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All Journal PROtek : Jurnal Ilmiah Teknik Elektro RELE: Rekayasa Elektrikal dan Energi Jurnal Teknik Elektro Aviation Electronics, Information Technology, Telecommunications, Electricals, Controls (AVITEC) Civitas Ministerium: Jurnal Pengabdian Kepada Masyarakat JTEIN: Jurnal Teknik Elektro Indonesia Jurnal Rekayasa elektrika Ulil Albab
Sapto Nisworo
Universitas Tidar
Religion Aerospace Engineering Humanities Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Mechanical Engineering Social Sciences

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TATA KELOLA PEMBANGKIT LISTRIK TENAGA SURYA SEBAGAI PENERANGAN JEMBATAN GANTUNG KALI PROGO PENGHUBUNG UNTIDAR DENGAN KAMPUS BARU UNTIDAR DI DUSUN MLAGEN DESA SIDOREJO KECAMATAN BANDONGAN KABUPATEN MAGELANG Sapto Nisworo; Deria Pravitasari; Nurhadi Nurhadi
Civitas Ministerium Vol 2, No 01 (2018): Civitas Ministerium
Publisher : Civitas Ministerium

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Abstract

Pembangunan gedung untuk perluasan kampus Universitas Tidar pasti akan terjadi, salah satu lokasi yang dimiliki oleh UNTIDAR adalah di dusun Ndrojogan desa Sidorejo kecamatan Bandongan kabupaten Magelang. Jalan terdekat menuju kampus baru dari kampus utama berjarak 1500 meter melewati jalan kampung dan jembatan gantung kali Progo yang terletak antara kampung Dumpoh kota Magelang dan dusun Mlagen desa Sidorejo. Kondisi jembatan pada malam hari sangat gelap karena belum adanya penerangan. Disisi lain jembatan gantung kali Progo merupakan akses masyarakat yang ramai selama 24 jam menuju ke kota Magelang. Dengan kesiapan masyarakat sebagai pengelola jembatan yang ditunjang dengan adanya penerangan jembatan, maka akan memberikan kenyamana bagi pejalan kaki maupun yang berkendara motor. Metode pendekatan kepada warga dilakukan dengan penjelasan umum seputar PLTS, cara pemasangan, pengukuran dan pelatihan pengelolaan dalam waktu lama
TATA KELOLA PEMASANGAN JARINGAN LISTRIK SEBAGAI PENERANGAN JALAN MENUJU PUNCAK GUNUNG GIYANTI SEBAGAI PENDUKUNG WISATA ALAM Sapto Nisworo; Deria Pravitasari; Nurhadi Nurhadi
Civitas Ministerium Vol 3, No 01 (2019): Civitas Ministerium
Publisher : Civitas Ministerium

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Abstract

Puncak gunung Giyanti yang dicanangkan 0 km pulau Jawa oleh mantan Rektor UNTIDAR menjadi titik pusat wisata desa Balesari. Untuk optimaliasi daerah wisata, perlu adanya terobosan penerangan listrik yang berfungsi unruk penerangan dan keperluan lainnya. Karena jarak dan keterbatasan-keterbatasan kondisi lingkungan, listrik PLN belum bisa menjangkau, maka  diperlukan terobosan dengan memasang PLTS dipuncak gunung Giyanti. Dukungan pertumbuhan ekonomi harus diimbangi dengan peningkatan ratio elektrifikasi. Sebagaimana yang telah ditetapkan dalam Rencana Usaha Penyediaan Tenaga Listrik tahun 2015–2024, pada tahun 2019 nanti target ratio elektifikasi terpenuhi sejumlah 97,4% skala nasional. Masyarakat pedesaan yang secara ekonomi adalah golongan tidak mampu, mengusahakan kebutuhan primer akan energi listrik tidak dengan cara yang sesuai dengan peraturan yang berlaku. Penyuluhan, pendampingan pengurusan dan praktek pemasangan instalasi yang akan dilakukan pada kegiatan pengabdian ini ditujukan pada masyarakat Desa Balesari Kecamatan Windusari Kabupaten Magelang. Lokasi tersebut dipilih dengan alasan bahwa desa tersebut merupakan desa binaan, sehingga harapan kedepan dapat menjadi desa percontohan. Metode pendekatan kepada warga akan dilakukan dalam rangka memberi pengertian akan manfaat energi listrik yang aman sehingga resiko bahaya kebakaran maupun kejut listrik dapat dimininimalkan serta dapat mengelola listrik secara murah. Kegiatan pengabdian diharapkan memberikan kemampuan untuk mengurus listrik secara mandiri tanpa menggunakan jasa calo, mampu memasang instalasi sehingga bisa mendapatkan sertifikat layak operasi untuk rumah tangga dan pemasangan listrik untuk kebutuhan penerangan dan lainnya di areal wisata desa Balesari.
Evaluasi Kondisi Belitan Generator Transformers (GT) Dengan Sweep Frequency Response Analysis Sapto Nisworo; Arnawan Hasibuan; Muhammad Daud
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Publisher : RELE (Rekayasa Elektrikal dan Energi) : Jurnal Teknik Elektro

