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All Journal AL ISHLAH Jurnal Pendidikan Jurnal Listrik, Instrumentasi, dan Elektronika Terapan Jurnal Sains dan Teknologi Universal Journal of Science and Technology
Eliyana Firmansyah
Universitas Faletehan
Aerospace Engineering Agriculture, Biological Sciences & Forestry Automotive Engineering Chemical Engineering, Chemistry & Bioengineering Chemistry Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Dentistry Education Electrical & Electronics Engineering Energy Engineering Health Professions Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Materials Science & Nanotechnology Mathematics Mechanical Engineering Medicine & Pharmacology Nursing Public Health Veterinary Other

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Digital Adaptation and Perceptions of Architecture and Interior Design Students on Online Lecture Methods Tita Cardiah; Andiyan Andiyan; Husna Izzati; Eliyana Firmansyah
AL-ISHLAH: Jurnal Pendidikan Vol 14, No 4 (2022): Issue in Press
Publisher : STAI Hubbulwathan Duri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35445/alishlah.v14i4.1931

Abstract

The COVID-19 pandemic has had a significant impact on education, especially learning methods that must be carried out online. The online learning method also applies to Architecture and Interior Design students in the planning and design studio lecture activities, which were initially carried out offline in the studio and now have to be carried out online from their respective homes. Various obstacles faced in architectural and interior planning and design studio lectures require students to adapt virtually and digitally. Visually and digitally, there are many limitations, both from using technological devices to the facilities owned by lecturers and students. The study used a qualitative descriptive method, searching for data through questionnaires with the respondents being students of architecture and interior design. The study results found that the adaptation of online lectures is not only a virtual and digital problem but includes physical and non-physical problems. Virtual and digital transformations affect the process and quality of learning outcomes for architectural and interior planning and design studio courses. Physical adaptation requires supporting facilities in the form of tools and equipment to assist studio lectures. Non-physically is an adaptation to changes in time, patterns and methodologies of learning, behaviour, psychology, and the internet network. Behavioural and psychological adaptations and perceptions need more in-depth research in future studies.
Rancangan Sistem Pembangkit Listrik Tenaga Surya (PLTS) Berkapasitas 100 WP dengan Inverter 1000 Watt Dwi Liestyowati; Iksal Rachman; Eliyana Firmansyah; Mujiburrohman Mujiburrohman
INSOLOGI: Jurnal Sains dan Teknologi Vol. 1 No. 5 (2022): Oktober 2022
Publisher : Yayasan Literasi Sains Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55123/insologi.v1i5.1027

Abstract

Solar energy is a renewable energy source that is abundantly available in Indonesia. One way to utilize solar energy is to convert it into electrical energy using photovoltaic modules or solar panels, which are called solar power plants (PLTS). The construction of PLTS can accelerate the electrification ratio and reduce fossil materials. In this study, the author will design a 100 Wp solar power plant (PLTS) using a 1000watt inverter, while the research uses the Research and Development method, with stages covering system analysis, design, implementation and testing. The manufacture of PLTS is done by identifying components such as solar panels, DC wattmeter, SCC (Solar Charge Controller), battery, 1 Phase MCB, and AC Wattmeter. It can be concluded that to obtain electrical energy, weather conditions greatly affect the working system of solar panels. The maximum voltage from a 100wp solar panel that was designed and tested for 3 days in the worst month conditions was produced on the second and third days with a voltage value of 17.08 Volts at 12:00 noon and a minimum voltage was generated on the second day of testing, namely with a voltage value of 12.00 Volts at 12.00 Volts. 07:00 am. Furthermore, the 100 wp solar panel can only produce a maximum power of 256.01watt which was obtained on the second day of testing with an average voltage and current obtained of 14.19volt and 1.58 Ampere. The condition of the battery takes 5.47 hours or 328 minutes to fully charge energy to 100%. To maximize power gain and get the intensity of sunlight throughout the morning to evening, the use of the Single Axis solar tracker system is very effective.
Rancang Bangun Prototipe Home Automation Menggunakan Teknologi Internet Of Things Syahban Rangkuti; Eliyana Firmansyah; Andrie Mochammad Yadi
INSOLOGI: Jurnal Sains dan Teknologi Vol. 2 No. 6 (2023): Desember 2023
Publisher : Yayasan Literasi Sains Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55123/insologi.v2i6.3131

Abstract

Internet of Things (IoT) technology is often used to monitor and control electronic equipment remotely using the internet. The implementation of Internet of Things technology can be applied to home automation. The implementation of IoT in a home automation system (home automation) can be used to control home lights, home temperature, and electronic plates in the home, and it can even be used to determine the whereabouts of home occupants. In this research, we will create a home automation prototype with the Internet of Things concept, which can be built using the NodeMCU module integrated with a web application. The data communication system in home automation will communicate with the MQTT server and can send data (publish) and receive data (subscribe). The home automation system can carry out manual or scheduled monitoring and control. It can provide notifications whenever a change in the condition or status of the device is being monitored or controlled. Changes in conditions can also occur through sensor readings connected to the NodeMCU module.
Rancang Bangun Sistem Monitoring PLTS Menggunakan Board Sonoff melalui Smartphone Android Rangkuti, Syahban; Firmansyah, Eliyana; Munandar, Liman Khoeri
Jurnal Listrik, Instrumentasi, dan Elektronika Terapan Vol 5, No 2 (2024)
Publisher : Departemen Teknik Elektro dan Informatika Sekolah Vokasi UGM

