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Taryo
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Faculty of Engineering, Universitas Swadaya Gunung Jati Jl. Pemuda No.32, Kel. Sunyaragi, Kec. Kesambi Kota Cirebon 45132 Phone (0231) 246664
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INDONESIA
Journal Electronic Logic Power Technology
Published by Universitas Swadaya Gunung Jati
ISSN : 30909031     EISSN : 30906318     DOI : -
Core Subject : Engineering,
Electrical & Electronics Engineering
Journal ELPER-Tech (Electronic Logic Power- Technology) published publishes two issues per year in March and September. The topic of published papers might be subjected to one or more of the following scopes: 1. Power Systems Generator Power Distribution Electrical Power Protection Systems Electrical Material 2. Signals, Systems, and Electronics Digital Signal Processing Image Processing Robotic Systems Control Systems Embedded Systems 3. Communication Systems Telecommunication Wireless Communications Computer Network 4. Information Technology Software Engineering Artificial Intelligent AR/VR 5. Renewable Energy Smart Grid System
Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro
Articles 5 Documents
 1 
Design and Construction of a Mini Weather Station Based on Telemetry: English Wulandari, Rindi
Journal ELPER-Tech (Electronic Logic Power- Technology) Vol 1 No 1 (2025): ELPER-Tech Vol. 1 No. 1 March 2025
Publisher : Electrical Engineering Departement, Faculty of Engineering, Universitas Swadaya Gunung Jati

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Abstract

Today, the weather is difficult to predict, so we need a weather observation tool that can provide weather information quickly. AWS (Automatic Weather Station) is an automatic type of traditional weather station, to save manpower or to take measurements from remote areas. AWS real time is an AWS system that can present information in real time to users accompanied by several other features such as warning alarms. Based on the background above, a telemetry-based mini weather station system was created in the form of a model, using the Arduino ATmega2860 Microcontroller as data collector and data processor, the BME Module as a temperature, pressure and humidity sensor, the RTC DS3231 is used as a time and date generator, and SIM 800l as a remote control application. The research conducted includes applied research, with experimental research methods. Testing the tool in the form of taking the average data of the 10th minute and 30th minute. Data is sent via the SIM800l module using the prime sim card which has been filled with an SMS package, with an estimated delivery time of around -10 seconds.
Design of Irrigation System Based on Arduino Uno Using Soil Moisture Sensor Ariwibowo, Muhamad Riyad
Journal ELPER-Tech (Electronic Logic Power- Technology) Vol 1 No 1 (2025): ELPER-Tech Vol. 1 No. 1 March 2025
Publisher : Electrical Engineering Departement, Faculty of Engineering, Universitas Swadaya Gunung Jati

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Abstract

Water needs are very necessary for the agricultural sector in caring for plants properly. However, in the management process, farmers have a watering time that is not tools used to help farmers’ performance. With automatic irrigation system technology, farmers can take advantage of solutions to make it easier to care for plants. The automatic irrigation system utilizes and Arduino Uno based soil moisture sensor as a soil moisture detector. Soil moisture sensors are tested for soil moisture in dry, slightly moist, wet and mossy soil conditions. The test results show that the sensor can read the condition of soil moisture < 60%, then the waterpump does not move and does not water automatically, otherwise if the soil moisture > 60% will work automatically with the average soil moisture produced after watering by 61% and obtain a neutral pH.
Design of Control System for Weighbridge Gate at PT. Sido Agung Agro Prima Soleh, Muhamad
Journal ELPER-Tech (Electronic Logic Power- Technology) Vol 1 No 1 (2025): ELPER-Tech Vol. 1 No. 1 March 2025
Publisher : Electrical Engineering Departement, Faculty of Engineering, Universitas Swadaya Gunung Jati

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Abstract

Sido Agung Agro Prima has a consideration problem that is transported by trucks on the weighbridge, errors often occur in weighing because the weighing process has not been completed, the next car enters during the weighing process, so the weight that is weighed is inaccurate, this causes losses to the company because the tonnage weight is too high. excess. A prototype tool has been designed to weigh the mass of objects using the HX711 Sensor (Load Cell). The circuit used consists of Power Supply, Loadcell, HX711, ATMega 328, LCD, Buzzer. The way this tool works is when the vehicle is detected on the ultrasonic sensor, then the load cell is prepared to weigh and the weight of the vehicle is detected by the load cell with the output signal in analog form which will be sent to the hx711 sensor module to convert the output signal to digital with parallel communication which is then sent to the arduino microcontroller as the control center then the LCD displays the weight of the vehicle and the level of violation if there is an overload of the load cell, if during the weighing process there is a violation of the weight of the load that has been determined by the officer then an alarm will sound. The results of several prototype tests work according to instructions and according to the Arduino program that has been made and this tool works automatically by responding to how much mass the object is detected by the sensor. Arduino-Uno then processes the mass of the object and gives an output that has been programmed previously with an error percentage of 0.107% which is then displayed on the LCD.
Design of Earthquake Detection System Using MPU6050 and SW420 Sensors with Blynk Platform Integration Az- Zahra, Dini
Journal ELPER-Tech (Electronic Logic Power- Technology) Vol 1 No 1 (2025): ELPER-Tech Vol. 1 No. 1 March 2025
Publisher : Electrical Engineering Departement, Faculty of Engineering, Universitas Swadaya Gunung Jati

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Abstract

Earthquakes are natural disasters that can cause major damage and even loss of life in a short time. Therefore, an early detection system that can provide warnings before an earthquake occurs is very important to reduce the impact of damage. This study aims to develop an earthquake detection tool that utilizes Internet of Things (IoT) technology. This system uses the SW420 sensor to detect earthquake vibrations and the MPU6050 sensor to measure acceleration and changes in orientation. The method used in this study uses the Research and Development (RnD) method, where this research starts from problem identification, system design, to system testing and evaluation. This system uses ESP32 as a microcontroller to process data from sensors and send the data through the Blynk application in real time. The test results show that this tool is able to detect an earthquake when the magnitude reaches a predetermined minimum limit. With this IoT integration, it is hoped that it can increase community preparedness in facing the threat of earthquakes.
Design of Smart Trash Using ESP32 with Blynk Integration Selviana Lestari, Qiva
Journal ELPER-Tech (Electronic Logic Power- Technology) Vol 1 No 1 (2025): ELPER-Tech Vol. 1 No. 1 March 2025
Publisher : Electrical Engineering Departement, Faculty of Engineering, Universitas Swadaya Gunung Jati

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

Abstract

Earthquakes are natural disasters that can cause major damage and even loss of life in a short time. Therefore, an early detection system that can provide warnings before an earthquake occurs is very important to reduce the impact of damage. This study aims to develop an earthquake detection tool that utilizes Internet of Things (IoT) technology. This system uses the SW420 sensor to detect earthquake vibrations and the MPU6050 sensor to measure acceleration and changes in orientation. The method used in this study uses the Research and Development (RnD) method, where this research starts from problem identification, system design, to system testing and evaluation. This system uses ESP32 as a microcontroller to process data from sensors and send the data through the Blynk application in real time. The test results show that this tool is able to detect an earthquake when the magnitude reaches a predetermined minimum limit. With this IoT integration, it is hoped that it can increase community preparedness in facing the threat of earthquakes.

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