Curriculum Vitae


Asst. Prof. Dr.Yongyuth Naras
       Head, Department of Electrical Engineering
        Vice-Dean, Faculty of Engineering


Place of Birth:


           Khonkaen, Thailand



Home Address:


      159/99 , Moo 6 , Petkasem Road, Klongmai , Samparn , Nakhonpathom,  73110, Thailand



Education:


     2009   D. Eng. (Electrical Engineering)

                from King Mongkut’s Institute of Technology Ladkrabang, Thailand

     2002   M. Eng. (Electrical Engineering)

                from King Mongkut’s Institute of Technology Ladkrabang, Thailand

     1992   B. Eng. (Electrical Engineering)

                from King Mongkut’s Institute of Technology Ladkrabang, Thailand



Thesis:


      Doctoral Thesis:    Analysis of Circuit Operation under ZVS and NON - ZVS Conditions in a Full-Bridge

                                    Phase-Shift Control Inverter with a Load of High-Frequency Induction Heating


      Master Thesis:       Application of PWM Techniques in Slip – Power Recovery  Induction Motor Speed
                                    Drive



Work Experiences:

     
       2015 - Present:       Vice-Dean, Faculty of Engineering, Siam University , Thailand
       2013 - Present:       Head, Department of Electrical Engineering, Faculty of Engineering,

               Siam University , Thailand

       2013 - Present:       Assistant Professor of Electrical Engineering
       1992 - Present:       Lecturer, Department of Electrical Engineering, Faculty of Engineering, 

               Siam University

       2011 - Present:       Faculty Board of Management, Faculty of Engineering, Siam University
       1997 - Present:       Consulting, Thai World Cup Co., Ltd.
                     2011:      Technical Program Chairman of the 34th Electrical Engineering

              Conference (EECON - 34 )

       2009 - Present:       Reviewer of the Electrical Engineering Conference ( EECON )
       2011 - Present:      Conference Committee of the Electrical Engineering
                                   Conference   ( EECON )





Research Interests:

   
- Power Electronics and Its Application

- Inverter for High-Frequency Induction Heating

- High-Frequency Resonant converter

- Electric Motor Drives


Professional Society:


       Professional Engineer, Council of Engineers, Thailand


Publications:

 

1.  P. Viriya, N.  Yongyuth and K.  Matsuse, “Analysis of Two Continuous Control Regions of Conventional Phase Shift

     and Transition Phase Shift for Induction Heating Inverter under ZVS and NON-ZVS Operation,” IEEE Transactions

     on Power Electronics, Vol. 23, No. 6, pp. 2794-2805, November 2008.


2.   P. Viriya, N.  Yongyuth and K.  Matsuse, “Analysis of Transition Mode from Phase-Shift to Zero-Phase Shift under

     ZVS and NON-ZVS Operation for Induction Heating Inverter,” IEEJ Transaction on Industry Applications, Vol. 128,

      No. 12, pp. 1317-1325, December 2008.

 

3.   P. Viriya, N.  Yongyuth, I. Miki and K.  Matsuse, “Analysis of Circuit Operation under ZVS and NON-ZVS Conditions

      in Phase-shift Inverter for Induction Heating,” IEEJ Transaction on Industry Applications, Vol. 126, No. 5,  pp. 560-567,

      May 2006.


4.   P.  Viriya, N.  Yongyuth and K.  Matsuse, “Analysis of Transition Mode from Phase-Shift to Zero-Phase Shift under

      ZVS and NON-ZVS Operation for Induction Heating Inverter,” in Proc. IEEE Power Conversion Conference (PCC 2007),

      Nagoya, Japan, April 2007, pp. 1512-1519.

 

5.  P. Viriya, N.  Yongyuth and K.  Matsuse, “Analysis of Circuit Operation under ZVS and NON-ZVS Conditions in Phase-

     Shift Inverter for Induction Heating,” in Proc. International Power Electronics Conference (IPEC 2005), Niigata, Japan,

     April 2005, pp. 2030-2037.

 

6.   P. Viriya, N.  Yongyuth, I. Miki and K.  Matsuse,”The Effect of Mosfet Drain-Source Capacitance on Switching Condition

      in Phase-Shift Series Resonant Inverter with the Load of Induction Heating,“  in Proc. International Workshop

      Sustainable Energy and Materials (IWSEM 2006), Tokyo, Japan, September 2006, pp.  2-13~2-16.

