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Jambura Journal of Electrical and Electronics Engineering
Published by Universitas Negeri Gorontalo
ISSN : 26547813     EISSN : 27150887     DOI : 10.37905/jjeee
Core Subject : Science, Engineering,
Computer Science & IT Control & Systems Engineering Electrical & Electronics Engineering Energy Engineering
Jambura Journal of Electrical and Electronics Engineering (JJEEE) is a peer-reviewed journal published by Electrical Engineering Department Faculty of Engineering, State University of Gorontalo. JJEEE provides open access to the principle that research published in this journal is freely available to the public to support the exchange of knowledge globally. JJEEE published two issue articles per year namely January and July. JJEEE provides a place for academics, researchers, and practitioners to publish scientific articles. Each text sent to the JJEEE editor is reviewed by peer review. Starting from Vol. 1 No. 1 (January 2019), all manuscripts sent to the JJEEE editor are accepted in Bahasa Indonesia or English. The scope of the articles listed in this journal relates to various topics, including: Control System, Optimization, Information System, Decision Support System, Computer Science, Artificial Intelligence, Power System, High Voltage, Informatics Engineering, Electronics, Renewable Energy. This journal is available in online and highly respects the ethics of publication and avoids all types of plagiarism.
Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro
Articles 193 Documents
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Rancang Bangun Sistem Pengontrol dan Monitoring pH Air Hidroponik Menggunakan Aplikasi Blynk Devi, Devita Gude; Musa, Wahab; Abdussamad, Syahrir
Jambura Journal of Electrical and Electronics Engineering Vol 6, No 1 (2024): Januari-Juni 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v6i1.20827

Abstract

Dalam praktik budidaya hidroponik, pengaturan keseimbangan pH air menjadi aspek penting dalam memastikan pertumbuhan dan produktivitas tanaman mencapai level terbaik. Oleh karena itu, tujuan dari penelitian ini adalah untuk merancang dan membangun sebuah sistem yang dapat mengontrol dan memantau pH air dalam tanaman hidroponik, menggunakan metode penelitian Research and Development (RD) dengan menggunakan aplikasi Blynk berbasis ESP32. Dalam tahap perancangan, peneliti menggunakan sensor pH air 4502C untuk mengukur tingkat pH air dalam sistem hidroponik. Mikrokontroler ESP32 bertugas sebagai penghubung antara sensor dan aplikasi Blynk yang dijalankan pada perangkat seluler. Hasil dari eksperimen ini menunjukkan bahwa sistem monitoring dan pengontrolan pH air pada hidroponik menggunakan aplikasi Blynk berbasis ESP32 dan sensor pH air 4502C berhasil secara akurat dan responsif memantau dan mengontrol tingkat pH air. Dengan demikian, Sistem ini efisien dalam menjaga keseimbangan pH air dalam hidroponik guna mendukung pertumbuhan tanaman yang optimal.In hydroponic cultivation practices, regulating the pH balance of water is an important aspect in ensuring plant growth and productivity reaches the best level. Therefore, the aim of this research is to design and build a system that can control and monitor the pH of water in hydroponic plants, using Research and Development (RD) research methods using the ESP32-based Blynk application. In the design stage, researchers used a 4502C water pH sensor to measure the pH level of water in a hydroponic system. The ESP32 microcontroller serves as a link between the sensor and the Blynk application running on the mobile device. The results of this experiment show that the water pH monitoring and control system in hydroponics using the ESP32-based Blynk application and the 4502C water pH sensor succeeded in accurately and responsively monitoring and controlling water pH levels. Thus, this system is efficient in maintaining the pH balance of water in hydroponics to support optimal plant growth. 
Simulation of Speed Control on a PMSM Using a PI Controller Widagdo, Reza Sarwo; Hariadi, Balok; Wardah, Izzah Aula
Jambura Journal of Electrical and Electronics Engineering Vol 6, No 1 (2024): Januari-Juni 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v6i1.22287

