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All Journal JTEV (Jurnal Teknik Elektro dan Vokasional Jurnal Ilmiah Teknik Elektro Komputer dan Informatika (JITEKI) Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains PROtek : Jurnal Ilmiah Teknik Elektro JET (Journal of Electrical Technology) JURNAL TEKNIK INFORMATIKA DAN SISTEM INFORMASI TESLA: Jurnal Teknik Elektro Indonesian Review of Physics (IRiP) International Journal of Electrical, Energy and Power System Engineering (IJEEPSE) INAJEEE (Indonesian Journal of Electrical and Electronics Engineering) Unri Conference Series: Community Engagement Journal of Community Engagement Research for Sustainability Journal of Ocean, Mechanical and Aerospace -science and engineering- (JOMAse) Informatics and Enginering Dedication Prosiding Seminar Nasional Sisfotek (Sistem Informasi dan Teknologi Informasi) SAINSTEK Publikasi Hasil Pengabdian Kepada Masyarakat. BATOBO: Jurnal Pengabdian Kepada Masyarakat CSRID
Edy Ervianto
Universitas Riau
Aerospace Engineering Humanities Astronomy Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Earth & Planetary Sciences Education Electrical & Electronics Engineering Energy Engineering Environmental Science Industrial & Manufacturing Engineering Materials Science & Nanotechnology Mechanical Engineering Nursing Public Health Social Sciences Other

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ANALISIS PENGENDALIAN ATS UNTUK BEBAN KATEGORI 2E PADA PUSKESMAS RAWAT INAP BERBASIS ATMEGA16 Marpaung, Noveri Lysbetti; Ervianto, Edy .
INAJEEE (Indonesian Journal of Electrical and Electronics Engineering) Vol 1, No 1 (2018)
Publisher : Jurusan Teknik Elektro Fakultas Teknik UNESA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26740/inajeee.v1n1.p31-37

Abstract

Abstrak – Umumnya, PLN pemasok utama energi listrik di Indonesia. Gangguan sumber PLN, bisa terjadi kapan saja dan mengakibatkan terjadinya pemadaman pada pelanggan. Untuk kelancaran aktivitas manusia, energi listrik sumber utama diharapkan tersedia terus menerus. Jadi, catu daya utama harus dilengkapi energi listrik alternatif berupa Genset. Tujuan penelitian untuk menganalisa pengendalian ATS Beban Kategori-2E Pada Puskesmas Rawat Inap, dengan mengontrol perpindahan saklar berbasis mikrokontroller ATMega16. Berdasarkan PUIL-2000, waktu pemadaman yang diizinkan pada Kategori-2E sebesar <0,5detik. Hal tersebut diatasi dengan penggunaan UPS karena UPS selalu dalam posisi siaga. Prioritas utama sumber daya listrik penelitian adalah PLN dan prioritas kedua adalah Genset. Parameter PLN dan Genset adalah tegangan (209Volt-231Volt). Saat tegangan PLN memenuhi maka beban disuplai PLN. Ketika PLN padam (tegangan PLN tidak memenuhi), maka ATS mengecek kondisi Genset. Jika tegangan Genset memenuhi, beban disuplai Genset. Jika Genset mati maka dilakukan starting Genset otomatis. Beban disuplai UPS sampai Genset menyala dan tegangan Genset memenuhi untuk mensuplai beban kembali. ATS berhasil melakukan perpindahan saklar ketika parameter sumber prioritas utama tidak memenuhi. ATS juga berhasil melakukan starting Genset secara otomatis ketika PLN tiba-tiba padam dalam waktu 6,07detik. Waktu perpindahan beban rata-rata 2ms(UPS-PLN/Genset) dan 16,3ms(PLN/Genset-UPS), lebih kecil dari penetapan PUIL. Penelitian ini telah bekerja seperti yang diharapkan.Kata Kunci : ATS, Sumber Listrik, Genset, PLN, UPS
ANALISIS PENGENDALIAN ATS UNTUK BEBAN KATEGORI 2E PADA PUSKESMAS RAWAT INAP BERBASIS ATMEGA16 Marpaung, Noveri Lysbetti; Ervianto, Edy .
INAJEEE (Indonesian Journal of Electrical and Electronics Engineering) Vol 1, No 1 (2018)
Publisher : Jurusan Teknik Elektro Fakultas Teknik UNESA

