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All Journal Jurnal Sains Student Research Jurnal Media Akademik (JMA) Jurnal Ilmiah Nusantara Menulis: Jurnal Penelitian Nusantara
Arwadi Sinuraya
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Journal : Jurnal Sains Student Research

 1 
Analisis dan Simulasi Pengendali PI pada Sistem Kecepatan Motor DC Menggunakan MATLAB/Simulink Azliana Siregar; Roi Tua Simarmata; Rizki Renaldi; Desman Jonto Sinaga; Arwadi Sinuraya
JOURNAL SAINS STUDENT RESEARCH Vol. 3 No. 6 (2025): Jurnal Sains Student Research (JSSR) Desember
Publisher : CV. KAMPUS AKADEMIK PUBLISING

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jssr.v3i6.6945

Abstract

Motor arus searah (DC) merupakan salah satu aktuator yang banyak digunakan pada sistem kendali karena kemampuannya dalam memberikan respon kecepatan yang cepat dan mudah dikendalikan. Namun, perubahan beban dan gangguan eksternal dapat menyebabkan kecepatan motor tidak stabil. Oleh karena itu, diperlukan sistem pengendali yang mampu mempertahankan kecepatan motor sesuai dengan nilai referensi yang diinginkan. Pada penelitian ini dilakukan simulasi sistem pengendali kecepatan motor DC menggunakan pengendali Proportional-Integral (PI) berbasis perangkat lunak MATLAB/Simulink. Nilai setpoint yang digunakan sebesar 250 sebagai referensi kecepatan. Simulasi dilakukan untuk menganalisis kinerja pengendali PI dalam memperbaiki respon dinamis motor DC, meliputi waktu naik (rise time), waktu tunak (settling time), serta kesalahan keadaan tunak (steady-state error). Hasil simulasi menunjukkan bahwa pengendali PI mampu mengatur kecepatan motor DC secara efektif dengan respon yang stabil, kesalahan keadaan tunak yang kecil, dan waktu tunak yang relatif cepat. Kata Kunci: Motor DC, Pengendali PI, MATLAB/Simulink, Sistem Kendali Kecepatan, Respon Dinamis.
Studi Eksperimental Pengukuran Medan Listrik pada Isolator Transmisi 275 kV PT. INALUM Menggunakan Positron Insulator Tester Joya Margaretha Siregar; Hisar Alexcandra; Arwadi Sinuraya; Desman Jonto Sinaga
JOURNAL SAINS STUDENT RESEARCH Vol. 3 No. 6 (2025): Jurnal Sains Student Research (JSSR) Desember
Publisher : CV. KAMPUS AKADEMIK PUBLISING

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jssr.v3i6.6994

Abstract

This study aims to determine the characteristics and distribution of electric fields in the 275 kV transmission line insulator owned by PT. Indonesia Asahan Aluminum (INALUM) uses a Positron Insulator Tester. The background of this research departs from the importance of insulator maintenance as a vital component in maintaining the reliability of the extra-high voltage transmission system (SUTET). The method used is experimental by taking direct measurements on several randomly selected transmission towers in the field without shutting down the system. The measurement data is analyzed to determine the magnitude of the electric field and detect anomalies in the voltage distribution in each insulator piece. The measurement results showed that the highest electric field value was in the insulator chip closest to the voltage conductor, while the lowest value was found in the chip close to the tower structure. The non-linear distribution pattern of the electric field indicates a potential decline in insulator quality. The results of this study prove that the use of the Positron Insulator Tester is effective in detecting insulator conditions quickly and safely, so that it can be a reference in the preventive maintenance program of high-voltage transmission networks.
Evaluasi Respon Dinamis Konverter Cascaded Buck-Boost Tiga Unit Menggunakan Pendekatan Simulasi di MATLAB/Simulink Rio Rivaldo Sinurat; Christoper Alfredo Laoli; Arga Sakti Oktavianus Sihombing; Desman Jonto Sinaga; Arwadi Sinuraya
JOURNAL SAINS STUDENT RESEARCH Vol. 3 No. 6 (2025): Jurnal Sains Student Research (JSSR) Desember
Publisher : CV. KAMPUS AKADEMIK PUBLISING

