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All Journal Jambura Journal of Electrical and Electronics Engineering Seminar Nasional Produk Terapan Unggulan Vokasi Interdisciplinary Journal of Advanced Research and Innovation
Sundah, Josephin
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PZEM Implementasi PZEM 004t Untuk Proses Monitoring Terhadap Kondisi Output dan Pembebanan Pada Sistem PLTS Sundah, Josephin; Makal, Johan F.; Pongoh, Johan; Doringin, Fanny Jouke; Ramschie, Ali A. S.
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

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

Abstract

Penggunaan pembangkit listrik tenaga surya (PLTS) sebagai sumber energi terbarukan semakin meningkat seiring dengan upaya global untuk mengurangi ketergantungan terhadap bahan bakar fosil dan mengurangi emisi karbon. Pemantauan kondisi daya dan beban suatu sistem PLTS sangat penting untuk memastikan efisiensi dan stabilitas operasional sistema PLTS. Namun pemantauan yang manual dan tidak terintegrasi seringkali menjadi kendala dalam pengelolaan sistem PLTS. Tujuan dari penelitian ini adalah untuk mengimplementasikan modul PZEM 004t sebagai alat monitoring untuk memantau keluaran dan kondisi beban suatu sistem PLTS. Dengan menggunakan modul ini diharapkan diperoleh informasi akurat secara real-time mengenai kondisi tegangan, arus, frekwensi, factor daya, daya listrik dan energi listrik yang dihasilkan dan dikonsumsi oleh sistem PLTS. Metode penelitian meliputi perancangan sistem kendali berbasis PZEM 004t, pengintegrasian modul ke dalam sistem PLTS, serta pengujian dan evaluasi kinerja sistem. Data dari modul PZEM 004t dikumpulkan dan dianalisis untuk memastikan akurasi dan keandalan pemantauan. Pengujian dilakukan pada kondisi beban berbeda untuk mengamati respons dan kinerja modul dalam situasi berbeda. Dengan diterapkannya modul PZEM 004t pada sistem PLTS, ternyata dapat meningkatkan efisiensi pemanfaatan energi listrik dari sistem PLTS, dimana pengguna dapat memantau secara realtime kondisi pembebanannya, dan dapat menyesuaikan sesuai dengan kebutuhan agar pemanfaatan sistem PLTS lebih efisien.
The Impact of Animation on E-Learning Application User Engagement in Ui/Ux Design Ganda, Gloria; Rooroh, Betsi; Sundah, Josephin; Rondonuwu, Arnold; Spaer, Gabriel; Taliwunan, Fridevy; Takaheghesang, Anggra; Tulangow, Filadelfia; Sekeh, David; Saroinsong, Kevin
Interdisciplinary Journal of Advanced Research and Innovation Vol. 2 No. 2 (2024): Interdisciplinary Journal of Advanced Research and Innovation
Publisher : Ravine Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58860/ijari.v2i1.40

Abstract

The use of animated visuals to enhance the learner experience is referred to as animation in e-learning applications. Animation can be used to explain complex concepts, make learning more interactive, and improve user comprehension. A good animation can visually capture the user's attention. For example, animated page entries or element transitions can make users focus more on the content, as well as improve the aesthetics of the application, making it look more professional and attractive. In the ever-evolving app design landscape, user engagement has become an important metric for evaluating the success of an app. This research explores the impact of animation on user engagement in web user interface/user experience (UI/UX) design. Animation is well-known as a design element, but its impact on user engagement remains unexplored. Through user testing and analysis of websites with and without animation, this research seeks to provide insight into how animation affects user behavior and interaction.
Solar Power Generation System at Household Scale Sundah, Josephin; Rooroh, Betsi; Vita, Veny; Wolley, Ponggawa Putra; Ambar, Jeremy; Kamura, Rolando; Tangon, Feiby; Langitan, Christofel; Tumangkeng, Natanael
Interdisciplinary Journal of Advanced Research and Innovation Vol. 3 No. 2 (2025): Interdisciplinary Journal of Advanced Research and Innovation
Publisher : Ravine Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58860/ijari.v2i4.57

