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All Journal JURNAL ELEKTRO Rang Teknik Journal Jurnal Ilmiah Realtech Jurnal Teknik Industri Terintegrasi (JUTIN) Jurnal Tunas Journal of Electrical Engineering and Computer (JEECOM)
Singgeta, Ryan Laksmana
Program Studi Teknik Elektro, Fakultas Teknik, Universitas Katolik De La Salle Manado
Arts Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Education Electrical & Electronics Engineering Energy Engineering Industrial & Manufacturing Engineering Mechanical Engineering Other

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PEMANFAATAN FLEXIFORCE SENSOR A401 PADA DISPENSER AIR OTOMATIS Singgeta, Ryan Laksmana; Manembu, Pinrolinvic D. K.
Jurnal Ilmiah Realtech Vol 15 No 2 (2019)
Publisher : Fakultas Teknik, Universitas Katolik De La Salle Manado

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52159/realtech.v15i2.89

Abstract

Ketepatan dalam memilih sebuah sensor akan sangat menentukan kinerja dari sistem pengaturan atau kendali secara otomatis. Salah satu jenis sensor yang banyak diaplikasikan untuk mengukur massa benda yaitu sensor tekanan dalam hal ini Flexiforce Sensor. Tujuan pada penelitian ini adalah untukmemanfaatkan Flexiforce Sensor A401 sebagai pengukur volume air pada gelas yang dituangkan atau dikeluarkan dari dispenserair otomatis yang berbasis Arduino Uno R3. Tahap pengujian diawali dengan mengukur tegangan keluaran dari sensor untuk proses kalibrasi, lalu dilanjutkan dengan pengujian Flexiforce Sensor A401 sebagai pengukur volume air pada gelas. Berdasarkan hasil dari pengujian, tingkat keakurasian dan tingkat ketepatan sensor pada volume air diatas 250 ml lebih baik dari pada dibawah 250 ml. Sedangkan untuk rata - rata error dari hasil pengujian sensor yang dilakukan sebesar 5,57%.
RANCANG BANGUN DISPENSER OTOMATIS MENGGUNAKAN SENSOR ULTRASONIK BERBASIS MIKROKONTROLLER ATMEGA2560 Singgeta, Ryan Laksmana; Rumondor, Refliano
Jurnal Ilmiah Realtech Vol 14 No 1 (2018)
Publisher : Fakultas Teknik, Universitas Katolik De La Salle Manado

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52159/realtech.v14i1.113

Abstract

Perkembangan teknologi sangat mempengaruhi kehidupan manusia. Salah satu perkembangan teknologi yaitu kemudahan yang dialami bisa dirasakan semua orang contohnya dengan terciptanya alat dispenser. Dispenser adalah suatu alat yang digunakan untuk menyajikan air minum dengan suhu nomal, panas dan dingin. Dispenser banyak digunakan untuk mempermudah penyajian air minum dalam memenuhi kebutuhan di dalam tubuh setiap orang. Saat ini alat tersebut telah banyak diperjualbelikan di pasaran. Inovasi teknologi dispenser terus dikembangkan oleh para peneliti agar kinerjanya lebih efektif dan efisien. Teknologi dispenser dikembangkan pada sistem otomatisasi. Paper ini bertujuan untuk merancang dispenser otomatis berbasis mikrokontroller ATMEGA2560. Dengan menggunakan sensor ultrasonik PING, level air pada gelas yang akan disajikan bisa diukur sehingga bisa dimanfaatkan dalam proses otomatisasi. Embedded system di implementasikan dalam mengintegrasikan beberapa perangkatkeras dan perangkat lunak. Berdasarkan hasil dari pengujian, dispenser otomatis yang dibangun dapat beroperasi dengan baik dan mempermudah penyajian air minum.
IMPLEMENTASI TEKNOLOGI RFID PADA DISPENSER AIR MINUM Ryan Laksmana Singgeta; Pinrolinvic D.K. Manembu; Refsi G. Sangkay
Jurnal Elektro Vol 12 No 1 (2019): April 2019
Publisher : Prodi Teknik Elektro, Fakultas Teknik Unika Atma Jaya Jakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (645.352 KB)

