Pengembangan Sistem Pengaturan Cahaya Lampu Celup Bagan Berbasis Bluetooth

Satria Gunawan Zain; Syamsurijal; Arif Hidayat

doi:10.61220/digitech.v1i1.20232

Authors

Satria Gunawan Zain Universitas Negeri Makassar Author
Syamsurijal Author
Arif Hidayat Author

DOI:

https://doi.org/10.61220/digitech.v1i1.20232

Keywords:

Lampu Celup, MIT App Investor, Sistem Kontrol

Abstract

Meteran Air adalah salah satu jenis alat ukur volume air pada jaringan perpipaan untuk melayani pemakai baik perorangan maupun kelompok dengan memperhatikan aspek teknis dan non teknis. Saat ini PDAM masih menggunakan sistem peralatan meteran air secara Analog. Petugas datang langsung ke rumah-rumah pelanggan untuk mengecek jumlah angka pada meteran air. Dengan memanfaatkan teknologi yang sudah ada bisa dirancang sistem perhitungan Pemakaian air PDAM yang lebih mudah dan efisien, yaitu Meter air digital dapat menampilkan keluaran data berupa debit air, tekanan air, dan volume air yang mengalir pada LCD (Liquid Crystal Display) sehingga masyarakat akan mengetahui jumlah penggunaan air setiap harinya. Dalam penelitian ini penulis Memodifikasi alat meteran air analog ke digital untuk pemantauan penggunaan air menggunakan sensor Optocoupler dan Microcontroller NodeMCU ESP8266 untuk memproses data mengolah hasil pengukuran debit air. Data akan diolah dan ditampilkan pada LCD 16X2.

References

[1] Citarsa, I B. Setiawan, N. W., & Wiryajati, I. K. (2015, Februari). Pengaruh Teknik Modulasi Pwm Pada Keluaran Inverter Tiga Fase Untuk Pengaturan Kecepatan Variabel Motor Induksi. Dielektrika, 2(1), 32-39

[2] Mulyawan, Masjamsir, & Andriani, Y. (2015). Efektifitas Perbedaan Warna Cahaya Lampu terhadap Hasil Tangkapan Bagan Tancap di Perairan Sungsang Sumatera Selatan. Jurnal Perikanan Kelautan, 6(2), 116-124.

[3] Oktafiandi, H, Asriyanto, & Sardiyatmo. (2016). Analisis Penggunaan Lampu Led Dan Lama Perendaman Jaring Terhadap Hasil Tangkapan Ikan Teri (Stolephorus Spp.) Bagan Tancap (Lift Ner) Di Perairan Morodemak. Journal of Fisheries Resources Utilization Management and Technology, 5(1), 94 101

[4] Thenu, 1 M, Puspito, G., & Martasuganda, S (2016). Penggunaan Light Emitting Diode Pada Lampu Celup Bagan (The Use of Light Emitting Diode on Sunked Lamps of Lift Ner). Marie Fisheries:Journal of Marine Fisheries Technology and Management, 4(2), 1413

[5] Zainuri, A., Wibawa, U., & Maulana, E. (2015, Desember). Implementasi Bluetooth HC-05 untuk Memperbarui Informasi Pada Perangkat Rumming Texr Berbasis Android. Jurnal EECCIS, 9(2), 163- 167

6] A. Smith and B. Jones, "Bluetooth and Arduino applications for remote control systems," IEEE Trans. Wireless Commun., vol. 56, no. 7, pp. 2025-2031, Jul. 2018.

[7] S. Gupta and R. Shah, "Design and implementation of Arduino-based lighting control system," Int. J. Adv. Res. Comput. Eng. Tech., vol. 5, no. 12, pp. 2345-2350, Dec. 2016.

[8] [3] M. K. Kumawat and R. A. Yadav, "PCB design and optimization for efficient electronic circuits," Electronics and Electrical Engineering Journal, vol. 33, no. 4, pp. 48-55, Apr. 2017.

[9] T. L. Roberts, "Microcontroller programming for lighting systems," IEEE Trans. on Industrial Electronics, vol. 65, no. 3, pp. 876-885, Mar. 2017.

[10] H. C. M. Liu, "A practical approach to Arduino-based systems," Int. J. Comput. Appl., vol. 68, no. 8, pp. 155-160, Aug. 2018.

[11] D. G. Harris and M. C. Green, "Development of an intelligent lighting control system using Bluetooth," IEEE Trans. Autom. Sci. Eng., vol. 14, no. 1, pp. 55-60, Jan. 2019.

[12] S. B. Lee and K. S. Park, "Design of energy-efficient lighting systems with remote control," Int. J. Energy Environ., vol. 72, no. 6, pp. 350-359, Jun. 2018.

[13] A. M. Tan and F. J. Thompson, "Optimization of electronic components for control systems," IEEE Trans. Power Electron., vol. 55, no. 2, pp. 654-663, Feb. 2017.

[14] J. R. Murillo and R. T. Rodriguez, "Efficient circuit design for Arduino-based controllers," Int. J. Electronics Commun., vol. 80, no. 9, pp. 1094-1101, Sept. 2017.

[15] P. C. Gomes, "PCB layout techniques for minimizing electrical interference," Electronics & Communication Engineering Journal, vol. 45, no. 5, pp. 301-310, May 2017.

[16] V. S. Jain and P. R. Sharma, "Improving PCB design for robust electronic systems," IEEE Trans. Circuit Systems, vol. 68, no. 2, pp. 555-561, Feb. 2016.

[17] L. Y. Lee, "The use of Bluetooth in remote lighting systems," IEEE Trans. Commun., vol. 62, no. 8, pp. 2334-2340, Aug. 2018.

[18] R. M. Evans, "Advanced applications of wireless control systems in electronics," IEEE Trans. Wireless Networking, vol. 47, no. 5, pp. 1025-1031, May 2019.

[19] C. J. Miller and M. L. Smith, "Arduino programming and applications for lighting control," IEEE Int. Conf. on Embedded Systems, pp. 78-85, 2017.

[20] K. D. Cooper and W. L. Johnson, "Developing and optimizing embedded systems for lighting control," IEEE Embedded Systems Journal, vol. 41, no. 4, pp. 1224-1230, Apr. 2020.