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Abstrak – Umumnya, PLN pemasok utama energi listrik di Indonesia. Gangguan sumber PLN, bisa terjadi kapan saja dan mengakibatkan terjadinya pemadaman pada pelanggan. Untuk kelancaran aktivitas manusia, energi listrik sumber utama diharapkan tersedia terus menerus. Jadi, catu daya utama harus dilengkapi energi listrik alternatif berupa Genset. Tujuan penelitian untuk menganalisa pengendalian ATS Beban Kategori-2E Pada Puskesmas Rawat Inap, dengan mengontrol perpindahan saklar berbasis mikrokontroller ATMega16. Berdasarkan PUIL-2000, waktu pemadaman yang diizinkan pada Kategori-2E sebesar <0,5detik. Hal tersebut diatasi dengan penggunaan UPS karena UPS selalu dalam posisi siaga. Prioritas utama sumber daya listrik penelitian adalah PLN dan prioritas kedua adalah Genset. Parameter PLN dan Genset adalah tegangan (209Volt-231Volt). Saat tegangan PLN memenuhi maka beban disuplai PLN. Ketika PLN padam (tegangan PLN tidak memenuhi), maka ATS mengecek kondisi Genset. Jika tegangan Genset memenuhi, beban disuplai Genset. Jika Genset mati maka dilakukan starting Genset otomatis. Beban disuplai UPS sampai Genset menyala dan tegangan Genset memenuhi untuk mensuplai beban kembali. ATS berhasil melakukan perpindahan saklar ketika parameter sumber prioritas utama tidak memenuhi. ATS juga berhasil melakukan starting Genset secara otomatis ketika PLN tiba-tiba padam dalam waktu 6,07detik. Waktu perpindahan beban rata-rata 2ms(UPS-PLN/Genset) dan 16,3ms(PLN/Genset-UPS), lebih kecil dari penetapan PUIL. Penelitian ini telah bekerja seperti yang diharapkan.Kata Kunci : ATS, Sumber Listrik, Genset, PLN, UPS
Analisis Penggunaan Reaktor Pembatas Arus Sebagai Pembatas Arus Hubung Singkat Di PT Pulp And Paper Shalih, Khairus; Sukma, Dian Yayan; Ervianto, Edy
Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains Vol 2, No 2 (2015): Wisuda Oktober Tahun 2015
Publisher : Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains

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Abstract

To keep stability in power supply distribution, PT. Pulp and Paper used loop distribution system in their main substation. This thing caused possibilty of short-circuit current may exceed circuit breaker’s capability. So we need to limiting that short-circuit current not exceed capability of existing circuit breaker. Short-circuit calculation will be done in main substationbus. With keeping possibilty of short-circuit current in secure level, so possibility of shortcircuit current that will happened in load bus will not exceed circuit breaker’s capability. Fromthe calculation of 3 phase short-circuit current IEC 60909 standard using ETAP Power Station 11, noted that 3 phase short-circuit making current at AC 4, AC 11, and AC 15 substation stillexceed circuit breaker’s capabilty . With added current limiting reactors at outgoing TC 40, TC 11, and TC 15 transformer with value of the reaktans eachone 0.37779 ohm, 0.13203 ohm,and 0.21701 ohm, the short-circuit making current at AC 4 substation decrease from 73.014 kA to 62.734 kA, at AC 11 substation decrease from 67.407 kA to 62.421 kA, and at AC 15substation decrease from 70.930 kA to 62.731 kA. Where the lowest voltage at load bus is 19.263 volt.Keywords: short-circuit, current limiting reactor, ETAP 11
Pemodelan Relai Diferensial Transformator Daya Gusmelyana, Reska Anna; Ervianto, Edy
Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains Vol 8 (2021): Edisi 2 Juli s/d Desember 2021
Publisher : Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains

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Abstract

The protection system identifies the disturbance that occurs and separates the affected part of the disorder from other parts that are working normally. The main protection equipment of the power transformer is a differential relay that works with the current balance method that is in accordance with the law of kirchoff current that is, the current that goes equal to the current leaving the branch point. The method used in this study is the collection of secondary data at Garuda Sakti Substation, as well as doing modeling and simulation with ETAP 16.0 software. From the simulation obtained the result that differential relay is inactive when there is an external interference in transformer 1 and transformer 3 due to differential relay work selectively. At the time of internal disturbance in transformer 1, Relay 1 at 2.0 ms feels the disturbance and works. The disruption resulted in relay 9 sending trip signals on CB1 and CB2 at 40 ms. At 42 ms CB1 and CB2 were active to disconnect the network. At the time of internal interference in transformer 3, then at 1.0 ms relay feels the disturbance so that the relay sends a trip signal on CB5 and CB6 at 40 ms. At 41 ms CB1 and CB2 time is active by sending trip signals to CB.Keywords : Protection System, Power Transformer, Differential Relay
Rancang Bangun Pengendali Sistem Pompa Otomatis Pada Penyiraman Tanaman Berbasis Sensor Kelembaban dengan Kendali Arduino Antonius Rajagukguk; Joel Fernando Simamora; Edy Ervianto
PROtek : Jurnal Ilmiah Teknik Elektro Vol 8, No 2 (2021): 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.v8i2.3122

Abstract

Along with technological advances in modern times, and the development of science, human needs are also growing. In order to facilitate human work, many technologies have been created using automatic systems. One of them is in the case of automatic plant watering for farmers or garden owners. For this reason, the authors carried out a design of automatic plant sprinklers based on the YL-38 type soil moisture sensor which will be controlled by Arduino. Which later will send a duty cycle to the buck converter to change the voltage automatically according to soil conditions which have been grouped into four parts, namely very dry, dry, humid, and wet. Changes in voltage will affect the rotational speed of the motor according to the needs of the ground. With real time watering, the RTC DS1302 type is used so that this watering will be more scheduled. This watering uses a supply from a 12 volt DC battery with a 12 volt water pump motor load.
Perhitungan Rugi Daya Saluran Distribusi Primer 20 kV Feeder Adi Sucipto di GI Garuda Sakti Dengan Metode Ladder Iterative Technique Ardi Syaputra; Edy Ervianto
Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains Vol 4, No 1 (2017): Wisuda Februari Tahun 2017
Publisher : Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains

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Abstract

The Imbalance loads of distribution channel in a power system always happened, and the imbalance caused by the presence of conductive permanent resistance. Good conductor should not have resistance, but in reality every object has a resistance to electricity. Therefore it is necessary for the calculation of the power losses generated by the conductor. In this research power loss calculations made on the primary distribution system, namely when the system load. Total power loss that has generated in this study are at 791,995.227 Watt and the percentage of power loss to the average load is equal to 10.345%.Keywords : Loss of power, The Imbalance Load, the primary distribution system
Kajian Perancangan Sistem Penangkal Petir Eksternal Pada Gedung Pusat Komputer Universitas Riau Ujang Mulyadi; Edy Ervianto; Eddy Hamdani
Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains Vol 1, No 2 (2014): Wisuda Oktober Tahun 2014
Publisher : Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains

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Abstract

Pekanbaru City is a city located in an area that has a large enough lightning density is equal to 136 days per year with thunder, lightning strikes the ground density (Ng) reached 19.5128 strike/km2/year. Computer Center Building University of Riau is the center of Riau University data, built with a size of 47 m x 21 m x 12.4 m. In the design of the external lightning protection on buildings, there are some technical requirements that need to be considered such as; identifying the needs of a lightning protection system based PUIPP, determining the level of protection lightning protection system based on IEC 1024-1-1, finial selection, determination down conductor and grounding system. From the analysis of hazard assessment, which is an interesting area of 10395.41 m² lightning strike, the possibility of building struck by lightning strikes per year with 0,203 lightning protection system efficiency 0.507. Based on data and analysis can then be described in the protected areas of the Computer Center building good front, side, rear and top. The results obtained showed that the Computer Center building has a poor level of efficiency is based on the analysis of the rolling sphere method. Keywords : external lightning protection system
Identifikasi Kegagalan Peralatan Proteksi Pada Jaringan Distribusi PT. Pln Gardu Induk Garuda Sakti Menggunakan Anfis (Adaptive Neural Fuzzy Inference System) Devi Juliana; Eddy Hamdani; Edy Ervianto
Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains Vol 2, No 2 (2015): Wisuda Oktober Tahun 2015
Publisher : Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains

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Abstract

The purpose of research is to identification process of faulty protection devices using operating status of circuit breaker. Technique used for the identification process is Adaptive Neuro-Fuzzy Inference System (ANFIS). ANFIS is a method that combines fuzzy logic and neural network. Design ANFIS needs input data in form of voltage, current and operating status of circuit breaker (1 and 0) for training process. Input data produces by output of distribution system simulation in ETAP, meanwhile operating status of circuit breakers in binary numbers, one and zeros are interpreted as operating and non-operating devices, respectively. The training result gives worth accuracy so that can be use for predicting operating status of circuit breaker. If faulty device has been identified so system restoration can be done immediately.Keywords: ANFIS; distribution system; faulty protection devices; circuit breaker
Perbandingan Metode Protective Angle Dan Metode Rolling Sphere Pada Proteksi Tegangan Lebih Saluran Distribusi 13,8 KV PT. Chevron Pacivic Indonesia Fadil Pradipta; Dian Yayan Sukma; Edy Ervianto
Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains Vol 2, No 2 (2015): Wisuda Oktober Tahun 2015
Publisher : Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains

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Abstract

South Bekasap Area PT. Chevron Pacivic Indonesia was an area that has flash density reach at 1,970 flash/km2/year with IKL level at 136 thunder days per year. The amount of lightning current that strikes phase wires can be minimized by using a ground wire. this is done by adjusting the angle between the ground wire to phase wire to form a region that free from lightning strikes called protected region. In the analysis of protected region, first we must determined the level of lightning protective system needs base on standart that used in Indonesia, called SNI-03-7015-2004. From the analysis of hazard assesment, it was found the level of lightning protection needs at level I with striking distance at 20 meter. Based on data and analysis, then it is known that the distribution line 13,8 kV So.Bekasap has level protection system that is less good. In protective angle method calculations, the single poles (type A, B, and C) have protection region at 33o and double poles (type SAA, SBB, and SCC) at 26o. While based on rolling sphere method, the single poles (type A, B, and C) have protection region at 13o and double poles with double ground wires (type SAA, SBB, and SCC) at 27o.Keywords: protected region, protection system, protective angle method, rolling sphere method.
Pengaruh Sambaran Petir Terhadap Sistem Proteksi Pada Peralatan Telekomunikasi PT. Telkom Pekanbaru Muhammad Ibrahim; Edy Ervianto; Firdaus Firdaus
Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains Vol 2, No 2 (2015): Wisuda Oktober Tahun 2015
Publisher : Jurnal Online Mahasiswa (JOM) Bidang Teknik dan Sains

