Main Article Content
In companies or goods storage places, to see the value of the load current in the RST phase, we still use Clamp Ampere and in doing power distribution using manual work by moving the load on the RST phase from one MCB to another MCB until it is evenly distributed so that the process takes time. In this study, the method of observation and literature study was used to implement the ACS712 sensor as a current sensor on a prototype power splitter automation system on a 3-phase power source based on the internet of things as a tool in the form of a prototype with 3 200 watt incandescent lamp loads that can be operated with a finger remotely using android smartphone to help users so that power distribution is not manually and can be automatically evenly distributed in each RST phase. The results of automatic power sharing with 3 200 watt incandescent lamp loads, the first load is automatically turned on using the R phase with a current value of 0.8 Ampere, then the second load is turned on automatically using the S phase with a current value of 0.8 Ampere and the third load turned on automatically using phase T with a current value of 0.8 Ampere. The difference between the readings of the current value between the Clamp Ampere and the blynk is 0.03-0.08 Ampere and to find out the current value in each phase can be seen in the blynk application.
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 T. D. A. N. Distribusi And R. Syahputra, “How To Address The Gray Market Threat Using Price Coordination,” Long Range Plann., Vol. 28, No. 4, P. 131, 1995, Doi: 10.1016/0024-6301(95)94318-S.
 F. J. Doringin Et Al., “Perancangan Sistem Pembagi Daya Arus Listrik 3 Fasa Menggunakan Arduino Uno Dan Bluetooth Hc-05 Berbasis Android,” Intra-Tech, Vol. 1, No. 2, Pp. 68–74, 2017.
 E. P. Wildani, “Rancang Bangun Sistem Monitoring Penggunaan Daya Listrik Di Rumah Tangga,” Vol. 6, No. 4, Pp. 51–57, 2019.
 V. D. Erlina, P. Digital, P. Kartu, And P. Audio, “Prototipe Aplikasi E-Election,” No. 112.
 E. Hamdani, “Prototipe Sistem Monitoring Pemakaian Daya Listrik Rumah Tangga Menggunakan Android,” Vol. 4, No. 2, Pp. 20–27, 2019, Doi: 10.37253/Telcomatics.V4i2.613.
 中島庸介, 高橋裕, And 神武直彦, “スマートヘルス普及促進のための糖尿病進行プロセスモデルno Title,” 日本経営数学会誌,Vol37, No.1/2, Pp. 1–27, 2017, [Online]. Available: Https://Ci.Nii.Ac.Jp/Naid/40021243259/.
 N. P. Putra And I. Husnaini, “Sistem Kontrol Peralatan Listrik Jarak Jauh Berbasis Arduino,” Jtein J. Tek. Elektro Indones., Vol. 2, No. 1, Pp. 61–64, 2021, Doi: 10.24036/Jtein.V2i1.106.
 I. Sulistiyowati And M. I. Muhyiddin, “Disinfectant Spraying Robot To Prevent The Transmission Of The Covid-19 Virus Based On The Internet Of Things (Iot),” J. Electr. Technol. Umy, Vol. 5, No. 2, Pp. 61– 67, 2021, Doi: 10.18196/Jet.V5i2.12363.
 F. W. Perdana, S. D. Ayuni, A. Wisaksono, And S. Syahrorini, “Prototype Social Distancing Reminder Using Hc-Sr04 Sensor At The Payment Counter Via A Smartphone,” Procedia Eng. Life Sci., Vol. 1, No. 2, 2021, Doi: 10.21070/Pels.V1i2.952.