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Bachelor of Science in Electrical and Computer Engineering

Engineers provide products and services that serve the needs of humanity. Engineers see problems and challenges as opportunities in disguise.

Engineering graduates are highly sought after for their critical thinking, communication and team skills and are thus well compensated. Engineering degrees prepare students for the broadest number of outcomes. In addition to a growing variety of engineering jobs, engineering students use their training as doctors, lawyers, teachers, professors, missionaries, military officers, business entrepreneurs and salespeople. The College of Engineering offers ABET accredited BS degrees in Civil Engineering, Electrical and Computer Engineering and Mechanical Engineering. Other degrees that are offered in various stages of seeking secondary accreditation are Chemical Engineering (new in 2013!), Construction Management and General Engineering (with concentrations in bioengineering, business, global applications, pre-law, or pre-med). Note: secondary accreditation cannot be obtained until about 16 months after the first graduates. Additional degrees currently in the advanced planning stages are a BS Software Engineering, and a BS Biomedical Engineering.

College of Engineering Program Educational Objectives

Electrical and Computer Engineering Student Outcomes

College of Engineering Home

Electrical and Computer Engineering Degree (124-134 units) BSECE

General Education Courses

The general education requirements will follow the curriculum set forth for other university programs. Some general education requirements will be met through specific electrical and computer engineering requirements. Approximately twenty-seven (27) units of general education are not met in the specific core and electrical and computer engineering requirements.

Lower Division Core Engineering Requirements (15 units)

EGR101 Engineering Christian Worldview

Serves as an introduction to the exciting field and vocation of engineering and the value of engineering training. Guest lectures from engineers, and introduction to teams through a group project will be included. Exploration of the concept of worldview from a Christian perspective is stressed. Emphasis will include Christian perspectives on purpose, integrity, discernment and service as they relate to the vocation of engineering.An assessment of ones learning style, temperament and potential strengths and weaknesses as part of self discovery will be included. The first course required of all students considering engineering as a major. (3 units, Interdisciplinary, Multicultural, Fall)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR101-D	D	Donaldson, Anthony L.	09/03/2013	Thursday	11:00 AM - 12:20 PM	Engr Building 3739 Adams 100K
Fall 2013	EGR101-E	E	TBA	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR101-F	F	TBA	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR101-B	B	Anklam, Mark R.	09/03/2013	Thursday	9:30 AM - 10:50 AM	Engr Building 3739 Adams 100K
Fall 2013	EGR101-C	C	Mills-Beale, Julian N.	09/03/2013	Thursday	8:00 AM - 9:20 AM	Engr Building 3739 Adams 100K
Fall 2013	EGR101-A	A	Rickard, Matthew J.	09/03/2013	Thursday	9:30 AM - 10:50 AM	Engr Building 3739 Adams 210D

EGR103 Engineering Service I

Taking engineering out into the community through service. Activities important to the community will be addressed by teams of engineering students. Sample possibilities include: 1) designing a booth for a engineering firm for the fall STEP event in Riverside, 2) judging local science fairs, 3) working on a Habitat for Humanity house, 4) assisting local high school engineering clubs, 5) addressing a local community issue like transportation, energy usage, after school activities for youth etc. Intended to stimulate ideas of engineering design classes. Reflection paper and final report evaluated for acceptance into the major in the spring of the sophomore year.May be repeated for credit. Pre- or Co-requisite: EGR 101. (1-3 units, Fall)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR103-D	D	Gonzalez, Cassondra Rose	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR103-E	E	TBA	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR103-F	F	Gonzalez, Cassondra Rose	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR103-H	H	Gonzalez, Cassondra Rose	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR103-I	I	Gonzalez, Cassondra Rose	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR103-J	J	Gonzalez, Cassondra Rose	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR103-C	C	Gonzalez, Cassondra Rose	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR103-G	G	Gonzalez, Cassondra Rose	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR103-B	B	Gonzalez, Cassondra Rose	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR103-A	A	Gonzalez, Cassondra Rose	09/03/2013	Array	Array - Array	TBA Array

