COURSES


Courses Given

2024 - 2025
  • (EEE 307) Electrical Energy Conversion
  • (GS 599) Master Thesis
2023 - 2024
  • (EEE 307) Electrical Energy Conversion
  • (FENG 497) Multidisciplinary Engineering Project
  • (FENG 498) Engineering Capstone
  • (GS 599) Master Thesis
2022 - 2023
  • (EEE 307) Electrical Energy Conversion
  • (FENG 495) Snr. Proj. I Double Major Stud. (Eng. Fac.)
  • (FENG 496) Snr. Proj. II Double Major Stud. (Eng. Fac.)
  • (FENG 497) Multidisciplinary Engineering Project
  • (FENG 498) Engineering Capstone
  • (GS 595) Seminar
  • (GS 599) Master Thesis
2021 - 2022
  • (EEE 307) Electrical Energy Conversion
2020 - 2021
  • (EEE 307) Electrical Energy Conversion
  • (FENG 497) Multidisciplinary Engineering Project
  • (FENG 498) Engineering Capstone
2019 - 2020
  • (EEE 242) Digital Design
  • (EEE 307) Electric Energy Conversion
  • (FENG 497) Senior Project I
  • (FENG 498) Senior Project II
  • (IUE 100) Academic and Social Orientation
2018 - 2019
  • (EEE 201) Electric Circuits I
  • (EEE 242) Digital Design
  • (EEE 307) Electric Energy Conversion
  • (EEE 413) Digital Signal Processing
  • (FENG 497) Senior Project I
  • (FENG 498) Senior Project II
2017 - 2018
  • (CE 301) Logic Design
  • (EEE 242) Digital Design
  • (EEE 307) Electric Energy Conversion
  • (EEE 497) Senior Project I
  • (EEE 498) Senior Project II
2016 - 2017
  • (CE 301) Logic Design
  • (CE 302) Microprocessors
  • (EEE 307) Electric Energy Conversion
2015 - 2016
  • (CE 302) Microprocessors
  • (EEE 307) Electric Enegy Conversion
  • (EEE 413) Digital Signal Processing
  • (EEE 497) Senior Project I
  • (EEE 498) Senior Project II
2014 - 2015
  • (CE 302) Microprocessors
  • (EEE 201) Electric Circuits I
  • (EEE 242) Digital Design
  • (EEE 307) Electric Enegy Conversion
  • (EEE 413) Digital Signal Processing
  • (EEE 497) Senior Project I
  • (EEE 498) Senior Project II
2013 - 2014
  • (CE 301) Logic Design
  • (CE 302) Microprocessors
  • (EEE 206) Introduction to Electronics
  • (EEE 307) Electric Enegy Conversion
2012 - 2013
  • (CE 301) Logic Design
  • (CE 302) Microprocessors
  • (EEE 205) Fundamentals of Electric Circuit
  • (EEE 206) Introduction to Electronics
  • (MATH 250) Linear Algebra and Differantial Equations for Eng.