ARDUINO MKR FOX 1200, MKR1000, AND MKR VIDOR 4000 ANALYSIS USING A SIMPLE RTC ALARM METHOD
DOI:
https://doi.org/10.31598/jurnalresistor.v4i2.896Keywords:
Arduino MKR 1000, Arduino MKR Fox 1200, Arduino MKR Vidor 4000, Simple RTC AlarmAbstract
Arduino MKR merupakan salah satu bagian dari keluarga arduino yang memiliki kemampuan yang berbeda dengan arduino biasa. Dalam penelitian ini, penulis akan membahas kemampuan dari IC RTC yang sudah tertanam pada papan Arduino MKR dan membandingkan data dari ketelitian pembacaan nilai RTC. Nilai yang didapatkan akan menunjukkan papan Arduino MKR yang memiliki kemampuan pembacaan nilai RTC terbaik. Adapun papan Arduino MKR yang digunakan dalam penelitian ini yaitu dengan tipe Arduino MKR 1000, Arduino MKR Fox 1200, dan Arduino MKR Vidor 4000. Untuk mendukung penelitian, penulis menggunakan metode penelitian kuantitatif eksperimental. Penggunaan metode ini sangat cocok digunakan karena metode ini menonjolkan angka sebagai data dan penulis juga melakukan percobaan langsung pada papan Arduino MKR. Setelah penelitian dilakukan, maka dari hasil percobaan diperoleh rata-rata MKR 1000 memiliki selisih waktu terkecil sebesar 2.912 detik dibandingkan dengan MKR Fox 1200 dengan selisih waktu rata-rata 4.097 detik dan MKR Vidor 4000 memiliki selisih waktu rata-rata 5.804 detik. Untuk proyek yang menggunakan RTC (Real Time Clock) direkomendasikan menggunakan MKR 1000.
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References
H. Wu, M. Dyson, and K. Nazarpour, “Arduino-based myoelectric control: Towards longitudinal study of prosthesis use,” Sensors (Switzerland), vol. 21, no. 3, pp. 1–13, 2021.
I. G. M. N. Desnanjaya and I. G. I. Sudipa, “The control system of Kulkul Bali based on microcontroller,” in Proceedings of 2019 5th International Conference on New Media Studies, CONMEDIA 2019, 2019.
I. M. A. Nugraha, I. G. M. N. Desnanjaya, I. W. D. Pranata, and W. Harianto, “Stability Data Xbee S2b Zigbee Communication on Arduino Based Sumo Robot,” J. Robot. Control, 2021.
E. Hendriarianti and A. Soetedjo, “IoT Based Real-Time Monitoring of Phytoremediation of Wastewater using the Mathematical Model Implemented on the Embedded Systems,” Int. J. Intell. Eng. Syst., vol. 14, no. 2, p. 2021.
I. G. M. N. Desnanjaya, I. N. B. Hartawan, W. G. S. Parwita, and I. B. A. I. Iswara, “Performance Analysis of Data Transmission on a Wireless Sensor Network Using the XBee Pro Series 2B RF Module,” IJEIS (Indonesian J. Electron. Instrum. Syst., vol. 10, no. 2, p. 211, Oct. 2020.
A. A. G. Ekayana, I. N. B. Hartawan, I. G. M. N. Desnanjaya, and I. D. M. A. B. Joni, “Body mass index measurement system as a desktop-based nutrition monitor,” J. Phys. Conf. Ser., vol. 1469, no. 1, 2020.
A. Martín-Garín, J. A. Millán-García, A. Baïri, M. Gabilondo, and A. Rodríguez, “IoT and cloud computing for building energy efficiency,” in Start-Up Creation, 2020.
S. Houidi, F. Auger, P. Fretaud, D. Fourer, L. Miegeville, and H. B. A. Sethom, “Design of an electricity consumption measurement system for Non Intrusive Load Monitoring,” in 2019 10th International Renewable Energy Congress, IREC 2019, 2019.
M. A. Bañuelos-Saucedo, “Li-ion Battery Two-region Polynomial Piecewise State-of-charge Model for a Portable Datalogger Applied to Technosol Studies,” in Proceedings - 2020 International Conference on Mechatronics, Electronics and Automotive Engineering, ICMEAE 2020, 2020.
“An Introduction to Arduino’s MKR Family and IoT Development Boards | Arduino | Maker Pro.” [Online]. Available: https://maker.pro/arduino/tutorial/an-introduction-to-arduinos-mkr-family-and-iot-development-boards. [Accessed: 29-May-2021].
“MKR FOX 1200 | Arduino Documentation | Arduino Documentation.” [Online]. Available: https://docs.arduino.cc/hardware/mkr-fox-1200. [Accessed: 26-Jun-2021].
“Getting started with the Arduino MKR1000 | Arduino.” [Online]. Available: https://www.arduino.cc/en/Guide/MKR1000. [Accessed: 26-Jun-2021].
I. N. B. Hartawan and I. G. M. N. Desnanjaya, “ANALISIS KINERJA PROTOKOL ZIGBEE DI DALAM DAN DI LUAR RUANGAN SEBAGAI MEDIA KOMUNIKASI DATA PADA WIRELESS SENSOR NETWORK,” J. Resist. (Rekayasa Sist. Komputer), 2018.
“Getting Started with the Arduino MKR Vidor 4000 | Arduino.” [Online]. Available: https://www.arduino.cc/en/Guide/MKRVidor4000. [Accessed: 26-Jun-2021].
M. Elkady, A. Elkorany, and A. Allam, “ACAIOT: A Framework for Adaptable Context-Aware IoT applications,” Int. J. Intell. Eng. Syst., vol. 13, no. 4, 2020.
I. G. M. N. Desnanjaya, I. G. I. Sudipa, and I. W. D. Pranata, “Performance Analysis Of Balinese Kulkul Beats Information System Based on Website and Android Using ISO 9126,” Proceeding Electr. Eng. Comput. Sci. Informatics, 2020.
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