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Analisa Perhitungan untuk Pemasangan Sistem Pembangkit Listrik Tenaga Surya untuk Solar Home System Suprianto Suprianto
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Publisher : RELE (Rekayasa Elektrikal dan Energi) : Jurnal Teknik Elektro

Abstrak Pemasangan sistem pembangkit listrik tenaga surya (PLTS) untuk kebutuhan listrik solar home system (SHS) sering tidak efektif karena mungkin tidak menggunakan perhitungan yang teliti. bagaimana efektifitas dan efisiensi sistem PLTS untuk menjaga kontinuitas pelayanan daya dan optimalisasi pemilihan peralatan sering tidak diperhitungkan dengan detail dan teliti. Penelitian ini bertujuan untuk mendapatkan desain PLTS untuk SHS secara efektif dengan cara menganalisa dengan menggunakan perhitungan. Hasil analisa perhitungan tersebut di implementasikan pada pembuatan PLTS yang sesungguhnya. Metode yang digunakan pada penelitian ini adalah metode analisa perhitungan yang mempertimbangkan aspek efisisensi setiap peralatan pada sistem. Penelitian ini menunjukkan bahwa sistem PLTS yang realisasikan sesuai hasil perhitungan dan performancenya sesuai yang diharapkan. untuk melayani beban dengan daya terpasang 308 watt untuk beban listrik khusus lampu penerangan mampu dilayani oleh sistem PLTS dengan modul surya 1600 Wp, baterai 350 Ah 24 Volt, SCC 24 volt 60 Ampere dan inverter 1000 watt dengan kontinuitas pelayanan beban secara umum dapat terjaga dengan asumsi kondisi cuaca yang fluktuatif. Penambahan jumlah modul surya sebanyak dua kali lipat dari jumlah modul surya hasil perhitungan akan menyebabkan proses pengisian baterai pada waktu tengah hari sudah mencapai level penuh. Penelitian ini diharapkan dapat menjadi referensi untuk perhitungan dalam pemasangan PLTS untuk SHS secara efektif dan efisien.Kata kunci : efisiensi, modul surya, baterai, scc, inverter.AbstractThe installation of a solar power system for the electricity needs of a solar home system (SHS) is often ineffective because it may not use careful calculations. how the effectiveness and efficiency of the solar power system to maintain continuity of power service and optimizing equipment selection is often not taken into account in detail and thoroughly. This research aims to get the design of the solar power system for SHS effectively by analyzing it using calculations. The results of the calculation analysis are implemented in the actual manufacture for the solar power system. The method used in this research is a calculation analysis method that considers the efficiency aspect of each equipment in the system. This research shows that the realized solar power system is in accordance with the calculation results and its performance is as expected. To serve loads with an installed power of 308 watts for special electrical loads in the form of lighting lamps can be served by a solar power system with a 1600 Wp solar module, 350 Ah 24 Volt battery, SCC 24 volt 60 Ampere and a 1000 watt inverter with continuity of service loads in general can be maintained by Assuming fluctuating weather conditions. The addition of the number of solar modules as much as twice the number of solar modules calculated will cause the battery charging process at midday to reach its full level. This research is expected to be a reference for calculations in the installation of a solar power system for SHS effectively and efficiently. Keywords : efficiency, solar module, battery, scc, inverter.

IMPLEMENTASI REAL TIME CLOCK UNTUK PENGATURAN PELAYANAN DAYA OLEH PEMBANGKIT LISTRIK TENAGA SURYA Muhammad Fadlan Siregar; Suprianto Suprianto
Jurnal Mantik Penusa Vol. 3 No. 3 (19): COmputer Science
Publisher : Lembaga Penelitian dan Pengabdian (LPPM) STMIK Pelita Nusantara Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (355.039 KB)

