Browsing by Autor "Sulistiyanto Sulistiyanto"

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    “JAYUS” Meja Payung Solar Cell
    (University of Trunojoyo Madura, 2021) Sulistiyanto Sulistiyanto; Tidar Pangestu Aperilian Damara; Abdul Mustaqim; Achmad Devyce; Robiatul Adawiyah
    Kebutuhan untuk isi ulang atau charger peralatan elektronik di tempat umum sangat diperlukan oleh masyarakat, terutama di tempat terbuka atau outdoor. Model yang tepat untuk dipakai sebagai tempat charger umum di area outdoor yang sesuai yaitu seperti payung yang di lengkapi meja serta tempat duduk di sentra UMKM, karena dapat dimanfaatkan oleh para pembeli UMKM sambil makan atau minum di bawah payung tersebut. Meja Payung Solar Cell (JAYUS) untuk UMKM ini nantinya bisa sebagai pusat charger handphone sekaligus tempat meja makan dan minum. Meja Payung Solar Cell di design bagian atasnya datar, nanti tenaga listrik yang di keluarkan AC dengan pertimbangan agar bisa di manfaatkan untuk menyalakan peralatan listrik.
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    Perancangan Alat Pendingin Susu Sapi Menggunakan Solar Panel
    (2022) Sulistiyanto Sulistiyanto; Syaiful Bahar; Aditya Arif Hidaytullah
    Pondok Pesantren Nurul Jadid has or has a solar power plant (PLTS) where the plant is still unknown the angle of slope of current and power. By analyzing solar power plants using avometers to find out current and power while arc to find out the angle of tilt on the appearance of solar panels. In the retrieval of data on solar power plants by modifying the angle of tilt at the appearance from 0º to 45º. Where in analyzing solar panels to take current and power data released on photofoltaic is done repeatedly at a predetermined slope and clock. To measure the current and power released by the photofoltaic at the specified slope and clock, use the avometer and calculate the results of the analysis with a predefined formula (Pout = V. I).
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    Utilization of tds sensors for water quality monitoring and water filtering of carp pools using IoT
    (2023) Sulistiyanto Sulistiyanto; Ranu Setyobudi; Tijaniyah
    Carp is a type of consumption fish that is much favored by people in Indonesia, because Carp has a lot of protein and meat with good taste. In addition, Carp can be cultivated using tarpaulin ponds, because it saves land and land rental costs. In addition, Carp can be harvested in just 7 months. According to carp cultivators, market demand tends to increase every day, making the need for carp increase and causing Indonesian people to cultivate carp. In this case, it is necessary to apply technology that can help the community in the field of aquaculture, which can be controlled remotely and can monitor the condition of the water in the ponds. The purpose of this study is to find out how pool water filtration works and monitor water conditions using a Total Dissolved Solids (TDS) sensor. The selection of sensor inputs and set point values must be in accordance with the water quality conditions in the Carp pond. The use of the TDS sensor here functions as a detector for turbidity values in Carp ponds that have been set on the NodeMCU ESP32, a submersible water pump as output and the Blynk application as monitoring. The method used, Literature Study, Research Design, Field Study, Functional Testing, Data Processing, Analysis. Because it uses Internet of Thing (IoT) technology in this study, the monitoring and filtering control process can be done anywhere and anytime as long as it is connected to the internet network. From the results of testing the tool on 3 types of water, namely mineral water, clean water, and turbid water, the results for turbid water with 400–600 ppm turned out to be 479 ppm, the value is in the middle between 478 ppm mineral water and 480 ppm clean water. So it can be concluded that this tool works well and can be used in Carp ponds