EGR121 Intro Computer Programing C++

Introduction to computer science. Covers problem solving methods and algorithm development; modern programming methodologies; and fundamentals of high-level block structured language using C++. Prerequisite: MAT 115 and his/her demonstrable computer literacy. (3 units; Interdisciplinary; Fall/Spring)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR121-C	C	TBA	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR121-A	A	TBA	09/03/2013	Monday, Wednesday, Friday	8:00 AM - 8:50 AM	Engr Building 3739 Adams 100J
Fall 2013	EGR121-B	B	TBA	09/03/2013	Monday, Wednesday, Friday	3:00 PM - 3:50 PM	Engr Building 3739 Adams 100J

EGR122 Visualization Languages I

Engineering is a discipline which requires the effective communication of visual information as part of persuasion or education. Excel (beginning and advanced techniques), Visual Basic and a CAD program will be covered to assist in that process for a real current engineering problem of interest. For example this might include the utilization of solar power in Riverside County to address energy consumption concerns. This course lays the foundation for future courses which have elements of data and information presentation. (3 units; Interdisciplinary; Fall/Spring)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR122-C	C	Gordon, Mark T	09/03/2013	Monday, Wednesday, Friday	4:00 PM - 4:50 PM	Engr Building 3739 Adams 100J
Fall 2013	EGR122-B	B	TBA	09/03/2013	Monday, Wednesday, Friday	9:00 AM - 9:50 AM	Engr Building 3739 Adams 100J
Fall 2013	EGR122-A	A	TBA	09/03/2013	Monday, Wednesday, Friday	11:00 AM - 11:50 AM	Engr Building 3739 Adams 100J

EGR192 Engineering Seminar

Different speakers of importance to the engineering profession will make presentations. Included are area engineering leaders and professionals as well as nationally recognized contributors to the profession of engineering. A two page 4MAT response which includes a one page executive summary will be required.Reflections should be included in the EGR 202 response.May be repeated for credit. (1 unit; Spring)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR192-A	A	Anklam, Mark R.	09/03/2013	Friday	12:00 PM - 12:50 PM	Yeager Center A112

EGR202 Worldview Reflection

A reflection paper will be submitted including your understanding of the school of engineerings mission statement. The paper will document and draw upon the materials from EGR 101,102, 103, 122 and 192 .Upon completion and acceptance a party in your honor including a book signed by your professors and given to you will occur. Required for acceptance into the major. (0 units; Spring))

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR202-A	A	Donaldson, Anthony L.	09/03/2013	Array	Array - Array	Online Array

Junior/Senior transfer students will complete EGR 301, 303, and 392. All other students will complete EGR 102, 103, and 192.

Upper Division Core Engineering Requirements (14 units)

EGR302 Engineering Design & Documentatn

Team design and construction of industrial or self-designed projects. Requires design, development, construction and testing with oral and written reports. Includes review and analysis of professional papers. Prerequisite: EGR 202. (3 units; Interdisciplinary; Spring)

EGR304 Leadership Cohort

Preparation for a lifetime of leadership as an engineer. Small group discussion format, with opportunities for student facilitated discussions will be provided. Topics include: leadership in organizations, emotional intelligence, the psychology of small group dynamics and team performance, global perspectives of engineering.Written executive summaries as part of a 4MAT like response will be required prior to discussion. Corequisite: EGR 302 or EGR 352. (1 unit; Interdisciplinary, Multicultural; Spring)

