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DESIGN AND APPLICATION OF LOW-COST FUSE CURRENT TESTER IN CARS

Year 2024, Volume: 6 Issue: 1, 29 - 39, 02.02.2024
https://doi.org/10.47933/ijeir.1292924

Abstract

By measuring the voltage drop on the fuses in vehicles with a multimeter and using the fuse voltage drop cards, it is possible to determine the current drawn by the load based on the color, type, and current value listed on the fuse label. Arduino is a family of microcontroller development devices that are utilized in numerous digital system design applications. In this study, a fuse current analyzer is proposed for measuring the voltage drop across the fuses in a vehicle using an Arduino development board and obtaining the load current. The developed current analyzer can be utilized in automotive electricity and electronics courses, circuit studies, and for determining whether the fuse value on vehicles is sufficient and detecting load current leakage. The proposed system is tested on vehicle fuses, and an approximate 4% mean error rate is determined. This system can be used to perform tests in automotive electrical laboratories, or it can be implemented in the classroom to give students hands-on experience.

References

  • Banzi M., Shiloh M., Getting started with Arduino, (2022). Maker Media, Inc..
  • Dandıl E., Demir E., Gerçek Zamanlı Araç Hız Ölçümü ve Takip Sistemi Tasarımı, Iğdır Üniversitesi Fen Bilimleri Enstitüsü Dergisi, (2020) 10(1): 13-27.
  • Duman O., Eğitimde arduino kullanımı ile ilgili yapılan çalışmalar. XII. Uluslararası Eğitim Araştırmaları Kongresi, (2019) April 25-28, Rize, Turkey.
  • Fan T., Hu L., Zuo D., Chen R., Li F., Zhou B., The general Design of Tester System Based on ARM of Fuse, (2016) In 2016 4th International Conference on Machinery, Materials and Computing Technology (pp. 1049-1055). Atlantis Press.
  • Hakim L., Sitorus Z., Maududy M. M.A., Design tool of Motor Vehicle Emissions Measurement Devices with Based on Arduino Nano with Android Smartphone Viewer, (2018) International Journal of Applied Engineering Research,13, Number 6, 3975-3978.
  • Ibrahim D., Microcontroller based applied digital control, (2006). John Wiley & Sons.
  • Kırıkkaya E. B., Başaran B., Fizik Laboratuvarında Gerçekleştirilen Elektrik Deneylerinin Arduino Programı İle Yeniden Düzenlenmesi, (2017) IV. International Eurasian Educational Research Congress 2017 Bildiri Kitabı , 351-356
  • Li Y., Zhang Z. H., Circuit testing system of vehicle fuse box based on LabVIEW, (2011). In Applied Mechanics and Materials (Vol. 43, pp. 132-136). Trans Tech Publications Ltd.
  • Liu C., Meng Q., Liao T., Bao X., Xu C., A flexible hardware architecture for slave device of i2c bus, (2019) In 2019 International Conference on Electronic Engineering and Informatics (EEI) (pp. 309-313). IEEE.
  • Mohammed S. L., Al-Naji A., Farjo M. M., Chahl J., Highly accurate water level measurement system using a microcontroller and an ultrasonic sensor, (2019,). In IOP Conference Series: Materials Science and Engineering (Vol. 518, No. 4, p. 042025). IOP Publishing.
  • Organtini G., Arduino as a tool for physics experiments, ( 2018) J. Phys.: Conf. Ser., 1076, 012026
  • Patnaik Patnaikuni D. R., A Comparative Study of Arduino, Raspberry Pi and ESP8266 as IoT Development Board, (2017).International Journal of Advanced Research in Computer Science,8(5).
  • Srividyadevi P., Pusphalatha D. V., Sharma P. M., Measurement of power and energy using arduino, (2013) Research Journal of Engineering Sciences, 2278, 9472.
  • Seo H. J., Kim Y. K., Kim C. S., Kwon O. Y., Jeon, J. J., Kim T. J., The fatigue lifetime prediction of a fuse box under complex environment, (2011) (No. 2011-28-0130). SAE Technical Paper.
  • Uzal G., The Use of Arduino in Physics Laboratories, (2022) The Turkish Online Journal of Educational Technology, 21, 88-100.
  • Vaishnavi D., Sundari E., Sangeetha T.V., Shrinidhi S., Saravanan P., Design and Development of Computational Intelligence for Enhanced Adaptive Cruise Control Using Arduino, (2016 ) Applied Mechanics and Materials, 852, 782-787.
  • Web 1, https://www.scribd.com/document/381313888/Fuse-Voltage-Drop-Chart-Standard-Fuse-pdf, (2022) (Erişim Tarihi: 15/11/2022).

