cover
Contact Name
Muhammad Taufiqurrohman
Contact Email
taufiqurrohman@hangtuah.ac.id
Phone
+6281233066676
Journal Mail Official
jurnal.eltrik@hangtuah.ac.id
Editorial Address
Prodi Teknik Elektro, Fakultas Teknik dan Ilmu Kelautan, Universitas Hang Tuah Jl. AR Hakim No. 150 Surabaya
Location
Kota surabaya,
Jawa timur
INDONESIA
J-Eltrik
ISSN : 26569388     EISSN : 26569396     DOI : http://dx.doi.org/10.30649/j-eltrik.v2i2
J-Eltrik merupakan jurnal Teknik Elektro yang terbit secara berkala dua kali dalam setahun. Diterbitkan oleh Prodi Teknik Elektro, Fakultas Teknik dan Ilmu Kelautan, Universitas Hang Tuah Surabaya. Scope J-Eltrik tentang hasi riset dibidang Elektronika, Listrik (Elektro), Telekomunikasi, Komputer, Informatika, Sistem Kontrol. Redaksi menerima hasil penelitian atau artikel ilmiah dari para intelektual, dosen, praktisi dan mahasiswa. Proses peer review dilaksanakan oleh reviewer dan redaksi untuk memperbaiki format artikel sesuai format penulisan J-Eltrik tanpa mengubah tujuan dan isinya.
Articles 8 Documents
Search results for , issue "Vol 2, No 2 (2020): Jurnal Eltrik Vol. 2, No. 2, November 2020" : 8 Documents clear
Cover Vol. 2,No. 2 Rohman, taufiq
J-Eltrik Vol 2, No 2 (2020): Jurnal Eltrik Vol. 2, No. 2, November 2020
Publisher : Universitas Hang Tuah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30649/j-eltrik.v2i2.124

Abstract

Cover J-Eltrik Vol. 2, No. 2, November 2020
Pengaruh Ketinggian Dan Panjang Saluran Air Laut Terhadap Daya Yang Dihasilkan Pada Prototype Tidal Barrage Sakti, Bima; Alham, Nur Rani; Fajri, Ahmad Nur; Ma’rif, Ilham Rizal
J-Eltrik Vol 2, No 2 (2020): Jurnal Eltrik Vol. 2, No. 2, November 2020
Publisher : Universitas Hang Tuah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30649/j-eltrik.v2i2.97

Abstract

The need for electricity in Indonesia is very important considering the limited resources and the lack of manpower, making Indonesia desperately need to increase electricity generation. One source of energy that can be converted into electrical energy is tidal barrage using the tidal barrage method. The application of this energy is still very small in Indonesia but there are a number of areas that have the potential to be implemented by the power plant. Tidal power plants that utilize the potential energy contained in the differences in tides and tides of sea water by trapping water in dams and then moving water turbines and when the water turbine is connected to a generator can produce electrical energy. Related to how the output of the generated power can it is known by looking at what height the water level drives the turbine. This type of power plant is environmentally friendly because it does not damage the natural ecosystem and the dam can be used for various activities.
Daftar Isi J-eltrik, Vol. 2, No. 2 Rohman, taufiq
J-Eltrik Vol 2, No 2 (2020): Jurnal Eltrik Vol. 2, No. 2, November 2020
Publisher : Universitas Hang Tuah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30649/j-eltrik.v2i2.125

Abstract

Daftar Isi J-eltrik, Vol. 2, No. 2. November 2020
Sistem Monitoring Instrument Air Compressor (IAC) Berbasis SCADA dengan Komunikasi Modbus RTU RS-485 Zakaria, Muchamad Chadiq; Kurniawan, Edy; Sulthon H, Jawwad
J-Eltrik Vol 2, No 2 (2020): Jurnal Eltrik Vol. 2, No. 2, November 2020
Publisher : Universitas Hang Tuah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30649/j-eltrik.v2i2.117

Abstract

The Pacitan Power Plant is one of the power plants in East Java that has a capacity of 2 x 315 MW which was built by the government in the Fast Track Program 1. The Instrument Air Compressor (IAC) is one of the auxiliary equipment at the Pacitan Power Plant that provides air supply to the factory's advanced pneumatic system. However, this equipment cannot be monitored by the Central Control Room (CCR) operator to the maximum. The parameters that can be controlled are very limited. This is due to the limited number of available Field Bus Module (FBM) terminals. The problem formulation is how to create a communication module to display the parameters of the Air Compressor System Instrument to display the HMI CCR operator in real time. The purpose of designing tool is to create a safe and reliable communication module to display all the parameters of the existing Air Compressors to be displayed in the CCR’s computer display. The method used is the control and transmission parameters that are transmitted from the field to the Central Control Room using serial communication RS485 Modbus Protocol. 
Alat Penyiram Tanaman Otomatis Berbasis Arduino Menggunakan Internet Of Things (IOT) Azzaky, Nabil; Widiantoro, Anang
J-Eltrik Vol 2, No 2 (2020): Jurnal Eltrik Vol. 2, No. 2, November 2020
Publisher : Universitas Hang Tuah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30649/j-eltrik.v2i2.48