EGR305 Engineering Statistics

An introduction to the primary statistical and probabilistic models used in the collection and interpretation of engineering data. The focus is on summary techniques, regression models, application of the Central Limit Theorem, confidence intervals, and recurrence intervals.Monte Carlo simulation techniques are used to estimate the failure likelihood of an engineering system. Prerequisite: MAT 245. (2 units; Interdisciplinary; Fall)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR305-B	B	Kim, Seung-Jae	09/03/2013	Tuesday, Thursday	2:00 PM - 2:50 PM	Engr Building 3739 Adams 100J
Fall 2013	EGR305-A	A	Kim, Seung-Jae	09/03/2013	Tuesday, Thursday	12:30 PM - 1:20 PM	Engr Building 3739 Adams 100J

EGR306 Internship Preparation

Designed to prepare you for the official internship during your junior summer. Discussion and development of the individuals priorities for their learning contract. Topics include: resume and internship writing, finding an internship, how you will be assessed as an intern, the psychology of the workplace, different types of bosses and working on teams, and the different types of work environment. Pre- or Co- requisite: EGR 202. (1 unit; Interdisciplinary, Multicultural; Spring)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR306-A	A	Donaldson, Anthony L.	09/03/2013	Monday	12:00 PM - 12:50 PM	Yeager Center A112

EGR390 Internship

A required internship with industry, research, non profit or other experience with a minimum of 200 hours of supervised work. A learning contract signed by the student and supervisor is required at the beginning and an executive summary written by the student and signed by the supervisor is required at completion. (0 units)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR390-A	A	Donaldson, Anthony L.	09/03/2013	Array	Array - Array	Instructor OFFC

EGR401 Capstone Design

The first of a two course senior capstone design sequence. Student teams select a project which may involve company sponsorship, and proceed through the design methodology introduced in earlier design classes. Every project has a customer which requires the generation of a customer spec.During the sequence students provide detailed schedules for building a prototype system and present weekly progress reports. They also produce technical specifications, undergo a preliminary design review (PDR) and build a working prototype system. Prerequisite: EGR 302 or 352. Fall)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR401-C	C	TBA	09/03/2013	Monday	2:00 PM - 4:50 PM	Engr Building 3739 Adams 210D
Fall 2013	EGR401-B	B	Xu, Xuping	09/03/2013	Monday	2:00 PM - 4:50 PM	Engr Building 3739 Adams 100L
Fall 2013	EGR401-A	A	Pontius, Frederick W.	09/03/2013	Wednesday	3:00 PM - 5:50 PM	Engr Building 3739 Adams 110D

EGR402 Capstone Design & Presentation

A continuation of EGR 401.Development and implementation of their project. Includes testing,documentation, and final presentation methodology. Teams author and generate operations manuals, detailed technical manuals and a poster sized presentation board for public display.A final presentation is given to the public includingmembers of the engineering advisory council.The presentation will be videotaped and included as a part of your senior portfolio. Prerequisite: EGR 401. (3 units; Spring)

EGR403 FE Exam

As a first step in preparing you for getting a professional license, you will be required to take and pass the online Fundamentals of Engineering Exam.Two sections are included: a general examdesigned for all engineers and one specifically designed with your major in mind. Results will be used to compare the performance of your graduating class with students across the nation as part of departmental and school assessment. (0 units; Fall)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR403-A	A	Xu, Xuping	09/03/2013	Friday	2:00 PM - 2:50 PM	Sch Business Building 123

EGR404 Worldview Reflection II

A final integrative reflection paper on what you have learned about engineering froma Christian worldview perspective will be written and included in your portfolio. (0 units; Spring)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR404-A	A	Donaldson, Anthony L.	09/03/2013	Array	Array - Array	Engr Building 3739 Adams Array

EGR405 Internship Report & Presentation

An executive summary of your summer intern experience, signed by your supervisor will be submitted the first day of class. A PowerPoint presentation to the entire class and evaluated by your professors and peers will be made. A video of your presentation will be made and feedback will be provided.(1 unit; Interdisciplinary, Multicultural; Fall)