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jssr.v3i6.6995

Abstract

Konverter DC-DC tipe buck-boost banyak digunakan pada sistem daya karena kemampuannya untuk menaikkan maupun menurunkan tegangan sesuai kebutuhan beban. Namun, pada aplikasi yang membutuhkan rentang pengaturan tegangan yang lebih luas serta stabilitas yang tinggi, konfigurasi satu tahap seringkali tidak mencukupi. Oleh karena itu, penelitian ini mengevaluasi respon dinamis konverter cascaded buck-boost tiga unit menggunakan pendekatan simulasi pada MATLAB/Simulink. Setiap unit konverter dihubungkan secara seri untuk meningkatkan fleksibilitas pengaturan tegangan keluaran. Analisis dilakukan dengan mengamati perubahan tegangan keluaran terhadap variasi duty cycle dan pembebanan untuk menilai karakteristik transien dan kestabilan sistem. Hasil simulasi menunjukkan bahwa konfigurasi cascaded mampu menghasilkan tegangan keluaran yang stabil dengan respon transien yang terkendali, meskipun sensitivitas terhadap variasi duty cycle meningkat seiring bertambahnya jumlah tahap. Dengan demikian, topologi cascaded buck-boost tiga unit dapat diterapkan pada sistem tenaga DC yang membutuhkan pengaturan tegangan adaptif dan luas. Kata kunci: Konverter DC-DC, Buck-Boost, Cascaded Converter, Respon Dinamis, Simulasi MATLAB.
Analisis dan Koordinasi Relay Proteksi terhadap Gangguan Hubung Singkat pada Sistem Tenaga Listrik Menggunakan ETAP Tanjung, Mhd Fajar Dwiandra; Rifqi Dwi Kurniawan; Willis Martin Sitorus; Arwadi Sinuraya; Desman Jonto Sinaga
JOURNAL SAINS STUDENT RESEARCH Vol. 3 No. 6 (2025): Jurnal Sains Student Research (JSSR) Desember
Publisher : CV. KAMPUS AKADEMIK PUBLISING

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jssr.v3i6.6997

Abstract

This study analyzes the coordination of protection relays against short-circuit faults in a 20 kV distribution system using ETAP software. The research includes system modeling, short-circuit analysis, relay setting determination, and Time Current Characteristic (TCC) simulation. The results show that relay coordination meets IEC 60255 standards with a 0.3–0.5 second time margin, and fault currents are within safe limits according to IEC 60909. The protection system operates quickly, selectively, and reliably in fault isolation.
ANALISIS PREVENTIVE PANEL DAN GENERATOR 3 PHASA PADA PT. PERTAMINA HULU ENERGI OGAN KOMERING Dinda Tri Hasanah Sihombing; Muhammad farhan; Reihan Akbar Sitompul; Arwadi Sinuraya; Desman Jonto Sinaga
JOURNAL SAINS STUDENT RESEARCH Vol. 3 No. 6 (2025): Jurnal Sains Student Research (JSSR) Desember
Publisher : CV. KAMPUS AKADEMIK PUBLISING

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jssr.v3i6.7055

Abstract

. This Industrial Internship was carried out at PT. Pertamina Hulu Energi Ogan Komering, focusing on the implementation of preventive maintenance on the electrical system, particularly the generator and Power Generation Unit (PGU) panel. The objectives of this activity were to understand the application of preventive maintenance, analyze the condition and performance of the electrical system, and evaluate the effectiveness of the maintenance program in ensuring operational reliability. The method included visual inspections, electrical parameter measurements (voltage, current, temperature, and battery voltage), as well as protection function and cooling system testing. Measurement data collected over 30 days indicated that the system operated within normal limits, with phase-to-phase voltages ranging from 375–389 V, phase currents between 23–26 A, and component temperatures between 26–27°C. The evaluation results showed that preventive maintenance successfully reduced the risk of sudden failures, extended equipment lifespan, and maintained electrical distribution efficiency. The implementation of this program proved effective in enhancing system reliability, minimizing downtime, and supporting smooth oil and gas production operations within the company.
Pengujian Tahanan Kontak dan Tahanan Isolasi PMS 150 kV Bay Penghantar Selayang 1 di Gardu Induk Paya Geli Genhard Leonardo Situmorang; Anzila Nada Zahra; Desman Jonto Sinaga; Arwadi Sinuraya
JOURNAL SAINS STUDENT RESEARCH Vol. 3 No. 6 (2025): Jurnal Sains Student Research (JSSR) Desember
Publisher : CV. KAMPUS AKADEMIK PUBLISING