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (841.38 KB) | DOI: 10.30596/rele.v5i1.10790

Abstract

Abstrak Pengaruh gaya elektromagnetig yang besar dan terus-menerus, berkibat belitan transformator daya cenderung mengalami perubahan. Mencegah terjadinya gerakan belitan transformator daya berkembang yang mengarah pada kerusakan utama sangat penting, oleh karena itu pendeteksian dan perawatan transformator perlu dilakukan secara rutin agar transformator dapat beroperasi dengan handal. Metode Sweep Frequency Response Analysis (SFRA) dikembangkan untuk mendiagnosis kondisi mekanik belitan transformator Metode pendeteksian kondisi belitan transformator diperoleh hasil yang akurat. Hasil yang diperoleh semua kondisi belitan dalam keadaan baik tanpa perlu adanya perbaikan.Kata kunci : Belitan Transformator, SFRAAbstract The influence of the large and continuous electromagnetic force causes the winding of the power transformer to tend to change. It is very important to prevent the winding movement of the power transformer from developing which leads to main damage, therefore it is necessary to detect and maintain the transformer regularly so that the transformer can operate reliably. Sweep Frequency Response Analysis (SFRA) method was developed to diagnose the mechanical condition of the transformer winding. The method of detecting the condition of the transformer winding obtained accurate results. The results obtained are all winding conditions are in good condition without the need for repair.Keywords : Transformer Winding, SFRA
Evaluasi Penerangan Tempat Parkir Terbuka (Outdoor) pada Wisata Candi Mizan Al Akmal Faizi; Sapto Nisworo; Deria Pravitasari
Aviation Electronics, Information Technology, Telecommunications, Electricals, Controls (AVITEC) Vol 5, No 1 (2023): February
Publisher : Institut Teknologi Dirgantara Adisutjipto

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.28989/avitec.v5i1.1479

Abstract

Penelitian membahas tentang evaluasi penerangan tempat parkir kawasan Candi Borobudur yang beralamat di Jalan Badrawati, Borobudur, Kecamatan Borobudur, Kabupaten Magelang, Jawa Tengah. Tujuan yang diharapkan dari evaluasi penerangan tempat parkir yaitu menghasilkan penerangan yang sesuai standar yang berlaku sehingga dapat memberikan keamanan dan kenyamanan pengunjung. Metode yang digunakan yaitu metode komparasi, membandingkan hasil pengukuran dengan SNI 7391:2008, dan memberikan rekomendasi sistem penerangan ketika hasil evaluasi belum sesuai dengan standar. Hasil evaluasi menunjukkan bahwa penerangan tempat parkir Candi Borobudur belum se suai SNI, sehingga perlu dilakukan perencanaan ulang. Perencanaan ulang penerangan merekomendasikan penambahan lampu penerangan yang mulanya 6 lampu penerangan menjadi 18 lampu penerangan. Perencanaan penerangan menggunakan lampu nikkon S2266 230 W dan lampu philips BVP651 385 W. Hasil perencanaan dengan mengambil sampel  zona A3 dengan nilai illuminasi 7 lux, setelah dilakukan perencanaan menjadi 16,6 lux sehingga penerangan sudah sesuai dengan SNI 7391:2008.
Perancangan Interleaved Boost Converter Dari 8-12 ke 24V Dengan Umpan Balik Tegangan Adi Nurcahyo; Sapto Nisworo; Dwi Novianto; Reza Yusuf Kurniawan
Jurnal Teknik Elektro Indonesia Vol 4 No 1 (2023): JTEIN: Jurnal Teknik Elektro Indonesia
Publisher : Jurusan Teknik Elektro Fakultas Teknik Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/jtein.v4i1.365

