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All Journal JURNAL ELEKTRO DAN INFORMATIKA SWADHARMA (JEIS)
Ria Gazali
Institut Teknologi dan Bisnis (ITB) Swadharma
Computer Science & IT

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PERANCANGAN MODUL LATIH ELEKTRO PNEUMATIC BERBASIS PLC Ria Gazali; Lukas Fedianto; Muhammad Ganda Arya Permana; Syaifuddin Susilo Utomo
JEIS: Jurnal Elektro dan Informatika Swadharma Vol 2, No 2 (2022): JEIS EDISI JULI 2022
Publisher : Institut Teknologi dan Bisnis Swadharma

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.56486/jeis.vol2no2.224

Abstract

Pneumatics at this time plays an important role in the development of automation technology, in addition to hydraulics and electronics. The peneumatic automation system generally consists of a power source element, an input signal element, a signal processing element, a signal control element and an output element (aquator). To support knowledge about pneumatics, it is necessary to have pneumatic practicum supporting tools to increase student knowledge, one of which is props or electro pneumatic system practicum. The purpose of making this tool is so that students are able to design electro pneumatic training module tools and can also provide examples of applications using pneumatic automation systems in the industrial world. In the process of making this tool, the main process stages are the design of the pneumatic circuit and the framework of the pneumatic tool box, preparation of the main pneumatic circuit materials, manufacture of the framework, and installation of pneumatic components. All these processes are carried out correctly and result in a well-functioning electro pneumatic training module
RANCANG BANGUN ALAT PAKAN IKAN OTOMATIS BERBASIS CATUAN PANEL SURYA Deasy Kartikasari; Ria Gazali; Irawati Irawati; Muhamad Surya Fatah
JEIS: Jurnal Elektro dan Informatika Swadharma Vol 3, No 1 (2023): JEIS EDISI JANUARI 2023
Publisher : Institut Teknologi dan Bisnis Swadharma

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.56486/jeis.vol3no1.301

Abstract

The design of automatic fish feed equipment today is very much needed to make it easier for breeders in the operational process of aquaculture. In this study the design of automatic fish feed was carried out on the basis of a solar panel power supply as a power source for charging the battery so that the device does not require a power source from the National Electric Company. In addition to using an automatic method for feeding, a control method is also used semi-automatically through an Android phone that utilizes a Bluetooth signal as a communication method, there is also an alarm on the system to find out that the feed condition in the container is running out. The result of designing this fish feeder is that the maximum distance that can be controlled via an Android phone is 60 meters without obstructions and 30 meters with obstacles. the battery gradually rises to 10 Volts then the load can be re-activated. A 2.5 WP solar panel was used in this study with a battery capacity of 3000 mAh each.Rancang bangun alat pakan ikan otomatis dewasa ini sangat diperlukan untuk mempermudah para peternak dalam proses operasional budi daya perikanan. Pada penelitian ini rancang bangun pakan ikan otomatis dilakukan dengan basis catu daya panel surya sebagai sumber daya untuk pengisian ke baterai sehingga perangkat tersebut tidak memerlukan sumber daya dari PLN. Selain menggunakan metode otomatis untuk pemberian pakannya, digunakan metode kontrol juga secara semi-otomatis melalui ponsel Android yang memanfaatkan sinyal Bluetooth sebagai metode komunikasinya, terdapat juga suatu alarm pada sistem untuk mengetahui bahwa kondisi pakan dalam wadah sudah hampir habis. Hasil dari perancangan alat pakan ikan ini yaitu bahwa jarak maksimal yang dapat dikendalikan melalui ponsel Android yaitu 60 meter tanpa penghalang dan 30 meter dengan penghalang, pada saat kondisi baterai 8 Volt sistem SCC secara otomatis memutus aliran ke beban agar terhindar dari kosongnya baterai dan ketika kondisi baterai berangsur naik hingga 10 Volt maka beban dapat kembali diaktifkan. Panel surya 2.5 WP digunakan pada penelitian ini dengan kapasitas masing-masing baterai sebesar 3000 mAh.
Co-Authors Deasy Kartikasari Irawati Irawati Lukas Fedianto Muhamad Surya Fatah Muhammad Ganda Arya Permana Syaifuddin Susilo Utomo