the implementation of real time clock (RTC) for the regulation of power services by PLTS aims to design the scheduling of power service systems by PLTS using Arduino and RTC so that power services can be optimized while at the same time making savings in electricity bills. The method used is an experimental method that is designing a power service system using Arduino and RTC to get good design results. The equipment used is solar panels, inverters, Arduino, RTC and batteries. The results showed that the implementation of the RTC for the regulation of PLTS power services starts at 17:00 WIB until 05:01 WIB or for 12 hours can serve household electricity needs of 1.887 Kwh, Voltage at 24 volt 100 Ah battery terminals for 12 hours loading down by 1.6 volts from the initial battery voltage of 25.1 volts to the final service voltage of 23.5 volts. Implementation of the RTC for the regulation of PLTS power services starting at 17:00 WIB until 05:01 WIB can save electricity consumption of PLN abouth Rp. 75,928.- per month assuming the electricity price of PLN is Rp. 1352 / Kwh.

SISTEM PROTEKSI TEMPERATUR LEBIH PADA INVERTER PEMBANGKIT LISTRIK TENAGA SURYA MENGGUNAKAN ARDUINO Febrin Aulia Batubara; Suprianto Suprianto
Jurnal Mantik Penusa Vol. 3 No. 3 (19): COmputer Science
Publisher : Lembaga Penelitian dan Pengabdian (LPPM) STMIK Pelita Nusantara Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (339.472 KB)

The excess temperature in the inverter will cause a decrease in efficiency. The research of over temperature protection systems on solar power generation inverters using Arduino aims to design an over temperature protection system on PLTS inverters using Arduino so that there is no reduction in efficiency and prevents the inverter components from damage due to heating. The method used is an experimental method that is designing an over temperature protection system on the inverter to get good design results. The equipment used is solar panels, inverters, fan motors, L298N drivers, Arduino and batteries. The results showed that the over temperature protection system equipment on the PLTS inverter using Arduino was able to protect the over heating in the inverter, especially to increase the load from 272 watts to 532 watts with an increase in temperature of only 0.1 0C. For the use of an inverter for a long time, the temperature inside the inverter in the previous state greatly affects the temperature inside the inverter in the next state so that the temperature decrease along with the linear load decrease is difficult to achieve, especially at 630 watts with an inverter temperature of 37.6 0C, some time after that a decrease in load occurs until the load becomes 105 watts but the temperature value in the inverter has a value greater than the 630 watts loading that is equal to 37.9 0C

Body Temperature Monitoring System For Covid-19 Prevention Using Amg8833 Thermal Sensor Based On Internet Of Things Muhammad Rusdi; Suprianto; Fitria Nova Hulu
Jurnal Mantik Vol. 5 No. 2 (2021): Augustus: Manajemen, Teknologi Informatika dan Komunikasi (Mantik)
Publisher : Institute of Computer Science (IOCS)

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The spread of the Covid-19 virus which continues to grow and is worrying to date with its increasing number of victims, encourages the Government to continue to take measures to prevent the spread of the Corona virus. One of the government's efforts to prevent COVID-19 is to monitor the health condition of the human body. One of them is detecting the human body temperature, because body temperature with a temperature above a certain limit is one of the symptoms of covid-19. The normal human body temperature ranges from 36 degrees to 37 degrees. However, for the current situation related to the corona virus pandemic, temperatures above 37 degrees have become temperatures that must be watched out for. This study aims to make a prototype of a body temperature monitoring system for the prevention of Covid-19 based on Internet of Things (IoT) The prototype designed uses an AMG8833 thermal sensor which will measure a person's body temperature with infrared which can identify a person's health through his body heat and also uses an ultrasonic sensor to measure a person's distance with the thermal sensor. The results of body temperature monitoring can be accessed on the cellphone through the blink application. From the results of the discussion, it was found that the body temperature monitoring system for the prevention of Covid-19 using AMG8833 thermal sensor the based on IoT was successfully designed and implemented in a prototype form. AMG 8833 thermal sensor works well in measuring human body temperature up to a distance of 20 with an average error of 1.18%. The level of accuracy of the body temperature monitoring system using the AMG 8833 thermal sensor is 98.82%.