Abstract

berbagai bidang kehidupan manusia. Salah satu perangkat teknologi informasi yang sedang berkembang saat ini adalah teknologi RFID (Radio Frequency Identification). Pada paper ini akan dibahas mengenai implementasi teknologi RFID pada dispenser air sebagai akses untuk penyajian air minum. Beberapa komponen perangkat keras (hardware) yang digunakan dalam sistem ini antara lain, Mikrokontroller Arduino Mega 2560, tombol, RFID reader (MFRC522), relay, LCD display 16x2, dan pompa air yang diintegrasikan menjadi satu kesatuan sistem. Lima keping kartu (RFID tag) digunakan dalam percobaan dan pengujian pada sistem dispenser ini. Keping kartu tersebut akan dibaca oleh RFID reader (MFRC522) dan dikirimkan ke Mikrokontroller untuk diolah dan diproses. Berdasarkan hasil pengujian yang didapatkan dapat disimpulkan bahwa implementasi teknologi RFID pada sistem dispenser air minum secara keseluruhan dapat berjalan dengan baik, efektif dan sesuai yang diharapkan. The application of information technology is developing rapidly and affects various fields of human life. One of the information technology devices currently being developed is RFID (Radio Frequency Identification) technology. In this paper we will discuss about the implementation of RFID technology in water dispensers as access to drinking water. Some hardware components (hardware) used in this system include, Arduino Mega 2560 Microcontroller, buttons, RFID readers (MFRC522), relays, 16x2 LCD screens, and water pumps integrated into a single unit system. Five card pieces (RFID tags) are used in experiments and testing on this dispenser system. The chip card will be read by an RFID reader (MFRC522) and sent to a Microcontroller to be processed and processed. Based on the results obtained it can conclude the design that applies RFID to drinking water dispenser systems that are complete with good, effective and as expected.
IMPLEMENTASI SISTEM MONITORING PENGGUNAAN AIR MINUM PADA MULTIPLE DISPENSER BERBASIS IoT Ryan Laksmana Singgeta; Pinrolinvic D.K. Manembu
Rang Teknik Journal Vol 4, No 1 (2021): Vol. 4 No. 1 Januari 2021
Publisher : Fakultas Teknik Universitas Muhammadiyah Sumatera Barat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31869/rtj.v4i1.2248

Abstract

Abstrak: Penggunaan sarana dispenser air minum secara publik masih banyak ditemui di lingkungan sekolah/kampus, rumah sakit, kantor dan sebagainya untuk pemenuhan asupan air di dalam tubuh. Dengan penggunaan dispenser air minum secara bersama – sama maka perlu adanya manajemen penyajian air minum sehingga para pengguna dapat memperoleh bagiannya secara merata. Pada penelitian ini diimplementasikan sistem monitoring dan pengendalian penggunaan air minum pada multiple dispenser dengan berbasis IoT (Internet of Things). Sistem monitoring ini memanfaatkan modul RFID MFRC522 untuk mengidentifikasi ID (Identity) dari pengguna dan diolah oleh ESP32 WiFi sebagai pengendali sistem. Pemerataan penyajian air minum dilakukan dengan berbasis kuota dimana setiap pengguna diberikan bagiannya kurang lebih 600 ml per hari. Pengaturan volume air dari dispenser ke tumbler (wadah air minum) dilakukan dengan cara mengendalikan servo motor MG90S sebagai penggerak buka dan tutup kran dispenser secara otomatis. Selain itu, sistem ini dilengkapi dengan sensor infrared dalam pemilihan penyajian air minum sehingga untouchable. Berdasarkan hasil penelitian, sistem yang dibangun dapat bekerja sesuai yang diharapkan serta dapat meningkatkan efektifitas dalam melakukan pemerataaan penggunaan air minum secara real time dengan percent error 0,045%.
Pemanfaatan Alat Dispenser Pakan Ikan Otomatis Berbasis Internet Of Things oleh Kelompok Masyarakat Kaweruan Kabupaten Minahasa Utara dalam Meningkatkan Efektivitas dan Produktivitas Budidaya Ikan Mujair Ryan Laksmana Singgeta; Ignatia R. Honandar; Pinrolinvic D. K. Manembu
Jurnal TUNAS Vol 4, No 1 (2022): Edisi November
Publisher : LPPM STIKOM Tunas Bangsa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30645/jtunas.v4i1.71

