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All Journal Voteteknika (Vocational Teknik Elektronika dan Informatika) Proceeding of the Electrical Engineering Computer Science and Informatics Wahana : Tridarma Perguruan Tinggi WAKTU: Jurnal Teknik UNIPA JE-Unisla Best : Journal of Applied Electrical, Science and Technology Seminar Nasional Hasil Riset dan Pengabdian (SNHRP)
Widodo
Program Studi Teknik Elektro, Fakultas Teknik, Universitas PGRI Adi Buana Surabaya
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Maximum Power Point Tracking Dual Axis Pada Photovoltaic Berbasis Arduino Uno Winarno Fadjar Bastari; Widodo Widodo; Luky Ardiansyah
SNHRP Vol. 4 (2022): Seminar Nasional Hasil Riset dan Pengabdian (SNHRP) Ke 4 Tahun 2022
Publisher : LPPM Universitas PGRI Adi Buana

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Abstract

Sistem photovoltaic merupakan salah satu sumber energi terbarukan yang memanfaatkan energi surya dan mengkonversinya menjadi energi listrik arus searah (DC), yang digunakan sebagai energi alternative pengganti bahan bakar fosil, yang diperkirakan semakin lama akan habis karena tidak dapat diperbarui secara cepat. Pada perancangan Maximum Power Point Tracking Dua Axis Pada Photovoltaic Berbasis Arduino Uno ini bermaksud untuk mengatur posisi sistem panel surya agar dapat bekerja secara otomatis mengikuti perpindahan titik maksimum cahaya matahari. Sensor LDR (Light Dependent Resisitor) berfungsi untuk memberikan sinyal analog ke Arduino Uno, yang kemudian akan diolah oleh Arduino Uno sebagai dasar pengambilan keputusan untuk menggerakkan motor steper dalam merubah posisi panel surya. Sehingga dapat diperoleh pancaran cahaya matahari secara maksimal
Alarm Pengendali Asap Pada Ruangan Bebas Asap Berbasis Mikrokontroler Arduino Winarno Fadjar Bastari; Akhmad Solikin; Widodo Widodo
Jurnal JE-UNISLA : Electronic Control, Telecomunication, Computer Information and Power System Vol 7, No 1 (2022)
Publisher : Universitas Islam Lamongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30736/je-unisla.v7i1.818

Abstract

Smoke is air pollution that is very dangerous for human health. Therefore, in this study the authors designed and modeled a fan speed controller using a smoke sensor based on an Arduino microcontroller. In addition, smoke control alarms can also be used for monitoring in smoke-free rooms in order to prevent and at the same time provide a deterrent effect on people who smoke in places where smoking is prohibited. The method used is to process the data detected by the MQ2 smoke sensor, then display the amount or level of smoke in the room and its condition on the LCD/monitor. The comparison of the values on the sensor will be processed with the Arduino and the output of the Arduino will be input coding on the Arduino IDE software to control the fan speed performance as a response to exhaust air in the ventilation area of the room. The microcontroller process is in the program as a controller of all components, then coding will control all components according to the coding ordered in the microcontroller and voltage controller at the smoke sensor input and LCD and fan output. The results obtained from this research project are able to detect the state of the air in a smoke-free room from smoke and CO pollution from 0 ppm to = 256 ppm and this pollution can be reduced by adjusting the fan speed as room air ventilation to avoid the deposition of smoke in a smoke-free room. which is dangerous. So that the air in the room becomes cleaner and safer for health.
Balance Tab Pada Elevator Movements Berbasis Microcontroller Arduino Uno Sebagai Alat Peraga Widodo Widodo; Winarno Fadjar Bastari; Irene Putri
SNHRP Vol. 3 (2021): Seminar Nasional Hasil Riset dan Pengabdian (SNHRP) Ke 3 Tahun 2021
Publisher : LPPM Universitas PGRI Adi Buana

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Abstract

Balance Tab pada Elevator movements berbasis Microcontroller Arduino Uno sebagai alat peraga untuk mendukung pembelajaran. Pada umumnya para siswa disamping belajar di kelas untuk menyerap teori dasar di bidang ilmu Penerbangan secara berkesinambungan, juga diperlukan suatu alat peraga yang merupakan pendukung dari teori-teori yang telah dipelajari selama ini. Dalam penelitian ini direncanakan suatu alat peraga yang menggunakan Arduino Uno sebagai system analog convert to digital. Kemudian yang berfungsi sebagai mekanisme penggeraknya adalah variable resistor sebagai input analog dan servo motot sebagai output digital. Alat peraga ini dapat digunakan untuk mendukung visualisasi di kelas dalam mata pelajaran Flight Control dan Autoflight
Design And Development Of Automatic Fiber Optic Cable Roller Using Nodemcu Esp 8266 Module Widodo .; Nur Hidayat
BEST Vol 4 No 1 (2022): BEST
Publisher : Program Studi Teknik Elektro Universitas PGRI Adi Buana Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36456/best.vol4.no1.5442

Abstract

ABSTRACT The process of winding fiber optic cable rolls takes a long time because it is done manually or conventionally. One of the tools in winding is a FO cable roller. This tool is designed to be able to roll fiber optic cables, but the limitations of this tool are still done manually, FO cables are rolled by hand like pedaling a bicycle on the pedals, the speed is set based on the speed of the rotation of the hand and it all depends on the human factor. Therefore, there is a need for an Automatic Fiber Optic Cable Winder Using NodeMCU ESP8266 and using Iot (Web of Things) to be more efficient and better in cable winding expositions.
APLIKASI ARDUINO PADA SMARTSTICK BAGI PENYANDANG TUNA NETRA Winarno Fadjar Bastari; Akhmad Solikin; Widodo Widodo
Jurnal JE-UNISLA : Electronic Control, Telecomunication, Computer Information and Power System Vol 8, No 1 (2023)
Publisher : Universitas Islam Lamongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30736/je-unisla.v8i1.969