	Course	Sec	Instructor	Dates	Days	Time	Location
Summer 2013	EGR405-A	A	Donaldson, Anthony L.	05/06/2013	Array	Array - Array	Instructor OFFC
Fall 2013	EGR405-A	A	Anklam, Mark R.	09/03/2013	Wednesday	2:00 PM - 2:50 PM	Yeager Center A111

EGR406 Senior Portfolio

An electronic portfolio suitable for archiving and showing to prospective employers will be submitted. A copy will remain with the department for use in future letters of reference. Items to be included will be an updated resume, seminar reflections, samples of your design and writing capabilities including EGR 302 and 402 documentation, a sample of your presentation capabilities from EGR 402 final presentation and a record of your service activities. (0 units; Spring)

Lower Division Math and Science Requirements (23-24 units)

EGR182 Intro Math Engineering Applicatn

This course will provide an overview of the salient math topics most heavily used in the core sophomore-level engineering courses. These include algebraicmanipulation of engineering equations, trigonometry, vectors and complex numbers, sinusoids and harmonic signals, systems of equations andmatrices,within the context of an engineering application, and reinforce through extensive examples of their use in the core engineering courses. Prerequisite:MAT 115. (4 Units)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR182-H	H	TBA	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR182-D	D	Zhou, Ziliang	09/03/2013	Thursday	9:30 AM - 10:50 AM	Engr Building 3739 Adams 100J
Fall 2013	EGR182-F	F	TBA	09/03/2013	Tuesday, Thursday	1:30 PM - 2:50 PM	Engr Building 3739 Adams Array
Fall 2013	EGR182-G	G	TBA	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR182-B	B	Jung, Helen	09/03/2013	Wednesday	8:00 AM - 9:20 AM	Engr Building 3739 Adams 100J
Fall 2013	EGR182-A	A	Jung, Helen	09/03/2013	Monday	8:00 AM - 9:20 AM	Engr Building 3739 Adams 100J
Fall 2013	EGR182-E	E	Jung, Helen	09/03/2013	Wednesday	1:30 PM - 2:50 PM	Engr Building 3739 Adams 130H
Fall 2013	EGR182-C	C	Zhou, Ziliang	09/03/2013	Tuesday	9:30 AM - 10:50 AM	Engr Building 3739 Adams 100J

MAT245 Analy Geom & Calc I

Basic concepts of analytical geometry, limits and derivatives, differentials and rates, integration, definite and indefinite integrals, differentiation of logarithmic and exponential functions. Prerequisite: MAT 135, 145, EGR 182, or sufficient SAT, ACT or math placement exam scores and appropriate high school mathematics background. (4 units; Fall, Spring)

	Course	Sec	Instructor	Dates	Days	Time	Location
Summer 2013	MAT245-A	A	Thomas, Bradley G	05/06/2013	Monday, Tuesday, Wednesday, Thursday	10:30 AM - 12:20 PM	Yeager Center B111
Fall 2013	MAT245-C	C	Hernandez, Lisa	09/03/2013	Monday, Wednesday, Friday	9:00 AM - 9:50 AM	TBA Array
Fall 2013	MAT245-B	B	Cordero, Ricardo J.	09/03/2013	Monday, Wednesday, Friday	10:00 AM - 10:50 AM	TBA Array
Fall 2013	MAT245-A	A	Cordero, Ricardo J.	09/03/2013	Monday, Wednesday, Friday	9:00 AM - 9:50 AM	TBA Array
Fall 2013	MAT245-D	D	Hernandez, Lisa	09/03/2013	Thursday	9:00 AM - 9:50 AM	TBA Array
Fall 2013	MAT245-E	E	Cordero, Ricardo J.	09/03/2013	Monday, Wednesday, Friday	2:00 PM - 2:50 PM	TBA Array

MAT255 Anlytical Geometry & Calculus II

Continued study and applications of integration: volumes, lengths, surface of revolution; derivatives and integrals involving trigonometric functions, indefinite series, expansion of functions, hyperbolic functions, law of the mean, indeterminate forms, partial fractions, polar coordinates, and conic sections. Prerequisite: MAT 245. (4 units; Fall, Spring)

