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All Journal REKAYASA Jurnal Teknologi Elektro Abdimas Galuh: Jurnal Pengabdian Kepada Masyarakat JAREE (Journal on Advanced Research in Electrical Engineering)
Nugraha, Syechu Dwitya
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Agriculture, Biological Sciences & Forestry Computer Science & IT Control & Systems Engineering Economics, Econometrics & Finance Electrical & Electronics Engineering Engineering Law, Crime, Criminology & Criminal Justice Nursing Physics

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Temperature and Humidity Control System for 20 kV of Cubicle with Multiple Input Multiple Output Fuzzy Logic Controller Ramadhan, Mochammad Berliano Putra; Efendi, Moh. Zaenal; Nugraha, Syechu Dwitya
JAREE (Journal on Advanced Research in Electrical Engineering) Vol 7, No 2 (2023): July
Publisher : Department of Electrical Engineering ITS and FORTEI

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.12962/jaree.v7i2.367

Abstract

Cubicle 20 kV is a crucial electrical equipment in the 20 kV power distribution system. Often, cubicle issues arise due to excessively low or high temperatures and humidity, which can lead to the presence of water spots and corrosion on the components inside the 20 kV cubicle. One of the efforts to maintain the reliability of this 20 kV cubicle is to ensure that the temperature and humidity inside the cubicle remain within their operational limits. To achieve this, a system is needed to control the temperature and humidity in the 20 kV cubicle. The system can monitor and control the temperature and humidity inside the cubicle by adjusting the activation angle of the exhaust fan and heater. Control is achieved using a multiple-input, multiple-output fuzzy logic controller. The main components of this system are the STM32 microcontroller, DHT22 sensor, and ESP8266 module for monitoring temperature and humidity via a website. System has successfully controlled temperature and humidity d with a set point value of 35 °C and humidity of  60% RH. This implementation of fuzzy multiple input multiple outputs has performed well and resulted in only a small error of 0.55% for temperature and 1.05% for humidity.With the presence of this device, the temperature and humidity in the cubicle 20 kV can be controlled, and it enables the PLN operator to easily monitor and maintain the cubicle 20 kV.
Indirect Sliding Mode Control Sebagai Pengendali Kecepatan Motor DC Dengan Buck-Converter Husnu Zain, Habibi Mushthofa; Windarko, Novie Ayub; Nugraha, Syechu Dwitya
Jurnal Teknologi Elektro Vol 14, No 3 (2023)
Publisher : Electrical Engineering, Universitas Mercu Buana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22441/jte.2023.v14i3.005

Abstract

Sliding Mode Control merupakan salah satu kontrol non-linear yang banyak digunakan karena kesederhanaan dalam penerapannya dan dapat diterapkan pada sistem linear maupun non-linear. Modulasi pada Sliding Mode Control dapat menggunakan histerisis maupun PWM. Penelitian ini menjelaskan desain Sliding Mode Control dengan modulasi PWM yang digunakan untuk mengatur kecepatan motor dc menggunakan buck converter. Desain Sliding Mode Control dimulai dengan pemodelan dinamis yang kemudian direpersentasikan dalam bentuk state-space. Tahapan pencarian existance condition dan equivalent control juga akan dibahas. Hasil desain kontrol diverifikasi secara simulasi menggunakan MATLAB/Simulink dan secara eksperimen.
SISTEM PENYIMPANAN ENERGI LISTRIK BERBASIS BATERAI DARI PANEL SURYA UNTUK LISTRIK RUMAH IBADAH DI DESA CARANG WULUNG Rusli, Muhammad Rizani; Raharja, Lucky Pradigta Setiya; Nugraha, Syechu Dwitya; Adila, Ahmad Firyal; Jaya, Arman; Sutedjo, Sutedjo; Agusalim, Imam Dui; Suharyanto, Hendik Eko Hadi; Suryono, Suryono; Irianto, Irianto; Wahjono, Endro; Rakhmawati, Renny; Ferdiansyah, Indra; Murdianto, Farid Dwi; Eviningsih, Rachma Prilian
Abdimas Galuh Vol 5, No 2 (2023): September 2023
Publisher : Universitas Galuh

