2026-2027 Undergraduate Catalog
Department website: https://www.uwgb.edu/resch-school-of-engineering/
(Bachelor of Science)
Accreditation
The Electrical Engineering Technology program is accredited by the Engineering Technology Accreditation Commission (ETAC) of ABET, www.abet.org.
UW-Green Bay Engineering Technology
Combine hands-on learning with academic coursework and get ready for high-demand jobs in the growing field of engineering technology. The University partners with regional leaders and technical colleges so that you will be prepared for an ever-changing industry. Get the technical skills that will make you an expert and the critical-thinking skills that will make you indispensable.
Engineering Technology Programs Mission
All of the Engineering Technology programs (Electrical, Mechanical and Environmental) include a strong liberal arts base along with a number of hands-on experiences, including a capstone experience or internship that often will be working with businesses and organizations within the community.
Electrical Engineering Technology
Electrical engineering technology (EET) is the field that implements and applies principles of electrical engineering. With a greater focus on application and implementation, electrical engineering technologists help design, develop, test, and manufacture electrical and electronic equipment such as communication equipment, radar and industrial systems, medical monitoring equipment, control devices, and computer technology. As the largest branch of engineering technology, it includes a diverse range of disciplines including electronics, embedded systems, control systems, instrumentation, telecommunications, and power systems.
The Bachelor of Science (B.S.) degree in Electrical Engineering Technology at UW-Green Bay is a professional program that prepares students for careers in electrical engineering technology with the technical and managerial skills necessary to enter careers in the design application, installation, manufacturing, operation, and maintenance of electrical systems. Students specialize in product improvement, manufacturing, construction, and operational engineering functions. The focus of the program is the application of engineering principles to the solution of practical problems. Students will develop skills in hands on application labs and courses that explore the fundamentals of electronics, mathematics, physics, computers, and control systems. Teamwork, technical writing, and project management are also emphasized throughout the curriculum. The goal of the major is to develop well rounded engineering technologists that can adapt and succeed in a highly competitive workplace.
Students will benefit from relationships with local technical colleges, and local industry to complete a B.S. in engineering technology in the Northeast Wisconsin area. Students may start earning their degree at UW-Green Bay or local technical colleges to give maximum flexibility in degree completion. In addition, the Northeast Wisconsin Educational Resource Alliance, NEW ERA, has established advisory boards linking leaders in regional industry and participating institutions to the major. Through these relationships students will have many opportunities for internships, co-op experiences, and employment after graduation.
Electrical Engineering Technology Program Learning Outcomes
- Program graduates will secure and maintain employment in appropriate EET positions industry-wide and perform all functions assigned to an electrical engineering technologist.
- Graduates will apply their knowledge of mathematics, science, engineering technology, and computing to identify, analyze, and solve problems pertaining to design, development, and implementation of electronic systems.
- Graduates will exhibit a desire for life-long learning through higher education, technical training, teaching, membership in professional societies, and other developmental activities and will achieve positions of increased responsibility through these activities.
- Graduates will demonstrate high levels of oral and written communication skills, critical thinking, responsibility and ethical behavior, teamwork and appreciation for diversity, and leadership in their careers.
Contact
For more information contact:
Mohammad Upal Mahfuz, Ph.D.
Chair, Electrical Engineering Technology
Phone: 920-465-2790
Email: mahfuzm@uwgb.edu
or
Patricia Terry, Ph.D.
Chair, Richard J. Resch School of Engineering
Phone: 920-465-2749
Email: terryp@uwgb.edu
Major
| Code | Title | Credits |
|---|---|---|
| Supporting Courses | 25 | |
| Technical Writing and Information Literacy | ||
| Fundamentals of Engineering Technology | ||
| Calculus and Analytic Geometry I | ||
| Calculus and Analytic Geometry II | ||
| Chemistry for Engineers | ||
| Fundamentals of Drawing | ||
Physics (choose one option): | ||
| Fundamentals of Physics I and Introductory Physics Lab I | ||
| Principles of Physics I and Introductory Physics Lab I | ||
| Fundamentals Courses | 17 | |
| Electrical Circuits I | ||
| Electrical Circuits I Lab | ||
| Electrical Circuits II | ||
| Electrical Circuits II Lab | ||
| Electronic Devices | ||
| Electronic Devices Lab | ||
| Electrical Codes, Safety, and Standards | ||
| Introduction to Programming | ||
| Upper-Level Courses | ||
| Supporting Courses | 4 | |
| Linear Algebra and Matrix Theory | ||
| Fundamental Courses | 8 | |
| Energy Conversion | ||
| Energy Conversion Lab | ||
| Microcontrollers and Programmable Logic Controllers | ||
| Microcontrollers and Programmable Logic Controllers Lab | ||
| Advanced Courses | 29 | |
| Digital Logic Design | ||
| Digital Logic Design Lab | ||
| Signals and Systems | ||
| Signals and Systems Lab | ||
| Electrical Power Systems | ||
| Electromagnetic Fields and Applications | ||
| Power Electronics | ||
| Advanced Programmable Logic Controllers | ||
| Supervisory Control and Data Acquisition | ||
| Data Communication and Protocols | ||
| Project Management | ||
| Capstone Requirement | 3 | |
| Co-op/Internship in Engineering Technology | ||
or ET 410 | Capstone Project | |
| Technical Electives (choose three courses): | 9 | |
| Smart Cities: Engineering the Future | ||
| Power System Analysis and Protection | ||
| Wireless Communications | ||
| Wireless Networks | ||
| Special Topics in Electrical Engineering | ||
| Independent Study | ||
| Co-op | ||
| Solar and Alternate Energy Systems | ||
| Industrial Decision Processes | ||
| Total Credits | 95 | |
Curriculum Guide
The following curriculum guide is for a four-year Electrical Engineering Technology degree program and is subject to change without notice. Students should consult their program advisor to ensure that they have the most accurate and up-to-date information available. This program is accredited by the Engineering Technology Accreditation Commission (ETAC) of ABET, www.abet.org.
