources are presented. Prerequisite: College algebra or equivalent. (4 crs.) Fall.

An introduction to the study of electrical circuits in the sinusoidal steady state. Topics include capacitors, inductors, complex numbers, AC mesh analysis AC nodal analysis, and network theorems pertaining to AC sources. Prerequisite: EET 110. Co-requisite: MAT 199. (4 crs.) Spring.

An introduction to the techniques of designing electronic instruments to measure physical quantities with the aid of transducers. Topics include analog and digital signal conditioning circuits, electronic filters and various electronic sensors. Circuits will be designed and tested from mathematical models in order to transfer signals to either an analog or a digital format. Prerequisite: EET 160. Co-requisite or prerequisite: CET 235. (3 crs.) Fall.

This course is an introduction to the function of solid state devices. The emphasis is placed on the internal structure, function and limitations of linear devices such as diodes, transistors, power amplifiers, operational amplifiers and oscillators. Prerequisite: EET 215. (4 crs.) Spring.

Introduction to matrix theory, classical first- and second-order transient analysis, active filter and oscillator design, and Fourier analysis. Computer solutions to special problems will be presented. Prerequisites: EET 365, MAT 282, CSC 124. Co-requisite: EET 320. (4 crs.) Fall.

A calculus-based circuit theory course. Topics include the introduction to Laplace transforms and the use of Laplace transforms in the study of circuit analysis, transfer functions and frequency response. Circuit analysis programming is used to compare computer solutions with analytic solutions. Prerequisites: EET 365. Co-requisite: EET 310. (4 crs.) Fall.

A study of three-phase circuits, transformers, DC machines, polyphase AC machines and single-phase AC machines. Prerequisite: EET 160, CSC 124. (4 crs.) Fall, every three years.

This course is an introduction to the function of solid state devices. The emphasis is placed on the internal structure, function and limitations of linear devices such as diodes, transistors, power amplifiers, operational amplifiers and oscillators. Prerequisite: EET 215. (4 crs.) Spring.

The design of electronic instruments utilizing linear and digital integrated circuits. Topics will include electronic thermometers, force, pressure and flow measurements, and frequency counters. Numerical linearization methods for nonlinear transducers will be introduced. Prerequisite: EET 310 and EET 320. (4 crs.) Spring.

The student will submit a written proposal for a project. After approval of the project the student will be assigned a faculty adviser. Minimum requirements for the proposal are submission of a functional specification and a time schedule for completion. Prerequisite: CET 360, EET 370, and senior status. Co-requisite: ENG 217. (1 cr.) Alternate fall.

Design of feedback control systems and devices as applied to electrical machinery and transducers. Topics will include Bode plots, the root-locus method and nyquist diagrams. Prerequisites: EET 310 and EET 320. (4 crs.) Spring, every four years.

A microprocessor-based instrumentation design course utilizing linear, digital and opto-electronic devices. Software solutions to input/output problems will be considered along with software solutions to nonlinear transducer data. Prerequisite: EET 370. (4 crs.) Spring, every four years.

Communication systems principles, including AM/FM modulation, AM/FM demodulation, transmitters, receivers, antennas, transmission lines, digital techniques and protocols. Prerequisite: EET 365. (4 crs.) Spring, every two years.

Employs the design, construction and analysis of an electronic device or instrument. Depending on the complexity of the project, total construction may not be required. With the approval from the adviser, group projects may also be involved. Three laboratory-hours per week. Prerequisite: EET 400. (3 crs.) Alternate spring.

Introduction to linear systems, digital filters and the Z-Transforms, and the Fast Fourier Transform. Fundamentals of Shannon's sampling theory and the interfacing of analog signals to microprocessor based systems for digital signal processing. Prerequisites: CET 360, EET 310 and EET 320. (4 crs.) Alternate years.

A study of widely used medical devices with emphasis on those types used for patient care in the hospital. The physics and engineering of various devices will be presented, and their relationship to human anatomy and physiology will be emphasized. Hospital organization and the role of the clinical engineering department will be examined. Prerequisite: EET 365. (4 crs.) Spring, every four years.

Upon acceptance to a hospital, the student will work with a clinical engineer and/or a biomedical equipment technician inspecting, maintaining, calibrating, and modifying biomedical equipment. Programs of instruction will vary from hospital to hospital, but the student will be exposed to medical devices from all special and critical care areas. Prerequisite: EET 475. (4 crs.) Summer.

Upon acceptance to an internship site, the student will work with an electrical engineer and/or an electronic technician inspecting, maintaining, calibrating, testing, analyzing, assembling, modifying or designing various types of electronic devices. Programs of instruction will vary, but the student will be provided with practical work experience in a dynamic environment in which they will be dealing with actual problems requiring practical solutions. Adviser, department chairperson and college dean approval is required before course enrollment. Prerequisite: Upper-level standing. (4 crs.) Fall, spring, and summer.