 

7.  N. Yongyuth, P. Viriya  and K. Matsuse, “Analysis of a Full-Bridge Inverter for Induction Heating Using Asymmetrical

     Phase-Shift Control under ZVS and NON-ZVS Operation,” in Proc. Power Electronics and Drive Systems (PEDS 2007),

     Bangkok, Thailand, November 2007, pp. 476-482.

 

8.   Yongyuth Naras, ”Analysis of ZVS and NON-ZVS Switching Frequencies for an Asymmetrical Voltage-Cancellation

     Controlled Series-Resonant Inverter Taking into Account MOSFET Drain -Source Capacitance,“ in Proc. The 7th

       Conference of Electrical Engineering Network of Rajamangala University of Technology (EENET 2015), Pattaya,

     Thailand, May 2015, pp. 660-663  (in Thai).

 

9.  Yongyuth Naras, ”Analysis of Circuit Operation of a Soft-Switching Quadratic Boost Converter,“ in Proc. The 37th

        Electrical Engineering Conference (EECON-37), Khon Kaen, Thailand, November 2014, pp. 397-400   (in Thai).

 

          10.  Yongyuth Naras,  ”High Input Power Factor Resonant Matrix Converter with Phase Shift Control,“ in Proc. The
                 Association of Private Higher Education Institutions of Thailand Conference 2014 (APHEIT Conference 2014), Nakhon
                 Ratchasima, Thailand, May 2014, pp. 1-11   (in Thai).
 
11. Yongyuth Naras, ” Analysis of Soft-Switching Boost DC-DC Converter Using a Single Switch,“ in Proc. The 36th
        Electrical Engineering Conference (EECON-36), Kanchanaburi, Thailand, December 2013, pp. 375-378  (in Thai).

 

          12.  Yongyuth Naras, ” Analysis of Circuit Operation of a Soft-Switching Boost DC-DC Converter,“ in Proc. The 5th
                 Conference of Electrical Engineering Network of Rajamangala University of Technology (EENET 2013), Prachuap
                 Khiri Khan, Thailand, March 2013, pp. 133-136  (in Thai).

 

          13.  Yongyuth Naras, ” Analysis of Circuit Operation under ZVS and NON-ZVS Conditions in a Three-Level Resonant
                 Inverter Taking into Account MOSFET Drain -Source Capacitance,“ in Proc. The 35th Electrical Engineering Conference
                 (EECON-35), Nakhon Nayok, Thailand, December 2012, pp. 417-420 (in Thai).

 

          14.  Yongyuth Naras, P. Viriya, Analysis of Single-Phase AC Chopper,“ in Proc. The 5th Conference of Electrical
                 Engineering Network of Rajamangala University of Technology (EENET 2012), Nong Khai, Thailand, April 2012,
                 pp. 72-75 (in Thai).

 

           15.  Yongyuth Naras, P. Viriya, Analysis of Circuit Operation under ZVS and NON-ZVS Conditions in a Duty Cycle Control
                  Half-Bridge Resonant Inverter with the Consideration of MOSFET Drain -Source Capacitance Effect for the Load of
                  High-Frequency Induction Cooker,“ in Proc. The 33rd Electrical Engineering Conference (EECON-33), Chiang Mai,
                  Thailand, December 2010, pp. 565-568 (in Thai).

 

            16.  Yongyuth Naras, Analysis of a Duty Cycle Control Resonant Inverter for the Load of High-Frequency Induction
                   Heating,“ in Proc. The 6th KU-KPS Conference, Nakhon Pathom, Thailand, Decemberl 2009, pp. 763-771 (in Thai).

 

            17.  Yongyuth Naras, P. Viriya, Analysis of ZVS and NON-ZVS Switching Frequencies for a Duty Cycle Control Resonant
                   Inverter with MOSFET Drain-Source Capacitance for the Load of High-Frequency Induction Heating,“ in Proc. The 32nd
                           Electrical Engineering Conference (EECON-32), Prachinburi, Thailand, October 2009, pp. 499-502 (in Thai).

 

            18.  Yongyuth Naras, P. Viriya, PDM Power Control of a Full-Bridge Resonant Inverter for High-Frequency Induction
                   Heating,“ in Proc. The 31st Electrical Engineering Conference (EECON-31), Nakhon Nayok, Thailand, October 2008,
                   pp. 469-472 (in Thai).