	Course	Sec	Instructor	Dates	Days	Time	Location
Summer 2013	MAT255-A	A	Cordero, Ricardo J.	06/17/2013	Monday, Tuesday, Wednesday, Thursday	12:00 PM - 1:50 PM	Sch Business Building 103
Fall 2013	MAT255-E	E	Thomas, Bradley G	09/03/2013	Tuesday	1:00 PM - 1:50 PM	TBA Array
Fall 2013	MAT255-B	B	Thomas, Bradley G	09/03/2013	Monday	10:00 AM - 10:50 AM	TBA Array
Fall 2013	MAT255-C	C	Thomas, Bradley G	09/03/2013	Wednesday	10:00 AM - 10:50 AM	TBA Array
Fall 2013	MAT255-A	A	Thomas, Bradley G	09/03/2013	Tuesday	10:00 AM - 10:50 AM	TBA Array

PHY201 Physics for Engineers I w/ Lab

This course covers topics such as units, vectors, motion (in one, two and three dimensions), Newton's laws of motion, work, kinetic and potential energy, momentum, impulse, collisions, conservation laws, dynamics of rotational motion, equilibrium, gravitation, and periodic motion. 6 hours per week of inquiry-based instruction. Additional lab fee. Prerequisite: MAT 145, 245 or a B or better in EGR 182. (4 units; Fall; Spring)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	PHY201-A	A	Stewart, Kyle R.	09/03/2013	Monday, Wednesday, Friday	9:00 AM - 10:50 AM	James Complex 122
Fall 2013	PHY201-B	B	Stewart, Kyle R.	09/03/2013	Monday, Wednesday, Friday	12:30 PM - 2:20 PM	James Complex 122

PHY203 Physics for Engineers II w/ Lab

This course covers topics such as fluids, temperature and ideal gas, electric charge and field, Gauss's Law, electric potential, capacitance and dielectrics, current, resistance and electromotive force, direct-current circuits, magnetic field and force, Ampere's and Faraday's laws, electromagnetic induction, inductance, alternating current circuits, and electromagnetic waves. 6 hours per week of inquiry-based instruction. Additional lab fee. Prerequisite: PHY 201.(4 units; Fall; Spring)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	PHY203-B	B	Buchholz, James R	09/03/2013	Tuesday, Thursday	1:00 PM - 3:50 PM	James Complex 121
Fall 2013	PHY203-A	A	Buchholz, James R	09/03/2013	Monday, Wednesday, Friday	12:00 PM - 1:50 PM	James Complex 121

Complete one (1) additional Lab Science (*Science/Kinesiology or Lab Science)

**Recommend BIO 146, 153, or CHE 115

Upper Division Math and Science Requirements (7 units)

EGR182 Intro Math Engineering Applicatn

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR182-H	H	TBA	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR182-D	D	Zhou, Ziliang	09/03/2013	Thursday	9:30 AM - 10:50 AM	Engr Building 3739 Adams 100J
Fall 2013	EGR182-F	F	TBA	09/03/2013	Tuesday, Thursday	1:30 PM - 2:50 PM	Engr Building 3739 Adams Array
Fall 2013	EGR182-G	G	TBA	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR182-B	B	Jung, Helen	09/03/2013	Wednesday	8:00 AM - 9:20 AM	Engr Building 3739 Adams 100J
Fall 2013	EGR182-A	A	Jung, Helen	09/03/2013	Monday	8:00 AM - 9:20 AM	Engr Building 3739 Adams 100J
Fall 2013	EGR182-E	E	Jung, Helen	09/03/2013	Wednesday	1:30 PM - 2:50 PM	Engr Building 3739 Adams 130H
Fall 2013	EGR182-C	C	Zhou, Ziliang	09/03/2013	Tuesday	9:30 AM - 10:50 AM	Engr Building 3739 Adams 100J

