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Sistem Monitoring Tegangan, Arus, dan Intensitas Cahaya pada Panel Surya dengan Thingspeak
Keywords:
sistem monitoring, panel surya, ThingSpeak, monitoring daya, arus, teganganAbstract
Penelitian ini bertujuan untuk merancang dan membuat sebuah alat monitoring arus dan tegangan dari panel surya, serta intensitas cahaya matahari yang mempengaruhi keluaran dari panel surya yang berbasis IoT dan bersifat realtime. Data hasil monitoring disimpan dan ditampilkan pada Thingspeak. Penelitian ini menggunakan metode Penelitian dan Pengembangan (Research and Development) model Borg and Gall. Hasil dari penelitian ini adalah nilai pembacaan sensor tegangan mampu mengukur nilai tegangan panel surya dengan nilai galat sebesar 1,12%, sensor arus mampu mengukur arus dengan galat sebesar 1,64%, dan sensor intensitas cahaya BH1750 dalam mengukur intensitas cahaya matahari memiliki persentase galat sebesar 1,24%, kemudian data alat monitoring dikirim dan ditampilkan pada ThingSpeak. Selisih waktu dari pembacaan alat dan data yang diterima oleh website berkisar selam 4-6 detik.
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References
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[2] Farihah Shariff, Nasrudin Abd Rahim, Hew Wooi Ping , "Photovoltaic Remote Monitoring System Based on GSM," IEEE Conference on Clean Energy and Technology (CEAT), 2013.
[3] Kopacz Cs. dkk, "Remote and Centralized Monitoring of PV Power Plants," International Conference on Optimization of Electrical and Electronic Equipment OPTIM, 2014.
[4] Winasis, Azis Wisnu Widhi Nugraha, Imron Rosyadi, Fajar Surya Tri Nugroho, "Desain Sistem Monitoring Sistem Photovoltaic Berbasis Internet of Things (IoT)," JNTETI Vol. 5, vol. 5, 2016.
[5] Afrizal Fitriandi, Endah Komalasari, Herri Gusmedi , "Rancang Bangun Alat Monitoring Arus dan Tegangan Berbasis Mikrokontroler dengan SMS Gateway," Jurnal Rekayasa dan Teknologi Elektro , vol. X, 2016.
[6] S. Manai, Membuat Sendiri Pembangkit Listrik Tenaga Surya, Singapura: BukuDigital, 2014.
[7] M. Miller, The Internet of Things, Amerika: QUE, 2015.
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[11] N. Hilalliati, "Rangkaian Pembagi Tegangan, Arus, dan Setara," 2014.
[12] K. Wardana, "Narin Laboratory," 2017. [Online]. Available: https://tutorkeren.com. [Accessed 20 Juli 2018].
[13] Allegro MicroSystems, LLC, "Fully Integrated, Hall Effect-Based Linear Current Sensor IC with 2.1 kVRMS Isolation and a Low-Resistance Current Conductor," Allegro MicroSystems, LLC, 2017.
[14] S. Soeparman, Teknologi Tenaga Surya, Malang: Universitas Brawijaya Press (UB Press), 2015.
[15] K. Jäger, Solar Energy Fundamentals,Technology,and Systems, Belanda: Delft University of Technology, 2014.
[16] P. H. Zweibel, Basic Photovoltaic Principles and Methods, USA: United States Government, 1982.
[17] G. M. Masters, Renewable and Efficient Electric Power Systems, New Jersey: John Wiley & Sons, Inc, 2004.
[18] Thingspeak, "Thingspeak master," 28 Oktober 2014. [Online]. Available: https://github.com/iobridge/thingspeak/blob/master/README.textile.
[19] Mathworks, "ThingSpeak Support from Desktop MATLAB," 20 Desember 2018. [Online]. Available: https://www.mathworks.com/hardware-support/thingspeak.html.
[20] Luque dan Hegedus, Handbook of Photovoltaic Science and Engineering, 2 ed., USA: Wiley, 2011.
[2] Farihah Shariff, Nasrudin Abd Rahim, Hew Wooi Ping , "Photovoltaic Remote Monitoring System Based on GSM," IEEE Conference on Clean Energy and Technology (CEAT), 2013.
[3] Kopacz Cs. dkk, "Remote and Centralized Monitoring of PV Power Plants," International Conference on Optimization of Electrical and Electronic Equipment OPTIM, 2014.
[4] Winasis, Azis Wisnu Widhi Nugraha, Imron Rosyadi, Fajar Surya Tri Nugroho, "Desain Sistem Monitoring Sistem Photovoltaic Berbasis Internet of Things (IoT)," JNTETI Vol. 5, vol. 5, 2016.
[5] Afrizal Fitriandi, Endah Komalasari, Herri Gusmedi , "Rancang Bangun Alat Monitoring Arus dan Tegangan Berbasis Mikrokontroler dengan SMS Gateway," Jurnal Rekayasa dan Teknologi Elektro , vol. X, 2016.
[6] S. Manai, Membuat Sendiri Pembangkit Listrik Tenaga Surya, Singapura: BukuDigital, 2014.
[7] M. Miller, The Internet of Things, Amerika: QUE, 2015.
[8] M. Ramdhani, Rangkaian Listrik, Bandung: STT Telkom, 2005.
[9] Frederick J. Bueche dan Eugene Hecht, Fisika Universitas, 10 ed., Jakarta: Erlangga, 2006.
[10] M. Abdullah, Fisika Dasar II, Bandung: Institut Teknologi Bandung, 2017.
[11] N. Hilalliati, "Rangkaian Pembagi Tegangan, Arus, dan Setara," 2014.
[12] K. Wardana, "Narin Laboratory," 2017. [Online]. Available: https://tutorkeren.com. [Accessed 20 Juli 2018].
[13] Allegro MicroSystems, LLC, "Fully Integrated, Hall Effect-Based Linear Current Sensor IC with 2.1 kVRMS Isolation and a Low-Resistance Current Conductor," Allegro MicroSystems, LLC, 2017.
[14] S. Soeparman, Teknologi Tenaga Surya, Malang: Universitas Brawijaya Press (UB Press), 2015.
[15] K. Jäger, Solar Energy Fundamentals,Technology,and Systems, Belanda: Delft University of Technology, 2014.
[16] P. H. Zweibel, Basic Photovoltaic Principles and Methods, USA: United States Government, 1982.
[17] G. M. Masters, Renewable and Efficient Electric Power Systems, New Jersey: John Wiley & Sons, Inc, 2004.
[18] Thingspeak, "Thingspeak master," 28 Oktober 2014. [Online]. Available: https://github.com/iobridge/thingspeak/blob/master/README.textile.
[19] Mathworks, "ThingSpeak Support from Desktop MATLAB," 20 Desember 2018. [Online]. Available: https://www.mathworks.com/hardware-support/thingspeak.html.
[20] Luque dan Hegedus, Handbook of Photovoltaic Science and Engineering, 2 ed., USA: Wiley, 2011.
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2020-01-27
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Sistem Monitoring Tegangan, Arus, dan Intensitas Cahaya pada Panel Surya dengan Thingspeak. (2020). Jurnal Engineering, 2(1), 11-24. Retrieved from https://online-journal.unja.ac.id/JurnalEngineering/article/view/8641
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