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All Journal Jambura Journal of Electrical and Electronics Engineering JURNAL UMBANUA Jurnal Pengabdian pada Masyarakat Seminar Nasional Produk Terapan Unggulan Vokasi Cerdika: Jurnal Ilmiah Indonesia Recent in Engineering Science and Technology
Tuwongkesong, Samsu
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PERANCANGAN DAN PEMASANGAN INSTALASI LISTRIK PENERANGAN DI GEREJA BAPTIS PENGHARAPAN CABANG TOMOHON Sawidin, Sukandar; Patabo, Muchdar Dg; Tuwongkesong, Samsu; Loegimin, Maruto S; Noya, Donald B.
JURNAL UMBANUA Vol 4 No 1 (2024): JURNAL UMBANUA POLITEKNIK NEGERI MANADO
Publisher : Pusat Penelitian dan Pengabdian Kepada Masyarakat Politeknik Negeri Manado

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Abstract

Jemaat Gereja Babtis Pengharapan Cabang Tomohon sedang membangun Gereja Baptis Pengharan Cabang Tomohon yang berlokasi di Woloan II Desa Lansot Kecamatan Tomohon Selatan Kota Tomohon. Untuk beribadah masih menggunakan rumah semi permanen yang belum ada instalasi listriknya. Sehingga apabila ada kegiatan ibadah di malam hari masih menyambung instalasi Listrik tetangga atau menggunakan lampu charge. Berdasarkan hal tersebut dengan adanya Kegiatan program Pengabdian Pada Masyarakat- Mahasiswa (PPM-M) ini akan dilakukan perancangan dan pemasangan instalasi Listrik di tempat ibadah Gereja Baptis Pengharapan dengan tujuan menggunakan salah satu model pembelajaran Project Based Learning kepada mahasiswa Teknik Listrik Prodi D-III Jurusan Teknik Elektro Politeknik Negeri Manado. Dengan mentransformasi konsep pembelajaran Project Based Learning (PBL) merupakan paradigma baru model pembelajaran yang berbasis proyek riil untuk memastikan soft skills dan hard skills, serta karakter kuat para mahasiswa. Sehingga dapat meningkatkan kemampuan akademik mahasiswa dan memberikan peluang pada system pembelajaran yang berpusat pada mahasiswa lebih kolaboratif, serta terlibat secara aktif dalam menyelesaikan proyek- proyek secara mandiri dan dapat bekerjasama secara tim. Ini akan membantu mahasiswa menyesuaikan diri dengan lingkungan kerjanya kelak. Hasil yang diperoleh dari kegiatan ini dapat merancang dan memasang instalasi Listrik untuk penerangan di Geraja Babtis Pengharapan sebanyak 10 titik lanpu dan 4 titik stop kontak.
SISTEM KONTROL LAMPU RUANGAN MENGGUNAKAN IOT ARDUINO CLOUD Patabo, Muchdar Dg; Tuwongkesong, Samsu; Waroh, Anthoinete P.Y; Sawidin, Sukandar
Prosiding Seminar Nasional Produk Terapan Unggulan Vokasi Vol 1 No 1 (2024): Prosiding Seminar Nasional Produk Terapan Unggulan Vokasi Politeknik Negeri Manad
Publisher : Pusat Penelitian dan Pengabdian Kepada Masyarakat Politeknik Negeri Manado

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Abstract

Percepatan teknologi yang terus meningkat saat ini telah mengubah cara kita mengendalikan perangkat di dalam ruangan. Salah satu perangkat yang sering digunakan adalah lampu penerangan. Untuk memudahkan dan efisiensi pengendalian lampu ruangan, perlu dikembangkan sebuah sistem kendali yang baik. Tujuan dari penelitian ini adalah membuat prototype sistem kontrol lampu ruangan menggunakan IoT Arduino Cloud dengan kontrol jarak jauh dengan smartphone android. Perangkat NodeMCU ESP8266 merupakan perangkat khusus yang bisa terhubung dengan Internet of Things (IoT) yang memudahkan pengguna mengontrol lampu ruangan melalui jaringan internet. Metode penelitian berupa perancangan sistem kontrol menggunakan IoT Arduino Cloud dan pembuatan prototype sistem kontrol lampu ruangan. Dari hasil pengujian yang dilakukan dengan smartphone android dapat menyalahkan dan mematikan 4 lampu melalui IoT Arduino Clould yang terhubung dengan jaringan internet Dengan adanya prototype sistem kendali lampu ruangan menggunakan IoT Arduino Cloud diharapkan dapat memberikan kemudahan dan efisiensi bagi pengguna dalam mengendalikan lampu di dalam ruangan secara mudah, praktis, dan efisien.
SISTEM PEMUTUS TEGANGAN YANG KURANG UNTUK PENGAMANAN BATERAI DAN BEBAN DC MENGGUNAKAN ARDUINO NANO Loegimin, Maruto Swatara; Putung, Yoice; Hasnira, Hasnira; Sawidin, Sukandar; Patabo , Muchdar Dg.; Tuwongkesong, Samsu; Lengkong, Marcel
Recent in Engineering Science and Technology Vol. 3 No. 01 (2025): RiESTech Volume 03 No. 01 Years 2025
Publisher : MBI