MAT343 Multivariable Calculus

Study and applications of vector analysis, partial differentiation, multiple integration, Jacobians, theorems of Green and Stokes, and divergence theorem. Prerequisite: MAT 255. (4 units; Fall, Spring)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	MAT343-B	B	Pankowski, Franciszek	09/03/2013	Friday	9:00 AM - 9:50 AM	TBA Array
Fall 2013	MAT343-A	A	Pankowski, Franciszek	09/03/2013	Thursday	9:00 AM - 9:50 AM	TBA Array

Cross Cultural Experience Requirement (0 units)

Engineering students are required to complete an approved cross cultural experience. Course credit is not required. A list of approved experiences are available in the College of Engineering.

Lower Division Electrical and Computer Engineering Requirements (15 units)

EGR221 Data Structures

Develops discipline in program design, style, debugging, testing. Examines linked data structures, trees, introduction to graphs, and recursion. Prerequisite: EGR 121. (3 units; Fall)

EGR231 Circuit Theory I

Linear circuit elements, sources, Kirchhoff s laws, mesh and node equations, Thevenin and Norton equivalent circuits, resistive network analysis, sinusoidal steady-state analysis, power, transient analysis of simple circuits. Pre- or Co-requisites: EGR 102 and either EGR 182 or MAT 245. (4 units; Fall)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR231-D	D	Foist, Rod B.	09/03/2013	Friday	9:30 AM - 10:50 AM	Engr Building 3739 Adams 130H
Fall 2013	EGR231-A	A	Chun, Seunghyun	09/03/2013	Tuesday	11:00 AM - 12:20 PM	Engr Building 3739 Adams 100J
Fall 2013	EGR231-B	B	Chun, Seunghyun	09/03/2013	Thursday	11:00 AM - 12:20 PM	Engr Building 3739 Adams 100J
Fall 2013	EGR231-C	C	Foist, Rod B.	09/03/2013	Wednesday	9:30 AM - 10:50 AM	Engr Building 3739 Adams 130H

EGR232 Circuit Theory II +Design

Analysis of networks and systems by transform and state-variable methods, two-port networks, topology, network functions, application of convolution, network synthesis, filter design. An analog design project requiring a written report, poster and presentation will be required. Prerequisite: EGR 231. (4 units; Spring)

EGR234 Digital Logic Design

Boolean algebra, number systems and representations, analysis and design of combinational and sequential logic circuits, minimization, small and medium scale integrated devices, programmable logic and simulation of digital circuits. Prerequisite: MAT 115 or above. (4 units; Spring)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR234-B	B	Xu, Xuping	09/03/2013	Thursday	10:00 AM - 10:50 AM	Engr Building 3739 Adams 100K
Fall 2013	EGR234-A	A	Xu, Xuping	09/03/2013	Friday	10:00 AM - 10:50 AM	Engr Building 3739 Adams 100K

Upper Division Electrical and Computer Engineering Requirements (33 units)

EGR321 Computer Organization

Study of organization and structuring of the major hardware and software components of computers. Includes mechanics of information transfer and control within a digital computer system. Introduces networks and communications systems, microprogramming,machine instruction sets and assembly language programming. Prerequisites: EGR 234. (3 units; Fall)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR321-A	A	Xu, Xuping	09/03/2013	Monday, Wednesday, Friday	9:00 AM - 9:50 AM	Engr Building 3739 Adams 110D

EGR322 Microcontroller System Design

Design of hardware and software for embedded systems using a modern microcontroller. Covers hardware interfacing including memory system design, interrupt interfacing, and use of internal and external peripheral devises. Emphasis is placed on assembly language programming of the microcontroller including device drivers, exception and interrupt handling, and interfacing with higher-level languages. Laboratory exercises require assembly language programming and hardware design. Prerequisites: EGR 321. (3 units; Spring)