Abstract

In order to manage the speed of a permanent magnet synchronous motor drive system, a practical approach for a PI controller has been developed and put into practice in this study. The adopted approach, which also preserves the proportional integral controller's straightforward structure and features, significantly enhanced the performance of the prior proportional integral controller. The final PI controller delivers quick and precise response, strong noise rejection, and minimal sensitivity to permanent magnet synchronous motor parameter fluctuations. The findings demonstrate that the suggested controller may provide best performance in terms of accuracy, parametric variation, and load torque disturbance when entering a proportional value of 0,013 and an integral value of 16,61. The proposed method has been exhaustively tested under various circumstances. The proposed solution not only possesses attributes like simplicity and ease of implementation for real-time, but also stability and effectiveness.
Monitoring Kualitas Air Sungai (Kekeruhan, Suhu, TDS,pH) Menggunakan Mikrokontroler Atmega328 Tansa, Salmawaty; Latekeng, Nur'aeni; Yunginger, Raghel; nasibu, iskandar Z
Jambura Journal of Electrical and Electronics Engineering Vol 6, No 1 (2024): Januari-Juni 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v6i1.23315

Abstract

Pemantauan kualitas air sungai merupakan bagian dari upaya pengelolaan kualitas air yang bertujuan untuk mengetahui kondisi kualitas air sungai lewat perhitungan indeks kualitas lingkungan hidup.  Penelitian ini membuat sebuah alat monitoring kualitas air sungai dengan mengukur parameter kekeruhan, suhu, total zat padat terlarut dan pH menggunakan mikrokontroler atmega328. Perancangan alat monitoring kualitas air menggunakan metode eksperimen, terdiri dari tahap perancangan perangkat keras (hardware) dan perancangan perangkat lunak (software) dilengkapi dengan 4 sensor.  Desain menggunakain sensor kekeruhan  Module SEN0189,  sensor suhu DS18B20, sensor TDS SEN0244, dan sensor pH-4502C. Tahapan perancangan melalui proses inisialisasi  dan sketch yaitu proses inisialisasi pin dan penulisan kode program, selanjutnya diverifikasi dan diupload ke board arduino IDE. Push button switch akan memilih jenis sensor yang akan diukur. Sensor kekeruhan, sensor suhu, sensor TDS dihubungkan port USB tipe A standard ukuran 2.0,  dan sensor pH dihubungkan dengan port BNC pada arduino. Probe sensor dicelupkan pada sampel air 1000 ml, hasil pengukuran akan ditampilkan lewat monitor LCD. Hasil pengukuran dari alat ini untuk 30 jenis sampel air sungai yang berada di daerah limboto, bolango dan bone dibandingkan dengan alat standar. Hasil pengukuran suhu DS18B20 setelah dibandingakan dengan termometer alkohol menunjukkan nilai rata-rata error 1,92% dan nilai akurasi 98,08%. Hasil pengukuran TDS menggunakan sensor SEN0244 dibandingkan dengan TDS-3 dari alat standar, nilai rata-rata error TDS 14.06% dan nilai akurasi 85.94%.  Hasil pengukuran pH menggunakan sensor 4502C dibandingkan dengan alat standar ATC PH-009(I)A, nilai rata-rata error pH adalah 6.85% dan nilai akurasi 93.15%. Hasil pengukuran kekeruhan menggunakan sensor Module SEN0189 dibandingkan dengan alat turbidity meter TB200 dari Laboratorium Kesehatan Daerah Provinsi Gorontalo nilai rata-rata error kekeruhan 18.91% dan nilai akurasi 81.09%.
Clustering Prestasi Akademik Lulusan Menggunakan Metode K-Means Ishak, Rezqiwati; Bengnga, Amiruddin
Jambura Journal of Electrical and Electronics Engineering Vol 6, No 1 (2024): Januari-Juni 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v6i1.23967