PKM di Sekolah Menengah Kejuruan Dr.Cipto Mongun Kusumo Kelurahan Perdagangan I Kecamatan Bandar Kabupaten Simalungun Provinsi Sumatera Utara Suprianto; Ahmad Sumantri; Muhammad Rusdi; Muhammad Fadlan Siregar; Imam Rangga Bakti; Yola Permata Bunda
Mejuajua: Jurnal Pengabdian pada Masyarakat Vol. 1 No. 2 (2021): Desember 2021
Publisher : Yayasan Penelitian dan Inovasi Sumatera (YPIS)

Program Pengabdian Kemitraan Masyarakat yang dilaksanankan di Sekolah Menengah Kejuruan Dr.Cipto Mangun Kusumo merupakan bagian dari kegiatan rutin pengabdian masyarakat Politeknik Negeri Medan. Tujuan dilaksanakan pengabdian adalah untuk memberikan sumbangan dalam bentuk peralatan berupa Lcd proyektor dan pelatihan kepada guru-guru sekolah Dr.Cipto Mangun Kusumo tentang cara pembuatan video pembelajaran menggunakan bandi cam yang dikombinasikan dengan power point dan penggunaan aplikasi meeting google meet dan zoom. Target khusus yang ingin dicapai adalah para guru dapat membuat video pembelajaran sederhana dan dapat menggunakan aplikasi meeting menggunakan google meet dan zoom baik sebagai host maupun partisipan dan diharapkan setelah pelatihan para guru yang mengikuti pelatihan dapat membagikan ilmunya kepada para guru lainnya atau rekan sejawat yang tidak mengikuti pelatihan. Metode yang akan digunakan untuk mencapai tujuan tersebut adalah metode tatap muka terbatas yang selalu menerapkan protokol kesehatan sekaligus metode penugasan kepada peserta pelatihan. Kegiatan yang dilakukan adalah memberikan materi pelatihan sesuai dengan buku panduan yang dibuat sebelumnya oleh tim pengabdian dan mempraktekannya langsung terhadap sesama peserta pelatihan. Kegiatan berlangsung selama satu hari pada tanggal 3 Desember 2021 yang diikuti oleh 18 guru. Dari hasil pengamatan kegiatan dan wawancara kepada guru diperoleh kesimpulan bahwa terbatasnya jumlah Lcd Proyektor untuk kebutuhan proses belajar mengajar membuat para guru enggan mempersiapkan materi pembelajaran dalam bentuk video pembelajaran yang inovatif, dan penggunaan aplikasi meeting menggunakan google meet lebih diminati oleh guru karena aplikasi tersebut gratis dan mudah digunakan serta durasi meeting tidak dibatasi. Sedangkan penggunaan video pembelajaran menggunakan bandicam baik digunakan dalam pembelajaran luring dan daring, untuk pembelajaran luring dengan pertemuan tatap muka terbatas maka video pembelajaran menggunakan bandicam menjadikan proses belajar mengajar lebih efektif karena guru hanya menjelaskan ulang hal-hal penting dan yang menjadi pertanyaan peserta didik sehingga waktu yang digunakan cukup efektif dan peserta didik mempunyai dokumen file rekaman guru ketika menerangkan materi pembelajaran

Kinerja Pembangkit Listrik Tenaga Surya Terhadap Pemakaian Beban Suprianto Suprianto
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Publisher : RELE (Rekayasa Elektrikal dan Energi) : Jurnal Teknik Elektro