Total 120 credits necessary to graduate.
| Freshman | ||
|---|---|---|
| Fall | Credits | |
| MATH 202 | Calculus and Analytic Geometry I | 4 |
| ET 101 | Fundamentals of Engineering Technology | 2 |
| ET 105 | Fundamentals of Drawing | 3 |
| First Year Seminar | 3 | |
| Core Curriculum | 3 | |
| Credits | 15 | |
| Spring | ||
| MATH 203 | Calculus and Analytic Geometry II | 4 |
| ET 142 | Introduction to Programming | 3 |
| ENGR 120 | Electrical Circuits I | 3 |
| ENGR 121 | Electrical Circuits I Lab | 1 |
| ENGR 236 | Technical Writing and Information Literacy | 3 |
| Credits | 14 | |
| Sophomore | ||
| Fall | ||
| PHYSICS 201 or PHYSICS 103 |
Principles of Physics I or Fundamentals of Physics I |
4 |
| PHYSICS 203 | Introductory Physics Lab I | 1 |
| ENGR 210 | Electrical Circuits II | 3 |
| ENGR 211 | Electrical Circuits II Lab | 1 |
| Core Curriculum | 3 | |
| Core Curriculum | 3 | |
| Credits | 15 | |
| Spring | ||
| MATH 320 | Linear Algebra and Matrix Theory | 4 |
| ENGR 222 | Electronic Devices | 3 |
| ENGR 223 | Electronic Devices Lab | 1 |
| ENGR 224 | Electrical Codes, Safety, and Standards | 2 |
| ENGR 320 | Energy Conversion | 3 |
| ENGR 321 | Energy Conversion Lab | 1 |
| Credits | 14 | |
| Junior | ||
| Fall | ||
| ET 250 | Continuous Signals and Linear Systems | 3 |
| ENGR 310 | Digital Logic Design | 3 |
| ENGR 311 | Digital Logic Design Lab | 1 |
| ENGR 348 | Electromagnetic Fields and Applications | 3 |
| Core Curriculum | 3 | |
| Core Curriculum | 3 | |
| Credits | 16 | |
| Spring | ||
| ET 350 | Data Communication and Protocols | 3 |
| ET 360 | Project Management | 3 |
| ENGR 328 | Microcontrollers and Programmable Logic Controllers | 3 |
| ENGR 329 | Microcontrollers and Programmable Logic Controllers Lab | 1 |
| ENGR 346 | Electrical Power Systems | 3 |
| Core Curriculum | 3 | |
| Credits | 16 | |
| Senior | ||
| Fall | ||
| ET 340 | Advanced Programmable Logic Controllers | 3 |
| ET 342 | Supervisory Control and Data Acquisition | 3 |
| Technical Elective I | 3 | |
| Technical Elective II | 3 | |
| Technical Elective III | 3 | |
| Credits | 15 | |
| Spring | ||
| ET 400 or ET 410 |
Co-op/Internship in Engineering Technology or Capstone Project |
3 |
| ENGR 434 | Power Electronics | 3 |
| Technical Elective IV | 3 | |
| Technical Elective V | 3 | |
| Core Curriculum | 3 | |
| Credits | 15 | |
| Total Credits | 120 | |
Technical Electives (choose any five):
- ET 415 Solar and Alternate Energy Systems (3 s.h.)
- ME 334 Industrial Decision Processes (3 s.h.)
- ENGR 402 Smart Cities: Engineering the Future (3 s.h.)
- ENGR 414 Power System Analysis and Protection (3 s.h.)
- ENGR 426 Wireless Communications (3 s.h.)
- ENGR 428 Wireless Networks (3 s.h.)
- ENGR 493 Special Topics in Electrical Engineering (3 s.h.)
- ENGR 494 Co-op (1-2 s.h.)
- ENGR 498 Independent Study (1-4 s.h.)
- ENGR 438 Microprocessors and Embedded Systems