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INDONESIA
Jurnal Teknik Elektro
Published by Universitas Muhammadiyah Tangerang
ISSN : 25808125     EISSN : 26158175     DOI : https://doi.org/10.3000/jte
Core Subject : Engineering,
Chemical Engineering, Chemistry & Bioengineering Electrical & Electronics Engineering Industrial & Manufacturing Engineering
Jurnal kami berisi tentang hasil penelitian di bidang energi listrik, telekomunikasi, sistem kontrol, elektronika dan manajemen teknik elektro
Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro
Articles 57 Documents
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ANALISIS KINERJA SENSOR TEMPERATUR TERHADAP SUHU PERMUKAAN KACA PADA SISTEM PEMANAS KACA (WINDOWS ANTI ICE SYSTEM) RUANG KEMUDI (COCKPIT) PESAWAT B 737-800 purnomo, Bayu; Pratama2, Ilham; Purnomo, Joko
Jurnal Teknik Elektro Vol 8, No 2 (2024): JURNAL TEKNIK ELEKTRO
Publisher : University of Muhammadiyah Tangerang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31000/jte.v8i2.13866

Abstract

One of the conditions faced by airplanes when moving through the air is the very cold surrounding air temperature. If the altitude increases, the air temperature will decrease, from around 17℃ to -52℃. For every 100 meter increase in height the temperature decreases by 0.61oC.To prevent the occurrence of ice lumps on the surface of the aircraft due to the surrounding air temperature reaching -520 C which can cause interference and endanger flight safety, certain parts of the aircraft surface are equipped with a heating system (anti-ice system) to melt the ice lumps into liquid. one of which is installed on the glass of the aircraft steering room (cockpit) which is usually called the windows anti-ice system. Several reports of incidents involving the cockpit glass heating system experiencing problems were caused by sensors that were not working normally. This research aims to determine the performance of the sensor regarding changes in the temperature of the cockpit glass using the method of measuring the sensor resistance value and the temperature of the cockpit glass. It is hoped that the results of this research can be used as material for further research to determine the reliability of the sensors installed in the cockpit glass from analysis of data on changes in resistance values to temperature and sensor age since the glass was installed on the aircraft. So it can be predicted when the B737-800 cockpit glass must be replaced before damage occurs during aircraft operation.
PROTOTYPE ALAT PENGONTROL PH AIR DAN SUHU UNTUK AQUARIUM IKAN PBASS BERBASIS INTERNET OF THINGS Sadi, Sumardi; Susanto, Andri; Apriansyah, Sandy Adam
Jurnal Teknik Elektro Vol 9, No 1 (2025): JURNAL TEKNIK ELEKTRO
Publisher : University of Muhammadiyah Tangerang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31000/jte.v9i1.13874

Abstract

PBASS fish is one of the ornamental fish species that is in great demand in Indonesia. Good water quality is very important for the health and survival of fish in an aquarium. One crucial parameter is the pH of the water, which must be maintained within the optimal range according to the type of fish being kept. This study aims to develop a prototype of an Internet of Things (IoT)-based water pH controller for PBASS fish aquariums. This system is designed using NodeMCU ESP8266 as a microcontroller, a pH sensor to measure the acidity level of the water, and the Blynk application to monitor and control the water pH in real-time. System testing shows that this tool is able to measure and stabilize the water pH according to the needs of PBASS fish, as well as provide notifications to users via the application if there is a significant change in pH. The results of this study are expected to help freshwater ornamental fish hobbyists in maintaining ideal environmental conditions for their pet fish, thereby reducing the risk of stress and disease due to uncontrolled pH fluctuations.
SISTEM KONTROL DAN MONITORING SMART GARDEN HOUSE BERBASIS IOT MENGGUNAKAN ESP8266 SERI-01 DAN ARDUINO UNO Pratama, Ilham; Pornomo, Bayu; Apriansyah, Arif
Jurnal Teknik Elektro Vol 8, No 1 (2024): JURNAL TEKNIK ELEKTRO
Publisher : University of Muhammadiyah Tangerang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31000/jte.v8i1.13859

