Undergraduate: Courses EE 100-399

EE 101 BASIC ELECTRONICS

EE 202 CIRCUIT ANALYSIS I

EE 203 CIRCUIT ANALYSIS II

EE 240 NANOTECHNOLOGY, ENGINEERING, AND SCIENCE

EE 303 SIGNAL ANALYSIS & TRANSFORM METHODS

EE 310 ELECTRONIC DEVICES & CIRCUITS I

EE 311 ELECTRONIC DEVICES & CIRCUITS II

EE 312 BASIC ELECTRONIC INSTRUMENTATION LAB

EE 324 APPLIED ELECTROMAGNETICS

EE 352 INTRODUCTION TO ELECTRONICS LAB

EE 353 ELECTRONIC CIRCUITS LAB

EE 378 DIGITAL PRINCIPLES

EE 101 Basic Electronics
Credits:  3
Semester: Sp
Prerequisites:  None
Corequisites:  None

An introductory electronics course for engineering and science majors. Emphasizes analog and digital electronic systems organization, data acquisition, and signal transmission. A laboratory once a week illustrates these techniques by specific circuit devices. LEC/LAB

 

EE 202 Circuit Analysis I
Credits:  4
Semester: F Sp
Prerequisites:  None
Corequisites:  PHY108 and MTH306

Systematic development of network analysis methods. Topics include resistive circuits, Kirchhoff’s laws, equivalent subcircuits; dependent sources and op amps; loop and nodal analysis and duality; energy-storage elements; transient analysis of first-order and second-order circuits. LEC/REC

Click here to see ABET syllabus about this course.

 

EE 203 Circuit Analysis II

Credits:  4
Semester: F Sp
Prerequisites:  EE202
Corequisites:  None

A continuation of EE 202. Brief review of basic concepts of time-domain circuit analysis; phasor analysis of steady-state ac circuits; complex power and three-phase systems; Laplace transform techniques and "s-domain" circuit analysis; transfer function; linear circuit design. Selected problem assignments and a final design project require use of circuit analysis software tools. LEC/REC

Click here to see ABET syllabus about this course.

 

EE 240 Nanotechnology, Engineering, and Science

Credits:  4
Semester: Sp
Prerequisites:  PHY107, PHY108
Corequisites:  PHY257, PHY241
 

This course is accepted as an alternative to Physics 207. Students are still required to take lab PHY 257 (this course does not take the place of that requirement.) All material needed for the lab PHY 257 will be covered during lecture and recitation of EE 240.

The course will be targeted at undergraduate students on their early stage of education. The major goals and objectives are to provide second year undergraduate students with knowledge and understanding of nanoelectronics as an important interdisciplinary subject. Through the examples, exercises, and educational Java applets the course will cover electromagnetic waves and quantum mechanics including the quantum-mechanical origin of the electrical and optical properties of materials and nanostructures, chemically-directed assembly of nanostructures, biomolecules, traditional and nontraditional methods of nanolithography, interactions between electronic and optical properties, as well as the forefront topics such as organic heterostructures, nanotubes, and quantum computing. LEC/REC

Link to the course web site.

EE 303 Signal Analysis and Transform Methods
Credits:  4
Semester: F Sp
Prerequisites:  EE203
Corequisites:  None

Analysis of linear-, discrete-, and continuous-time signals and systems. Topics include Laplace and z-transforms; Fourier analysis; sampling. LEC/REC

 

EE 310 Electronic Devices and Circuits I
Credits:  3
Semester: F
Prerequisites:  EE202
Corequisites:  EE312 or EE352

Electronic devices, including operational amplifiers, diodes, bipolar junction transistors and field-effect transistors, the basic circuits in which these devices are used, and computer-aided circuit analysis for these devices and circuits. LEC/REC

Click here to see ABET syllabus about this course.

 

EE 311 Electronic Devices and Circuits II

Credits:  3
Semester: Sp
Prerequisites:  EE310
Corequisites:  None

Differential and multistage amplifiers with bipolar junction transistors (BJT) and field-effect transistors (FET). Biasing in integrated circuits and active loads. Frequency response of common-emitter (common-source), common-base (common-gate), common-collector (common-drain) single BJT (FET) stages. Frequency response of differential-pair, cascode, and multistage circuits. Selection of coupling and bypass capacitors. Analog integrated circuits. Metal-Oxide-Semiconductor (MOS) digital circuits with emphasis on CMOS. LEC/LAB

 

EE 312 Basic Electronic Instrumentation Laboratory
Credits:  2
Semester: F
Prerequisites:  None
Corequisites:  EE310

For computer engineering and other non-EE majors. Designed to help students develop the ability to understand and be able to use basic electronic instrumentation at the first-semester-junior level. At the end of the course, the students should be able to design, assemble, and use basic electronic circuits. In addition, students should be able to maintain a laboratory notebook and prepare formal reports on experiments. LEC/LAB

 

EE 324 Applied Electromagnetics

Credits:  4
Semester: F Sp
Prerequisites:  PHY108, EE202, MTH241
Corequisites:  None

Topics include vector calculus; electric fields; charge distributions; dielectrics, energy, forces in the presence of dielectrics; Laplace’s and Poisson’s equations; magnetostatics; Faraday’s induction law; time-dependent phenomena; waves. LEC/REC

 

EE 352 Introduction to Electronics Lab
Credits:  3
Semester: F
Prerequisites:  None
Corequisites:  EE310

For EE majors. Topics include instrumentation; characteristics of electronic components; analysis and design of basic rectifiers, filters, regulators, power supplies, and power controllers; operational amplifiers; optical signal coupling. LEC/LAB

Click here to see ABET syllabus about this course.

 

EE 353 Electronic Circuits Lab

Credits:  3
Semester: Sp
Prerequisites:  EE352
Corequisites:  EE311

An engineering design lab. Fifty-minute lecture and 230-minute lab per week. Analysis and design of single and multistage electronic circuits using FETs, BJTs, and op amps. Asks students to design a variety of amplifiers to meet certain specifications. They practice SPICE and use their knowledge of analog circuits to complete the projects. LEC/LAB

Click here to see ABET syllabus about this course.

 

EE 378 Digital Principles

Credits:  3
Semester: F
Prerequisites:  EE202
Corequisites:  EE310

Topics include number systems; arithmetic; codes; Boolean algebra; minimization techniques; logic design; programmable logic devices; memory devices; registers; counters; synchronous sequential networks. LEC