The Pondakan Alam Sari ornamental fish cultivator group has approximately 50 types of ornamental fish cultivated for domestic and foreign commodities. Market demand for ornamental fish tends to increase yearly, but the market wants stable prices. This price stability is a dilemma for ornamental fish cultivator groups. One of the determinants of the selling price of ornamental fish is operational costs, especially electricity costs. The increase in basic electricity tariffs causes operational costs to increase. Electricity is used to power the circulating water pump 24 hours non-stop daily. This circulating water pump is very important for producing oxygen in the water. If there is no oxygen in the water, ornamental fish will die. To reduce operational electricity costs, the community service team built a DC electricity system sourced from solar energy so that the circulating water pump source no longer uses PLN electricity. This community service program aims to reduce operational electricity costs by building a DC electricity system sourced from solar energy and an IoT-based monitoring process. The implementation method consists of two stages: (1) building physical capital through a solar energy electricity source and DC pump installation and (2) creating a DC electrical parameter monitoring system with the Blynk IoT platform. The evaluation technique was carried out by comparing planning with the progress of implementing activities. The results and implications of activities include the availability of DC electricity sources from renewable energy, namely solar cells with a power of 960 WP, installing 10 DC pumps, and an IoT-based DC electrical parameter monitoring system. Operational costs in managing an ornamental fish business can be reduced by 46% from before using renewable and IoT-based energy. This result will certainly increase the profit margin of ornamental fish farming.

Blynk-IoT; ornamental fish; DC electricity; pump

BPS. 2020. “Rata-Rata Penyinaran Matahari Menurut Bulan Di Kabupaten Bogor (%), 2020-2021.” Retrieved January 5, 2023 (https://bogorkab.bps.go.id/indicator/151/79/1/rata-rata-penyinaran-matahari-menurut-bulan-di-kabupaten-bogor.html).

Dwiyaniti, Murie, Ajeng Bening Kusumaningtyas, Sri Lestari Kusumastuti, Yoga Saefullah, Fairuza Qonitah Tireno, and Daniswara Ramadhan. 2022. “Energy Saving of IoT-Based Light Intensity on Smart Streetlight.” Pp. 6–9 in 2022 5th International Conference of Computer and Informatics Engineering (IC2IE). IEEE.

Dwiyaniti, Murie, Riandini Riandini, and Eddy Supriyono. 2020. “Pemanfaatan Solar Sel Dan Budidaya Perikanan Sebagai Upaya Menuju Kemandirian Finansial Di Sekolah Kami.” Panrita Abdi-Jurnal Pengabdian Pada Masyarakat 4(2):146–54.

Furqon, Achmad, Agung Budi Prasetijo, and Eko Didik Widianto. 2019. “Rancang Bangun Sistem Monitoring Dan Kendali Daya Listrik Pada Rumah Kos Menggunakan NodeMCU Dan Firebase Berbasis Android.” Techné: Jurnal Ilmiah Elektroteknika 18(2):93–104.

Handarly, Dolly, and Jefri Lianda. 2018. “Sistem Monitoring Daya Listrik Berbasis IoT (Internet of Thing).” J. Electr. Electron. Control Automot. Eng 3(2):205–8.

Huwaida, Nabila. 2020. “Pemanfaatan Solar Cell Sebagai Sumber Energi Listrik Hydroponic Drip System.” ELECTRICES 2(2):49–56.

Kristiawan, H., I. N. S. Kumara, and I. A. D. Giriantari. 2019. “Potensi Pembangkit Listrik Tenaga Surya Atap Gedung Sekolah Di Kota Denpasar.” Jurnal Spektrum 6(2).

Nadhiroh, Nuha, Anicetus Damar Aji, Kusnadi Kusnadi, and Murie Dwiyaniti. 2022. “INSTALASI PENERANGAN JALAN UMUM TENAGA SURYA (PJUTS) UNTUK WARGA GUHA KULON KLAPANUNGGAL.” Dharmakarya 11(1).

Patil, Trupti G., and A. Asokan. 2016. “A Proficient Solar Panel Efficiency Measurement System: Using Current Measurements.” Pp. 1–6 in 2016 international conference on communication and electronics systems (ICCES). IEEE.

PLN. 2021. “Tarif Adjustment.” Retrieved January 5, 2023 (https://web.pln.co.id/pelanggan/tarif-tenaga-listrik/tariff-adjustment).

Putra, I. Gusti Putu Mastawan Eka, Ida Ayu Dwi Giriantari, and Lie Jasa. 2017. “Monitoring Penggunaan Daya Listrik Sebagai Implementasi Internet of Things Berbasis Wireless Sensor Network.” Majalah Ilmiah Teknologi Elektro 16(3):50–55.

Rumokoy, Stieven Netanel, Christopel Hamonangan Simanjuntak, I. Gede Para Atmaja, and Jusuf Luther Mappadang. 2020. “Perancangan Konsep Alat Praktek PLTS Skala Rumah Tangga Berbasis PV Roof Top Installation.” Setrum: Sistem Kendali-Tenaga-Elektronika-Telekomunikasi-Komputer 9(1):68–74.

Suhana; Peggy R.M. 2020. “Tantangan Ekspor Ikan Hias Di Masa Pandemi Covid-19.” Https://Suhana.Web.Id/2020/05/22/Tantangan-Ekspor-Ikan-Hias-Di-Masa-Pandemi-Covid-19/. Retrieved (https://suhana.web.id/2020/05/22/tantangan-ekspor-ikan-hias-di-masa-pandemi-covid-19/).

Suhana. 2017. “Ekonomi Ikan Hias Indonesia: Profil Pembudidaya Dan Pendapatannya.” Https://Suhana.Web.Id/2017/01/24/Ekonomi-Ikan-Hias-Indonesia-1/. Retrieved (https://suhana.web.id/2017/01/24/ekonomi-ikan-hias-indonesia-1/).

Yuliananda, Subekti, Gede Sarya, and R. A. Retno Hastijanti. 2015. “Pengaruh Perubahan Intensitas Matahari Terhadap Daya Keluaran Panel Surya.” JPM17: Jurnal Pengabdian Masyarakat 1(02).