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Journal Electric Field
Published by CV. Sekawan Siji
ISSN : -     EISSN : 30637783     DOI : -
Core Subject : Science, Engineering,
Computer Science & IT Control & Systems Engineering Electrical & Electronics Engineering Energy Engineering
Journal Electric Field adalah jurnal ilmiah di bidang Teknik Elektro yang diterbitkan oleh CV. SEKAWAN SIJI. Artikel diterbitkan 2 kali setiap tahun pada bulan Juni dan Desember. CV. SEKAWAN SIJI merupakan penerbit yang sah dan terdaftar di Kementerian Hukum dan Hak Asasi Manusia pada tanggal 25 Agustus 2020 dengan nomor AHU-0044621-AH. Journal Electric Field memuat berbagai kegiatan tenaga pengajar guru, dosen, dan praktisi dalam menerbitkan artikel ilmiahnya. Journal Electric Field menyediakan forum untuk penerbitan artikel ilmiah yang mewadahi publikasi dalam bidang Teknik Elektro yang membahas diantaranya sebagai berikut: 1. Sistem Tenaga Listrik 2. Sistem Kontrol 3. Sistem Konversi Energi 4. Sistem Telekomunikasi 5. Sistem Monitoring 6. Bidang Teknik Elektro Lainnya
Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro
Articles 5 Documents
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Search results for , issue "Vol. 2 No. 2 (2025): Journal Electric Field" : 5 Documents clear
Rancang Bangun Sistem Kontrol Tangan Menggunakan Motor Servo dan Sensor AD8232 Untuk Memudahkan Penyandag Disabilitas Prostetik Aprilianto, Sandi; Mulyadi, Adi; Suryadhianto, Untung
Journal Electric Field Vol. 2 No. 2 (2025): Journal Electric Field
Publisher : CV. Sekawan Siji

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63440/jef.v2i2.118

Abstract

Prosthetic disability is a concern for Indonesian society. Based on data from the Ministry of Social Affairs for 2020-2024, people with disabilities reached 22.97 million people, with physical disabilities being the largest category. Therefore, research is proposed to address prosthetic disability with a hand design and control system similar to a natural hand. The design uses fiber, resin, and catalysts. Meanwhile, a control system is used to regulate the movement of the prosthetic fingers based on angular variations in the servo motor. The resulting prosthetic hand design is divided into 15 segments, such as the thumb, the other four fingers, and the palm. Then, the control system produces stable finger movements with a 0° angle control for opening the hand, holding a glass with a 70°–87° angle control, and a full grip with a 140°–168° angle control. The purpose of implementing this technology is to create more effective and responsive solutions to improve the independence and quality of life for individuals with physical disabilities.
Sistem Kontrol Suhu Pada Destilator Untuk Mengukur Kadar Air Limbah Pabrik Udang Berbasis Arduino Abhiyaksa, Mahindra; Adi Mulyadi; Widhi Winata Sakti
Journal Electric Field Vol. 2 No. 2 (2025): Journal Electric Field
Publisher : CV. Sekawan Siji

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63440/jef.v2i2.119

Abstract

This paper discusses the design and temperature control system for shrimp factory wastewater distillation. During the distillation process, wastewater is heated to condense and separate the resulting water vapor. Therefore, a temperature control system is proposed to ensure efficiency. The effectiveness of temperature control in the distillation process is assessed based on changes in temperature. Changes in initial and final temperatures were observed in the distillation process using 50ml-250ml samples and a temperature variation of 34°C–101°C. Test results showed that a 50ml sample reached a maximum temperature of 82°C, producing 9ml of condensate. A 100ml sample, with a maximum temperature of 84°C, produced 19ml of condensate. A 150ml with a maximum temperature of 92°C. Producing 60 ml of condensate, the 200 ml sample reached a maximum temperature of 85°C, producing 60 ml of condensate, and the 250 ml sample reached a maximum temperature of 101°C, producing 60 ml of condensate. The initial TDS value for the 50–250 ml samples remained constant at 1,683 ppm. After distillation, the TDS values for each sample were 319 ppm for the 50 ml sample, 671 ppm for the 100 ml sample, 93 ppm for the 150 ml sample, 86 ppm for the 200 ml sample, and 129 ppm for the 250 ml sample. The contribution of the research is that the control system can reduce the impact of waste on industry by regulating the temperature on the Peltier.
Perancangan Sistem Recloser Untuk Memantau Konsumsi Daya Listrik Rumah Tangga Menggunakan Modifikasi Arduino Mega Ath-Thaariq, Bhakti; Liswanto, Budi; Diki, Moh
Journal Electric Field Vol. 2 No. 2 (2025): Journal Electric Field
Publisher : CV. Sekawan Siji

