Alat Uji Data Tahan Mekanik dan Elektrik Untuk "Mobiya" Menggunakan PLC
Abstract
Portable lights are electronic devices that can be used practically anywhere. They are manufactured to be sold to countries where access to electricity is difficult, such as countries in the African continent. One of these products is called "Mobiya", a rechargeable battery-powered portable lamp. The recharging process uses a DC power source with a Universal Serial Bus (USB) type power inlet. This article discusses the creation of a test tool to control the quality of Mobiya portable lamp production. The creation of this tool includes the process of designing, manufacturing, and testing. In addition, Preventive Maintenance is also presented in the form of statistical data processing to obtain the status and condition of the test equipment as a basis for maintenance. This study succeeded in creating a test tool capable of testing Mobiya portable lamps in accordance with production standards.
References
[2] M. Fusko, M. Rakyta, M. Krajcovic, L. Dulina, M. Gaso, and P. Grznar, “BASICS OF DESIGNING MAINTENANCE PROCESSES IN INDUSTRY 4.0,” MM Science Journal, vol. 2018, no. 01, pp. 2252–2259, Mar. 2018.
[3] S. G. Robert, N. Bizon, and M. Oproescu, “The importance of PLC in the predictive maintenance of electronic equipment,” 2018 10th International Conference on Electronics, Computers and Artificial Intelligence (ECAI), Jun. 2018.
[4] E. R. Alphonsus and M. O. Abdullah, “A review on the applications of programmable logic controllers (PLCs),” Renewable and Sustainable Energy Reviews, vol. 60, pp. 1185–1205, Jul. 2016.
[5] D. Sehrawat and N. S. Gill, “Smart Sensors: Analysis of Different Types of IoT Sensors,” IEEE Xplore, Apr. 01, 2019.
[6] S. V. Angadi and R. L. Jackson, “A critical review on the solenoid valve reliability, performance and remaining useful life including its industrial applications,” Engineering Failure Analysis, vol. 136, p. 106231, Jun. 2022.
[7] “C60N/H miniature circuit breakers Multi 9 Merlin Gerin”, AUS01PL04-A, Schneider Electric, 2006. [Online]. Available:
https://download.datasheets.com/pdfs/2006/07/28/c/cs/sce/ds/c60n.pdf
[8] "XB7NS8445 Monolithic emergency stop, plastic, red mushroom Ø40, Ø22, latching turn to release, 1 NO + 1 NC", Schneider Electric, 2021. [Online]. Available:
https://media.distributordatasolutions.com/schneider2/2021q1/documents/5f527f8d5e6775f02d030768a4868154b5b3420a.pdf
[9] “V3 TeSys VARIO - Switch body for switchdisconnector - 3 poles - 63 A”, Schneider Electric, 2021. [Online]. Available:
https://media.distributordatasolutions.com/schneider2/2021q1/documents/ea6983eea994d87b4cd91871febf003489da361d.pdf
[10] “Totalising Counter - LCD 8 Digit Display - Internal Li Battery”, Schneider Electric, 2022. [Online]. Available:
https://download.datasheets.com/pdfs2/2022/9/25/17/36/51/539727/sce_/manual/358357932957914_attachment.pdf
[11] M. Fusko, M. Rakyta, M. Krajcovic, L. Dulina, M. Gaso, and P. Grznar, “BASICS OF DESIGNING MAINTENANCE PROCESSES IN INDUSTRY 4.0,” MM Science Journal, vol. 2018, no. 01, pp. 2252–2259, Mar. 2018.
[12] J.-S. Jeong, “Failure mechanism and reliability test method for USB interface circuitry on CPUs for mobile devices,” Microelectronics Reliability, vol. 52, no. 9–10, pp. 2014–2018, Sep. 2012.
[13] J. Duenckel, R. Soileau, and J. Pittman, “An electrical reliability metric for preventive maintenance: Mean time between failure plus finds,” 2015 IEEE Petroleum and Chemical Industry Committee Conference (PCIC), Oct. 2015.