Research Article
BibTex RIS Cite

DC Motor Controlled by IGBT Switches with Linear Pulse Width Modulation

Year 2017, Volume: 10 Issue: 2, 314 - 320, 22.12.2017

Abstract



Looking
at many of the work done so far, it seems that the DC motor is the most
preferred option if an engine system is preferred for the desired
speed-adjustable operation.
This paper has been carried out by
using the Partial Linear Pulse Width Modulation (LPWM) method without the
current (DC) to direct current (DC) converter and starter in order to control
torque , current and speed variation of the DC motor. Therefore, linear pulse
width modulation is firstly produced in Matlab SİMULINK. Then, DC current and
torque measurements are made after switching the direct current sources with
the LPWMs in sequence for DC motor.



References

  • Can, E., ve Sayan, H.H. 2016a. PID and fuzzy controlling three phase asynchronous machine by low level DA source three phase inverter/PID i neizrazito upravljanje Trofaznim asinhronim motorom pomocu trofaznog izmjenjivaca slabe istosmjerne struje. Tehnicki Vjesnik- TechnicalGazette,23(3), 753-761.
  • Can, E., ve Sayan, H. H. 2016b. SSDGM three phase eviricidesign and experimented on unbalanced loads/Konstrukcija SSDGM trofaznog izmjenjivaca i primjena kod nestabilnih potrosaca. Tehnicki Vjesnik-Technical Gazette, 23(5), 1239-1245.
  • Can, E.,ve Sayan, H.H. 2016c. A novel SSDGM controlling eviricirunning nonlinear device. Electrical Engineering, 1-8.
  • Dudrik, J., ve Oetter, J. 2006. Soft-switching DGM DA-DA converter for high power applications. In Power Electronics and Motion Control Conference, 2006. EPE-PEMC 2006. 12th International , 739-744.
  • Isik, M.F. 2016a. Design and implementation of a training set for distributed system and mechatronic applications:project based learning. Tehnički vjesnik, 23(6). doi:10.17559/TV-20141218095138.
  • Isik M.F., 2016b. Synchronous Real Time Control of Distributed Servo Drive Systems Journal of Current Research, 8, (03), 27513-27516
  • Nagarajan, D. R., Sathishkumar, S., Balasubramani, K., Boobalan, C., Naveen, S., ve Sridhar, N. 2016. Chopper Fed Speed Control of DA Motor Using PI Controller. IOSR-Journal of Electrical andElectronics Engineering (IOSJEEE), 11(3), 65-69.
  • Nagarajan, R., Sathishkumar, S., Deepika, S., Keerthana, G., Kiruthika, J.K. ve Nandhini, R. 2017. Implementation of Chopper Fed Speed Control of Separately Excited DA Motor Using PI Controller. International Journal of Engineering And Computer Science (IJECS), 6(3), 20629-20633.
  • Sheel, S., Chandkishore, R., ve Gupta O., 2010. Speed control of DA drive using MRAC technique, International Conference on Mechanical and Electrical Technology, Singapore, 10-12 , 135-139.
  • Sahin, Y., Ting, N. S., & Aksoy, I. 2017a. A highly efficient ZVT–ZCT PWM boost converter with direct power transfer. Electrical Engineering, 1-11.
  • Sahin, Y., & Ting, N. S. 2017b. Soft switching passive snubber cell for family of PWM DC–DC converters. Electrical Engineering, 1-12.
  • Su, G. J. 2006. March. Pulse-width-modulation schemes for an integrated traction and compressor drive system. In Applied Power Electronics Conference and Exposition, 2006. APEC'06. Twenty-First Annual IEEE (pp. 6-pp). IEEE.
  • Xu, S., ve Ji, Z. 2016. A Study of the SDGM High-Frequency Harmonic Circulating Currents in Modular Inverters. Journal of Power Electronics, 16(6), 2119-2128

