EE 301 Linear Systems Analysis (3)
Fourier analysis. Fourier and Laplace analysis with applications. Transfer functions. Pole-zero locations and system response. Development and use of Bode plots. 3 lectures. Prerequisite: EE 212, MATH 317. Concurrent: EE 341.
EE 302 Linear Control Systems (3)
Automatic feedback control systems. Analysis of linear dynamic systems. 3 lectures. Prerequisite: EE 301. Concurrent: EE 342.
EE 303 Power Transmission (3)
Electrical characteristics of three-phase overhead and underground power transmission lines. Development of models for different types of lines as well as interconnected power systems. Introduction of per unit calculations. Introduction of computer simulation methods. 3 lectures. Prerequisite: EE 301.
EE 304 Random Signals and Noise (3)
Probabilistic treatment of signals and noise in electrical engineering. Topics include the concept of probability, sample space, distributions, random variables, independence, moments, covariance, random processes, time and ensemble averages, stationarity, common processes, correlation functions, spectra, shot and thermal noise, filtering. 3 lectures. Prerequisite: EE 301.
EE 307 Digital Integrated Electronics (3)
Integrated logic circuits: RTL, DTL, TTL, I2L, ECL, MOS, CMOS, interfacing different logic families. 3 lectures. Prerequisite: EE 208, EE 219. Concurrent: EE 347.
EE 308 Electronic Circuits (3)
Analysis and design of linear small-signal amplifiers. 3 lectures. Prerequisite: EE 208, EE 301. Concurrent: EE 348.
EE 309 Integrated Electronic Circuits (3)
Analysis and design of feedback amplifiers; operational amplifier applications. Design of analog/digital and digital/analog converters. Power supply design. Emphasis on IC implementation. 3 lectures. Prerequisite: EE 302, EE 308. Concurrent: EE 349.
EE 313 Signal Transmission (3)
Distributed-circuit concepts and traveling waves. Transmission line parameters. Lines with and without reflection. Standing waves. Smith Chart and its applications. Transmission line measurements and impedance matching techniques. 3 lectures. Prerequisite: EE 301. Concurrent: EE 353.
EE 319 Digital System Design (3) (Also listed as CPE 319)
Introduction to the design of digital systems utilizing state-machines; analysis and synthesis of state-machines. Design of synchronous, asynchronous, and pulse mode sequential logic circuits. Practical considerations of digital system design and implementation. Emphasis on the use of PLDs and hardware description language for implementation technology. Considerations of testing of digital systems as a part of design. 3 lectures. Prerequisite: EE 219, EE 307. Concurrent: EE 359.
EE 321 Electronics (3)
Semiconductor devices and circuits. Instrumentation amplifiers, power control rectifiers, feedback, pulse circuits, digital logic circuits. Not for Electrical Engineering majors. 3 lectures. Prerequisite: EE 201.
EE 325 Energy Conversion Electromagnetics (3)
Fundamentals of electro-mechanical energy conversion. Magnetic circuits and electromagnetic devices. Theory of operation and operating characteristics of transformers, DC machines, AC induction machines, and synchronous machines. Stepper motors. 3 lectures. Prerequisite: EE 212 or EE 201, PHYS 133. Concurrent: EE 365.
EE 327 Electronic Instrumentation and Measurement (4)
Principles and characteristics of instruments and instrumentation systems; analog and digital transducers; A/D conversion; data and signal transmission and amplification problems. Low level signal, high frequency signal, and high accuracy signal measurement problems. Automated instrumentation systems. 3 lectures, 1 laboratory. Prerequisite: EE 301, EE 308.
EE 328 Discrete Time Systems (3)
Discrete-time signals and the sampling theorem, basic systems concepts, solution of linear difference equations, Z transform. Discrete-time Fourier Transform, Discrete Fourier Transform (DFT). Cyclic convolution application of transforms to system analysis. Introduction to digital filtering. Relationships of digital filters to their continuous-time counterparts. 3 lectures. Prerequisite: EE 301.
EE 334 Electromagnetic Fields I (3)
Advanced treatment of static vector electric and magnetic fields and their sources. Magnetic fields in ferromagnetic materials. Laplace's equation and boundary value problems. 3 lectures. Prerequisite: PHYS 133, MATH 317.
EE 341 Linear Analysis Laboratory (1)
Fourier analysis. Two-port networks, frequency response and Bode plots. 1 laboratory. Prerequisite: EE 242. Concurrent: EE 301.
EE 342 Control Systems Laboratory (1)
Laboratory work in feedback control systems. 1 laboratory. Prerequisite: EE 341. Concurrent: EE 302.
EE 347 Digital Integrated Electronics Laboratory (1)
Experimental investigation of the characteristics of different logic families. 1 laboratory. Prerequisite: EE 248. Concurrent: EE 307.
EE 348 Electronic Circuits Laboratory (1)
Design, construction and testing of solid state amplifier to meet stated specifications. 1 laboratory. Prerequisite: EE 248, EE 341. Concurrent: EE 308.
EE 349 Integrated Electronic Circuits Laboratory (1)
Design of electronic subsystems using integrated circuits. 1 laboratory. Prerequisite: EE 342, EE 348. Concurrent: EE 309.
EE 353 Signal Transmission Laboratory (1)
Transmission and reflection measurements. Impedance matching techniques. 1 laboratory. Prerequisite: EE 341. Concurrent: EE 313.
EE 359 Digital System Design Laboratory (1) (Also listed as CPE 359)
Laboratory synthesis of combination and sequential logic circuits. Implementation with PLDs and hardware description language. Sequential analysis with the logic state analyzer. Fault testing and automated checkout procedures. Familiarization with the characteristics of SSI and MSI logic components. 1 laboratory. Prerequisite: EE 259, EE 347. Concurrent: EE 319.
EE 361 Electronics Laboratory (1)
Instrumentation amplifiers, feedback, rectifiers and power control, pulse and digital logic circuits. 1 laboratory. Prerequisite: EE 251. Concurrent: EE 321.
EE 365 Energy Conversion Laboratory (1)
Single-phase and three-phase transformers. Starting of rotating machines, evaluation of characteristics of rotating machines. 1 laboratory. Prerequisite: EE 242 or EE 251. Concurrent: EE 325.