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All Journal Elkom: Jurnal Elektronika dan Komputer JREC (Journal of Electrical and Electronics) Electro Luceat Jurnal Ilmiah Flash SELAPARANG: Jurnal Pengabdian Masyarakat Berkemajuan EPIC : Journal of Electrical Power, Instrumentation and Control Aisyah Journal of Informatics and Electrical Engineering Jurnal Informatika dan Rekayasa Elektronik JE-Unisla Jurnal Teknik Elektro Uniba (JTE Uniba) EEICT (Electric, Electronic, Instrumentation, Control, Telecommunication) Teknologika Power Elektronik : Jurnal Orang Elektro
Insani Abdi Bangsa
Universitas Singaperbangsa Karawang
Agriculture, Biological Sciences & Forestry Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Health Professions Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Materials Science & Nanotechnology Mechanical Engineering Medicine & Pharmacology Nursing Public Health Social Sciences Other

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ANALISIS PENGENDALIAN ARUS DAN KARAKTERISTIK DARI REFLOW SOLDERING Dian Anjarwati; Insani Abdi Bangsa
Jurnal JE-UNISLA : Electronic Control, Telecomunication, Computer Information and Power System Vol 8, No 1 (2023)
Publisher : Universitas Islam Lamongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30736/je-unisla.v8i1.822

Abstract

Solder is a tool that serves to solder electronic components. Each electronic component has its own resistance, one of which is resistance to high temperatures. Of the types of electronic components that tend to have the lowest resistance to high temperature, SMD components are needed so that soldering tool is needed that is able to control the temperature according to the characteristics of the electronic components. In its design,this tools uses an Arduino Uno ATMega328 microcontroller as a system controller as well as several other supporting components such as aK-Type Thermocouple sensor and a relay as a temperature controller that is generated for soldering. The working system of this tool can be adjusted through the set point as the input given to the tool. The input is the carried out by the microcontroller and he instructs the sensor to start flowing heat according to the input value given. In this study, the maximum temperature reached to start heating is 11.5 C and the lowest temperature is 32.5 C, the difference between to the temperatures is 79 C and the resolution in the calculating of the measurement is 100 ms. In the results of temperature control, the smaller the delay value given, the greater the risetime value.
PEMBANGUNAN PEMBANGKIT LISTRIK TENAGA SURYA (PLTS) ROOFTOP PADA GEDUNG WATER INTAKE PT PEMBANGKIT JAWA BALI UNIT MUARA KARANG Agung Darmakusumah; Insani Abdi Bangsa
Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) Vol. 5 No. 2 (2023): Aisyah Journal Of Informatics and Electrical Engineering
Publisher : Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30604/jti.v5i2.143

Abstract

ABSTRACT This journal contains about how the PLTS process in generating electricity at the Water Intake Building PT. Pembangkit Jawa Bali. In addition to the electricity generation process, it also discusses the benefits of solar panels in their environmentally friendly use, the types of PLTS, the components used and the calculation of the PLTS power generated at the Water Intake Building PT. Pembangkit Jawa Bali. . Keywords: PLTS, Listrik, Panel Surya ABSTRAK Jurnal ini berisi tentang bagaimana proses PLTS dalam menghasilkan listrik di Gedung Water Intake PT. Pembangkit Jawa Bali. Selain proses penghasilan listrik, juga membahas tentang manfaat dari panel surya dalam penggunaannya yang ramah lingkungan, jenis-jenis dari PLTS, komponen yang digunakan dan perhitungan daya PLTS yang dihasilkan pada Gedung Water Intake PT. Pembangkit Jawa Bali. . Kata Kunci: PLTS, Listrik, Panel Surya
PREVENTIVE MAINTENANCE MOTOR INDUKSI 3 FASA PADA SISTEM FLY ASH DAN BOTTOM ASH (FABA) DI PLTSa BANTARGEBANG Adfani Reza Rizkiandra Darma; Insani Abdi Bangsa
Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) Vol. 5 No. 2 (2023): Aisyah Journal Of Informatics and Electrical Engineering
Publisher : Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30604/jti.v5i2.148