Abstract

The use of DC voltage is now increasingly massive with various needs, but the voltage source obtained tends to be unstable to meet the existing electrical load, so it is necessary to adjust the voltage so that it works properly and there is no damage to the load, namely by adding a DC-DC converter system. Because of this basis, this research focuses on how to increase the DC voltage with minimal ripple and according to the voltage requirements in general, namely 12, 24, and 48V. In this study, the authors made a 24V Interleaved Boost Converter with an input value range of 8 to 12V. Tests found that the Interleaved Boost Converter is able to maintain a constant voltage of 24V without oscillation with a voltage feedback control system, the input voltage ripple is 240 mV and the resulting output voltage ripple is 680 mV, while the input current ripple is 800 mA and the output current ripple is 560 mA.
Optimization of Permanent Magnet Synchronous Generator Output Power in Wind Power Plants with ANN Back Propagation Sapto Nisworo; Deria Pravitasari; Iis Hamsir Ayub Wahab
PROtek : Jurnal Ilmiah Teknik Elektro Vol 10, No 2 (2023): PROtek : Jurnal Ilmiah Teknik Elektro
Publisher : Program Studi Teknik Elektro Universitas Khairun

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33387/protk.v10i2.6040

Abstract

The focus of this research is optimizing a wind power plant using a Permanent Magnet Synchronous Generator (PMSG). The backpropagation method of the artificial neural network system was chosen to optimize the output power of the wind power generator. Based on the simulation results, the backpropagation algorithm of the artificial neural network obtains the output power based on the input variable in the form of changing wind speed. The results show that the best value is learning rate = 0.5, error = 0.0001, max. epoch= 100000, neuron hidden layer = 5. The Mean Square Error (MSE) value obtained is 0.1026 reaching the goal at epoch 14845. The reverse training regretion reaches 0.99917. The optimization results are close to the specified error, which is 0.0001, while what is obtained is 0.0145. The power generated by the wind speed is 10.7 m/s before being optimized using the back propagation neural network method worth 321 watts, while the optimized power results are 409 watts. The difference in the average target power obtained is 88 watts compared to the power of the Artificial Neural Network (ANN). 
Optimizing Technical Losses of the PLN Distribution Network with Changes in Operational Patterns in 2023 at PLN ULP Lhokseumawe Arnawan Hasibuan; Ari Afrizal; Misbahul Jannah; Sapto Nisworo; Fajar Syahbakti Lukman; I Made Ari Nrartha
Jurnal Rekayasa Elektrika Vol 19, No 4 (2023)
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.17529/jre.v19i4.33838

Abstract

Technical shrinkage is shrinkage caused by impedance in generation equipment or transmission equipment to the distribution network so that there is energy loss. There are several technical shrinkage problems at PT. Perusahaan Listrik Negara (PLN) especially in Customer Service Unit (ULP) Lhokseumawe City and for now the cause is still unsolved, because this technical shrinkage problem will harm and have an impact on consumers and PLN itself. The purpose of the study was to optimize technical shrinkage in the distribution network to reduce energy losses that occurred during the electrical power distribution process in the distribution network of PT. PLN (Persero) ULP Lhokseumawe City. This study uses the help of Electrical Transient Analyzer Program (ETAP) software to simulate the power flow so that the depreciation value that occurs is obtained, then re-load adjustment is carried out to simulate again to determine the change in the depreciation value obtained after load adjustment. The results of the ETAP simulation show the depreciation value that occurred before the load adjustment was made by 76.7 kW after the depreciation load adjustment was adjusted to 59.6 kW. This means that this technical shrinkage can be suppressed by changing the feeder operation pattern and voltage drop value in accordance with the limitation provisions set in SPLN 72:1987.
Perencanaan Fire Alarm dan Pemadam Kebakaran pada Gedung Dekanat 7 Lantai Universitas Tidar Mertoyudan Shely Kurmia; Sapto Nisworo; Deria Pravitasari; Agung Trihasto
Aviation Electronics, Information Technology, Telecommunications, Electricals, and Controls (AVITEC) Vol 6, No 2 (2024): August
Publisher : Institut Teknologi Dirgantara Adisutjipto

