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EXPERIMENTAL SETUP FOR AC MOTOR SPEED CONTROL BY USING PLC

Year 2019, Volume: 3 Issue: 3, 177 - 188, 28.07.2019
https://doi.org/10.26900/jsp.3.018

Abstract

PLC is widely used in industrial control application. For this reason,
PLC education has an important place in the content of universities and it is
explained in different engineering department.



In this paper, AC motor speed control by using PLC experimental setup is
designed and implemented. Through this experimental setup, students can
experience and use of the encoder, 3-phase AC motor and PID control algorithm.
Besides, this experimental setup helps students to develop their real time
engineering skill and experience in departments of universities such as
electrical-electronics, mechatronics, control and automation engineering.

References

  • [1] Özerdem ÖC. Design of two experimental setups for programmable logic controller (PLC) laboratory. International Journal of Electrical Engineering Education. 2016;53(4):331-40.
  • [2] Manesis S, Koutri S. A student-friendly approach to undergraduate teaching of experimental industrial control systems. International Journal of Electrical Engineering Education. 2003;40(4):255-69.
  • [3] Geaney G, O’Mahony T. Design and evaluation of a remote PLC laboratory. International Journal of Electrical Engineering Education. 2016;53(3):212-23.
  • [4] Berger H. Automating with STEP7 in STL and SCL: programmable controllers Simatic S7-300/400: Publicis; 2006.
  • [5].Boix O, Gomis O, Montesinos D, Galceran S, Sudrià A. Comparative experiences in remote automation laboratories with real plants. International Journal of Electrical Engineering Education. 2008;45(4):310-20.
  • [6].Kaldate AP, Kulkarni SA. PLC Based PID Speed Control System. IOSR Journal Of Engineering. 2014;4.
  • [7].Saad N, Arrofiq M. A PLC-based modified-fuzzy controller for PWM-driven induction motor drive with constant V/Hz ratio control. Robotics and Computer-Integrated Manufacturing. 2012;28(2):95-112.
  • [8].Köse F, Kaplan K, Ertunç HM. PID ve bulanık mantık ile DC motorun gerçek zamanda STM32F407 tabanlı hız kontrolü. Otomatik Kontrol Ulusal Toplantısı, TOK2013. 2013:26-8.
  • [9].Basilio J, Manhães R, Rolim L. Benchmark construction with application to PID controller design and implementation. International Journal of Electrical Engineering Education. 2008;45(1):51-71.
  • [10].Coşkun İ, Terzioğlu H. Hız performans eğrisi kullanılarak kazanç (PID) parametrelerinin belirlenmesi. Selçuk Üniversitesi Teknik Bilimler Meslek Yüksekokulu Teknik-Online Dergi 2007;6(3):180-205.
  • [11].Ang KH, Chong G, Li Y. PID control system analysis, design, and technology. IEEE transactions on control systems technology. 2005;13(4):559-76.
  • [12].Siemens AG [05.04.2019]. Available from: https://cache.industry.siemens.com/dl/files/465/36932465/att_106119/v1/s71200_system_manual_en-US_en-US.pdf
  • [13].Delta VFD-E [05.04.2019]. Available from: http://www.inverter-plc.net/delta/delta/DELTA_VFD-E_SERISI_HIZ_KONTROL_CiHAZI_KULLANIM_KLAVUZU.pdf.
  • [14].Autonics Online Store [05.04.2019]. Available from: http://www.autonicsonline.com/image/pdf/E50S.pdf.
  • [15] Gamak [05.04.2019]. Available from: http://www.gamak.com.
Year 2019, Volume: 3 Issue: 3, 177 - 188, 28.07.2019
https://doi.org/10.26900/jsp.3.018

Abstract

References

  • [1] Özerdem ÖC. Design of two experimental setups for programmable logic controller (PLC) laboratory. International Journal of Electrical Engineering Education. 2016;53(4):331-40.
  • [2] Manesis S, Koutri S. A student-friendly approach to undergraduate teaching of experimental industrial control systems. International Journal of Electrical Engineering Education. 2003;40(4):255-69.
  • [3] Geaney G, O’Mahony T. Design and evaluation of a remote PLC laboratory. International Journal of Electrical Engineering Education. 2016;53(3):212-23.
  • [4] Berger H. Automating with STEP7 in STL and SCL: programmable controllers Simatic S7-300/400: Publicis; 2006.
  • [5].Boix O, Gomis O, Montesinos D, Galceran S, Sudrià A. Comparative experiences in remote automation laboratories with real plants. International Journal of Electrical Engineering Education. 2008;45(4):310-20.
  • [6].Kaldate AP, Kulkarni SA. PLC Based PID Speed Control System. IOSR Journal Of Engineering. 2014;4.
  • [7].Saad N, Arrofiq M. A PLC-based modified-fuzzy controller for PWM-driven induction motor drive with constant V/Hz ratio control. Robotics and Computer-Integrated Manufacturing. 2012;28(2):95-112.
  • [8].Köse F, Kaplan K, Ertunç HM. PID ve bulanık mantık ile DC motorun gerçek zamanda STM32F407 tabanlı hız kontrolü. Otomatik Kontrol Ulusal Toplantısı, TOK2013. 2013:26-8.
  • [9].Basilio J, Manhães R, Rolim L. Benchmark construction with application to PID controller design and implementation. International Journal of Electrical Engineering Education. 2008;45(1):51-71.
  • [10].Coşkun İ, Terzioğlu H. Hız performans eğrisi kullanılarak kazanç (PID) parametrelerinin belirlenmesi. Selçuk Üniversitesi Teknik Bilimler Meslek Yüksekokulu Teknik-Online Dergi 2007;6(3):180-205.
  • [11].Ang KH, Chong G, Li Y. PID control system analysis, design, and technology. IEEE transactions on control systems technology. 2005;13(4):559-76.
  • [12].Siemens AG [05.04.2019]. Available from: https://cache.industry.siemens.com/dl/files/465/36932465/att_106119/v1/s71200_system_manual_en-US_en-US.pdf
  • [13].Delta VFD-E [05.04.2019]. Available from: http://www.inverter-plc.net/delta/delta/DELTA_VFD-E_SERISI_HIZ_KONTROL_CiHAZI_KULLANIM_KLAVUZU.pdf.
  • [14].Autonics Online Store [05.04.2019]. Available from: http://www.autonicsonline.com/image/pdf/E50S.pdf.
  • [15] Gamak [05.04.2019]. Available from: http://www.gamak.com.
There are 15 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Mehmet Can Demir This is me 0000-0002-2372-4242

Cengiz Tepe 0000-0003-4065-5207

İlyas Eminoğlu This is me

Publication Date July 28, 2019
Published in Issue Year 2019 Volume: 3 Issue: 3

Cite

APA Demir, M. C., Tepe, C., & Eminoğlu, İ. (2019). EXPERIMENTAL SETUP FOR AC MOTOR SPEED CONTROL BY USING PLC. Journal of Scientific Perspectives, 3(3), 177-188. https://doi.org/10.26900/jsp.3.018