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25157/ag.v5i2.10440

Abstract

Dikarenakan kondisi tipografi dan bentuk wilayah yang berupa perbukitan dengan wilayah yang luas, maka di Desa Carang Wulung masih terdapat dusun yang belum ada jaringan listrik tegangan rendah dari PLN yaitu Dusun Gondang. Akibat keterbatasan tersebut, terdapat rumah ibadah (musala) di Dusun Gondang yang masih kurang diperhatikan dan termasuk dalam kategori tidak layak jika dilihat dari sisi ketersediaan listrik. Masyarakat di dusun yang mayoritas beragama Islam ini mengalami kendala penerangan saat shalat berjamaah di malam hari hingga subuh. Tidak adanya sumber listrik untuk pengeras suara juga mengakibatkan tidak dapat digunakannya pengeras suara untuk menandai masuknya waktu sholat. Berdasarkan latar belakang tersebut, maka dikembangkan sistem penyimpanan energi listrik berbasis baterai dengan menggunakan panel surya dalam kegiatan pengabdian masyarakat ini. Tahapan kegiatan pengabdian masyarakat yang dilakukan adalah melakukan survey kebutuhan pemasangan sistem instalasi panel surya dan baterai, perakitan beberapa komponen sistem, melakukan pengujian sistem skala laboratorium, pemasangan sistem yang telah dirakit dan diuji, serta melakukan sosialisasi dan pelatihan kepada warga tentang penggunaan panel surya, pengoperasian dan pemeliharaan sistem. Warga mengaku senang dengan terselenggaranya kegiatan pengabdian masyarakat ini karena dapat beribadah dengan nyaman setiap saat dengan sumber listrik yang tidak mengandalkan sumber dari PLN.
Design and Implementation of a Transformer Winding Machine with Buck-Boost Converter-Based DC Motor Drive Rusli, Muhammad Rizani; Prabowo, Gigih; Taufiqurrahman, Taufiqurrahman; Jaya, Arman; Nugraha, Syechu Dwitya; Purwanto, Era
Rekayasa Vol 19, No 1: 2026
Publisher : Universitas Trunodjoyo Madura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21107/rekayasa.v19i1.27486

Abstract

This research presents the design and implementation of a high-frequency transformer winding machine driven by a DC motor with a Buck-Boost converter to produce transformers accurately and efficiently. The system integrates a DC motor controlled by a Buck-Boost converter, which regulates the voltage to the motor, ensuring stable performance during the winding process. The winding machine design includes a stable mechanical platform, a V-belt mechanism for power transmission, and optocoupler sensors for real-time monitoring of winding turns. The Buck-Boost converter stabilizes voltage fluctuations, allowing smooth motor operation under various input conditions, thereby improving machine efficiency and reliability. Experimental tests on the rectifier, Buck-Boost converter, and DC motor demonstrate high efficiency and stable performance, with minimal deviation between calculated and experimental results. Test results show that this machine can perform precise winding across different duty cycles, with optimal speed control and stable operation. Compared to existing transformer winding machines using induction motors or stepper motors, this system offers better control, faster winding speeds, and greater adaptability to different production conditions. The developed machine significantly contributes to industries such as transformer manufacturing and power electronics, with increased productivity, reduced production costs, and improved transformer quality, especially in high-frequency applications such as renewable energy systems and electric vehicle charging.
Co-Authors Agusalim, Imam Dui Ahmad Firyal Adila Arman Jaya Endro Wahjono, Endro Era Purwanto Farid Dwi Murdianto Ferdiansyah, Indra Gigih Prabowo Husnu Zain, Habibi Mushthofa Irianto Irianto Lucky Pradigta Setiya Raharja Mohammad Zaenal Efendi Novie Ayub Windarko Rachma Prilian Eviningsih, Rachma Prilian Rakhmawati, Renny Ramadhan, Mochammad Berliano Putra Rusli, Muhammad Rizani Suharyanto, Hendik Eko Hadi Suryono Suryono Sutedjo Sutedjo Taufiqurrahman Taufiqurrahman