 

             19. Yongyuth Naras, P. Viriya, 50 Hz - to - 70 kHz Direct AC-AC Full-Bridge  Resonant Converter for High-Frequency
                   Induction Heating,“ in Proc. The 30th Electrical Engineering Conference (EECON-30), Kanchanaburi, Thailand,
                   October 2007, pp. 520-523 (in Thai).

 

             20. Yongyuth Naras, P. Viriya,Comparative Analysis of the Effect of Circuit Parameters on Critical Dead-Time in a
                   Full-Bridge and a Half-Bridge Resonant Inverters,“ in Proc. 45th Kasetsart University Annual Conference, Bangkok,
                   Thailand, January 2007, pp. 315-322 (in Thai).

 

             21. Yongyuth Naras, P. Viriya, Circuit Analysis of ZVS and NON-ZVS Half-Bridge Resonant Inverter,“ in Proc. The 28th
                            Electrical Engineering Conference (EECON-28), Phuket, Thailand, October 2005, pp. 85-88 (in Thai).

 

             22.  Yongyuth Naras, P. Viriya, Analysis of Full-Bridge High-Frequency Series Resonant Inverter with Very High Input
                    Power Factor Improvement,“ in Proc. The 27th Electrical Engineering Conference (EECON-27), Khon Kaen, Thailand,
                    November 2004, pp. 397-400 (in Thai).

 

             23.  Yongyuth Naras, P. Viriya,  ”Utility Interactive PWM Current Source Inverter for 50-Hz Power Supply Using Integral
                     Cycle Control Technique,“ in Proc. The 26th Electrical Engineering Conference (EECON-26), Phetchaburi, Thailand,
                     November 2003, pp. 782-787 (in Thai).

 

              24. Yongyuth Naras, P. Viriya,  ”Analysis and Improvement of Input Power Factor for Slip Control Induction Motor
                     Drive Using PWM Inverter,“ in Proc. The 25th Electrical Engineering Conference (EECON-25), Hat Yai, Thailand,
                     November 2002, pp. 6-10 (in Thai).

 

             25.  Yongyuth Naras, P. Viriya, Application of PWM Inverter in Induction Motor Speed Control Using the Principle of
                     Slip – Power Recovery,“ in Proc. The 22nd Electrical Engineering Conference (EECON-22), Bangkok, Thailand,
                     December 1999, pp. 689-692 (in Thai).

 

             26.  Yongyuth Naras, “Analysis of Half-Bridge Resonant Converter from Utility Frequency AC to High Frequency AC,”
                    Engineering Journal of Siam University, Special Issue, pp. 35-40, 2011 (in Thai).

 

27.  Yongyuth Naras,   “Analysis of High-Frequency Full-Bridge Series Resonant Inverter with Variable Switching
       Frequency Power Control,”  Engineering Journal of Siam University, Volume 11, Issue 2, No.21, pp. 57-67,
       2010 (in Thai).

 

28.  Yongyuth Naras, “Analysis of Circuit Operation under ZVS and NON-ZVS Conditions in a Duty Cycle Control
       Resonant Inverter Taking into Account Drain-Source Capacitance for the Load of High-Frequency Induction Heating,”
       Engineering Journal of Siam University, Volume 11, Issue 1, No.20, pp. 73-82, 2010 (in Thai).

 

29.  Yongyuth Naras, Wipavan Narksarp, The Principle of a Single-Phase Thyristor Inverter for Utility Interactive
       DC-Source System,”  Engineering Journal of Siam University, Volume 9, Issue 2, No.17, pp. 93-104,  2008  (in Thai).

 

30.  Yongyuth Naras, “PWM AC-DC Converter Using Delta Modulation Technique,” Engineering Journal of Siam
       University, Volume 2, Issue 2, No.4, pp. 58-63,  2000 (in Thai).

 

31.  Yongyuth Naras, “One-Cycle Switching Control Method of a DC-DC Converter,” Engineering Journal of Siam
       University, Volume 1, Issue 2, No.2, pp. 42-48, 1999 (in Thai).

 

32.  Yongyuth Naras, “Harmonics in Power Systems,”  Engineering Journal of Siam University, Volume 1, Issue 2,
        No.2, pp. 55-62, 1999 (in Thai).