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22146/juliet.v5i2.89492

Abstract

Pembangkit Listrik Tenaga Surya merupakan salah satu sumber energi listrik alternatif terbarukan. Pembangkit listrik tenaga surya yang dirancang bangun dilengkapi dengan sistem monitoring dan kendali automatic transfer switch (ATS) dari jarak jauh melalui aplikasi android eWeLink dengan perangkat utama untuk sistem kendalinya menggunakan board Sonoff. Board Sonoff telah dilengkapi fitur untuk kendali jarak jauh yang dapat terintegrasi melalui jaringan internet. Sistem monitoring pembangkit listrik tenaga surya yang akan dibuat terdiri dari monitoring daya, arus, tegangan, dan kalkulasi kWh yang telah digunakan. Sistem monitoring  ini mampu dioperasikan dari jarak jauh melalui perangkat smartphone dengan menggunakan koneksi internet. Pembangkit listrik tenaga surya yang dibuat dilengkapi perangkat pelacak matahari (solar tracker)  dengan konsep single axis yang dapat mengarahkan panel surya secara otomatis mengikuti pergerakan matahari dari timur ke barat dengan tujuan agar panel surya selalu tegak lurus dengan matahari sehingga daya listrik yang dihasilkan oleh panel surya (solar Panel)  lebih maksimal. Sistem ini menggunakan panel surya 10WP, solar charger controller (SCC), baterai, inverter, Sonoff Pow R2, relay, time delay relay (TDR), MCB 1 Fasa, modul solar tracker, dan aktuator linear. Secara keseluruhan sistem monitoring yang dibuat dapat membantu memudahkan pengguna saat melakukan monitoring pembangkit listrik tenaga surya dari jarak jauh, serta dapat memaksimalkan perolehan daya panel surya dengan penggunaan solar tracker. Pada baterai 12V 16Ah dengan DoD 70% serta rugi daya sebesar 20% maka dapat waktu yang dibutuhkan untuk mengisi baterai adalah sekitar 6,8 Jam. Semakin tinggi intensitas cahaya maka semakin besar daya listrik yang dihasilkan oleh solar panel.
SISTEM MONITORING PROTOTYPE WEATHER STATION DENGAN INTERNET OF THINGS Putra, Mochamad Widie Aditya; Firmansyah, Eliyana; Wibowo, Irwan Setyo
UJoST- Universal Journal of Science and Technology Vol. 1 No. 2 (2022): September 2022
Publisher : Faculty of Science and Technology University of Pramita Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11111/ujost.v1i2.177

Abstract

Penelitian ini bertujuan untuk merancang sebuah sistem monitoring Prototype Weather Station dengan memanfaatkan internet of things. Penerapan sistem monitoring ini digunakan dalam lingkup masyarakat sehari-hari. Metode yang digunakan dalam penelitian ini menggunakan dua metode penelitian, yaitu penelitian Research and Development. Tahap pada RND meliputi: 1) Analisis kebutuhan sistem, 2) Perancangan, 3) Implementasi, 4) Pengujian. Teknik analisis menggunakan perangkat lunak yang berupa Adafruit IO sebagai bagian dari internet of things. Hasil penelitian menunjukkan kemampuan sistem monitoring Prototype Weather Station dengan menggunakan internet of things lebih mudah dan akurat untuk memantau data cuaca secara realtime.
RANCANG BANGUN PROTOTIPE SISTEM KENDALI PINTU AIR IRIGASI OTOMATIS BERBASIS ESP8266 Yuwono, Danang Aryo; Wibowo, Irwan Setyo; Firmansyah, Eliyana; Anggraini, Dewi
UJoST- Universal Journal of Science and Technology Vol. 3 No. 1 (2024): March 2024
Publisher : Faculty of Science and Technology University of Pramita Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11111/ujost.v3i1.178

Abstract

Pada umumnya pintu air irigasi yang ditempatkan pada Daerah Irigasi merupakan sarana penunjang aktifitas pertanian yang menerapkan sistem saluran primer-sekunder-tersier. Pintu air irigasi terbuat dari lempengan besi berukuran tertentu yang dioperasikan dengan cara diangkat atau diputar. Cara ini telah menimbulkan persoalan ketidakpuasan layanan oleh petani. Penelitian ini telah mengembangkan pintu air irigasi secara otomatis berdasarkan dari sensor Ultrasonic. Sensor ini dapat mengukur ketinggian air yang nantinya dijadikan referensi untuk membuka atau menutup pintu air irigasi. Penelitian menggunakan metode perancangan yang meliputi interkoneksi sensor ultrasonic dan NodeMCU, pemrograman sistem kontrol, penempatan Motor DC pada pintu air irigasi, interkoneksi Motor DC ke sistem kontrol, interkoneksi Motor DC ke sistem kontrol aplikasi Blynk dan ujicoba. Hasil pengujian menunjukan bahwa pintu air irigasi bergerak membuka pada ketinggian 15cm dan menutup kembali jika ketinggian air sudah di ketinggian 5cm.
Co-Authors Andiyan Andrie Mochammad Yadi Dewi Anggraini Dwi Liestyowati Husna Izzati Iksal Rachman Mujiburrohman Mujiburrohman Munandar, Liman Khoeri Putra, Mochamad Widie Aditya Syahban Rangkuti Tita Cardiah Wibowo, Irwan Setyo Yuwono, Danang Aryo