EGR331 Signals and Systems

Study, modeling and computer simulation of electromechanical components and systems. Characterization of linear systems by impulse response, convolution, transfer function. Study of linear differential equations and linear difference equations as models. Study of continuous and discrete signals including filters and their effects. Uses transform methods including Fourier series and transforms, FFT, Laplace transforms and Z transforms. Includes computer problems. Assumes familiarity with MATLAB computer software. Prerequisites: EGR 232 and MAT 255.(3 units; Fall)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR331-C	C	Hekman, Keith A	09/03/2013	Tuesday	3:30 PM - 5:20 PM	TBA Array
Fall 2013	EGR331-A	A	Ni, Liya	09/03/2013	Wednesday	2:00 PM - 2:50 PM	Engr Building 3739 Adams 100J
Fall 2013	EGR331-B	B	Ni, Liya	09/03/2013	Friday	1:00 PM - 1:50 PM	Engr Building 3739 Adams 100J

EGR332 Communication Systems

Introduction to principles of modern communication systems with an emphasis on digital data transmission. Pulse amplitude and pulse code modulation are covered. Digital techniques of delta modulation and time division multiplexing are presented. The basics of AM, FM, and PM transmitters and receivers are treated along with noise effects, filtering, threshold effects and phase-locked loops. Common carrier, fiber optic, satellite and television systems are outlined. Local and Wide area networks are explored in depth. Prerequisite: EGR 331. (3 units; Fall)

EGR333 Electronics I

Study of electronic devices and basic circuit configurations. Topics covered include amplifier basics, diodes, field effect transistors, and bipolar junction transistors. Includes lab problems. Prerequisite: EGR 232. (3 units; Fall)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR333-B	B	Ni, Liya	09/03/2013	Thursday	11:00 AM - 11:50 AM	Engr Building 3739 Adams 100K
Fall 2013	EGR333-A	A	Ni, Liya	09/03/2013	Tuesday	11:00 AM - 11:50 AM	Engr Building 3739 Adams 100K

EGR334 Electronics II

Study of integrated-circuit amplifier design techniques, differential amplifiers, frequency response, feedback, and operational amplifiers. Special topics may include CMOS digital logic circuits, output stages and power amplifiers, filters, and oscillators. Includes lab problems. Prerequisite: EGR 333. (3 units; Spring)

EGR335 Data Acquistion, Design & Visual

Design and implementation of computer-assisted date acquisition (DAQ) systems and computer controlled instrumentation.Designs are implemented and visualized as virtual instruments using the LabVIEWGraphical Programming Language.Prerequisite: EGR 232.(3 units; Fall)

	Course	Sec	Instructor	Dates	Days	Time	Location
Fall 2013	EGR335-C	C	Hekman, Keith A	09/03/2013	Array	Array - Array	TBA Array
Fall 2013	EGR335-B	B	Hekman, Keith A	09/03/2013	Tuesday, Thursday	9:30 AM - 10:20 AM	Engr Building 3739 Adams Array
Fall 2013	EGR335-A	A	Hekman, Keith A	09/03/2013	Thursday	9:30 AM - 10:20 AM	Engr Building 3739 Adams 100L

EGR431 Control Systems

Analog control system modeling, analysis, and design using root locus and frequency response methods. Introduction to state variable methods and digital control. Includes lab projects on real-time control systems. MATLAB and SIMULINK are used extensively as design tools. Prerequisite: EGR 331.(3 units; Spring)

EGR432 Applied Electomagnetics

Vector description of the electric and magnetic properties of free space (using the laws of Coulomb, Ampere, and Faraday). Maxwell's electromagnetic field equations. Wave propagation in unbounded regions, reflection and refraction of waves, and transmission lines and antennas. Prerequisite: EGR 232.(3 units; Spring)

Additional Degree Requirements (0 units)

Successfully pass the practice FE Exam