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Sonny Rumalutur
Politeknik Saint Paul Sorong
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Journal : Electro Luceat

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SISTEM KONTROL KONVEYOR PEMILAH LOGAM MENGGUNAKAN PLC OMRON CP1E Alimuddin Mappa; Sonny Rumalutur; Marco Mambrisaw
Electro Luceat Vol 6 No 2 (2020): Electro Luceat (JEC) - November 2020
Publisher : LPPM Poltek ST Paul

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jelekn.v6i2.267

Abstract

The research conducted aims to create an automatic metal sorting control system using the PLC Omron CP1E30 with a ladder diagram program designed with the CX-Programmer application.The PLC input used contains one proximity sensor and two photoelectric sensors, while the output includes two conveyor motors and a solenoid.The proximity sensor functions to detect metal and non-metal objects and the photoelectric sensor functions to detect the presence of an object passing through it. PLC output contains two conveyor motors that carry objects to be separated and selenoid which functions to separate metal and non-metal objects.Based on the test results it turns out that the system can function properly where when the PLC is activated, the conveyor motor 1 will be active to carry the object to be sorted, when the object passes the photoelectric sensor 1, the conveyor motor 1 will stop to be detected by the proximity sensor, if the object is non-metal, the conveyor motor 2 will carry the non-metal object to the end of the conveyor 2, after the non-metal object is detected by photoelectric sensor 2, the conveyor motor 1 activates again to deliver the next object. If the proximity sensor detects that the object is metal, the selenoid is activated so that it separates the metal object.
PERANCANGAN DAN PEMBUATAN CHARGE PHONE MENGGUNAKAN SOLAR CELL UNTUK DIGUNAKAN PADA FASILITAS UMUM OUTDOOR Sonny Rumalutur
Electro Luceat Vol 8 No 1 (2022): Electro Luceat (JEC) - July 2022
Publisher : LPPM Poltek ST Paul

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jelekn.v8i1.466

Abstract

In public facilities with open or outdoor types that are often visited, it is very difficult to find charging places such as cellphones, tablets, powerbanks and so on. The purpose of this final project is to produce a device that can charge mobile phone batteries to be used in public facilities that are outdoor with a source of electricity used from solar power. In a design and manufacture of charge phones using solar cells for use in outdoor public facilities, it is expected to be able to charge cellphone batteries in a short time and without problems. This solar cell phone charging device is designed for needs in public facilities such as bus stops, parks, beaches, football fields or in public facilities that are not accessible by PLN. Where users can directly charge the cellphone battery. Lack of resources in the Sun, so if the weather is cloudy then charging the storage battery is less than optimal. In accordance with the above problems that storage batteries are not able to last long with the capacity that is only used at this time. So there needs to be a maintenance step, which is to always control the battery water to keep it durable because storage batteries cannot last long.
PENGEMBANGAN APLIKASI BANK SAMPAH DENGAN METODE EXTREME PROGRAMMING Luluk Suryani; Ery Murniyasih; Marcelinus Petrus Saptono; Raditya Faisal Waliulu; Imam Trianggoro Saputro; Sonny Rumalutur
Electro Luceat Vol 8 No 2 (2022): Electro Luceat (JEC) - November 2022
Publisher : LPPM Poltek ST Paul

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jelekn.v8i2.571

Abstract

In the era of technology 5.0, many people have been able to create new value through technological developments that occur from time to time. This change can help minimize the gap in people and economic problems in the future. One of the fastest growing technologies every year is an application on a smartphone. There are so many variations of applications, this is because smartphone users are increasing from time to time. Existing developments are an opportunity for the Garbage Bank to support the zero waste program and improve Garbage Bank services to the community. This study aims to develop a Garbage Bank application as a means of ordering waste transportation services and viewing educational information, as well as activities from the Sorong Raya Garbage Bank (BSSR). Application development will use the Extreme Programming method, with the stages of Planning, Design, Coding, and Testing. This method was chosen because it can increase user satisfaction due to continuous communication in application development and is suitable for use by small teams. The application can be used on the Android operating system. The application was developed using Android Studio and Flutter tools. To ensure the system is running properly, it will be tested with alpha testing. The results of the alpha testing of all functional systems can run as expected so it can be concluded that the application is feasible to use.
RANCANG BANGUN SISTEM INFORMASI MANAJEMEN BANK SAMPAH DENGAN METODE EXTREME PROGRAMMING Luluk Suryani; Raditya Faisal Waliulu; Ery Murniyasih; Imam Trianggoro Saputro; Sonny Rumalutur; Marcelinus Petrus Saptono
Electro Luceat Vol 8 No 2 (2022): Electro Luceat (JEC) - November 2022
Publisher : LPPM Poltek ST Paul

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jelekn.v8i2.572

Abstract

The implementation of the Garbage Bank program is strived to be able to provide benefits and economic value from waste management, its existence is expected to have a direct impact on the people's economy so that it can be implemented easily. The Sorong Raya Garbage Bank (BSSR) has 108 Unit Waste Banks, 3,131 Customers, so it is only appropriate for BSSR to have an integrated management information system to support its business processes and operations. So far, BSSR management has not run optimally, because data loss often occurs, each division and level has data that is out of sync, difficulty finding data due to inconsistent writing and flow, the resulting reports are not optimal so that it has an impact on decision making. The research will be conducted using the extreme programming method. The output of this research is a waste bank management information system that can help BSSR integrate the management of each division and level so that business and operational processes can run effectively and efficiently. The system will be designed using the Unified Modeling Language (UML). System testing will use the Black Box method. The results of the black box test state that the input and output of the Sorong Raya Garbage Bank Management Information System are appropriate.
RANCANG BANGUN SISTEM HIDROPONIK NFT BERBASIS ARDUINO DENGAN SUMBER TEGANGAN PLTS Stefany Margareta Martono; Serli Liling Allo; Sonny Rumalutur
Electro Luceat Vol 9 No 2 (2023): Elektro Luceat (JEC)-November 2023
Publisher : LPPM Poltek ST Paul