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63440/jef.v2i2.120

Abstract

This paper discusses the design of a recloser system to monitor electricity consumption using a modified Arduino Mega. Excessive use of electrical devices, cables that are too small to handle the current load, or disturbances in the electrical system. As a result, cables or electrical devices can overheat and cause fires or even damage to electrical equipment. To address these problems, the reliability and safety of household electrical installations use a protection system. Protection equipment on a household scale is called (MCB) Miniature Circuit Breaker. The design uses a PZEM-004T sensor, Arduino Mega 2560, relay, and Recloser prototype. The system is designed to detect overload disturbances above the 2 Ampere MCB limit or short circuits in real time and displays power 12.38, 384.8, 376.4 watts, voltage 230.7, 228.2, 228.1V, and current 0,06, 1,29, 1,26A monitoring in the recloser modification system on household-scale electricity consumption. The recloser modification system will work or try to turn ON again when the problem is detected for 3 attempts to enter and will return to normal automatically when the recloser modification system detects that the overload has been resolved by reducing the load or when a short circuit occurs when the Recloser tries to re-enter between 1 and 3 attempts, if it exceeds 3 attempts then the system is permanently OFF and must be reset manually.
Desain Sistem Pengapian Capacitor Discharge Ignition Menggunakan Proteus Berbasis Arduino Nano Untuk Meningkatkan Perfoma Sepeda Motor Aqmal, Faril
Journal Electric Field Vol. 2 No. 2 (2025): Journal Electric Field
Publisher : CV. Sekawan Siji

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63440/jef.v2i2.121

Abstract

The traditional platinum ignition system produces lower combustion compared to the CDI ignition system. This is caused by the combustion chamber and air not mixing directly because the platinum components are mechanical and experience wear due to friction. Therefore, the development of a CDI ignition system based on the Arduino Nano microcontroller was implemented to achieve ignition stability and fuel consumption. The Arduino Nano microcontroller regulates ignition based on RPM to improve engine efficiency and performance. The test results show that measuring RPM with the Arduino Nano microcontroller regulates ignition timing in the RPM range of 0-15,000 RPM with a current of 6-8A and a voltage of 320-400V varying. The magnitude of the RPM causes a significant decrease in current and voltage, while the increase in RPM can be overcome by the addition of a digital filter. This Arduino-based CDI ignition system can produce larger sparks with efficient ignition timing at high RPM rotations.
Sistem Automatic Exhaust Fan Menggunakan Sensor DHT11 Dan Sensor MQ-135 Untuk Mendeteksi Kualitas Udara Ruang Industri Agung, Dwi Julivan; Firmansah, Arif
Journal Electric Field Vol. 2 No. 2 (2025): Journal Electric Field
Publisher : CV. Sekawan Siji

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63440/jef.v2i2.122

Abstract

Air quality has become a concern recently. Poor industrial indoor air quality has an impact on the number of deaths according to World Health Organization data. To reduce indoor air pollution, an autonomous exhaust fan system using DHT11 and MQ-135 sensors is presented. The design and experiment methods were carried out with a test variation of 1-10 minutes. The test results of each sensor showed that the average temperature was 26.8°C and humidity was 72%. Meanwhile, the MQ-135 sensor showed fluctuations in sensor resistance that were inversely proportional to the gas concentration (ppm). In the MQ-135 sensor test, a reference gas concentration value of 423.85 ppm was used to determine the accuracy of the sensor results. The detected gas concentration ranged from 402.9-469.8 ppm close to the reference value. The exhaust fan design system is recommended for office and industrial spaces to produce better indoor air quality.

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