Electrical Engineering Technology Bachelors Degree

Electrical Engineering Technology prepares graduates to enter the technical workforce in a variety of fields. Electrical Engineering Technology graduates are typically involved in areas such as: development, design, quality assurance, technical documentation, production, maintenance, test, field service, or technical sales.

Students are required to take one project-based capstone course as part of their 13 hours of electives. Contact the department to obtain a list of acceptable project-based capstone courses. Any non-required upper division (3XXX/4XXX) ECET course, with the exception of ECET 3000, may be used for the remainder of their EET electives. Students may also choose one department approved course from outside their major to count as an EET elective.

  • Program educational objectives are broad statements that describe career and professional accomplishments that the program prepares graduates to achieve during the first few years following graduation. Graduates of electrical engineering technology will:

    1. Possess an appropriate knowledge of the fundamentals of electrical engineering technology, mathematics, science and technologies in order to adapt to rapidly changing technologies.
    2. Function and communicate effectively, both individually and within team, demonstrating ethical, respectful and professional behavior in all environments and associations.
    3. Apply creativity in design, testing and maintenance of electrical engineering technology systems, and think critically to identify, evaluate and solve complex technical and non-technical problems.
    4. Recognize the need for a commitment to pursue continuous self-improvement and lifelong learning.
    5. Be cognizant of contemporary professional, societal and global issues and be aware of and respect diverse cultures.
    6. Obtain and maintain a meaningful employment in their respective disciplines and attain increasing levels of responsibility and leadership in chosen career fields.
  • Student outcomes describe the knowledge and skills acquired by students who complete the program. Students completing the mechanical engineering technology program will have:

    1. An ability to apply knowledge, techniques, skills and modern tools of mathematics, science, engineering, and technology to solve broadly-defined engineering problems appropriate to the discipline.
    2. An ability to design systems, components, or processes meeting specified needs for broadly-defined engineering problems appropriate to the discipline.
    3. An ability to apply written, oral, and graphical communication in broadly-defined technical and non-technical environments; and an ability to identify and use appropriate technical literature.
    4. An ability to conduct standard tests, measurements, and experiments and to analyze and interpret the results to improve processes.
    5. An ability to function effectively as a member as well as a leader on technical teams.

Curriculum

General Education (42 Credit Hours)

See listing of requirements in the KSU Catalog.

    • COM 1100 - Human Communication
       
    • MATH 1112 - College Trigonometry
      or
    • MATH 1113 - Precalculus
       
    • MATH 1190 - Calculus I
    • PHYS 2211 - Principles of Physics I *
    • PHYS 2211L - Principles of Physics Laboratory I *
    • PHYS 2212 - Principles of Physics II *
    • PHYS 2212L - Principles of Physics Laboratory II *

    Note:

    * PHYS 1111, PHYS 1111L and PHYS 1112/PHYS 1112L may be substituted for PHYS 2211/PHYS 2211L and PHYS 2212/PHYS 2212L.

Lower Division Major Requirements

    • EDG 1210 - Survey of Engineering Graphics
    • TCOM 2010 - Technical Writing
    • MATH 2202 - Calculus II
    • MATH 2306 - Ordinary Differential Equations
    • CHEM 1211 - General Chemistry I
    • CHEM 1211L - General Chemistry I Laboratory
    • Two Credit Hours from Area D

Required Courses Specific to the Major

    • ECET 1001 - Orientation
    • ECET 1012 - Design Fundamentals
    • ECET 1012L - Design Fundamentals Lab
    • ECET 1101 - Circuits I
    • ECET 1101L - Circuits I Lab
    • ECET 1200 - Digital I
    • ECET 1200L - Digital I Lab
    • ECET 2111 - Circuits II
    • ECET 2111L - Circuits II Lab
    • ECET 2210 - Digital II
    • ECET 2210L - Digital II Lab
    • ECET 2300 - Electronics I
    • ECET 2300L - Electronics I Lab
    • ECET 2310 - Electronics II
    • ECET 2310L - Electronics II Lab
    • ECET 3400 - Data Communications
    • ECET 3400L - Data Communications Lab
    • ECET 3410 - High Frequency Systems
    • ECET 3410L - High Frequency Systems Lab
    • ECET 3500 - Survey of Electric Machines
    • ECET 3500L - Survey of Electric Machines Lab
    • ECET 3600 - Test Engineering
    • ECET 3600L - Test Engineering Lab
    • ECET 3620 - Signals and Systems Analysis
    • ECET 3620L - Signals and Systems Analysis Lab
    • ECET 3710 - Hardware Programming and Interfacing
    • ECET 3710L - Hardware Programming and Interfacing Lab
    • ECET 4610 - Control Systems
    • ECET 4610L - Control Systems Lab

Electrical Engineering Technology Electives (13 Credit Hours)

Students may take a combination of any 3000 or 4000 level ECET or REET course approved by the department chair to meet 13 credit hours. Students must take ECET 4900 Senior Capstone Design as an elective. Students may wish to focus their EET electives in a particular area of Electrical Engineering Technology. Suggested choices in the areas of communications, embedded systems, and power, are listed below:

    • ECET 4320 - Active Filters
    • ECET 4320L - Active Filters Lab
    • ECET 4330 - Audio Technology
    • ECET 4330L - Audio Technology Lab
    • ECET 4420 - Communications Circuit Applications
    • ECET 4420L - Communications Circuit Applications Lab
    • ECET 4431 - Wireless Communications Systems
    • ECET 4431L - Wireless Communications Systems Lab
    • ECET 4820 - Communications Networks and the Internet
    • ECET 4820L - Communications Networks and the Internet Lab
    • ECET 4840 - Advanced Telecommunications
    • ECET 3220 - Digital III
    • ECET 3640 - Introduction to Systems Engineering and Robotics
    • ECET 3701 - Embedded Systems
    • ECET 3701L - Embedded Systems Lab
    • ECET 3810 - Applications of C++, JAVA and HTML
    • ECET 3810L - Applications of C++, Java, and HTML Lab
    • ECET 4630 - Digital Signal Processing
    • ECET 4720 - Distributed Microcontrollers and PCs
    • ECET 4730 - VHDL and Field Programmable Gate Arrays
    • ECET 4820 - Communications Networks and the Internet
    • ECET 4820L - Communications Networks and the Internet Lab
    • ECET 4510 - Power System Analysis
    • ECET 4520 - Industrial Distribution Systems, Illumination, and the NEC
    • ECET 4530 - Industrial Motor Control
    • ECET 4540 - Introduction to Power Electronics
    • ECET 4560 - Electric Drives
    • ECET 4510L - Power System Analysis Lab
    • ECET 4515 - Power Distribution Systems
    • ECET 4515L - Power Distribution Systems Lab
    • ECET 4540L - Introduction to Power Electronics Lab
    • REET 3030 - Energy Storage Systems
    • REET 4100 - Solar Photovoltaics
    • REET 4110 - Solar Thermal Systems
    • REET 4200 - Wind Power Generation
    • REET 4210 - Oceanic and Hydropower Generation
    • REET 4500 - Environmental Aspects of Power Generation
    • REET 4510 - Sustainable Transportation Systems

Program Total (128 Credit Hours)

 

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