Abstract

Plants are living things that are important for the needs of human life. The benefits of plants for humans are as an air purifier. Water is needed for plants to grow. Besides being used in the process of photosynthesis, water is also used by plants to dissolve minerals that are absorbed by the roots from the soil as a process of developing the plants. Watering can maintain and care for plants to grow and develop. The purpose of this study is to create a tool that can water plants using Android devices by utilizing an internet connection for control and monitoring. By using smartphone android that has been installed the blynk application can communicate with Arduino using an enhancement in the form of ESP8266 so that it can be connected via a WIFI connection so that it allows the user to control and monitor the plant sprinklers, by working sending commands on and off through blynk and receiving data the temperature and humidity obtained from the DHT22 sensor. The results of this study, the watering plant can work well, can control watering manually and automatically. The tool will water the plants when the temperature is more than 31 ° C
Merancang Pintu Pintar dengan Keamanan Multifungsi berbasis IC AT-Mega 328 Oktafian, Aris; Desriyanti, Desriyanti; Vidyastari, Rhesma Intan
J-Eltrik Vol 2, No 2 (2020): Jurnal Eltrik Vol. 2, No. 2, November 2020
Publisher : Universitas Hang Tuah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30649/j-eltrik.v2i2.105

Abstract

                 The door is a field that facilitates circulation between spaces covered by walls as access in and out, but it also helps drain air into the house to get light from the sun. The role of the door is very important, the door is a means to get in and out of the room, the door is also a security pillar of the house, car, and so forth. Therefore removing the door is made with a good security system, for example made using quality materials. Based on the above background, a home security system through a door is needed, and therefore the owner is required to make a smart door using IC Atmega 328 as the main controller. The idea was titled "Designing Smart Doors with Multifunctional Security Based on ATmega 328 ICs".           This design is made by finding references from journals, books, and articles which are then made about the planning or description of the tools intended to discuss what kind of tools will be made, design in the form of hardware that connects the input devices, processes and outputs Meanwhile, software consists of programs as a system driver. After the design of the tool is complete it will be discussed and analyzed.
Koordinasi Proteksi Arus Lebih Penyulang Tembuku terhadap Indeks Keandalan Sistem Distribusi 20 KV PT. PLN (Persero) ULP Bangli Sukadana, I Wayan; Ramadhani, Risma Fauziyah
J-Eltrik Vol 2, No 2 (2020): Jurnal Eltrik Vol. 2, No. 2, November 2020
Publisher : Universitas Hang Tuah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30649/j-eltrik.v2i2.104

Abstract

Penyulang Tembuku dilengkapi peralatan proteksi over current relay (OCR) pada Recloser Tembuku dan rele PMT Outgoing Penyulang Tembuku di GI Gianyar. Berdasarkan data yang tercatat pada monitoring PLN UP3 Bali Timur, tiga dari empat kali gangguan yang terjadi pada Penyulang Tembuku disebabkan oleh kesalahan koordinasi pengaman sehingga terjadi pemadaman meluas. Hipotesa awal penyebab dari kesalahan koordinasi merupakan akibat dari rekonfigurasi jaringan Penyulang Tembuku. Dampak dari kesalahan koordinasi mempengaruhi salah satu kinerja indeks keandalan PLN ULP Bangli, yaitu pencapaian nilai SAIFI. Perhitungan arus hubung singkat menunjukkan nilai arus hubung singkat semakin besar setelah rekonfigurasi jaringan dikarenakan jarak penyulang yang semakin pendek. Hasil analisa dari setting eksisting menunjukkan bahwa waktu kerja antara PMT dan Recloser terlalu rapat, sehingga direkomendasikan untuk penyetelan ulang. Hasil perhitungan sebagai dasar rekomendasi diperoleh TMS PMT 0,19 s dan TMS Recloser 0,05 s dengan karakterisrik Standard Inverse. Analisa terhadap SAIFI menunjukkan jika kinerja proteksi sesuai dengan harapan, maka kontribusi pemadaman karena gangguan pada Penyulang Tembuku dapat ditekan sebesar 31% pada Triwulan I 2019.
Rancang Bangun Prototype Sistem Pemantauan Potensi Kebakaran Gambut dengan Multi Sensor Pratama, Aditya; Mulyadi, Mulyadi
J-Eltrik Vol 2, No 2 (2020): Jurnal Eltrik Vol. 2, No. 2, November 2020
Publisher : Universitas Hang Tuah

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30649/j-eltrik.v2i2.122

Abstract

Kebakaran hutan dan lahan merupakan salah satu peristiwa yang sangat merugikan masyarakat. Kebakaran lahan dapat mengancam keselamatan jiwa serta potensi kerugian material dalam jumlah besar. Curah hujan yang rendah, tanah dan tanaman yang mengering serta suhu yang tinggi dapat mengakibatkan munculnya titik api yang berakibat kebakaran lahan. Dengan adanya purwarupa ini diharapkan dapat membantu pengguna dalam memantau potensi kebakaran maupun menangani kebakaran apabila telah terjadi. Berdasarkan hasil pengujian purwarupa terdapat dua kondisi yang terdeteksi sistem dan ditampilkan pada layar penampil kristal dan notifikasi aplikasi Blynk yaitu pada kondisi berpotensi kebakaran dengan nilai untuk setiap sensor yang meliputi temperatur sebesar 36°C, kelembaban tanah sebesar 19,0 %, kadar gas CO2 sebesar 330 ppm dan kondisi yang dinamakan sebagai tidak terdeteksi adanya api. Untuk kondisi asap terdeteksi dengan nilai setiap sensor yaitu temperatur lingkungan sebesar 35,1°C, kelembaban tanah sebesar 17,8 %, kadar gas CO2 sebesar 698 ppm, dan kondisi tertentu yang dinamakan tidak terdeteksi adanya api. Selama pengujian purwarupa, aplikasi Blynk berhasil menampilkan hasil pengukuran purwarupa dan notifikasi kondisi lahan di sekitar purwarupa. Dalam mendeteksi potensi kebakaran, sistem berhasil mendeteksi semua parameter yang ditargetkan

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