Abstract

Prestasi akademik merupakan salah satu indikator penting untuk mengukur keberhasilan seorang mahasiswa dalam menyelesaikan studinya di perguruan tinggi. Prestasi ini dapat dilihat dari berbagai aspek, seperti lama studi dan Indeks Prestasi Kumulatif (IPK). Analisis ini digunakan untuk meningkatkan kualitas Pendidikan pada Perguruan Tinggi itu sendiri, serta untuk membantu Mahasiswa dalam mencapai prestasi yang optimal. Penelitian ini bertujuan untuk melakukan clustering prestasi akademik lulusan pada Universitas Ichsan Gorontalo untuk Tahun Akademik 2023/2024 semester Ganjil dengan menerapkan metode K-Means. Jumlah dataset lulusan yang digunakan sebanyak 240 data. Analisis clustering dilakukan berdasarkan atribut lama studi, umur, dan Indeks Prestasi Kumulatif (IPK). Hasil penelitian ini menunjukkan adanya 3 (tiga) cluster utama. Cluster 1 (satu) merupakan kelompok lulusan dengan prestasi akademik cukup baik, terdiri dari 56 lulusan. Cluster 2 (dua) menggambarkan kelompok lulusan dengan prestasi akademik sangat baik, terdiri dari 138 lulusan. Sementara itu, Cluster 3 (tiga) menunjukkan kelompok lulusan dengan prestasi akademik kurang baik jika dilihat dari lama studi, terdiri dari 45 lulusan. Pemilihan jumlah cluster sebanyak 3 didasarkan pada hasil perhitungan teknik Elbow dan evaluasi Davies-Bouldin Index yang memberikan nilai terkecil yakni  0,79 sehingga hasil clustering masuk kategori baik karena nilai DBInya di bawah 1.Academic achievement is one of the important indicators to measure a student's success in completing their studies at the university. This achievement can be observed from various aspects, such as the duration of study and the Cumulative Grade Point Average (GPA). This analysis is used to improve the quality of education at the university itself and to assist students in achieving optimal performance. This research aims to cluster the academic achievements of graduates at Ichsan Gorontalo University for the Academic Year 2023/2024 Odd Semester using the K-Means method. The number of graduate datasets used is 240. The clustering analysis is based on attributes such as the duration of study, age, and Cumulative Grade Point Average (GPA). The results of this study indicate the existence of 3 main clusters. Cluster 1 represents graduates with fairly good academic achievements, consisting of 56 graduates. Cluster 2 describes a group of graduates with excellent academic achievements, totaling 138 graduates. Meanwhile, Cluster 3 indicates a group of graduates with less satisfactory academic achievements when considering the duration of study, consisting of 45 graduates. The selection of 3 clusters is based on the results of the Elbow technique calculation and the evaluation of the Davies-Bouldin Index, which gives the smallest value of 0.79. Therefore, the clustering results are considered good because the DBI value is below 1.
Rancang Bangun Modul Praktikum Dasar-Dasar Teknik Digital Kadir, Nuralim; Asmara, Bambang Panji; Wiranto, Ifan
Jambura Journal of Electrical and Electronics Engineering Vol 6, No 1 (2024): Januari-Juni 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v6i1.21450

Abstract

Jurusan Teknik Elektro Fakultas Teknik Universitas Negeri Gorontalo memiliki mata kuliah tentang pembelajaran teknik digital yaitu pada mata kuliah Teknik Digital dan Mikroprosesor, dimana pembelajaran teori dan praktikum dilaksanakan secara bersamaan. Pada kegiatan praktikum, media praktikum yang ada masih sangat terbatas sehingga membuat para praktikan dalam hal ini mahasiswa kesulitan untuk menerapkan berbagai teori yang telah dipelajari. Selama ini, kegiatan praktikum masih dilakukan melalui simulasi pada komputer sehingga kemampuan psikomotorik mahasiswa kurang dikembangkan. Tujuan dalam penelitian ini adalah merancang dan membangun modul praktikum dasar-dasar teknik digital yang mencakup gerbang logika dasar, flip-flop (RS, D, JK), multivibrator monostable, display seven segment, counter up down, dan aritmatic logic unit. Hasil dari penelitian modul praktikum yang dibuat diletakan dalam sebuah box koper yang terbagi menjadi 2 bagian yaitu bagian penutup (gerbang logika dasar, RS flip-flop dan D flip-flop), dan bagian utama (input toggle switch, port VCC dan GND, multivibrator monostable, JK flip-flop, display seven segment, counter up down, ALU, dan output indikator LED). Input output rangkaian terhubung dengan banana socket dan tidak terhubung satu sama lain sehingga pada proses pengujian menggunakan kabel jumper yang telah dipasang banana plug dan pengujiannya berdasarkan teori dan data sheet dari setiap modul praktikum.The Departement of Electrical Engineering, Faculty of Engineering, Universitas Negeri Gorontalo has digital engineering learning, which is Digital and Microprocessor  Engineering  courses that the theoretical and practicum  learning are conducted simultaneously. In practicum activies, the available practicum media is still limited and affect the practitioners, partycularly students, to implement the theories they have learned. In a recent period, practicum activities are still conducted through computer simulation which affects the stagnant development of psychomotor abilities. Therefore, this research aims to design and create practicum nodules for the basics of digital engineering which include basic logic gates, flip-flops (RS, D, JK), monostable multivibrators, seven segment displays, up-down counters, and unique arithmatic logic. The results of the practicum  module research that was made are placed in a suitcase box which is divided into 2 parts, the closing part (basic logic gate, RS flip-flop, and D flip-flop), and the main part (VCC and GND input toggle switch port, monostable multivibrator, JK flip-flop, seven segment display, counter up down, ALU, and output LED indicators). The input-output circuit is connected to a banana socket but it is not connected to each other so the testing process uses jumper cables that have been installed with banana plugs; the testing is based on the theory and datasheet of each practicum module.
Determining Priorities for Bongo Nol Village Using the Hierarchy Process Analysis Approach Wolok, Eduart; Lahay, Idham Halid; Ridwan, Wrastawa
Jambura Journal of Electrical and Electronics Engineering Vol 6, No 1 (2024): Januari-Juni 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v6i1.23956