Abstract

ABSTRACT The induction motor is one of the most important components or devices in the industrial world. Especially for Power Plants, especially in one of the existing systems. To maintain the health and service life of an induction motor, periodic maintenance is necessary to determine whether the induction motor is still suitable for use or not, and whether or not a replacement of spare parts is necessary. Preventive Maintenance is the activity of checking and replacing spare parts on the machin, when the machine is running or stopped. The use of Preventive Maintenance on a 3-phase induction motor is a routine or periodic maintenance that has been scheduled or determined according to the procedure. Implementation of maintenance using the On-Line Inspection method. Routine maintenance on 3-phase induction motors is carried out by checking the current using Ampere pliers, measuring the vibration of the induction motor using a Vibration meter and detecting the temperature around the induction motor using a Thermal Camera. Tests must meet measurement standards. Keywords: Preventive Maintenance, 3-phase Induction Motor, Induction Motor Testing, Measurement Standard ABSTRAK Motor Induksi merupakan salah satu komponen atau perangkat yang sangat penting di dunia industri. Terlebih untuk di Pembangkit Tenaga Listrik khususnya pada salah satu sistem yang ada disana. Untuk menjaga kesehatan dan umur pakai dari motor induksi tersebut, perlunya perawatan secara berkala agar dapat mengetahui apakah motor induksi tersebut masih layak dipakai atau tidak, dan apakah perlu suku cadang diganti. Preventive Maintenance adalah kegiatan pengecekan dan penggantian suku cadang pada mesin, saat mesin dalam keadaan berjalan atau berhenti. Penggunaan Preventive Maintenance pada motor induksi 3 fasa merupakan sebuah perawatan rutin atau berkala yang sudah dijadwalkan atau ditentukan sesuai dengan prosedur. Pelaksanaan perawatan menggunakan metodi On Line Inspection. Perawatan rutin pada motor induksi 3 fasa dilakukan dengan cara mengecek arus menggunakan tang Ampere, mengukur getaran motor induksi menggunakan Vibration meter dan mendeteksi suhu disekitar motor induksi menggunakan Thermal Camera. Pengujian tersebut harus sesuai dengan standar pengukuran. Kata Kunci: Preventive Maintenance, Motor Induksi 3 fasa, Pengujian Motor Induksi, Standar Pengukuran
EFEKTIVITAS RADAR SANTANU DI LAPAN BANDUNG Ibnu Asyifa; Gilang Soebakti Saputra; Insani Abdi Bangsa
Power Elektronik : Jurnal Orang Elektro Vol 12, No 1 (2023): POWER ELEKTRONIK
Publisher : Politeknik Harapan Bersama Tegal

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30591/polektro.v12i1.3773

Abstract

Di Indonesia cuaca memiliki pengaruh yang sangat besar terhadap kegiatan-kegiatan yang dilakukan manusia sehari-harinya.Seiring dengan berkembangnya teknologi dibutuhkan suatu  penerapan system pemantauan cuaca yang dapat mengantisipasi bencana-bencana terutama saat musim hujan.Dalam pembuatan teknologi pengamatan hujan berbasis radar kapal  di Lembaga Penerbangan dan Antariksa Nasional (LAPAN) Bandung, sistem yang dibuat hanya dapat memantau beberapa radar melanikan hanya satu.. Pengembangan system yang dilakukan yaitu dapat mementau beberapa radar yang telah dipasang oleh LAPAN itu sendiri dan dapat memunculkan riwayat data serta curah hujan yang ingin diamati. Tujuan penelitian ini adalah untuk mengetahui sejarah radar santanu, prinsip kerja radar santanu, kelebihan radar santanu, serta pemanfaatan radar santanu. Teknik pengumpulan data yang digunakan adalah wawancara, observasi, dan study lapangan. Hasil penelitian ini menunjukkan bahwa Radar Santanu sangat berperan penting saat terjadinya suatu fenomena dengan mengirimkan sinyal yang ditampilkan dalam sebuah website dan bisa juga sebagai pelengkap data BMKG.
ANALISA PENGUJIAN KUALITAS GAS SF6 PADA PEMUTUS TENAGA (PMT) 66 KV BAY REAKTOR 4R2 DI GITET BANDUNG SELATAN Dede Siti Nurjannah; Dian Budhi Santoso; Insani Abdi Bangsa
Power Elektronik : Jurnal Orang Elektro Vol 10, No 2 (2021): POWER ELEKTRONIK
Publisher : Politeknik Harapan Bersama Tegal