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.28989/avitec.v6i2.2141

Abstract

Perencanaan fire alarm dan pemadam kebakaran pada Gedung Dekanat 7 lantai Universitas Tidar Mertoyudan dilakukan karena terdapat risiko kebakaran yang upaya penanggulangannya sulit dilakukan. Dalam menyelesaikan perencanaan ini memerlukan beberapa tahapan yang mencakup studi literatur, pengumpulan data dan pengolahan data. Berdasarkan hasil perhitungan yang telah dilakukan dapat disimpulkan bahwa sesuai SNI 03-3985-2000 membutuhkan detektor asap 82 unit, sesuai SNI 03-3989-2000 membutuhkan sprinkler 129 unit, volume air yang dibutuhkan 232 m3, Ground Water Tank (GWT) berkapasitas 300 m3, daya pompa yang dibutuhkan yaitu daya pompa elektrik 36 kW, pompa jockey 3,6 kW, dan pompa diesel 140 HP. Perhitungan perencanaan fire alarm dan pemadam kebakaran ini telah sesuai dengan peraturan dan standar diharapkan dapat meningkatkan keselamatan penghuni serta melindungi aset-aset berharga.
Perencanaan Sistem Proteksi Petir Pada Kawasan Candi Borobudur Ragil Triyanto; Sapto Nisworo; Hery Teguh Setiawan
ULIL ALBAB : Jurnal Ilmiah Multidisiplin Vol. 1 No. 9: Agustus
Publisher : CV. Ulil Albab Corp

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Abstract

BMKG data for 2020-2021 shows that Magelang Regency has an average of 540,000-720,000 lightning strikes per year. The installation of a lightning protection system aims to avoid, prevent and reduce the danger posed by lightning strikes. The Borobudur Temple area zone 1 and zone 2 is the center of a world tourist destination, namely the UNESCO historical monument of Borobudur Temple with an area that requires lightning protection of 617,200 m2. The lightning protection method used in this study is the E.S.E (Early Streamer Emission) lightning protection system. The results obtained in this study are in the form of a radius of protection with an air terminal of the Kurn R-150 brand of 70,650 meters2 for each unit of the protection system. It takes 12 units of a lightning protection system to protect all areas of zone 1 and zone 2 that require a protection system. Ground resistance < 5Ω is obtained with one electrode rod 3 meters long for each unit according to the standards of SNI 03-7015-2004, PUIL, and PUIPP. The cost plan ordered for the lightning protection system in the Borobudur Temple area is IDR 302,171,781 with 11% VAT IDR 335,410,677.
Studi Perencanaan Kabel Bawah Tanah di Proyek Perumahan Anvaya Townhouse Kota Bogor Bayu Satriyo Utomo; Sapto Nisworo; Deria Pravitasari
ULIL ALBAB : Jurnal Ilmiah Multidisiplin Vol. 2 No. 2: Januari 2023
Publisher : CV. Ulil Albab Corp

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.56799/jim.v2i2.1307

Abstract

The electricity distribution system is distributed in two ways, namely aerial distribution channels and underground distribution channels. The choice to use underground distribution network cables is one alternative for security, and provides aesthetic value to buildings or cities that use underground cable channel distribution. In this plan, medium voltage and low voltage are planned by determining the type of cable in this study using NYFGbY and NYRGbY cables with protective steel cheeks, and steel wire. The construction of the cable installation is in accordance with the standard ground cable construction and is assisted by a layout drawn with Autocad software, this planning also calculates the voltage shrinkage with two methods, namely the manual method with the maximum voltage on the Main Distribution Panel (MDP) panel to the Sub Distribution Panel (SDP) based on the calculation obtained a value of 2.029 V with a percentage of 0.5% the calculation has met the SPLN No 72 Year 1987 Standard from the results of manual calculations not reaching 4%, then with the simulation method with ETAP 19 software. 0.1 maximum voltage on the Main Distribution Panel (MDP) panel to the Sub Distribution Panel (SDP) obtained voltage shrinkage at MDP to SDP, namely 1.75% of simulation results meet SPLN Standard No. 72 of 1987 from the results of manual calculations not reaching 4%.
Co-Authors Adi Nurcahyo Agung Trihasto Ari Afrizal Arnawan Hasibuan Awaludin Fadilah Bagus Fatkhurrozi Bayu Satriyo Utomo Deria Pravitasari Dwi Novianto Fajar Syahbakti Lukman Hery Teguh Setiawan I Made Ari Nrartha Misbahul Jannah Mizan Al Akmal Faizi Muhamad risqi febrian Muhammad Amrullah Muhammad Daud Nurhadi Nurhadi Ragil Triyanto Reza Yusuf Kurniawan Shely Kurmia Vincent Cleo D.A. P Wahab, Iis Hamsir Ayub