Abstract

Penelitian ini difokuskan untuk membantu dalam proses menentukan prioritas pengembangan infrastruktur di desa. Penggunaan metode yang umumnya masih memiliki kekurangan. DSS didesain untuk mendukung semua langkah pengambilan keputusan dan membantu mengevaluasi setiap kriteria yang muncul dengan metode AHP (Analytical Hierarchy Process), menetapkan kriteria dan memberikan bobot nilai sehingga mempermudah dalam mengambil keputusan terkait prioritas pembangunan infrastruktur yang dibutuhkan oleh masyarakat. Hasil penelitian ini menunjukkan bahwa penyediaan air bersih menjadi prioritas utama dengan bobot sebesar 0.69, diikuti oleh pengelolaan sampah dengan bobot prioritas sebesar 0.15. Prioritas ketiga adalah sanitasi dengan bobot prioritas 0.11, dan prioritas terakhir adalah perumahan atau bantuan perbaikan rumah bagi masyarakat yang kurang mampu dengan nilai bobot prioritas sebesar 0.06.This research is focused on assisting in the process of determining the priority of infrastructure development in the village. The use of commonly employed methods still has its limitations. The Decision Support System (DSS) is designed to support all steps of decision-making and aid in evaluating each criterion using the Analytical Hierarchy Process (AHP) method. It establishes criteria, assigns weight values, thus facilitating decision-making related to the priority of infrastructure development needed by the community. The results of this research indicate that the provision of clean water is the top priority with a weight of 0.69, followed by waste management with a priority weight of 0.15. The third priority is sanitation with a priority weight of 0.11, and the last priority is housing or home improvement assistance for the less privileged with a priority weight value of 0.06.
Transformasi Digital Teknik Telekomunikasi Dasar Dan Sistem Telekomunikasi Lanjut Bonok, Zainudin; Abdussamad, Syahrir; Mohamad, Yasin; Junus, Alya Pratiwi Putri
Jambura Journal of Electrical and Electronics Engineering Vol 6, No 1 (2024): Januari-Juni 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v6i1.23898

