Aerator has function to supply the dissolved oxygen in the water is very important for the survival of fish, therefore the
aerator is required to be on for 24 hours. However, due to depending on PLN electricity, when there is a power outage for a
long period of time, the aerator can't supply dissolved oxygen into the pond and the oxygen supply in the pond will drop
drastically. This is dangerous because it can threaten the survival of ornamental fish. Therefore, an energy supply system is
needed that can supply electrical energy to the aerator to replace the dependency electricity from PLN. This tool is designed
to use a power supply from solar panels so that it is not affected in the event of a PLN power outage, and can always supply
dissolved oxygen levels for the survival of ornamental fish. In addition, this tool is also equipped with a monitoring system
based on the Nodemcu ESP8266 Microcontroller which is displayed via the Thingspeak server. The monitoring system used
in this tool uses a PH sensor and a temperature sensor. The use of PH sensors and temperature sensors because the level of
acidity (PH) and temperature are one of the parameters of water quality other than dissolved oxygen. When the aerator is on,
the information on the pool water will be read through the PH sensor and temperature sensor.

D. Oleh: Yulianus, and M. Pote, LAPORAN TUGAS AKHIR PERANCANGAN AERATOR OTOMATIS DENGAN CONTROL PLC DI PETERNAKAN IKAN NILA MINA RAYA.

B. Hari Purwoto, E. Penggunaan Panel Surya Sebagai Sumber Energi Alternatif, M. F. Alimul, and I. Fahmi Huda, EFISIENSI PENGGUNAAN PANEL SURYA SEBAGAI SUMBER ENERGI ALTERNATIF.

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R. Nandika and P. Gunoto, PEMANFAATAN SEL SURYA 50 Wp PADA LAMPU PENERANGAN RUMAH TANGGA DI DAERAH HINTERLAND, Sigma Teknika, vol. 1, no. 2, pp. 185 195, 2018.

T. Supriyono, M. Ramandani, H. Soemantri, B. Perjuangan Karawang, and J. Waluyu Sirnabaya Teluk Jambe Timur Karawang, M UNIVERSITAS BUANA PERJUANGAN K A R A W A N G J U R N A L X UJI PERFORMANSI SOLAR PANEL KAPASITAS 100 WP, vol. 2, no. 2, 2022, [Online]. Available: http://journal.ubpkarawang.ac.id./index.PHp/JTMMX

I. Bagus, P. Eka, P. Yuda, A. Natsir, D. I. Made, and A. Nrartha, RANCANG BANGUN SOLAR CHARGE CONTROLLER DENGAN METODE MPPT BERBASIS MIKROKONTROLLER ARDUINO NANO [DESIGN OF SOLAR CHARGE CONTROLLER WITH MPPT METHOD BASED-ON MICROCONTROLLER ARDUINO NANO].

D. Widjajanto et al., Estimasi Kondisi Muatan dan Kondisi Kesehatan Baterai VRLA dengan Metode RVP (Estimation of VRLA Batery s SOC and SOH Using SVR Method), 2021.

L. Halim, PERANCANGAN DAN IMPLEMENTASI AWAL SOLAR INVERTER UNTUK PEMBANGKIT LISTRIK TENAGA SURYA OFF GRID, vol. 12, no. 1, 2020, doi: 10.24853/jurtek.12.1.31-38.

I. Gunawan, T. Akbar, and M. G. Ilham, Prototipe Penerapan Internet Of Things (Iot) Pada Monitoring Level Air Tandon Menggunakan Nodemcu Esp8266 Dan Blynk, Jurnal Informatika dan Teknologi, vol. 3, no. 1, pp. 1 7, 2020.

H. R. Fajrin, U. Zakiyyah, and K. Supriyadi, ALAT PENGUKUR PH BERBASIS ARDUINO, Medika Teknika : Jurnal Teknik Elektromedik Indonesia, vol. 1, no. 2, 2020, doi: 10.18196/mt.010207.

G. Yakin, I. Made, S. Wibawa, and I. K. Putra, Rancang Bangun Alat Pengukur PH Tanah Menggunakan Sensor PH Meter Modul V1.1 SEN0161 Berbasis Arduino Uno Design of Soil PH Measuring Instruments Using PH Meter Sensor Module V1.1 SEN0161 Based on Arduino Uno, 2021.

Carol, What Does it Mean When Fish Swim at the Top of the Aquarium?, aquariumsPHere.com, Sep. 2021.