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30591/polektro.v10i2.2568

Abstract

Abstract  Electrical energy is a necessity that is needed by everyone. To ensure the reliability of electrical energy, the electrical equipment used must be regularly maintained. One of the maintenance carried out is testing the SF6 gas on the power breaker (PMT). This test is carried out to determine the quality of SF6 gas which functions as an insulation medium for PMT. Because when there is a fault current or a normal current at the time the PMT is cut off, an arc will arise which can damage the PMT equipment itself. Therefore, the quality of SF6 gas in PMT must be maintained under normal conditions. In the SF6 gas test, the SF6 Multi Analyzer test tool is used which functions to ensure that the quality of the SF6 gas at PMT is still in good condition. In routine maintenance activities, SF6 gas testing is carried out at 66 kV PMT which is in the 4R2 Reactor Bay. From the test results, the gas purity value of SF6 is 99.9%, the product decomposition or SO2 content of SF6 gas is 26 ppmv, the dew point value is -21.2 ºC, and the pressure value is 0.735 MPa. Based on the test results, there is an anomaly in PMT, namely the results of the SO2 content test in SF6 gas are not normal. The SO2 value exceeds the predetermined standard limit, which exceeds the maximum limit of 12 ppmv. Therefore, in accordance with the analysis of the FMEA method, that is, if there is a bad quality test result for SF6 gas, then SF6 gas replacement and SF6 gas purity testing must be carried out so that there is no widespread disturbance and to ensure the reliability of the electric power distribution system. After replacing SF6 gas, the test results show the value of SO2 = 0 ppmv.
ANALISIS PENGUJIAN KAPASITAS BATERAI 110 VOLT GROUP 2 (SISTEM 500 KV) GITET MANDIRANCAN Idris Afandi; Rahmat Hidayat; Insani Abdi Bangsa
Power Elektronik : Jurnal Orang Elektro Vol 10, No 2 (2021): POWER ELEKTRONIK
Publisher : Politeknik Harapan Bersama Tegal

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30591/polektro.v10i2.2559

Abstract

Abstract  Battery is a DC system device, its existence is very important in the world of electricity to maintain the stability of the DC system. Battery function in Extra High Voltage Substation (GITET) as a backup to supply DC device components such as relays, PMS (Disconnecting Switch), PMT (Voltage Breaker), and SCADATEL telecommunication devices. In the event of blackout, the rectifier does not get a power supply whose function is to convert the AC to DC power current to meet the needs of the DC device lsitrik supply remains active and working, so that the battery that replaces the role of the rectifier to maintain the stability of the DC system until the repair is complete. To maintain the stability and feasibility of battery function, routinely conducted tests on batteries carried out once every 2 years. This paper will compare the data of test results conducted in 2018 and 2020. From the results of the comparison data obtained the function of the state of the battery. Testing the battery capacity through 4 stages, floating is a battery in a full charger does not receive and emits current under normal circumstances the battery is connected to the rectifier. Equalizing aims to equalize and level the voltage value on each battery cell. Dischaerge Battery is a battery testing process to obtain a total efficiency capacity value (Ah) of the battery. When the battery is discharged large, the next step is boosting to restore the voltage value at a normal state (floating) 1.40-1.44 volts.
IMPLEMENTASI KENDALI LOGIKA FUZZY SEBAGAI PENENTU TINGKAT DEHIDRASI PADA SISTEM MONITORING PENCEGAHAN RISIKO KADAR GLUKOSA DARAH Vierera Santi; Insani Abdi Bangsa; Lela Nurpulaela
Power Elektronik : Jurnal Orang Elektro Vol 11, No 1 (2022): POWER ELEKTRONIK
Publisher : Politeknik Harapan Bersama Tegal

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30591/polektro.v11i1.2595

Abstract

Air adalah salah satu unsur gizi serta komponen utama dalam tubuh. Jika tubuh tidak cukup mendapatkan air maka akan mengakibatkan terjadinya dehidrasi. Dehidrasi dapat menjadi penyebab meningkatnya kadar glukosa darah, hal ini disebabkan karena kurangnya asupan air yang masuk ke dalam tubuh untuk membantu ginjal mengeluarkan glukosa melalui urin. Untuk mengetahui tingkat dehidrasi pada tubuh salah satunya melalui urin, urin memiliki tingkat warna yang berbeda bergantung pada konsumsi air yang masuk ke dalam tubuh. Pada penelitian ini melakukan metode pengenalan warna untuk mendeteksi tingkat dehidrasi tubuh dengan menerapkan logika fuzzy sebagai metode yang digunakan dalam pengambilan keputusan. Alat ini menggunkan mikrokontroler arduino dan sensor warna TCS3200 untuk mendeteksi warna urin. Logika fuzzy dapat diimplementasikan sebagai sistem pendukung keputusan, kestabilan logika fuzzy dalam menetukan tingkat dehidrasi membuktikan logika fuzzy dapat mengendalikan sistem dengan baik. Dalam pengambilan data frekuensi urin intensitas cahaya dan jarak sangat mempengaruhi nilai frekuensi yang di deteksi oleh sensor, hal ini dikarenakan sensor tcs3200 yang sensitif terhadap cahaya luar.
Kendali Batang Knapsack Sprayer Semi-Otomatis Dengan Smartphone Berbasis Arduino Mega Sultan Akbar Rachmawan; Ibrahim .; Insani Abdi Bangsa
Power Elektronik : Jurnal Orang Elektro Vol 11, No 1 (2022): POWER ELEKTRONIK
Publisher : Politeknik Harapan Bersama Tegal