Abstract

Tujuan Penelitian ini untuk mengoptimalkan   transformasi digital media pembelajaran   Teknik Elektro dan Komputer. Sehingga proses pembelajaran yang lebih fleksibel karena bisa offline dan juga online dan hibryd, serta membantu mahasiswa untuk tetap terus belajar secara mandiri dan termotivasi belajar terus. Selanjutnya pada Transformasi Digital perlu  dikembangkan lebih lanjut agar lebih interaktif. Teknologi transformasi digital merupakan pengembangan teknologi masa depan dengan adanya digitalisasi. Penerapan teknologi digital dapat memfasilitasi mahasiswa untuk tetap terus meningkatkan belajar secara mandiri. Metode yang digunakan adalah perancangan media pembelajaran. Hasil penelitian yang diperoleh, transformasi digital media pembelajaran Teknik Elektro dan Komputer   dapat lebih optimal sebab dengan adanya pemanfaatan transformasi digital  maka diharapkan terjadinya digitalisasi dalam proses pembelajaran pada Jurusan Teknik Elektro dan Komputer, sehingga di implementasi transformasi digital pada media pembelajaran Teknik Elektro dan Komputer dapat meningkatakan  motivasi dan kemandirian belajar. Pemanfaatan transformasi digital pada  mata kuliah Teknik Telekomunikasi Dasar dan Sistem Telekomunikasi lanjut.The aim of this research is to optimize the digital media transformation of Electrical and Computer Engineering learning. So the learning process is more flexible because it can be offline as well as online and hybrid, and helps students continue to learn independently and be motivated to continue learning. Furthermore, Digital Transformation needs to be developed further to make it more interactive. Digital transformation technology is the development of future technology with digitalization. The application of digital technology can facilitate students to continue to improve their learning independently. The method used is learning media design. The research results obtained show that digital media transformation for Electrical and Computer Engineering learning can be more optimal because with the use of digital transformation, it is hoped that digitalization will occur in the learning process in the Department of Electrical and Computer Engineering, so that the implementation of digital transformation in Electrical and Computer Engineering learning media can increase motivation. and learning independence. Utilization of digital transformation in Basic Telecommunication Engineering and digitalTelecommunication Systems courses.
Analisis Konsumsi Energi Listrik Menggunakan Metode Internsitas Konsumsi Energi Amali, Lanto Mohamad Kamil; Mohamad, Yasin; Tolago, Ade Irawaty; Elysiantobuo, Nova; Dako, Amirudin Yunus
Jambura Journal of Electrical and Electronics Engineering Vol 6, No 1 (2024): Januari-Juni 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v6i1.22567

Abstract

Kegiatan akademis yang dilakukan oleh lembaga pendidikan dapat memberikan dampak pada konsumsi energi listrik di kampus Universitas Negeri Gorontalo khususnya pada Fakultas Teknik. Kenyataannya banyak ruangan yang menyalakan lampu siang hari, penggunaan AC serta peralatan listrik lainnya tanpa adanya kegiatan dalam ruangan tersebut. Berdasarkan data dari bagian rumah tangga Universitas Negeri Gorontalo penggunaan energi listrik pada Fakultas Teknik rata-rata setiap bulan sebesar 655.140 VA dari daya terpasang sebesar 2.180.000 VA dan ini berdampak pada pembayaran rekening listrik rata-rata setiap bulannya sebesar Rp. 148.667.264,75. Penelitian ini bertujuan untuk menganalisis konsumsi energi listrik pada sistem pencahayaan, tata udara serta peralatan listrik lainnya yang digunakan pada bangunan gedung Fakultas Teknik. Metode yang digunakan adalah audit energi serta observasi lapangan. Hasil penelitian menunjukkan Intensitas Konsumsi Energi (IKE) bangunan gedung Fakultas Teknik Universitas Negeri Gorontalo untuk lantai menggunakan AC sebesar 14,33 kWh/m^2/bulan dikriteriakan cukup efisien dan untuk lantai tidak   menggunakan  AC sebesar 5,2 kWh/m²/bulan dikriteriakan efisien.Academic activities carried out by universities, especially the Faculty of Engineering, can have an impact on the use of electrical energy consumption on the Gorontalo State University campus. In fact, many rooms turn on daytime lights, use AC and other electrical equipment without any activity in the room. Based on data from the household section of Gorontalo State University, the average monthly use of electrical energy at the Faculty of Engineering is 655,140 VA from an installed power of 2,180,000 VA and this has an impact on the average monthly electricity bill payment of Rp. 148,667,264.75. This research aims to analyze electrical energy consumption in lighting systems, air conditioning and other electrical equipment used in the Faculty of Engineering buildings. The methods used are energy audits and field observations. The results of the research show that the Energy Consumption Intensity (IKE) of the building of the Faculty of Engineering, Gorontalo State University for floors using AC is 14.33 kWh/m^2/month which is classified as quite efficient and for floors not using AC it is rated as 5.2 kWh/m²/month. efficient.
Analisa Sistem Back-Up Daya Airfield Lighting System pada Substation T1 Bandara SAMS Sepinggan dengan ETAP 19.0.1 Tjung, Aldi Wiradinata Bukhari; Marzuki, Marza Ihsan; Yulianto, Bayu Yustina
Jambura Journal of Electrical and Electronics Engineering Vol 6, No 1 (2024): Januari-Juni 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v6i1.22314