Abstract

The development of IOT-based technology is currently being favored by many people because of the convenience offered by this technology. Many things can be done with this technology as long as it is still connected to the internet. Of course this will be very helpful for example to control and monitor the condition of a room online and realtime, to do that it is necessary to make a tool that can control and monitor the condition of a smart garden room because if it is done in a room then the condition can be controlled and monitored. Smart Garden prototype design is a solution to take the right action during extreme weather and reduce human error. The Internet of Things (IoT)-based Smart Garden prototype uses the ESP8266 Series-01 as the User Interface in the monitoring system and uses the Soil Moisture sensor as input for soil moisture conditions. Soil moisture conditions where the results of the process are sent through an automatic watering smartphone. Based on the test results obtained a result that the tool can work correctly in accordance with what is instructed. The interface has also worked well where the data displayed is in accordance with the conditions received and the delivery delay is not too long around 1 second.
SISTEM KONTROL DAN MONITORING ATAP DAN LAMPU UNTUK TANAMAN MELON SECARA HIDROPONIK DENGAN ARDUINOCLOUD MELALUI WIFI MENGGUNAKAN SMARTPHONE ANDROID Gumilang, Fajar; Pratama, Ilham; Bimantoro, Ananta Rio
Jurnal Teknik Elektro Vol 8, No 2 (2024): JURNAL TEKNIK ELEKTRO
Publisher : University of Muhammadiyah Tangerang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31000/jte.v8i2.13867

Abstract

Melon is a fruit commodity that is very popular with almost everyone so it is not surprising that the volume of circulation in the market is on a large scale, but weather factors are the main cause of crop failure, it takes weather with rainfall of 1500 to 2000 mm / year and humidity of 50 to 70 percent every day so that melon plants grow well and have good fruit. To solve this problem, an automatic environmental control tool is needed. The solution that can be done is to design a roof control tool, monitoring and controlling lights to make it easier to care for melon plants. This study designs, creates and implements a rooftop monitoring and control system and lights for melon plants. This tool uses a sensor that sends commands to Arduino automatically using IoT and is operated using Arduino Cloud. This research tool uses an Abrometer sensor to detect rainfall as a rooftop controller, a PZEM sensor as a detector of the power load needed to run this tool, and a UV lamp to help the growth of melon plants. The results of this study are in the form of a prototype that is automatically controlled using the Internet of Things (IoT) and can function well.
Analisis Efisiensi Daya Pada Panel Monocrystalline Single Axis Tracking System Prasetyo, Raden; Hartono, Hartono; Nugraha, Adi
Jurnal Teknik Elektro Vol 9, No 2 (2025): JURNAL TEKNIK ELEKTRO
Publisher : University of Muhammadiyah Tangerang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31000/jte.v9i2.15150

Abstract

Tujuan penelitian ini adalah untuk membandingkan efisiensi daya dan kinerja panel surya single axistracking dan statis. Metode yang digunakan yakni metode implementatif dengan membuat alat dan sistempanel surya monocrystalline 85 WP, melakukan pengukuran di lapangan pada kondisi cuaca cerah danberawan. Hasilnya menunjukkan panel single axis tracking system lebih baik, menghasilkan daya maksimaldan efisiensi maksimum lebih tinggi dibandingkan panel statis. Dalam cuaca cerah, panel single axismenghasilkan rata-rata efisiensi daya normalisasi sebesar 51% sedangkan panel statis hanya 31,37%dengan daya puncak masing-masing 68,67 Watt, panel statis hanya 56,10 Watt. Dalam cuaca berawan,panel single axis menghasilkan rata-rata efisiensi daya normalisasi sebesar 35,78% dan panel statis hanya20,43% dengan daya puncak 57,15 Watt, sementara panel statis hanya 45,55 Watt. Kesimpulannya, sistempelacak sumbu tunggal lebih efektif dalam penyerapan energi matahari dibandingkan panel statis.
Analisis Pengaruh Frekuensi Jaringan Listrik Terhadap Perubahan Beban PLTGU Hanaldi, Wahyu; Agung Ananto, Rhezal; Arie Nugrahanto, Chandra
Jurnal Teknik Elektro Vol 9, No 2 (2025): JURNAL TEKNIK ELEKTRO
Publisher : University of Muhammadiyah Tangerang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31000/jte.v9i2.15151