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30591/polektro.v11i1.2618

Abstract

Pada zaman modern, teknologi menjadi semakin canggih membuat robot telah berperan aktif dalam kehidupan manusia dalam berbagai bidang. Bidang industri merupakan salah satu cabang yang menggunakan robot. Dengan perkembangan teknologi yang semakin pesat semua peralatan yang diciptakan manusia semakin canggih dan modern dimana pada proses penyemprotan cairan pembasmi hama para petani menggunakan semprotan gendong elektrik. dipelosok-pelosok desa rata-rata untuk peralatan pertanian jarang adanya teknologi sistem otomasi. Maka peneliti berusaha membuat penggerak batang sprayer semi-otomatis yang akan mengarahkan batang dengan konstan yang dapat dikontrol melalui smartphone melalui aplikasi RemoteXY berbasis Arduino Mega. Batang Sprayer dibuat menjadi dua dipasang pada bagian kiri dan kanan tangki yang diikat ke servo MG996R sebagai penyearah gerak batang sprayer. Hasil pengujian menunjukan bahwa smartphone dapat terhubung ke Arduino Mega melalui WiFi dengan menggunakan ESP8266-01 sebagai access point, Batang sprayer bisa diatur melalui aplikasi sehingga batang sprayer dapat diatur sesuai jarak tanaman yang akan disemprot dan robot lengan ini mampu merekayasa proses penyemprotan tanaman dengan gerakan yang konstan.
ANALISIS ISOLASI PADA GENERATOR PEMBANGKIT LISTRIK TENAGA AIR SAGULING Anhar Fauzi Muhammad; Ulinnuha Latifa; Insani Abdi Bangsa
Power Elektronik : Jurnal Orang Elektro Vol 10, No 2 (2021): POWER ELEKTRONIK
Publisher : Politeknik Harapan Bersama Tegal

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30591/polektro.v10i2.2584

Abstract

Abstract - the system at the electric power plant has some main equipment that has high voltage, one of them is the generator. High voltage equipment has an isolation system that plays an important role in the main operation of a normal generator.  many found the damage to electrical equipment is happening on the isolation system, therefore it needed periodically monitoring to maintain the quality of the isolation. one of the ways for monitoring is to check and detect the partial discharger at the isolation. partial discharger could exist because of the isolation of the electrical equipment getting a high electric field pressure. if an isolation run into partial discharger in a long period of time, that would result in malfunction or damage at the isolation. Isolation that used in generator at saguling hydroelectric power plant was E class that had maximum temperature of 120’c. If the generator temperature exceed 120’c that means isolation at the generator encounter a disturbance and that would endanger the generator, and the most danger of all is the generator may burnt. This research done at saguling hydroelectric power plant. With the examination using raytech imprared thermometer and it was done manually. This research purpose was to acknowledge actual condition of the generator isolation quality at the saguling hydroelectric power plant. The result of this research showed that isolation at the mentioned generator still proper to be used because of the temperature doesn’t exceed the limit that had been determined.
Co-Authors Adfani Reza Rizkiandra Darma Agung Darmakusumah Ahmad Rahmat Hidayat Andrian Andrian Anhar Fauzi Muhammad Arnisa Stefanie Bayu Nurjabar Dede Siti Nurjannah Dian Anjarwati Dian Budhi Santoso Fathana salsa hayani Gilang Soebakti Saputra Haris Hermawan Ibnu Asyifa Ibrahim Ibrahim . Idris Afandi Jojo Sumarjo Laurensius Richard Mulyadi Richard Lela Nurpulaela Mardiansyah Mardiansyah Mohammad Yusuf Ridwan Muhammad Aditya Salim Muhammad Fadhel Satria Munandar Muhammad Mursal Fikri Muhammad Taufiq Mulia Agustiani Rahmat Hidayat Reni Rahmadewi Rizki Maulana Rizki Rusdiyanto Rusdiyanto Sulistyo Sidik Purnomo Sultan Akbar Rachmawan Sumanto, Sumanto Taqi Rafifianto Ulinnuha Latifa Ulul Ilmi Vierera Santi