Doğrusal Darbe Genişlik Modülasyonlu IGBT Anahtarların Kontrol Ettiği DC Motor

Year 2017, Volume: 10 Issue: 2, 314 - 320, 22.12.2017

Abstract

Şimdiye kadar yapılan pek çok çalışmaya bakıldığında, ayarlanabilir hızlı sürüş arzulanan işlemlerde eğer bir motor sistemi tercih edilecekse, DA motor en çok tercih edilen seçenek olduğu görülmektedir. Bu makale DA motorun akım ve tork değişimi doğru akımdan(DA)- doğru akıma(DA) azaltan dönüştürücü ve başlatıcı olmadan parçalı Doğrusal Darbe Genişlik Modülasyon (DDGM) yöntemi kullanılarak yapılmıştır. Bundan dolayı Matlab SİMULİNK te, ilk olarak doğrusal darbe genişlik modülasyon üretilmekte ve DDGM ler ile doğru akım kaynakları sıralı olarak anahtarlanarak motorun akım tork ve devir ölçümleri yapılmıştır.

References

  • Can, E., ve Sayan, H.H. 2016a. PID and fuzzy controlling three phase asynchronous machine by low level DA source three phase inverter/PID i neizrazito upravljanje Trofaznim asinhronim motorom pomocu trofaznog izmjenjivaca slabe istosmjerne struje. Tehnicki Vjesnik- TechnicalGazette,23(3), 753-761.
  • Can, E., ve Sayan, H. H. 2016b. SSDGM three phase eviricidesign and experimented on unbalanced loads/Konstrukcija SSDGM trofaznog izmjenjivaca i primjena kod nestabilnih potrosaca. Tehnicki Vjesnik-Technical Gazette, 23(5), 1239-1245.
  • Can, E.,ve Sayan, H.H. 2016c. A novel SSDGM controlling eviricirunning nonlinear device. Electrical Engineering, 1-8.
  • Dudrik, J., ve Oetter, J. 2006. Soft-switching DGM DA-DA converter for high power applications. In Power Electronics and Motion Control Conference, 2006. EPE-PEMC 2006. 12th International , 739-744.
  • Isik, M.F. 2016a. Design and implementation of a training set for distributed system and mechatronic applications:project based learning. Tehnički vjesnik, 23(6). doi:10.17559/TV-20141218095138.
  • Isik M.F., 2016b. Synchronous Real Time Control of Distributed Servo Drive Systems Journal of Current Research, 8, (03), 27513-27516
  • Nagarajan, D. R., Sathishkumar, S., Balasubramani, K., Boobalan, C., Naveen, S., ve Sridhar, N. 2016. Chopper Fed Speed Control of DA Motor Using PI Controller. IOSR-Journal of Electrical andElectronics Engineering (IOSJEEE), 11(3), 65-69.
  • Nagarajan, R., Sathishkumar, S., Deepika, S., Keerthana, G., Kiruthika, J.K. ve Nandhini, R. 2017. Implementation of Chopper Fed Speed Control of Separately Excited DA Motor Using PI Controller. International Journal of Engineering And Computer Science (IJECS), 6(3), 20629-20633.
  • Sheel, S., Chandkishore, R., ve Gupta O., 2010. Speed control of DA drive using MRAC technique, International Conference on Mechanical and Electrical Technology, Singapore, 10-12 , 135-139.
  • Sahin, Y., Ting, N. S., & Aksoy, I. 2017a. A highly efficient ZVT–ZCT PWM boost converter with direct power transfer. Electrical Engineering, 1-11.
  • Sahin, Y., & Ting, N. S. 2017b. Soft switching passive snubber cell for family of PWM DC–DC converters. Electrical Engineering, 1-12.
  • Su, G. J. 2006. March. Pulse-width-modulation schemes for an integrated traction and compressor drive system. In Applied Power Electronics Conference and Exposition, 2006. APEC'06. Twenty-First Annual IEEE (pp. 6-pp). IEEE.
  • Xu, S., ve Ji, Z. 2016. A Study of the SDGM High-Frequency Harmonic Circulating Currents in Modular Inverters. Journal of Power Electronics, 16(6), 2119-2128
There are 13 citations in total.

Details

Subjects Engineering
Journal Section Makaleler
Authors

Erol Can

Publication Date December 22, 2017
Published in Issue Year 2017 Volume: 10 Issue: 2

Cite

APA Can, E. (2017). DC Motor Controlled by IGBT Switches with Linear Pulse Width Modulation. Erzincan University Journal of Science and Technology, 10(2), 314-320. https://doi.org/10.18185/erzifbed.346878