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jssr.v3i6.7076

Abstract

This study aims to evaluate the condition of the isolation resistance and contact resistance of the 150 kV Bus A Selayang 1 Conductor Separator (PMS) at the Paya Geli Substation as part of the 2 and 5 year HAR maintenance program. Insulation resistance testing was performed using a TENTECH insulation tester with a test voltage of 3 kV DC, while contact resistance was measured using a micro-ohmmeter with an injection current of 100 A in accordance with KEPDIR 0520-2.K/DIR/2014. The test results showed that the insulation resistance was in the order of hundreds of gigaohms with a leakage current of around 10⁻⁹ A, so that all phases met the minimum limit of 0.5 GΩ. The contact resistance values of 43.24 µΩ, 27.09 µΩ, and 35.90 µΩ were also below the 100 µΩ threshold with very small power loss, so that the 150 kV PMS was declared to be in very good condition and operational and supported power transmission reliability, but still required periodic monitoring and maintenance to prevent performance degradation in the future.
Analisis Perbaikan Faktor Daya Sistem 11 Bus Dengan Metode Optimal Capacitor Placement Baginda Asyraq Nasution; Rafles Marulitua Situmorang; Arwadi Sinuraya; Desman Jonto Sinaga
JOURNAL SAINS STUDENT RESEARCH Vol. 3 No. 6 (2025): Jurnal Sains Student Research (JSSR) Desember
Publisher : CV. KAMPUS AKADEMIK PUBLISING

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jssr.v3i6.7081

Abstract

Electric power distribution networks generally receive energy after passing through the transmission system and function to step down and deliver voltage to end consumers. Throughout this delivery process, distribution networks are vulnerable to various disturbances, one of which is voltage drop, which can degrade power quality and disrupt system operational stability. This study aims to address voltage drop issues in distribution networks by applying the Optimal Capacitor Placement (OCP) method. OCP is used to determine the optimal locations and capacities of capacitors to improve voltage profiles, reduce power losses, and enhance the power factor. The research approach includes single-phase distribution network modeling, numerical simulations of loads and operating conditions, and performance evaluation before and after capacitor installation. The analysis focuses on voltage parameters, power losses, power factor, and operational stability in critical network segments. The results show that optimal capacitor placement can stabilize voltage within operational standards, reduce voltage fluctuations, and improve energy distribution efficiency.
DESAIN SISTEM PROTEKSI OVERCURRENT DAN GROUND FAULT RELAY UNTUK JARINGAN TEGANGAN MENENGAH MENGGUNAKAN ETAP 19.0.1 M.Wahyu Prawindu; Muhammad Ilham Hasibbuan; Hutur P Siahaan; Arwadi Sinuraya; Desman Jonto Sinaga
JOURNAL SAINS STUDENT RESEARCH Vol. 3 No. 6 (2025): Jurnal Sains Student Research (JSSR) Desember
Publisher : CV. KAMPUS AKADEMIK PUBLISING

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61722/jssr.v3i6.7088

Abstract

Medium-voltage (20 kV) power distribution systems are highly susceptible to short-circuit faults and single line-to-ground faults. To ensure system reliability and supply continuity, a protection scheme that is selective, fast, and adaptive to real network conditions is essential. This study aims to design a protection system based on Overcurrent Relays (OCR) and Ground Fault Relays (GFR) using the ETAP 19.0.1 software. The methodology includes single-line system modeling, fault simulations, and analysis of Time-Current Characteristic (TCC) curves and relay selectivity. Simulation results indicate that all relays operate within a selective time range (0.12 s – 0.65 s) without curve overlaps. The minimum selectivity factor (Ks) achieved is 2.1, exceeding the standard threshold of 1.8 for isolated-neutral systems. The proposed design provides reliable protection against high-resistance faults and is suitable for practical implementation in Indonesia’s distribution networks.
Co-Authors Afriza Arif Andira Anzila Nada Zahra Arga Sakti Oktavianus Sihombing Azliana Siregar Baginda Asyraq Nasution Caecilia Kristiwinita Sitanggang Christoper Alfredo Laoli Dinda Tri Hasanah Sihombing Egy Wira indana Elvin Frans Aritonang Eva Morani Sinurat Genap Munthe Genhard Leonardo Situmorang Gideon Fercy Silitonga Hisar Alexcandra Hutur P Siahaan Irenius Aditya Lumbangaol Jerryo Daniel Saragih Joya Margaretha Siregar Julio Betran Simalango M.Wahyu Prawindu Michael Oklando Sihotang Monang Marpaung Muhammad Farhan Muhammad Ikbal Muhammad Ilham Hasibbuan Muhammad Rizky Hidayah Okta Danil Tarigan Rafles Marulitua Situmorang Reihan Akbar Sitompul Rianda Sapitra Lubis Rifqi Dwi Kurniawan Rio Rivaldo Sinurat Rizki Abdillah Rizki Renaldi Roi Tua Simarmata Roihan Parli Lubis SINAGA, DESMAN JONTO Takwa Padang Tanjung, Mhd Fajar Dwiandra Wandani Putri Siregar Willis Martin Sitorus