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30596/rele.v5i2.13092

Abstrak Perancangan sistem pembangkit listrik tenaga surya (PLTS) untuk pelayanan kebutuhan listrik lampu penerangan pada siang hari senantiasa dirancang dengan mempertimbangkan kebutuhan penggunaan baterai yang sampai saat ini merupakan bagian yang paling mahal dalam sistem panel surya. Bagaimana pemanfaatan panel surya untuk melayani beban lampu penerangan pada siang hari didalam gedung yang membutuhkan pencahayaan yang cukup merupakan hal yang harus dapat dianalisa secara ilmiah tentunya dengan analisa yang tepat. Penelitian ini bertujuan untuk mengetahui kinerja PLTS secara efektif terhadap pemakaian beban lampu penerangan pada siang hari. Hasil analisa perhitungan dalam penelitian ini nantinya dapat diaplikasikan pada peralatan sistem panel surya yang sebenarnya. Metode pada penelitian ini adalah metode eksperimen yang menggunakan hasil pengukuran besaran listrik, suhu dan intensitas matahari yang dilaksanakan selama tiga hari mulai pukul 08.00 Wib hingga 18.00 Wib setiap 10 menit sekali atau dengan total pengukuran sebanyak 1464 pengukuran. Hasil dari penelitian ini dengan data yang diambil selama tiga hari melalui pengukuran menunjukkan bahwa untuk PLTS 1600 Wp dengan menggunakan baterai 350 Ah 24 Volt mampu melayani beban dari pukul 08.00 Wib hingga 18.00 Wib atau selama 10 jam pembebanan penuh dengan jenis pembebanan berupa lampu penerangan dengan jumlah 21 unit dengan daya total 308 watt. Penurunan rata-rata tegangan baterai hanya 0,2 volt dari 23 volt pada pukul 08.00 wib turun menjadi 22,8 volt pada pukul 18.00 wib. Pemanfaatan baterai untuk pembebanan lampu penerangan pada siang hari hanya terjadi ketika pagi hari hingga pukul 8.30 wib, sedangkan pada sore hari pembebanan oleh baterai mulai pukul 16.00 wib. Penelitian ini diharapkan dapat menjadi bahan referensi bagi peneliti lain khususnya dalam penentuan kapasitas panel surya yang digunakan untuk pembebanan secara langsung pada siang hari.Kata kunci : Kinerja, Kapasitas, Panel Surya, Baterai, BebanAbstract - The design of a solar power generation system for servicing the electricity needs of lighting lamps during the day is always designed by considering the need to use batteries, which until now are the most expensive part of a solar panel system. How to use solar panels to serve the load of lighting during the day in buildings that require sufficient lighting is something that must be analyzed scientifically, of course with the right analysis. This research aims to determine the effective performance of PLTS against the use of lighting loads during the day. The results of the calculation analysis in this research can later be applied to actual solar panel system equipment. The method in this research is an experimental method that uses the results of measuring the amount of electricity, temperature and intensity of the sun carried out for three days from 08.00 WIB to 18.00 WIB every 10 minutes or with a total of 1464 measurements. The results of this research with data taken for three days through measurements show that a 1600 Wp PLTS using a 350 Ah 24 Volt battery is capable of serving the load from 08.00 WIB to 18.00 WIB or for 10 hours of full loading with the type of loading in the form of lighting with the number of 21 units with a total power of 308 watts. The average decrease in battery voltage is only 0.2 volts from 23 volts at 08.00 WIB, down to 22.8 volts at 18.00 WIB. The use of batteries for loading lighting during the day only occurs in the morning un til 8.30 WIB, while in the afternoon the charging by the battery starts at 16.00 WIB. This research is expected to be a reference for other researchers, especially in determining the capacity of solar panels used for direct loading during the day.Keywords : Performance, Capacity, Solar Panel, Battery, Load

Internet of things to controlling building electrical equipment Muhammad Adam; Roslina; Suprianto; Mardiana
Jurnal Mantik Vol. 6 No. 4 (2023): February: Manajemen, Teknologi Informatika dan Komunikasi (Mantik)
Publisher : Institute of Computer Science (IOCS)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35335/mantik.v6i4.3432

The use of electrical energy that is not used as needed will lead to wastage of electrical energy. Research on the application of the Internet of Things for controlling electrical equipment specifically for the electric load of lighting lamps on the first floor of Building C, the Department of Electrical Engineering, Medan State Polytechnic aims to implement an IoT system for controlling electric lighting with scheduling mode, remote control mode via internet network and light sensor mode. Thus controlling electrical equipment, in this case lighting, can be done easily through automation of the IoT system at any time and anywhere. The specific target to be achieved in this research is implementing an IoT system for controlling lighting electrical equipment in scheduling mode, remote control mode via the internet network and light sensor mode. The method used in this research is the experimental method, which collects data from observations and designs, which is then tested. The research output target is applied vocational products that are implemented in the Department of Electrical Engineering, Medan State Polytechnic. the equipment used is PZEM 004T Sensor, Photocell, RTC DS 3231, NodeMCu ESP 8266, Triac BT 136, MOC3021 Triac Driven Optoisolator, Contactor, Relay, Photocell, CT and other supporting equipment

