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Journal of Students of Automotive, Electronic and Computer
Published by Politeknik Piksi Ganesha Indonesia
ISSN : -     EISSN : 28086627     DOI : https://doi.org/10.37339/jasatec.v1i2
Core Subject : Science, Engineering,
Automotive Engineering Computer Science & IT Electrical & Electronics Engineering Engineering Industrial & Manufacturing Engineering Transportation
JASATEC : Journal Of Students Of Automotive, Electronic and Computer invites student who conduct original research in the fields of Electrical Engineering, Computer and Automotive Engineering, including but not limited to on : ELECTRONIC SCIENCE : Electrical Engineering Electrical Power Engineering Electrical engineering Control Engineering (or Instrumentation and Control) Software Engineering Mechatronics Engineering Biomedical Engineering Industrial Electronics Engineering Robotic Techniques COMPUTER GENERAL : Telecommunications engineering Computer Engineering Technical Information Computer science Information Systems Information Technology Microprocessor Programming AUTOMOTIVE ENGINEERING GENUINE : Automotive Electricity Automotive Engine Brake, Suspension, and Steering System Body and Painting Fuel and Lubricant Engine Supporting System Engine Management System Engine Performance
Arjuna Subject : Teknik (semua kategori) - Teknik (Lain-Lain)
Articles 4 Documents
 1 
Search results for , issue "Vol 2 No 2 (2022)" : 4 Documents clear
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.
Perancangan Tempat Sampah Otomatis Berirama Menggunakan Sensor Ultrasonik Berbasis Mikrokontroler Atmega 328 di SD Negeri Wonosigro Erman Al Hakim; Jati Sumarah; Nur Faizah Budi Mulyani
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.v2i2.1426

Abstract

Public awareness to dispose of garbage in its place is still considered low. It is evident that garbage is still scattered in public places so that a way is needed to increase public awareness. One way is to modify the trash can into an attractive trash can. A trash can that can automatically open and close and can bring up notifications and sounds. The research method uses Research and Development. The R&D stages include: collecting data, making product designs, building products, and testing products. The components of the tool include: ultrasonic sensor, ATmega 328 microcontroller, servo motor, I2C LCD, and speaker. The way the tool works is the ultrasonic sensor as an object detector, the ATmega 328 microcontroller as a processing tool. The output of the system is a servo motor as a trash can lid driver, LCD and speaker as notification. Based on the results of testing the entire system of Automatic Rhythmic Trash Can Design Using Ultrasonic Sensors Based on ATmega 328 Microcontroller, it is explained that ultrasonic sensors can detect objects with a distance of less than 50 cm.
Rancang Bangun Buka Kunci Pintu Menggunakan RFID Berbasis Atmega 328 di Master Control Room Ratih TV Kebumen Wijaya; Asni Tafrikhatin; Ajeng Tiara Wulandari; Asli Husain
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.v2i2.1433

Abstract

Most of the workspace door locks use a manual locking system so that it lacks security. The safety of the master control room is a priority, because in the room there are important tools and documents.Based on these problems, the authors made a door lock unlock design using Atmega328-based RFID. This research method is: R & D. design and construction of door unlock using Atmega 328 based RFID. E-ID card attached to the door serves as an input to open the lock. This product is expected to increase safety when using the workspace.
Rancang Bangun Pengingat Pembersihan Limbah Greshtrep Otomatis Berbasis Arduino Asni Tafrikhatin; Yulia Bherlinda; Ajeng Tiara Wulandari; Angga Azfananda
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.v2i2.1434

Abstract

Currently, the cleaning or cleaning schedule for greasetrap is done manually so that human errors can occur such as forgetfulness which can affect the final outcome of waste disposal. The purpose of this tool is to make it easier for the crew in scheduling greasetrap cleaning so as to minimize the occurrence of human errors. Based on the description above, the researchers made an automatic grease trap cleaning reminder alarm with a turbidity sensor based on the Atmega 328 microcontroller. The method of making this product uses Research and Development. The R&D stages include: collecting data, creating product designs, building products, and testing products. This greasetrap cleaning alarm can be utilized as an automatic control system. The components of this tool include: turbidity sensor, ATmega 328 microcontroller, servo motor, LED, buzzer. The way this tool works with the turbidity sensor as a detection sensor for objects then the ATmega 328 microcontroller is used as a processing tool for this reminder alarm system, the output of this system is a servo motor as a greasetrap filter puller, LED and buzzer as notification.

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