Abstract

Dalam menunjang keselamatan penerbangan digunakan alat bantu dalam proses lepas landas, landing, dan taxi di bandara seperti Air Traffic Controller (ATC) dan Airfield Lighting System (AFL). Alat bantu tersebut pada Bandara SAMS Sepinggan dipasok dengan kapasitas listrik sebesar 3465 KVA pada Main Power House 1 yang disuplai dari PLTU Kariangau Balikpapan. Dalam menunjang operasional, Bandara SAMS Sepinggan tidak hanya mengandalkan sumber daya listrik primer dari PLN saja, ketika sumber PLN mengalami pemadaman maka sumber daya listrik sekunder berperan yaitu genset dan Uninterruptible Power Supply (UPS) sebagai catu daya cadangan tidak terputus khususnya pada beban AFL. Suplai daya listrik sekunder pada Bandara SAMS harus dapat membangkitkan daya sebesar 94.33 KVA untuk beban AFL. Metode load flow analysis digunakan untuk Analisa sistem back-up daya menggunakan program ETAP (Electric Transient Analysis Program) dengan tiga skenario. Setiap skenario disesuaikan dengan kondisi yang dimungkinkan terjadi ketika terjadi pemadaman. Skenario paling kritis yaitu skenario menggunakan suplai dari UPS dimana genset belum siap karena satu atau lain hal. Genset dapat membangkitkan daya sebesar 84.2 KW untuk mengisi daya UPS dan melayani beban sebesar 94.33 KVA. Kondisi drop tegangan pada saat suplai dari genset ketika PLN padam dalam kondisi baik dimana 98% berdasarkan standar IEC.To support aviation safety, tools are used in the take-off, landing and taxi processes at airports such as the Air Traffic Controller (ATC) and the Airfield Lighting System (AFL). The auxiliary equipment at SAMS Sepinggan Airport is supplied with an electricity capacity of 3465 kVA at Main Power House 1 which is supplied from PLTU Kariangau Balikpapan. In supporting operations, SAMS Sepinggan Airport does not only rely on primary electricity resources from PLN, when PLN sources experience a blackout, secondary electrical resources play a role, namely generators and Uninterruptible Power Supply (UPS) as uninterruptible backup power supplies, especially for AFL loads. Research on Analysis of the Back-Up Power System for the Airfield Lighting System at Substation T1 at SAMS Sepinggan Airport with ETAP 19.0.1 aims to see a picture of the distribution system when secondary electrical resources operate when there is a blackout at the source from PLN by looking at the effects that occur on the system. The method used in this research is an experiment with a simulation approach using the ETAP (Electric Transient Analysis Program) program. In the simulation carried out, there were three scenarios. Each scenario is adapted to the conditions that may occur when a blackout occurs. The most critical scenario is the scenario using supply from UPS where the generator is not ready for one reason or another. The generator can generate 84.2 kW of power to charge the UPS and serve a load of 94.33 kVA. The voltage drop condition at the time of supply from the generator when PLN is turned off is in good condition, which is 98% based on IEC standards, namely the lowest is 98.09% or 372 V based on IEC standards.
Data Center Room Monitoring Based on Temperature and Humidity with Internet of Things Rizkiawan, M. Asep; Ramza, Harry; Nuroji, Nuroji; Sofwan, Agus
Jambura Journal of Electrical and Electronics Engineering Vol 6, No 2 (2024): Juli - Desember 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v6i2.23344

Abstract

The idea of the Internet of Things (IoT) encompasses the application of technologies such as sensors and software to an object for the purpose of communicating, controlling, connecting, and exchanging data with other devices while connected to the Internet. In this study, the IoT concept developed was used to monitor and regulate conditions within the data center. The development method used is the life cycle method of system development. The development process involved modifying the Arduino Uno with an esp8266 microcontroller and a DHT-22 sensor to detect temperature and humidity in real time. The testing of IoT development was done using the black box and white box methods. Research results show that the prototyped IoT network can operate well and successfully improve data center performance. In addition, users can also access the system through websites and mobile applications to facilitate the monitoring process.

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