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59511/riestech.v3i01.88

Abstract

Electrical control capacity or quality control capacity in electrical systems has always been very vital. However, the main attention should be focused on the characteristics of the supply voltage, especially in the modern era. A major constraint in the electrical structure is low voltage. Low voltage is a source of disturbance in the electrical system that affects the agility of related electrical equipment and can shorten the life of equipment, including battery components in DC energy systems such as solar panels. To anticipate the situation, low voltage circuit breaker hardware is used to protect batteries and DC devices from low voltage conditions, using a potentiometer as a voltage regulator, IC 7809 as a battery input voltage reducer, a switch to disconnect the battery, a power source, and a voltage display on the LCD screen and microcontroller control using Arduino Nano. The strategy applied can be a growth strategy or a research and development strategy. This approach is the foundation for planning and building the Moo voltage circuit breaker to protect batteries and DC devices. In the voltage test, Moo was able to disconnect the DC battery with ±99.795% accuracy. Standard tests for low voltage circuit breakers at 12 V and 24 V showed a difference of ±0.096 V and an error of ±0.554%.
Automatic Light Design Using Light Sensors Tuwongkesong, Samsu; Waleleng, Edwin Timothy Werdhinata; Sugiarto, Muhammad Rivai
Cerdika: Jurnal Ilmiah Indonesia Vol. 5 No. 9 (2025): Cerdika: Jurnal Ilmiah Indonesia
Publisher : Publikasi Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59141/cerdika.v5i9.2847

Abstract

People prefer to do things outside the home, such as taking care of themselves, outdoor activities until late at night, and generally unkempt house conditions, greatly increasing the likelihood of community crimes that include outdoor activities such as light maintenance, outdoor activities until late at night, and generally unkempt house conditions, greatly increasing the likelihood of criminal acts. Automatic technology is the solution to this problem, a type of household equipment that can be cleaned and maintained automatically. A descriptive approach is used, where researchers use reliable and systematic data to describe a phenomenon. for the use of Arduino Uno software that can provide instructions to turn on and detect lights. As an automatic indicator, the light sensor connected to the relay is very sensitive to the light resistance measured by the light sensor. The bulb will turn off automatically if the light sensor detects a number of more than 200 at the beginning of the day. Automatic lights can be operated via a Light Dependent Resistor (LDR) sensor so that the lights automatically turn on based on the resistance value measured by the sensor and timer. This is one way to develop a system in the event of a system disruption or seasonal rain. The timer can remember to adjust and set the lights as needed.
Design and building of a room light control System based on iot arduino cloud Sawidin, Sukandar Kandar; Patabo, Muchdar Dg.; Tuwongkesong, Samsu; Waroh, Anthoinete P.Y.; Kereh, Tracy M.; Lapon, Jeremia J.
Jambura Journal of Electrical and Electronics Engineering Vol 6, No 2 (2024): Juli - Desember 2024
Publisher : Electrical Engineering Department Faculty of Engineering State University of Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37905/jjeee.v6i2.26131

Abstract

The development of Internet of Things (IoT) technology opens up various opportunities to improve efficiency and convenience in various aspects of life, including in the management of electrical devices in the room. One of the innovative solutions that utilizes IoT technology is the Arduino Cloud-based room light control system using the NodeMCU ESP8266 microcontroller. This system is specifically designed to improve the efficiency of using room lights in the PLC laboratory of the Electrical Engineering department. This research aims to design and develop an Arduino Cloud-based IoT room light control system that can be controlled remotely using an Android device, PC, or laptop. NodeMCU ESP8266, as the core of this system, is a microcontroller that can connect with IoT, allowing users to control room lights via WiFi network. With this system, it is expected that users can control the PLC laboratory room lights in the Electrical Engineering department more easily, practically, and efficiently. In addition, this system is also expected to help save energy usage in the room. This research uses the method of designing and making a room light control system based on IoT Arduino Cloud. The research stages include system design, hardware and software development, and system testing. The test results show that the developed room light control system is able to turn on and off four lights in the PLC laboratory room via WiFi network using an Android device. In addition, this system is also equipped with an On/Off switch that can be used in the event of internet communication disruption. Thus, the IoT Arduino Cloud-based room light control system using the NodeMCU ESP8266 microcontroller is proven to provide convenience and efficiency for users in managing lighting in the PLC laboratory of the Electrical Engineering department, while helping to save energy.
Co-Authors Anthoinete P.Y. Waroh Hasnira Hasnira, Hasnira Lapon, Jeremia J. Lengkong, Marcel Loegimin, Maruto S Loegimin, Maruto Swatara Noya, Donald B. Patabo , Muchdar Dg. Patabo, Muchdar Dg Patabo, Muchdar Dg. Putung, Yoice Sawidin, Sukandar Sawidin, Sukandar Kandar Sugiarto, Muhammad Rivai tracy marsela Waleleng, Edwin Timothy Werdhinata Waroh, Anthoinete P.Y