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jelekn.v9i2.725

Abstract

Hydroponics is a technique of cultivating plants with water that has been added with AB Mix nutrients. The hydroponic system used in this research is NFT. This system uses shallow water and is circulated continuously for 24 hours using a pump so that plants can get sufficient water, nutrients and oxygen. The electricity supply from PLN is not always available and the hydroponic system is not always made in places where PLN electricity is available, therefore in this research the voltage source comes from PLTS. In this research, a 50 Wp polycrystalline solar panel and a 70 Ah battery were used. To produce plants with optimal development, proper nutrition and pH are needed. Therefore, an Arduino-based pH and nutrition monitoring system is used. The results of pH and nutrient readings are displayed on the LCD screen. If the pH and nutrient level readings are outside the predetermined level, the buzzer will sound. To adjust the pH and PPM of hydroponic water to suit the needs of plants, you need to add a pH regulator and AB Mix to the hydroponic water. From the experiment, for every 5 mL of pH down added to 20 L of hydroponic water, the pH will decrease by 0.27, while for every 5 mL of solution A and 5 mL of solution B, there will be an increase in PPM of 50.89.
RANCANG BANGUN SISTEM KONTROL ALAT PENYIRAM TANAMAN OTOMATIS BERBASIS IoT YANG MENGGUNAKAN APP BLYNK Sonny Rumalutur
Electro Luceat Vol 10 No 1 (2024): Elektro Luceat-Juli 2024
Publisher : LPPM Poltek ST Paul

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jelekn.v10i1.797

Abstract

It is hoped that this IoT-based automatic plant watering tool can be developed and help overcome problems in watering plants. Automatic plant waterer using Soil Sensor, Water Pump, NODEMCU ESP8266, BLYNK App, RTC Sensor, Arduino Uno. The data input from the Soil Sensor is connected to the NODEMCU ESP8266 and the data will be sent online and will be monitored on the BLYNK App, the Water Pump is controlled by the RTC Sensor at a predetermined time and controlled manually via the BLYNK App, the NODEMCU ESP8266 as a microcontroller will send data and receive data from the BLYNK App online, the BLYNK App which is an IoT platform that will receive input/output data from the NODEMCU ESP8266, the RTC Sensor provides data input in the form of time on the Arduino Uno microcontroller to control the Water Pump, the Arduino Uno microcontroller which functions to receive data from the Sensor RTC and controls the Water Pump automatically at a predetermined time.
RANCANG BANGUN SISTEM KONTROL ALAT PENYIRAM TANAMAN OTOMATIS BERBASIS IoT YANG MENGGUNAKAN APP BLYNK Rumalutur, Sonny
Electro Luceat Vol 10 No 1 (2024): Elektro Luceat-Juli 2024
Publisher : LPPM Poltek ST Paul

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jelekn.v10i1.797

Abstract

It is hoped that this IoT-based automatic plant watering tool can be developed and help overcome problems in watering plants. Automatic plant waterer using Soil Sensor, Water Pump, NODEMCU ESP8266, BLYNK App, RTC Sensor, Arduino Uno. The data input from the Soil Sensor is connected to the NODEMCU ESP8266 and the data will be sent online and will be monitored on the BLYNK App, the Water Pump is controlled by the RTC Sensor at a predetermined time and controlled manually via the BLYNK App, the NODEMCU ESP8266 as a microcontroller will send data and receive data from the BLYNK App online, the BLYNK App which is an IoT platform that will receive input/output data from the NODEMCU ESP8266, the RTC Sensor provides data input in the form of time on the Arduino Uno microcontroller to control the Water Pump, the Arduino Uno microcontroller which functions to receive data from the Sensor RTC and controls the Water Pump automatically at a predetermined time.
RANCANG BANGUN SISTEM KONTROL KECEPATAN MOTOR MENGGUNAKAN SENSOR SUHU LM 35 Rumalutur, Sonny
Electro Luceat Vol 4 No 1 (2018): Electro Luceat (JEC) - July 2018
Publisher : LPPM Poltek ST Paul

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jelekn.v4i1.68

Abstract

This research is about controlling the circulation of room temperature which is done automatically if the room temperature is cold then motor rotation speed so slowly and vice versa if the room temperature is hot then motor rotation speed will be faster. In this study controlling the circulation of the room temperature with the fan in the activation is made automatically that is equipped with LM 35 temperature sensor which is then controlled using Arduino Uno and can adjust the speed of rotation from the fan. The fan can work automatically so it can simplify the man who previously the fan activation process is done by humans. And also can be more efficient in energy consumption because the fan works at the necessary time only. From the test results obtained that the system can work well in accordance with the planning and the role of the sensor is very important that can affect the overall success rate that is after the adjustment between software and hardware is equal to 80% by conducting tests periodically.
Co-Authors , Marcelino Petrus Saptono Alimuddin Mappa Alimuddin Mappa Erna Kurniawati Erna Kurniawati Erwin P Sianipar Ery Murniyasih Harling, Vina N. Van Jean Carlo Tarami john ohoiwutun Kasmi Edy Luluk Suryani Marcelino Petrus Saptono Marcelinus Petrus Saptono Marco Mambrisaw Martono, Stefany Margareta Saputro, Imam Trianggoro Serli Liling Allo Stefany Margareta Martono Stefany Martono Suriano Buyung Suriano Buyung VINA N VAN HARLING Waliulu, Raditya Faisal