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Abstract

The tower BTS (Base Transceiver Station) is a high tower that is susceptible to lightning strikes. If a BTS tower was struck by lightning directly, then it would occur a more currents that flows on the system derived from the lightning surges, the lightning surge will distributed to a those channels made of metallic material with system connected to a telecommunication equipment through bonding bar. To protect the power lines from damage due to overcurrent the resulting by lightning strikes, then install the cutting tool, namely voltage surge arresters, in this case arresters used are metal oxide arrester varistor (MOV). In this research conducted to determine the arrester surge current capacity of required on the power channel that is connected to the arresters on theequipment telekomunikasis by simulation Alternative Transient Electromagnetic transients Program-Program (ATP-EMTP).Keywords : tower BTS, surge current, arrester MOV, ATP-EMTP
Co-Authors Abdi, Reynaldi Putra Abdul Hadi Abdul Jawad Abu Yazid Raisal Afrian, Noza Ainur Rohmah Akto Sello Ali, Nurhalim Dani Amirul Latief Azzmi Antonius Rajagukguk Antonius Rajagukguk Antonius Rajagukguk, Antonius Ardi Syaputra Azriyenni Azhari Zakri Dani Ali, Nurhalim Daniati, Septania Dedy Nurahmadin Demiza, Khosfikra Devi Juliana Dian Yayan Sukma, Dian Yayan Dicky Novriandi Dika, Rian Donald Alfredo S, Donald Alfredo Dwi Nur Indah Sari, Dwi Nur Indah Edo Satrio Noviando Ery Safrianti Evi Sulastri Fadil Pradipta Fahma Putri Fahmi, Ziddan Fakhriyah, Salsabila Febrizal Ujang Fera Gustia Handayani Feranita Feranita Feranita Feranita Feranita Ferdian, Fhinta Syahila Ferry M Firdaus Firdaus Firdaus Firdaus Gukguk, Antonius Raja Gusmelyana, Reska Anna Hamdani, Eddy Harefa, Linwan Abadi Hassan, Rohana Hendra Hidayat I Gusti Bagus Wiksuana Ibrahim, Sajid Illahi, Hayatul Indra Yasri Irawan, Muhamad Angga Jaufia, Syakira Aqra Jefri Manik Joel Fernando Simamora Julen Kartoni S, Julen Kartoni Kartika, Nursiti Sari Kezia, Deswita Kusuma, Natasya Indra Linwan Abadi Harefa Liska Diana Lusi Novia Werdian Mahindra, Syaputra Dwi Manfaah, Siti Nur Manurung, David Pratama Manurung, Diva Cholis Mardhatillah, M Faridh Marpaung, Noveri Marsaulina Marpaung Muhammad Ibrahim Muhammad, Satyo Mukminin, Silakhul Mulya Feri Ningsih, Septia Warda Noveri Lisbetty M Noveri Lisbetty Marpaung Noveri Lysbetti M Novri Andrean Novriandi, Dicky Nurhalim Nurhalim , Nurhalim Nurhalim Dani Ali Nurhalim Nurhalim Nurhalim Nurhalim, Nurhalim Nurul Whusto Purnomo, Karin Dwi Putra, Dandi Kelana Putri, Anjelina Ifelia Putri, Elvina Putri, Utari Cahyani Rahmadhani, Citra Rahyul Amri Ramadhan, Roza Syahputra Raudah, Aulia Rizky Johari Rosiki, Muhammad Habib Rosma, Iswadi Hasyim Sakti Hutabarat Satria, Alvon Shalih, Khairus Siagian , Ruben Cornelius Sianturi, Gabe Daniel Simamora, Joel Fernando Simamora, Seltia Ledi Sara Simanjuntak, Anwar Ribert Siregar, Vivi Devina Sitanggang, Van Den Bosh Solly Aryza Suci Ramadhani, Suci Sultoni Amni Surya Putra Suwitno Suwitno Suwitno, Suwitno Tampubolon, Cindy Artha Ully Ujang Mulyadi Valendino, Muhammad Wahyu Zarniadi Yellyna Sari Agus Yogie Novriandi Yolla Yaumil Rizki Yudi Adriko Putra Zainuddin Zainuddin