Abstract
Bu çalışmada, herhangi bir ticari yazılımdan bağımsız taşınabilir elektronik devre, tasarım ve yazılım geliştirilerek 5,5 kW, 460 V, 60 Hz, 4 kutuplu ve 3 fazlı sincap kafesli indüksiyon motorun (IM) performans analizi yapılmıştır. Sincap kafesli IM'nin tasarım adımlarında kullanılan matematiksel denklemler ve ana boyutlarının ön tasarımı, geliştirilen bir elektronik devre ile gerçekleştirilmiştir. Ön tasarım hesaplamalarının yapılabilmesi için Nextion 7 inçlik dokunmatik ekran, elektronik devre tasarımında Arduino mega 2560 mikrodenetleyici kullanılmıştır. Kısaca oluşturulan elektronik devrede Nextion 7 inçlik dokunmatik ekrandan IM temel verileri girilir ve veriler Arduino Mega 2560 mikrodenetleyici kartına seri haberleşme ile gönderilir. Arduino Mega 2560 mikrodenetleyici kartı üzerinde IM'nin matematiksel hesaplamaları yapılır ve hesaplama sonuçları Nextion ekranında sunulur. Geliştirilen hesaplama aracında yapılan analitik hesaplamalar ile hesaplama sonuçlarının uyumlu bir şekilde elde edildiği görülmüştür.
Keywords
Elektrikli makine tasarım araçları Motor tasarım yazılımı Nextion dokunmatik ekran Arduino indüksiyon motoru prototip tasarımı
References
- [1] Karakaya A., “Asenkron motorun modellenmesi ve modern denetim yöntemleri ile hız analizi”, Karaelmas Fen ve Mühendislik Dergisi, 7(2): 497-502, (2017).
- [2] Kaya K. & Ünsal A., “Yapay Sinir Ağlarıyla Asenkron Motor Çoklu Arızalarının Tespiti ve Sınıflandırılması”, Politeknik Dergisi , 25 (4) , 1687-1699, (2022).
- [3] Otkun O., “Scalar Speed Control of Induction Motors with Difference Frequency”, Politeknik Dergisi , 23 (2) , 267-276, (2020).
- [4] Khalghani S., “Analytical loss calculation tool for an induction motor”, Master’s Thesis, Lappeenranta-Lahti University of Technology LUT Lappeenranta, (2020).
- [5] Arslan S., Oy Akkaya S., Tarımer İ., “Investigation of Stator and Rotor Slits' Effects to the Torque and Efficiency of an Induction Motor”, TEM Journal, Issue No: 1, Pages: 117- 125, (2017).
- [6] Arslan S., “Dalgıç Motorun Analitik, Sayısal, Performans Sonuçlarının Karşılaştırılması”, Düzce Üniversitesi Bilim ve Teknoloji Dergisi, Volume 4, Pages 403 –415, (2016).
- [7] Gecer B., Tosun O., Apaydin H. and Serteller N. F. O., “Comparative analysis of SRM, BLDC and induction motor using ANSYS/Maxwell”, In 2021 International Conference on Electrical, Computer, Communications and Mechatronics Engineering (ICECCME), Mauritius,1-6, (2021).
- [8] Tarımer İ., “Bilgisayar Destekli Asenkron Motor Tasarımı”, Gazi Üniversitesi Teknik Eğitim Fakültesi, Politeknik Dergisi, Cilt 8, Sayı 1, s.s. 19–24, Ankara, (2005).
- [9] Scutaru G., Negoita A. and Ionescu R. M., “Three-phase induction motor design software”, 2010 IEEE International Conference on Automation, Quality and Testing, Robotics (AQTR), Cluj-Napoca, 1-4, (2010).
- [10] Aravind C.V., Grace I., Rozita T., Rajparthiban R., Rajprasad R. and Wong Y. V., “Universal computer aided design for electrical machines”, 2012 IEEE 8th International Colloquium on Signal Processing and its Applications, Malacca- Malaysia, 99-104, (2012).
