Dr. Abu Farzan Mitul
Assistant Professor at Saginaw Valley State University
SPIE Involvement:
Author
Area of Expertise:
Photonics , Device Characterization , fs laser, fiber bragg grating (FBG) , Device Fabrication , Optics , Microscopy
Profile Summary

Dr. Abu Farzan Mitul is an American Bangladeshi academician and researcher. He completed his Ph.D. in Electrical Engineering from Michigan State University. He received an MSc in Optical Science and Engineering degree (majoring in Photonics) from the University of New Mexico. Prior to joining Los Alamos National Laboratory (LANL) as a graduate student, he worked at the Center for Advanced Photovoltaics of South Dakota State University (SDSU). At the Center for Advanced Photovoltaics of South Dakota State University (SDSU), he worked on the development of several advanced photovoltaic devices. He is an active researcher at the National Energy Technology Laboratory (NETL) which is a U.S. national laboratory under the Department of Energy Office of Fossil Energy.

He worked as a Lecturer in the Department of Electrical and Electronic Engineering at Khulna University of Engineering and Technology (KUET) and taught courses as an Assistant Professor in the Department of Electrical & Computer Engineering at Saginaw Valley State University (SVSU), USA. He has been involved in the teaching of Electrical Engineering courses and led the Simulation Language Lab. He was the Lab coordinator of Simulation, Modelling, and Hardware Laboratory of Khulna University of Engineering and Technology. He supervised students to work on semiconductor devices and solar cell technology.
Publications (3)

Proceedings Article | 6 September 2019 Paper
Proceedings Volume 11139, 111391B (2019) https://doi.org/10.1117/12.2535411
KEYWORDS: Electroencephalography, Safety, Roads, Brain, Sensors, Electrocardiography, Analytical research, Heart, Blood pressure, Control systems

Proceedings Article | 14 September 2018 Paper
Abu Farzan Mitul, Nezam Uddin, Jith Sarker, Devendra Khatiwada, Nirmal Adhikari, Lal Mohammad, Qi Wang , Qiquan Qiao
Proceedings Volume 10737, 1073723 (2018) https://doi.org/10.1117/12.2316340
KEYWORDS: Platinum, Metals, Ruthenium, Solar cells, Zinc oxide, Polymers

Proceedings Article | 15 October 2015 Paper
Proceedings Volume 9567, 95671R (2015) https://doi.org/10.1117/12.2187673
KEYWORDS: Solar cells, Polymers, Annealing, Silver, Zinc oxide, Solar energy, Atomic force microscopy, 3D image processing, Photovoltaics, Electrical engineering

Conference Committee Involvement (3)
International Conference on Advances in Computing, Communication, Electrical and Smart Systems iCACCESS 2024
8 March 2024 |
2nd International Conference on Electrical Information and Communication Technology (EICT)
10 December 2015 |
International Conference on Electrical Information and Communication Technology (EICT)
19 December 2013 |
Course Instructor
NON-SPIE: ECE 441 - Power Electronics & Drives
Analytical and circuit models of the basic components of electric machine control systems: electromagnetic and electromechanical principles; transformers and rotating AC and DC machines; power electronics and power converters; DC motor drives.
NON-SPIE: ECE 441L - Pwr Electronics & Dr Lab
Experimental investigation of the terminal characteristics and performance of electric machines, power converters and DC motor drives. Use of computer simulation for verifying circuit models (0-3)
NON-SPIE: ECE 458 - Electric Drives
Dynamic modeling, control and computer-aided design of AC and DC motor drives: switch-mode converter drives, design of feedback controllers for motor drives, induction and synchronous machine drives; space vector control; stepper-motor
NON-SPIE: ECE 458L - Electric Drives Lab
Experimental investigation of the performance of AC and DC motor drives. Computer-aided design of motor drives and control systems. A significant part of the course is dedicated to a design project.
NON-SPIE: ECE 460L - Digital Control Systems Lab
Use of the digital computer for the analysis and design of discrete time control systems. Design of digital controllers for specific performance indices. Microprocessor control of stepper and servomotors and introduction to programmable controllers.
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