Development Of Cost-Saving Energy For Home Lighting Based Microcontroller and RTC

  • Benriwati Maharmi Sekolah Tinggi Teknologi Pekanbaru (STTP), Indonesia
  • Toriq Kardova Sekolah Tinggi Teknologi Pekanbaru (STTP), Indonesia
  • Ermawati Sekolah Tinggi Teknologi Pekanbaru (STTP), Indonesia
DOI: https://doi.org/10.31258/ijeepse.2.2.20-24
Abstract viewed: 438 times
PDF downloaded: 392 times
Keywords: Cost saving energy, Home lighting, Microcontroller

Abstract

The use of controlled and efficient electrical energy can save the cost of electricity expenditure. This study aims to design the cost saving energy tool for household scale of lighting using automatic microcontroller system. The design of the appliance used the automatic control system of home lights, which setting time using RTC (Real Time Clock) and a microcontroller Arduino Mega 2560. Power supply on this system was operated to supply power all existing components and controller using Arduino Mega 2560 microcontroller. Based on the test results, the cost-saving energy tool worked as an expectation of controlling the On/Off lights automatically, the RTC and current sensors can work properly to limit the current. Therefore, this design proposed can reduce the cost of electrical energy.

References

[1] N. Almali, K.S. Bahir and O. Atan, "Arduino based smart home automation system", International Journal of Scientific Research in Information System and Engineering, Vol. 2 (2), pp 1-5, 2016.

[2] Sharef, Z.T. Isa, M.A., Hasan, F.A., Toorani M.A. dan Yadgar R.A., "Automated Meter Reading System Based on Basic Stamp2 Microcontroller", Asian Journal of Scientific Research, Vol. 6, No. 1, Pp. 88-97, 2013.

[3] I. W. Shalat, "Simulasi pengaturan sistem penerangan secara otomatis dengan plc omron cpm1a 20cdr A-V1", pp 1-9, 2015.

[4] H. V. Dange and V. K. Gondi, "Powerline Communication Based Home Automation and Electricity Distribution System", International Conference on Process Automation, Control and Computing (PACC), Coimbatore, pp. 1-6, 2011.

[5] J. T. Wiyatno, "Timer Digital Pengendali On/Off Peralatan Rumah Tangga Menggunakan Mikrokontroler Atmel 89S52", Jurnal Telkomnika, Vol. 3 (1), 2015.

[6] R. Panna, R, "Thesrumluk and C. Chantrapornchai, Development of Energy Saving Smart Home Prototype", International Journal of Smart Home, Vol. 7 (1), pp. 47-66, 2013.

[7] Arun R and Vuttaradi A, "Design of an intelligent and efficient light control system", International Journal of Computer Applications Technology and Research, Vol. 2 (2), pp 117-120, 2013.

[8] Li, Rita Yi Man; Li, HerruChing Yu, Mak, Cho Kei; Tang, Tony Beiqi, "Sustainable Smart Home and Home Automation: Big Data Analytics Approach", International Journal of Smart Home, Vol.10 (8), pp. 177–198, 2016.

[9] R. Piyare, M. Tazil, "Bluetooth Based Home Automation System Using Cell Phone", IEEE 15th International Symposium on Consumer Electronics, 2011.

[10] I. Attia, Hamdy A., "Energy Saving Through Smart Home", The Online Journal on Power and Energy Engineering (OJPEE), Vol. 2 (3), pp. 223-227, 2011.

[11] A. E. Putra, Belajar Mikrokontroler Arduino Mega 2560 Teori dan Aplikasi, Edisi 2, Jakarta.

[12] Maxim Integrated, Datasheet RTC DS 1307, http://alldatasheet.com, 2017.

[13] VISHAY, 20X4 Character LCD, available: http://www.vishay.com, 2017.

[14] PARALLAX INC, 4X4 Keypad Matrix, available: http://pdfdatabase.co, 2016

[15] SONGLE RELAY, Modul Relay SRD-05VDC-SL-C datasheet, available : http://alldatasheet.com, 2017.

[16] ALLEGRO, Sensor Arus ACS712 datasheet, available: http://alldatasheet.com, 2017.

[17] Daryanto, "Pengetahuan Teknik Elektronika", Jakarta, Penerbit Bumi Aksara, 2007.

Published
2019-06-18
How to Cite
[1]
B. Maharmi, T. Kardova, and Ermawati, “Development Of Cost-Saving Energy For Home Lighting Based Microcontroller and RTC”, IJEEPSE, vol. 2, no. 2, pp. 20-24, Jun. 2019.