- [11] Bhaskar L., “Simulink based model for determination of different design parameters of a three phase delta connected squirrel cage induction motor”, IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE), 7(4): 25-32, (2013).
- [12] Aguiar V. P. B., Pontes R. S. T. and Fernandes T. R., “ Three-phase induction motor preliminar designassisted by cad software based on Brazilian standards”, Energy Eficiency in Motor Driven Systems (E-EMODS’2013), Rio de Janeiro, 1-11,(2013).
- [13] Zöhre B. and Akar M., “Matlab grafik arayüzü kullanılarak 3 fazlı asenkron motorların analatik modellenmesi”, 1st International Mediterranean Science and Engineering Congress (IMSEC 2016), Adana-Türkiye, 3652-3659, (2016).
- [14] Deepa V., Bindu R., “Three phase induction motor design in windows programming platform”, International Journal of Engineering and Innovative Technology , 3(1): 353-360, (2013).
- [15] Ike S. A., Enyong P. M. and Olowu T., “ Programing the rewinding of a three-phase induction motor stator using interactive computer-aided design technique”, International Journal of Engineering & Technology, 4(2): 350-357, (2015).
- [16] Somashekar B., “Design of three phase induction motor using matlab programming”, Int. J. Recent Innovation Trends Comput. Commun, 3(8): 5188-5193, (2015).
- [17] Boldea I., Nasar S. A., “The Induction Machine Design Handbook”, CRCPress, Boca Raton, (2010).
- [18] Upadhyay K. G., “Design of electrical machines”, New Age International, New Delhi- India, (2011).
- [19] Gürdal O., “Elektrik makinalarının tasarımı”, Bursa Orhangazi Üniversitesi Yayınları, Bursa, Türkiye, (2015).
- [20] Rahini V. and Nagarajans V. S., “Electrical machine design”, First edition, Pearson, New Delhi- India, (2018).
- [21] Murthy K. V. M., “Computer-aided design of electrical machines”, BS Publications, Hyderabad- India, (2008).
- [22] Yetgin A. G., Çanakoğlu A. İ., Bekiroğlu K. N., Zorlu S., “Optimum Design and Performance Analysis of Three-Phase Induction Motor”, Eleventh International Conference on Electrical Machines, Drivers and Power Systems, September 15–16, pp. 24–30, Sofia-Bulgaria, (2005).
- [23] https://nextion.tech/editor_guide/ (02/10/2022).
- [24] Yaşar E. “Bir tartım otomasyonunda, platform tipi yük hücrelerinin, S-tipi olarak kullanılması”, Avrupa Bilim ve Teknoloji Dergisi, Ejosat Special Issue 2020 (ISMSIT): 221-227, (2020).
- [25] https://store.arduino.cc/products/arduino-mega-2560-rev3 (02/10/2022)
- [26] Krajnc M., Kovač A., Zupančič A. and Šuštar, A., “Microcontroller-based ion meter application utilizing real-time data acquisition system”, Annals of Electrical and Electronic Engineering, 2(3): 8-12, (2019).
- [27] Merhi N., Mohamad N., HajjMoussa G., ElSayed A., Bamashmos S H., Hamawy L. and Kassem A., “An ıntelligent ınfusion flow controlled syringe ınfusion pump”, 31st International Conference on Microelectronics (ICM), Cairo- Egypt, (2019).
- [28] Aslam S., Hannan S., Sajjad U. and Zafar W., “Implementation of PID on PIC24F series microcontroller for speed control of a DC motor using MPLAB and Proteus”, Advances in Science and Technology Research Journal, 10(31), 40-50, (2016).
- [29] Yetgin A. G., Turan M., Cevher B., Çanakoğlu A. İ., Ayhan G. Ü. N., “Squirrel cage induction motor design and the effect of specific magnetic and electrical loading coefficient”, International Journal of Applied Mathematics Electronics and Computers, 7(1), 1-8, (2019).