Abstract

Solar power plants are renewable energy systems that utilize sunlight as a power source to generate electricity. The conversion of light energy into electrical energy is achieved through the photovoltaic effect. The process of converting solar energy into electrical energy is made possible by photovoltaic solar panels, which convert solar light energy into electricity. This technology began to be widely known and began to be widely used. Its use is widespread, ranging from large factories, office buildings, commercial buildings, shopping centers, hospitals, hotels, and households The purpose of this study is to know and analyze household-scale solar power generation systems. The method used in this study is a literature review, data used in the form of articles in electronic databases such as Google Scholar, in the period 2006 to 2023. The results showed that solar power plants (PLTS) are the right choice to overcome the energy crisis in Indonesia. Solar Power Plant Energy (PLTS) is abundant sunlight. Solar Power Plant System (PLTS) at the household level using Solar Home System (SHS) which is increasingly adopted in Indonesia (especially in households). The implication in this study is to provide a deeper understanding of household-scale solar systems, including the associated advantages and challenges. This can help individuals, institutions, and governments make better decisions regarding the use of renewable energy.  
Rancang Bangun Pemantauan Cairan Infus Dengan Arduino Nano Berbasis Android Putung, Yoice Rita; Noya, Donald; Aror, Ventje; Sundah, Josephin; Patabo, Muchdar
Jambura Journal of Electrical and Electronics Engineering Vol 5, No 1 (2023): Januari - Juni 2023
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.v5i1.15352

Abstract

Pantauan pemberian cairan berisi vitamin dan mineral melalui botol ke pembuluh darah (infus) dengan kebiasaan yang lama, yakni (mengontrol keadaan kantong infus pada orang sakit dengan spontan. Jika ada gangguan  seperti  cairan infus tersumbat,  kemacetan  dan kehabisan  cairan  infus,  akan  berbahaya  bagi  orang sakit  jika  tidak  segera  ditangani. Penelitian ini bertujuan untuk mendeteksi cairan  infus  dengan  sensor  berat (load  cell  )  dan jika terjadi penyumbatan pada selang infus  dengan sensor Line Proximity (infrared proximity) yang dikendalikan dengan mikrokontroler Arduino nano kemudian hasilnya dimonitoring pada LCD dan smartphone Android dengan aplikasi blink. Kemudian  bila terjadi penyumbatan atau cairan infus habis  buzzer  akan  berbunyi  dengan  tujuan  memberikan informasi kepada perawat. Berdasarkan hasil pengujian yang telah dilakukan alat dapat mendeteksi berat cairan infus = 500 ml,. berat cairan infus habis = 36 ml, cairan tersumbat , monitoring pada LCD dan Android.Monitoring the administration of fluids containing vitamins and minerals through bottles into blood vessels (infusions) with long-standing habits, namely (spontaneously controlling the condition of infusion bags in sick people. If there are disturbances such as blocked infusion fluids, congestion and running out of infusion fluids, it will be dangerous for people sick if not treated immediately. This study aims to detect infusion fluids with a weight sensor (load cell) and if there is a blockage in the infusion hose with a Line Proximity (infrared proximity) sensor controlled by an Arduino nano microcontroller then the results are monitored on the LCD and Android smartphone with the blink application. Then if there is a blockage or the infusion fluid runs out the buzzer will sound with the aim of providing information to the nurse. Based on the results of the tests that have been carried out, the tool can detect the weight of the infusion fluid = 500 ml. the weight of the infusion fluid is used up = 36 ml, the fluid is blocked, monitoring on the LCD and Android.
Co-Authors Ambar, Jeremy Arnold Robert Rondonuwu Aror, Ventje Betsi Rooroh Doringin, Fanny Jouke Ganda, Gloria Kamura, Rolando Langitan, Christofel Makal, Johan F. Noya, Donald Patabo, Muchdar Pongoh, Johan Putung, Yoice Rita Ramschie, Ali A. S. Saroinsong, Kevin Sekeh, David Spaer, Gabriel Takaheghesang, Anggra Taliwunan, Fridevy Tangon, Feiby Tulangow, Filadelfia Tumangkeng, Natanael Vita, Veny Wolley, Ponggawa Putra