Abstract

Frekuensi jaringan listrik merupakan parameter penting dalam kestabilan sistem tenaga listrik. Perubahanfrekuensi dapat berdampak langsung terhadap operasi pembangkit, khususnya pada pembangkit listrik tenaga gasdan uap (PLTGU) yang memiliki karakteristik dinamis. PLTGU yang memiliki konfigurasi 1-1-1 yang terdiri atasturbin gas, HRSG dan turbin uap dilengkapi LFC dan governor pada turbin gasnya sedangkan turbin uap hanyaakan menjadi follower dari turbin gas. Penelitian ini bertujuan untuk menganalisis pengaruh perubahan frekuensiterhadap perubahan beban yang ditanggung oleh PLTGU. Metodologi penelitian menggunakan pendekatankuantitatif dengan data historis dari sistem pembangkit . Hasil analisis menunjukkan bahwa penurunan frekuensicenderung meningkatkan beban pada turbin gas dan turbin uap karena sistem kontrol pembangkit berusahamenjaga kestabilan daya. Sebaliknya, peningkatan frekuensi menurunkan respons beban. Penelitian inimemberikan kontribusi dalam perencanaan sistem kendali frekuensi yang lebih adaptif untuk pembangkit bebanmenengah seperti PLTGU.
Sistem Cerdas Monitoring Arah Dan Kecepatan Angin Pada Bandara Berbasis IOT Could Sistem Pratama, Ilham; Zamroni,, Zamroni,
Jurnal Teknik Elektro Vol 9, No 2 (2025): JURNAL TEKNIK ELEKTRO
Publisher : University of Muhammadiyah Tangerang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31000/jte.v9i2.15152

Abstract

Penggunaan moda transportasi udara di Indonesia pertama menggunakan pesawat terbang tercatat padatahun 1913.Pada tahun yang sama, Indonesia memulai penerbangan berjadwal untuk mengangkut penumpang, sehingga sejak saat itu pesawat terbang dapat digunakan oleh masyarakat umum,meskipunrute dan jumlah penerbangan masih terbatas. Karena perkembangan transportasi udara yang begitupesat dan rute penerbangan di Indonesia telah banyak berkembang, pemerintah Indonesia telahmelakukan banyak pembangunan bandar udara di seluruh daerah untuk mendukung kegiatan penerbangan tersebut. merancang alat pengaruh integrasi sistem monitoring arah dan kecepatan anginsecara real-time terhadap peningkatan keselamatan penerbangan. Metode yang dilakukan yait metodeeksperimen intstumental kecepatan angin, suhu udara, dan kelembaban relatif yang seluruhnya beradadalam kategori ―AMAN‖. Kecepatan angin umumnya rendah pada malam hingga pagi hari dengankisaran 0,13–0,25 m/s, dan cenderung meningkat pada siang hingga sore hari, bahkan mencapai lebihdari 3 m/s pada waktu-waktu tertentu seperti 23 April pukul 14:28 dan 8 April pukul 11:03. Suhu udaramengikuti pola harian, relatif rendah pada dini hari (sekitar 26–28°C) dan meningkat signifikan padasiang hari hingga melewati 40°C, dengan puncak tertinggi tercatat 42,98°C

Page 6 of 6 | Total Record : 57

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