Abstract
In this study, the performance analysis of a 5.5 kW, 460 V, 60 Hz, 4-pole, and 3-phase squirrel- cage induction motor (IM) has been carried out by developing a portable electronic circuit, design, and the software, independent of any commercial software. The mathematical equations used in the design steps and the preliminary design of the main dimensions of the squirrel cage IM are realized with a developed electronic circuit. To perform preliminary design calculations Nextion 7-inch touch screen, Arduino mega 2560 microcontroller is used in electronic circuit design. Briefly, IM basic data are entered from the Nextion 7 inches touch screen in the electronic circuit created and the data are sent to the Arduino Mega 2560 microcontroller card via serial communication. On the Arduino Mega 2560 microcontroller board, IM mathematical calculations are accomplished, and the calculation results are presented on the Nextion screen. It has been observed that the analytical calculations and the calculation results in the developed calculation tool have been obtained in good agreement.
Keywords
Electric machine design tools Induction Motor prototype design Nextion touch screen Motor design software Arduino
References
- [1] Karakaya A., “Asenkron motorun modellenmesi ve modern denetim yöntemleri ile hız analizi”, Karaelmas Fen ve Mühendislik Dergisi, 7(2): 497-502, (2017).
- [2] Kaya K. & Ünsal A., “Yapay Sinir Ağlarıyla Asenkron Motor Çoklu Arızalarının Tespiti ve Sınıflandırılması”, Politeknik Dergisi , 25 (4) , 1687-1699, (2022).
- [3] Otkun O., “Scalar Speed Control of Induction Motors with Difference Frequency”, Politeknik Dergisi , 23 (2) , 267-276, (2020).
- [4] Khalghani S., “Analytical loss calculation tool for an induction motor”, Master’s Thesis, Lappeenranta-Lahti University of Technology LUT Lappeenranta, (2020).
- [5] Arslan S., Oy Akkaya S., Tarımer İ., “Investigation of Stator and Rotor Slits' Effects to the Torque and Efficiency of an Induction Motor”, TEM Journal, Issue No: 1, Pages: 117- 125, (2017).
- [6] Arslan S., “Dalgıç Motorun Analitik, Sayısal, Performans Sonuçlarının Karşılaştırılması”, Düzce Üniversitesi Bilim ve Teknoloji Dergisi, Volume 4, Pages 403 –415, (2016).
- [7] Gecer B., Tosun O., Apaydin H. and Serteller N. F. O., “Comparative analysis of SRM, BLDC and induction motor using ANSYS/Maxwell”, In 2021 International Conference on Electrical, Computer, Communications and Mechatronics Engineering (ICECCME), Mauritius,1-6, (2021).
- [8] Tarımer İ., “Bilgisayar Destekli Asenkron Motor Tasarımı”, Gazi Üniversitesi Teknik Eğitim Fakültesi, Politeknik Dergisi, Cilt 8, Sayı 1, s.s. 19–24, Ankara, (2005).
- [9] Scutaru G., Negoita A. and Ionescu R. M., “Three-phase induction motor design software”, 2010 IEEE International Conference on Automation, Quality and Testing, Robotics (AQTR), Cluj-Napoca, 1-4, (2010).
- [10] Aravind C.V., Grace I., Rozita T., Rajparthiban R., Rajprasad R. and Wong Y. V., “Universal computer aided design for electrical machines”, 2012 IEEE 8th International Colloquium on Signal Processing and its Applications, Malacca- Malaysia, 99-104, (2012).
- [11] Bhaskar L., “Simulink based model for determination of different design parameters of a three phase delta connected squirrel cage induction motor”, IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE), 7(4): 25-32, (2013).
- [12] Aguiar V. P. B., Pontes R. S. T. and Fernandes T. R., “ Three-phase induction motor preliminar designassisted by cad software based on Brazilian standards”, Energy Eficiency in Motor Driven Systems (E-EMODS’2013), Rio de Janeiro, 1-11,(2013).