Abstract

The development of science and technology is so rapid today, so that various ideas appear in the field of electronics. Then to help human life, we have tried to apply electronic technology to simple systems. This research is intended to examine the use of Smartstick (assisting stick) for people with visual impairments. So far it is known that walking aids for blind people are very simple, they do not use electronic devices. Furthermore, the Arduino application is applied to this tool, namely this stick is equipped with 3 sensors that operate 180°, then sound alarm, vibration and GPS. When a blind person approaches an object, the alarm will sound and inform the distance between the blind person and the object. With a sensor range of 180 degrees, objects that are below the middle and even above will be detected, so that the Smartstick user will be able to avoid the possible distance until the warning alarm goes offautomatically. Therefore, blind people don't have to worry about crashing into other unwanted objects.
SMOKE DETECTION DESIGN USING MQ-2 SENSOR AND EXHAUST FAN BASED ON MICROCONTROLLER Adi Winarno; Widodo Widodo; Rahmat Hanif Darmawan
BEST Vol 5 No 1 (2023): BEST
Publisher : Program Studi Teknik Elektro Universitas PGRI Adi Buana Surabaya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36456/best.vol5.no1.7216

Abstract

Clean air is a very important requirement for life on earth, especially for humans. Nowadays people are competing to maintain air quality in their environment by using Air Conditioners (AC). The use of air conditioning in the home environment without us knowing that the air we breathe is contaminated with smoke. The smoke in the air-conditioned room cannot escape because the room is always closed. As a result, the smoke content that cannot escape is very dangerous, so a prototype of an indoor smoke detector is made using the Arduino microcontroller and the MQ-2 sensor as a smoke sensor. If smoke is detected by the MQ-2 sensor, Arduino will turn on the bazzer and fan.
Rancang Bangun Drone Pemadam Otonom dengan Mekanisme Water Bombing Berbasis Navigasi Waypoint GPS Akbar Sujiwa; Widodo Widodo
Voteteknika (Vocational Teknik Elektronika dan Informatika) Vol 11, No 4 (2023): Vol. 11, No 4, Desember 2023
Publisher : Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/voteteknika.v11i4.125961

Abstract

Kasus kebakaran hutan dan lahan dalam tiga tahun kebelakang terus mengalami fluktuatif, dimana dampaknya sampai memberikan kerugian triliunan rupiah. Untuk mengurangi dampak kebakaran hutan perlu adanya inovasi teknologi terkait penanggulangan bencana kebakaran. Beberapa teknologi telah banyak dikembangkan, di antaranya modifikasi cuaca dan drone pemadam kebakaran. Pada metode modifikasi cuaca tidak bisa dilakukan secara intens karena biaya operasional yang mahal, sedangkan pada teknologi drone masih dalam tahap pengembangan dan belum benar-benar diaplikasikan. Meskipun drone pemadam masih awam digunakan, namun teknologi ini dapat membantu terutama pada daerah terpencil seperti hutan. Oleh karena itu dalam penelitian ini dibangun drone yang memiliki kemampuan untuk memadamkan api dengan menjatuhkan bom air (water bomb ). Berdasarkan hasil penelitian yang didapat, drone mampu melaksanakan tugas untuk menjatuhkan bom air dengan baik, sehingga diperoleh toleransi radius keakuratan sekitar 2 meter dari titik api. Tingkat kepresisian drone juga cukup baik dengan nilai kepresisiannya sekitar 95%. Untuk penelitian selanjutnya diharapkan dapat ditingkatkan lagi keefektifan drone dengan meningkatkan dimensinya, sehingga lebih kuat terhadap gangguan angin, lebih banyak memuat bom air, serta lebih lama durasinya.Kata kunci : Drone, kebakaran, otomatis, pemadam. Cases of forest and land fires in the past three years have continued to fluctuate, with the impact resulting in losses of trillions of rupiah. To reduce the impact of forest fires, there is a need for technological innovation related to fire disaster management. Several technologies have been developed, including weather modification and firefighting drones. The weather modification method cannot be carried out intensively because operational costs are expensive, while drone technology is still in the development stage and has not really been applied. Even though fire drones are still commonly used, this technology can help, especially in remote areas such as forests. Therefore, in this research, a drone was built which has the ability to extinguish fires by dropping water bomb s. Based on the research results obtained, the drone was able to carry out the task of dropping water bomb s well, so that an accuracy radius tolerance of around 2 meters was obtained from the fire point. The drone's precision level is also quite good with a precision value of around 95%. For further research, it is hoped that the drone's effectiveness can be further improved by increasing its dimensions, so that it is stronger against wind disturbances, contains more water bomb s, and lasts longer.Keywords: Automatic, drones, extinguishing, fire.
Co-Authors Adi Winarno Admiasri Admiasri Akbar Sujiwa Akhmad Solikin Ali Nur Rifky Eko Agus Stiyawan Herlambang Setiadi I wayan Sudiardana Irene Putri Lastomo, Dwi Luky Ardiansyah Nur Hidayat Rahmat Hanif Darmawan Rony HR Fora Rudi Setiawan Winarno Fadjar Bastari Winarno Fadjar Bastari Winarno Fadjar Bastari Winarno Winarno