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Bachelor of Science in Engineering, Electrical Engineering Major

Electrical engineering is a dynamic field that encompasses the design and build of electronic devices and systems. This multifaceted discipline spans a broad spectrum including analog and digital circuits, embedded systems, semiconductor devices and microelectronics, controls and instrumentation, power and alternative energy, communication and signal processing, and electromagnetics. Electrical engineers are adept at designing, analyzing, and solving complex challenges across various applications, such as robotics and automation, autonomous vehicles, Internet of things (IoT), green energy, avionics, and commercial and industrial electronics.

The junior and senior years of the electrical engineering program build upon the foundations courses to provide greater depth in engineering science, engineering design, and the program areas of electrical engineering. Students complete six required courses and four electrical engineering elective courses distributed in different areas of electrical engineering.

Integral to all four years of the program is a "design and build" educational philosophy incorporated through extensive laboratory and project activities as preparation for professional practice. Students engage in design at all levels of the curriculum. At each level, they must realize their designs and proceed with testing, validation, and redesign. This approach allows students to experience many real-world constraints such as project economics, project planning and scheduling, environmental considerations, manufacturability/producibility of the designs, laboratory and product safety, and product reliability.

Accreditation

The B.S.E. electrical engineering program is accredited by the Engineering Accreditation Commission of ABET, www.abet.org.

Program Educational Objectives

Graduates will demonstrate an ability to

• demonstrate technical competency in their careers;
• function effectively in an industrial or academic environment;
• engage in professional development; and
• shape their professions and societies.

Student Outcomes and Assessment

The graduate will demonstrate an ability to

• identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics;
• apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors;
• communicate effectively with a range of audiences;
• recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts;
• function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives;
• develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions; and
• acquire and apply new knowledge as needed, using appropriate learning strategies.

Degree Requirements

Electrical engineering students must complete all requirements for the B.S.E. degree including the general education requirements, the foundations of engineering courses, cooperative education, the engineering design Capstone, and the following electrical engineering courses:

Required Courses

• EGR 314 - Circuit Analysis II (4 credits)
• EGR 315 - Electronic Circuits I (4 credits)
• EGR 323 - Signals and Systems Analysis (3 credits)
• EGR 326 - Embedded System Design (4 credits)
• EGR 330 - Power Systems Analysis (4 credits)
• EGR 343 - Applied Electromagnetics (4 credits)

Elective Courses

Complete four elective courses from the lists that follow. A minimum of three courses must be from the core EE electives. The fourth course may be from the core EE electives, computer engineering electives, biomedical engineering electives, or manufacturing engineering electives as follows.

Core EE Electives

• EGR 415 - Communication Systems (4 credits)
• EGR 418 - Radio Frequency Systems (4 credits)
• EGR 423 - Digital Signal Processing Systems (4 credits)
• EGR 430 - Electromechanics (4 credits)
• EGR 436 - Embedded Systems Interface (4 credits)
• EGR 443 - Electromagnetic Compatibility (4 credits)
• EGR 455 - Automatic Control (4 credits)
• EGR 457 - Fundamentals of Nanotechnology (4 credits)
• EGR 458 - Introduction to Fiber Optics (4 credits)

Computer Engineering Electives

• EGR 424 - Design of Microcontroller Applications (4 credits)
• EGR 425 - RISC Architecture (4 credits)
• EGR 426 - Integrated Circuit Systems Design (4 credits)

Biomedical Engineering Electives

• EGR 432 - Biomedical Imaging and Image Processing (3 credits)
• EGR 433 - Electronic Instrumentation for Biomedical Applications (3 credits)
• EGR 434 - Bioelectric Potentials (3 credits)

Manufacturing Engineering Electives

• EGR 450 - Manufacturing Control Systems (4 credits)

Suggested Order of Coursework for the Electrical Engineering Major

Final Three Years

Third Academic Semester

Fall:

• EGR 224 - Introduction to Digital System Design (3 credits)
• EGR 226 - Microcontroller Programming and Applications (3 credits)
• EGR 227 - Microcontroller Programming and Applications Lab (1 credit)
• EGR 289 - Engineering Professionalism (1 credit)
• MTH 203 - Calculus III (4 credits)
• PHY 231 - Principles of Physics II (5 credits) OR PHY 234 - Engineering Physics (4 credits)

Fourth Academic Semester

Winter:

• EGR 214 - Circuit Analysis I (3 credits)
• EGR 215 - Circuit Analysis I Lab (1 credit)
• EGR 223 - Probability and Signal Analysis (3 credits)
• EGR 257 - Electronic Materials and Devices (4 credits)
• MTH 302 - Linear Algebra and Differential Equations (4 credits)

First Co-op Semester

Spring/Summer:

• General education-Global Perspectives
• EGR 290 - Engineering Co-op 1 (3 credits)

Fifth Academic Semester

Fall:

• EGR 314 - Circuit Analysis II (4 credits)
• EGR 315 - Electronic Circuits I (4 credits)
• EGR 326 - Embedded System Design (4 credits)
• General education (3 credits)

Second Co-op Semester

Winter:

• General education-Issues (3 credits)
• EGR 390 - Engineering Co-op 2 (3 credits)

Sixth Academic Semester

Spring/Summer:

• General education (3 credits)
• ECO 210 - Introductory Macroeconomics (3 credits) OR ECO 211 - Introductory Microeconomics (3 credits)
• EGR 323 - Signals and Systems Analysis (3 credits)
• EGR 330 - Power Systems Analysis (4 credits)
• EGR 343 - Applied Electromagnetics (4 credits)

Third Co-op Semester

Fall:

• General education (3 credits)
• Electrical engineering elective
• EGR 490 - Engineering Co-op 3 (3 credits)

Seventh Academic Semester

Winter:

• Electrical engineering elective
• Electrical engineering elective
• EGR 485 - Senior Engineering Project I (Capstone) (1 credit)

The prerequisites for EGR 485 are acceptance into the B.S.E. degree program and completion of the prerequisite courses listed under the student's engineering major.

The prerequisites for the electrical engineering major are: EGR 315, EGR 323, EGR 326, EGR 330, EGR 343, and EGR 390.

Eighth Academic Semester

Spring/Summer:

• Electrical engineering elective
• General education (6-9 credits)
• EGR 486 - Senior Engineering Project II (Capstone) (2 credits)

Engineering Program Description

Click here for the program description.