Summer Session

EEO 124: C Prog for EE

Undergraduate 3 credits

Prerequisites: C or higher in AMS 151 or MAT 131 or 141, or level 7 on the mathematics placement exa mination; EEO Major

An introductory computer programming course using the ANSI C language with emphasis on topics of interest to electrical engineers. Subjects include data types, operations, program control structures, functions, data files, numerical techniques, pointers, structures, and bit operations. Students gain experience in applying the C language to the solution of a variety of electrical engineering problems. May not be taken for credit in addition to ESE 124.

EEO 218: Digital Logic Design

Undergraduate 3 credits

Prerequisite: PHY 132

SBC: TECH

Develops methods of analysis and design of both combinational and sequential systems regarding digital circuits as functional blocks. Topics include: number systems and codes; switching algebra and switching functions; standard combinational modules and arithmetic circuits; realization of switching functions; latches and flip-flops; standard sequential modules; memory, combinational, and sequential PLDs and their applications; design of system controllers. May not be taken for credit in addition to ESE 118.

EEO 219: Digital Logic Design Lab

Undergraduate 1 credit

Pre- or corequisite: EEO 218

The digital circuits are designed and simulated with CAD tools, assembled on a breadboard and verified with a logic analyzer. May not be taken for credit in addition to ESE 118.

EEO 224: OOP for Elec & Comp Eng

Undergraduate 3 credits

Prerequisite: EEO 124 or equivalent

An introduction to object oriented programming using the C++ language. Key aspects of object oriented programming including polymorphism, encapsulation, data hiding, and inheritance will be discussed, as will the difference between procedural and object oriented programming. Good practices to enable effective collaboration and code reuse will be considered. The use of C++ as a hardware description language will be briefly described. Students gain experience in applying the C++ language to the solution of a variety of electrical and computer engineering problems. May not be taken for credit in addition to ESE 224.

EEO 271: Electrical Circuit Analysis

Undergraduate 3 credits

Prerequisites: C or higher in AMS 151 or MAT 131 or 141, or level 7 on the mathematics placement exa mination; EEO Major Corequisite: PHY 132

The course covers the following topics: passive circuit elements: resistors, capacitors, inductors. Elements of circuit topology. Kirchhoff's and Ohm's law. Nodal and mesh analysis. Equivalent circuits. Steady-state AC circuits. Phasors. Transient analysis. Laplace transforms. Fundamentals of AC power, coupled inductors (transformers). Not for credit in addition to ESE 271.

EEO 300: Tech Comm EE Eng

Undergraduate 3 credits

Prerequisites: WRT 102 or equivalent and EEO 353

Topics include how technical writing differs from other forms of writing, the components of technical writing, technical style, report writing, technical definitions, proposal writing, writing by group or team, instructions and manuals, transmittal letters, memoranda, abstracts and summaries, proper methods of documentation, presentations and briefings, and analysis of published engineering writing. Also covered are the writing of resumes and cover letters. May not be taken for credit in addition to ESE 300.

EEO 301: Signals and Systems

Undergraduate 3 credits

Prerequisites: EEO 271 and MAT 303 or AMS 361

Introduction to signals and systems. Manipulation of simple analog and digital signals. Relationship between frequencies of analog signals and their sampled sequences. Sampling theorem. Concepts of linearity, time-invariance, causality in systems. Convolution integral and summation; FIR and IIR digital filters. Differential and difference equations. Laplace transform, Z-transform, Fourier series and Fourier transform. Stability, frequency response and filtering. Provides general background for subsequent courses in control, communication, electronics, and digital signal processing. Not for credit in addition to ESE 305.

EEO 302: Eng Ethics Soc Impact

Undergraduate 3 credits

Prerequisite: one D.E.C. E or SNW course

SBC: STAS

The study of ethical issues facing engineers and engineering related organizations and the societal impact of technology. Decisions involving moral conduct, character, ideals and relationships of people and organizations involved in technology. The interaction of engineers, their technology, the society and the environment is examined using case studies. Introduction to patents and patent infringement using case studies. May not be taken for credit in addition to ESE 301.

EEO 306: Random Signals & Systems

Undergraduate 3 credits

Prerequisite: EEO 301

Random experiments and events; random variables, probability distribution and density functions, continuous and discrete random processes; Binomial, Bernoulli, Poisson, and Gaussian processes; system reliability; Markov chains; elements of queuing theory; detection of signals in noise; estimation of signal parameters; properties and application of auto-correlation and cross-correlation functions; power spectral density; response of linear systems to random inputs. May not be taken for credit in addition to ESE 306.

EEO 315: Electronics Circuits I

Undergraduate 3 credits

Prerequisites: EEO 271; AMS 361 or MAT 303

This is the first integrated circuits class that introduces the students to the fundamentals of the non-linear devices and design of IC amplifiers. The course starts with the introduction to the device physics, operation and modeling of a diode. Operation of MOS transistor, derivation of the large-signal transistor current as a function of the terminal voltages in different regions of operation is then presented, along with the small-signal model. Single-stage amplifier structures are explored, along with the introduction of the implementation of current source and current mirror. Frequency-response of common-source amplifier is presented. The concepts of multi-stage amplification and differential pair are introduced. Operation modeling of bipolar transistors are presented, along with the common-emitter amplifier. Comparison of MOS and BJT transistor and performance of common-source and common-emitter is presented. Not for credit in addition to ESE 273.

EEO 331: Semiconductor Devices

Undergraduate 3 credits

Prerequisites: AMS 361 or MAT 303; PHY 127/134 or PHY 132/134 or PHY 142

The course covers physical principles of operation of semiconductor devices. Energy bands and energy band diagram, carrier densities, transport properties, generation recombination phenomena in bulk semiconductors, and the continuity equation are covered first. Equipped with an understanding of the character of physical phenomena in semiconductors, students learn the principles of operation, current-voltage characteristics, and nonidealities of p-n junction diodes, metal-semiconductor contacts, bipolar junction transistors, and field effect transistors. Not for credit in addition to ESE 331.

EEO 346: Computer Communications

Undergraduate 3 credits

Pre- or Corequisite: EEO 306

Basic theory and technology of computer communications. Introduction to performance evaluation, error codes and routing algorithms. Introduction to queueing theory, machine learning for networking and network planning. Other topics include Ethernet, wireless networks including LTE, 5G and 6G, fiber optic networking, software defined networking, networking on chips, space networks, data centers, grids and clouds. Not for credit in addition to CSE 310 or ISE 316 or ISE 317 or ESE 346.