- [13] Zöhre B. and Akar M., “Matlab grafik arayüzü kullanılarak 3 fazlı asenkron motorların analatik modellenmesi”, 1st International Mediterranean Science and Engineering Congress (IMSEC 2016), Adana-Türkiye, 3652-3659, (2016).
- [14] Deepa V., Bindu R., “Three phase induction motor design in windows programming platform”, International Journal of Engineering and Innovative Technology , 3(1): 353-360, (2013).
- [15] Ike S. A., Enyong P. M. and Olowu T., “ Programing the rewinding of a three-phase induction motor stator using interactive computer-aided design technique”, International Journal of Engineering & Technology, 4(2): 350-357, (2015).
- [16] Somashekar B., “Design of three phase induction motor using matlab programming”, Int. J. Recent Innovation Trends Comput. Commun, 3(8): 5188-5193, (2015).
- [17] Boldea I., Nasar S. A., “The Induction Machine Design Handbook”, CRCPress, Boca Raton, (2010).
- [18] Upadhyay K. G., “Design of electrical machines”, New Age International, New Delhi- India, (2011).
- [19] Gürdal O., “Elektrik makinalarının tasarımı”, Bursa Orhangazi Üniversitesi Yayınları, Bursa, Türkiye, (2015).
- [20] Rahini V. and Nagarajans V. S., “Electrical machine design”, First edition, Pearson, New Delhi- India, (2018).
- [21] Murthy K. V. M., “Computer-aided design of electrical machines”, BS Publications, Hyderabad- India, (2008).
- [22] Yetgin A. G., Çanakoğlu A. İ., Bekiroğlu K. N., Zorlu S., “Optimum Design and Performance Analysis of Three-Phase Induction Motor”, Eleventh International Conference on Electrical Machines, Drivers and Power Systems, September 15–16, pp. 24–30, Sofia-Bulgaria, (2005).
- [23] https://nextion.tech/editor_guide/ (02/10/2022).
- [24] Yaşar E. “Bir tartım otomasyonunda, platform tipi yük hücrelerinin, S-tipi olarak kullanılması”, Avrupa Bilim ve Teknoloji Dergisi, Ejosat Special Issue 2020 (ISMSIT): 221-227, (2020).
- [25] https://store.arduino.cc/products/arduino-mega-2560-rev3 (02/10/2022)
- [26] Krajnc M., Kovač A., Zupančič A. and Šuštar, A., “Microcontroller-based ion meter application utilizing real-time data acquisition system”, Annals of Electrical and Electronic Engineering, 2(3): 8-12, (2019).
- [27] Merhi N., Mohamad N., HajjMoussa G., ElSayed A., Bamashmos S H., Hamawy L. and Kassem A., “An ıntelligent ınfusion flow controlled syringe ınfusion pump”, 31st International Conference on Microelectronics (ICM), Cairo- Egypt, (2019).
- [28] Aslam S., Hannan S., Sajjad U. and Zafar W., “Implementation of PID on PIC24F series microcontroller for speed control of a DC motor using MPLAB and Proteus”, Advances in Science and Technology Research Journal, 10(31), 40-50, (2016).
- [29] Yetgin A. G., Turan M., Cevher B., Çanakoğlu A. İ., Ayhan G. Ü. N., “Squirrel cage induction motor design and the effect of specific magnetic and electrical loading coefficient”, International Journal of Applied Mathematics Electronics and Computers, 7(1), 1-8, (2019).
Details
| Primary Language | English |
|---|---|
| Subjects | Engineering |
| Journal Section | Research Article |
| Authors | |
| Early Pub Date | June 14, 2023 |
| Publication Date | |
| Submission Date | December 10, 2022 |
| Published in Issue | Year 2024 EARLY VIEW |
Cite
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