DÜŞÜK MALİYETLİ SİGORTA AKIMI TEST CİHAZININ ARAÇLARDA TASARLANMASI VE UYGULANMASI

Year 2024, Volume: 6 Issue: 1, 29 - 39, 02.02.2024
https://doi.org/10.47933/ijeir.1292924

Abstract

Taşıtlarda sigortalar üzerinden multimetre yardımı ile gerilim düşümü ölçülerek ve sigorta gerilim düşüm kartları üzerinden sigortanın renk, tip ve üzerinde yazılı olan akım değerine göre alıcının çektiği akım bulunabilmektedir. Arduino, çok sayıda sayısal sistem tasarımı uygulamasında kullanılan bir mikrodenetleyici geliştirme kartı ailesidir. Bu çalışmada Arduino geliştirme kartı kullanılarak otomobillerde sigortalar üzerinden voltaj düşümünü ölçerek alıcının çektiği akımın elde edilmesini sağlayan sigorta akım test cihazı önerilmektedir. Geliştirilen akım test cihazı otomotiv elektriği ve elektroniği derslerinde devre çalışmalarında ve otomobiller üzerinde sigorta değerinin yeterli olup olmadığının tespit edilmesinde veya akım kaçağının olduğu durumlarda akım çeken alıcının tespiti için kullanılabilir. Önerilmekte olan sistem otomobil sigortaları üzerinde test edilmiş ve ortalama hatanın 4% civarı olduğu görülmüştür. Bu sistem otomotiv elektriği laboratuvarlarının donatılmasında kullanılabileceği gibi öğrencilere yaptırılarak ders içi uygulaması olarak da değerlendirilebilir.

References

  • Banzi M., Shiloh M., Getting started with Arduino, (2022). Maker Media, Inc..
  • Dandıl E., Demir E., Gerçek Zamanlı Araç Hız Ölçümü ve Takip Sistemi Tasarımı, Iğdır Üniversitesi Fen Bilimleri Enstitüsü Dergisi, (2020) 10(1): 13-27.
  • Duman O., Eğitimde arduino kullanımı ile ilgili yapılan çalışmalar. XII. Uluslararası Eğitim Araştırmaları Kongresi, (2019) April 25-28, Rize, Turkey.
  • Fan T., Hu L., Zuo D., Chen R., Li F., Zhou B., The general Design of Tester System Based on ARM of Fuse, (2016) In 2016 4th International Conference on Machinery, Materials and Computing Technology (pp. 1049-1055). Atlantis Press.
  • Hakim L., Sitorus Z., Maududy M. M.A., Design tool of Motor Vehicle Emissions Measurement Devices with Based on Arduino Nano with Android Smartphone Viewer, (2018) International Journal of Applied Engineering Research,13, Number 6, 3975-3978.
  • Ibrahim D., Microcontroller based applied digital control, (2006). John Wiley & Sons.
  • Kırıkkaya E. B., Başaran B., Fizik Laboratuvarında Gerçekleştirilen Elektrik Deneylerinin Arduino Programı İle Yeniden Düzenlenmesi, (2017) IV. International Eurasian Educational Research Congress 2017 Bildiri Kitabı , 351-356
  • Li Y., Zhang Z. H., Circuit testing system of vehicle fuse box based on LabVIEW, (2011). In Applied Mechanics and Materials (Vol. 43, pp. 132-136). Trans Tech Publications Ltd.
  • Liu C., Meng Q., Liao T., Bao X., Xu C., A flexible hardware architecture for slave device of i2c bus, (2019) In 2019 International Conference on Electronic Engineering and Informatics (EEI) (pp. 309-313). IEEE.
  • Mohammed S. L., Al-Naji A., Farjo M. M., Chahl J., Highly accurate water level measurement system using a microcontroller and an ultrasonic sensor, (2019,). In IOP Conference Series: Materials Science and Engineering (Vol. 518, No. 4, p. 042025). IOP Publishing.
  • Organtini G., Arduino as a tool for physics experiments, ( 2018) J. Phys.: Conf. Ser., 1076, 012026
  • Patnaik Patnaikuni D. R., A Comparative Study of Arduino, Raspberry Pi and ESP8266 as IoT Development Board, (2017).International Journal of Advanced Research in Computer Science,8(5).
  • Srividyadevi P., Pusphalatha D. V., Sharma P. M., Measurement of power and energy using arduino, (2013) Research Journal of Engineering Sciences, 2278, 9472.
  • Seo H. J., Kim Y. K., Kim C. S., Kwon O. Y., Jeon, J. J., Kim T. J., The fatigue lifetime prediction of a fuse box under complex environment, (2011) (No. 2011-28-0130). SAE Technical Paper.
  • Uzal G., The Use of Arduino in Physics Laboratories, (2022) The Turkish Online Journal of Educational Technology, 21, 88-100.
  • Vaishnavi D., Sundari E., Sangeetha T.V., Shrinidhi S., Saravanan P., Design and Development of Computational Intelligence for Enhanced Adaptive Cruise Control Using Arduino, (2016 ) Applied Mechanics and Materials, 852, 782-787.
  • Web 1, https://www.scribd.com/document/381313888/Fuse-Voltage-Drop-Chart-Standard-Fuse-pdf, (2022) (Erişim Tarihi: 15/11/2022).
There are 17 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Articles
Authors

Erdal Kılıç 0000-0001-8212-5533

Ersoy Mevsim 0000-0002-0879-6424

Early Pub Date January 9, 2024
Publication Date February 2, 2024
Acceptance Date December 26, 2023
Published in Issue Year 2024 Volume: 6 Issue: 1

Cite

APA Kılıç, E., & Mevsim, E. (2024). DESIGN AND APPLICATION OF LOW-COST FUSE CURRENT TESTER IN CARS. International Journal of Engineering and Innovative Research, 6(1), 29-39. https://doi.org/10.47933/ijeir.1292924

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