The The rooftop solar power plant of electrical engineering department of medan state polytechnic with the internet of things Suprianto; Afritha Amelia; Cholish; Abdullah
Jurnal Mantik Vol. 6 No. 4 (2023): February: Manajemen, Teknologi Informatika dan Komunikasi (Mantik)
Publisher : Institute of Computer Science (IOCS)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35335/mantik.v6i4.3491

The use of renewable energy for electricity generation in Indonesia and the world continues to increase because it is environmentally friendly and does not depend on fossil fuels. Research on rooftop solar power plants at the Medan State Polytechnic Building, Department of Electrical Engineering with internet of things aims to implement rooftop solar power plants and determine the performance of rooftop solar power plants in serving electrical loads by controlling electrical loads using the Internet of things. The contribution of this research provides an academic reference for the effective design of a rooftop solar power plant electrical system and savings on electricity bills, especially in the Electrical Engineering Department of the Medan State Polytechnic. The method used in this study is an experimental method, namely collecting data from measurement results, then conducting studies and analysis. The equipment used is NodeMCU ESP 8266, 3300wp photovoltaic module, PZEM 004T sensor, Triac BT 136, inverter, RTC DS 3231, contactor, electricity meter, temperature and light intensity meter, battery system, control panel and other supporting equipment. the internet of things as a load controller from a solar power plant can effectively contribute to saving electricity consumption because reluctance to turn off lights that are not used doesn't make sense because they can be controlled remotely or in close proximity practically using a cellphone via the blynk application. Full load is applied to the solar power plant by activating the four lighting load group buttons on the Blynk IoT app. The average battery voltage at loading is 51.6 volts from a normal battery voltage of 48 volts with the lowest battery voltage of 48.5 volts and the highest battery voltage of 54.31 volts. This rooftop solar power plant in Building C of the Medan State Polytechnic is capable of serving a load of 685 watts for a fixed load that is installed for 11 hours of loading.

Knowledge Improvement through Smartphone Utilization in the Remote Control System Module of Electronic Equipment at SMKS Muhammadiyah 9 Medan Abdullah; Maharani Putri; Moh. Zainul Haq; Arridina Susan Silitonga; Cholish; Suprianto; Nooritawati Md Tahir; Abdul Rahim Bin Ridzuan; Pius Fernando Hutauruk; Priansus Rhein Rumahorbo
ABDI SABHA (Jurnal Pengabdian kepada Masyarakat) Vol. 4 No. 3 (2023): Oktober
Publisher : CERED Indonesia Publishing

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53695/jas.v4i3.971

Control technology is currently growing rapidly, one of the utilization of control technology that is currently experiencing rapid development is control of smart homes and automation systems coupled with rapid advances in the field of the Internet of Things, so that control technology becomes a remote control concept that is widely applied. Thematic Community Service Collaboration (TCSC) activity is a series of community service activities intended for the downstreaming of research products of Medan State Polytechnic lecturers in collaboration with Universiti Teknologi MARA (Malaysia) lecturers that can be utilized by the community (partner), namely SMKS Muhammadiyah 9 Medan aims to provide training from modules / trainers that have been specially designed consisting of several electronic equipment that has been equipped with wireless communication so that students can control electronic equipment remotely only through an application from a Smartphone without having to make direct contact like using a mechanical switch in general. The method used in this service is the lecture method followed by the discussion and question and answer method followed by the module / trainer demonstration method and how it works and the direct interaction method, namely students can try or practice directly, so that this training increases students' knowledge, skills and creativity towards the development of remote control technology in the future.

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