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All Journal Journal of Students of Automotive, Electronic and Computer
Arba'i Yusuf
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Automotive Engineering Computer Science & IT Electrical & Electronics Engineering Engineering Industrial & Manufacturing Engineering Transportation

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Rancang Bangun Alat Pendeteksi Kebocoran Gas LPG Dengan Sensor Mq-6 Berbasis Mikrokontroler Melalui Telegram Arba'i Yusuf; Nasution, Egghy Pratama; Asni Tafrikhatin; Ajeng Tiara Wulandari
JASATEC : Journal Students Of Automotive, Electronic and Computer Vol 2 No 1 (2022)
Publisher : Politeknik Piksi Ganesha Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37339/jasatec.v2i1.1230

Abstract

Banyak Kebocoran gas LPG (Liquefied Petroleum Gas) dapat menyebabkan bahaya serius seperti kebakaran dan ledakan. Oleh karena itu, penting untuk memiliki alat pendeteksi kebocoran gas LPG yang andal dan efektif. Sensor MQ6 adalah salah satu sensor gas yang banyak digunakan untuk mendeteksi keberadaan gas LPG. Metode penelitian ini menggunakan Research & Development. Produk yang dibuat dalam penelitian ini adalah alat pendeteksi gas LPG berbasis mikrokontroler menggunakan sensor MQ-6, Wemos D1 R32, LCD, saklar, buzzer, dan bot telegram. Sensor MQ6 perlu dihubungkan dengan Wemos D1 R32. Alat pendeteksi akan terintegrasi dengan platform Telegram. Mikrokontroler akan mengirimkan notifikasi ke pengguna melalui Telegram jika terdeteksi kebocoran gas LPG yang melebihi ambang batas yang ditentukan.
Media Pembelajaran Sensor Berbasis Arduino Uno Untuk Pembelajaran Mikrokontroler Pemula Arba'i Yusuf; Asni Tafrikhatin; Jati Sumarah; Hudaifah, Nanda Nur
JASATEC : Journal Students Of Automotive, Electronic and Computer Vol 3 No 1 (2023)
Publisher : Politeknik Piksi Ganesha Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37339/jasatec.v3i1.1403

Abstract

The issues encountered during my studies at Politeknik Ganesha Piksi Indonesia, especially in the microcontroller-related engineering course with Arduino UNO-based sensor skill standards, include the lack of demonstration support at Politeknik Piksi Ganesha Indonesia, particularly in the electronic engineering research program. The learning materials for this course include the following components: Arduino UNO, DHT11 sensor, LDR sensor, sound sensor, PIR motion sensor, fire sensor, MQ-6 sensor, I2C LCD, LED, buzzer, relay module, USB cable, Jumper cables, and project tables, supporting electrical installation. According to the test results, all respondents obtained scores ranging from 56% to 70%, with the category being "Very Satisfied." Based on the testing results, this learning medium is effective as a learning tool at Politeknik Piksi Ganesha, Indonesia.
Rancang Bangun Alat Monitoring Penggunaan Air Pamsimas Berbasis Arduino Di Desa Sekartejo Erman Al Hakim; Arba'i Yusuf; Rosyid, Muhail
JASATEC : Journal Students Of Automotive, Electronic and Computer Vol 1 No 2 (2021)
Publisher : Politeknik Piksi Ganesha Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37339/jasatec.v1i2.1421

Abstract

The PAMSIMAS program is one of the government initiatives aimed at facilitating the water and sanitation needs of rural communities. One such PAMSIMAS program is implemented in the village of Sekartrjo, known as PAMSIMAS SEKAR TIRTA. The calculation of water prices and usage from PAMSIMAS is currently done manually, which is inefficient in terms of time and effort for the PAMSIMAS management. The objective of this research is to simplify the calculation of water prices and usage for PAMSIMAS management by creating an "Arduino-Based Water Usage Monitoring Device for PAMSIMAS." This research utilizes the Research and Development (R&D) methodology. The components used include Arduino UNO, an ultrasonic sensor HC-SR04, and an LCD display. The HC-SR04 sensor detects the water volume level released from the storage tank. When the sensor captures the signal waves, it adjusts the water flow distance set in the Arduino Uno Controller, and the calculation results are displayed on the LCD. It is expected that this product will assist the management of PAMSIMAS Sekar Tirta in the village of Sekartejo in effectively calculating volume and costs
Pengukur Suhu Badan Otomatis untuk Masuk Ruangan Berbasis Sensor Inframerah Mlx 90614 Arba'i Yusuf; Asni Tafrikhatin; Erman Al Hakim; Ngabdur Rojak
JASATEC : Journal Students Of Automotive, Electronic and Computer Vol 1 No 2 (2021)
Publisher : Politeknik Piksi Ganesha Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37339/jasatec.v1i2.1422

Abstract

The Covid-19 virus has begun to spread throughout the world, as a result, measuring human temperature has become one of the references for entering public places. Most public places have body temperature meters, as a countermeasure against the spread of the virus. The thermometer used has used infrared, but has not used a microcontroller. The purpose of this research is to make a thermometer using Arduino nano and an infrared sensor as a reader. This research method is experimental. This developed product uses the MLX90614 infrared sensor. This product uses an Arduino nano microcontroller and there is an output in the form of a 128 x 64 oled LCD. Based on the experimental results, the thermometer sold in the market with the developed thermometer has an accuracy of 99.798%.
Rancang Bangun Prototipe Jemuran Pakaian Otomatis Menggunakan Sensor LDR dan Sensor Hujan Berbasis Mikrokontroler Atmega 328 Arba'i Yusuf; Iramawati, Isnaeni; Asni Tafrikhatin
JASATEC : Journal Students Of Automotive, Electronic and Computer Vol 2 No 2 (2022)
Publisher : Politeknik Piksi Ganesha Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37339/jasatec.v2i2.1425

Abstract

The inter-monsoon season is the transitional period between the rainy season and the summer season. When drying clothes outdoors, it can be quite inconvenient if it suddenly rains, especially during the inter-monsoon season, resulting in clothes not drying optimally. This research aims to assist users in addressing this issue by creating a prototype of an automatic clothes drying rack using an LDR sensor and a rain sensor. The research method employed in this study is the Research and Development approach. The automatic clothes drying rack prototype utilizes an LDR sensor and an DSK MH-RD rain sensor to detect light intensity and rainfall, an Arduino as the microcontroller, and a stepper motor as the mechanism to move the drying rack. If the LDR sensor detects light and the rain sensor does not detect rain, the stepper motor will automatically activate and move the clothes outside. Conversely, if the rain sensor detects the presence of water or the LDR does not detect light, the stepper motor will move the clothes inside. It is hoped that this product can assist users in achieving optimal clothes drying.
Co-Authors Ajeng Tiara Wulandari Asni Tafrikhatin Erman Al Hakim Hudaifah, Nanda Nur Iramawati, Isnaeni Jati Sumarah Nasution, Egghy Pratama Ngabdur Rojak Rosyid, Muhail