Abstract

Freshwater fish farming is a leading commodity and an economic driver in North Minahasa Regency which is being developed and improved by the local government. This is a very big opportunity for community groups who wish to earn a fortune through freshwater fish farming. Community groups who are proposing partners have started cultivation activities, especially tilapia fish since 2019. Some of the problems faced by these groups lie in the effectiveness of fish farming, especially in the conventional fish feeding process. Where fish feeding is still fully supervised and carried out by the cultivation group so that it is considered less effective and efficient. For this reason, the team implemented an Internet of Things-based Automatic Fish Feed Dispenser Tool. This activity program uses a training and mentoring method approach including: training on tilapia fish cultivation; preparation of financial reports and design of automatic feed dispensers. Based on the evaluation results, in general, community groups are able to directly practice appropriate and appropriate tilapia fish cultivation, are able to understand the preparation of financial reports and how to manage simple cash inflows and outflows and the team can design an Automatic Fish Feed Dispenser Tool. The tools that have been designed can work properly, which can increase the effectiveness of tilapia fish farming.
Implementasi Alat Penyesuai Sudut Panel Surya Terhadap Cahaya Matahari Berbasis Arduino Nano Ryan Laksmana Singgeta; Swensy Wales; Julie C Rante; Chrysantus M. M. Padachan
Journal of Electrical Engineering and Computer (JEECOM) Vol 5, No 1 (2023)
Publisher : Universitas Nurul Jadid

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33650/jeecom.v5i1.5830

Abstract

Tenaga surya merupakan salah satu sumber energi bersih dan tidak menghasilkan emisi karbon atau polutan lainnya yang dapat merusak lingkungan. Salah satu alat yang menggunakan tenaga surya adalah panel surya dimana dapat mengubah energi matahari menjadi energi listrik. Panel surya pada umumnya, dipasang dengan posisi yang tetap sehingga menyebabkan nilai tegangan dan arus yang dihasilkan selalu bervariasi dan tidak stabil. Untuk itu, dirancang sistem kendali posisi panel surya, yang mana sistem ini akan menjadikan sudut datang cahaya matahari sebagai referensi, untuk menentukan posisi panel surya, agar cahaya matahari akan sebisa mungkin tegak lurus terhadap permukaan panel surya dalam jangka waktu yang lebih lama. Pada alat yang dirancang terdiri dari input/masukan Light Dependent Resistor untuk mendeteksi sudut datang sinar matahari. Nilai masukan dari sensor tersebut diproses dan diolah oleh Arduino Nano sebagai nilai pembanding dengan nilai referensi pada sistem kendali sehingga menghasilkan nilai keluaran untuk mengendalikan Motor DC (Direct Current). Berdasarkan hasil pengujian, pada saat cuaca berawan panel surya dengan pengatur sudut otomatis mampu menghasilkan daya lebih banyak 17.96 % dibandingkan dengan daya rata-rata yang diterima panel surya sudut yang tetap. Sedangkan pada kondisi cuaca yang cerah, panel surya dengan pengatur sudut otomatis mampu menghasilkan daya lebih banyak 39.96 % dibandingkan dengan daya rata-rata yang diterima panel surya dengan sudut tetap.
Pemberdayaan Kelompok Pembudidaya Dalam Pengaplikasian Sistem Monitoring Kualitas Air Kolam Berbasis Iot Untuk Meningkatkan Hasil Panen Ikan Mujair Desa Kaweruan, Kabupaten Minahasa Utara Ryan Laksmana Singgeta; Ignatia R. Honandar; Pinrolinvic D. K. Manembu
Jurnal TUNAS Vol 5, No 1 (2023): Edisi November
Publisher : LPPM STIKOM Tunas Bangsa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30645/jtunas.v5i1.103

Abstract

In the journey to develop this business, there were two main problems that were experienced and became urgent, including: There was a time when there were tilapia fish that died in large enough numbers so that they experienced crop failure. The second problem is that cultivation groups have not been able to maintain tilapia fish seeds properly. The third problem is that cultivation groups have not been able to carry out good financial management, so they have not received the targeted profits. For this reason, the team designed a pool water quality monitoring system based on the Internet of Things (IoT) which is related to research that has been carried out and published previously. The aim of the activities carried out is to empower tilapia fish cultivation groups to be able to increase harvest yields to a good grade and more than before. In the progress stage, the team has conducted 1) training and assistance on how to properly care for tilapia fish seeds; 2) training and assistance in financial management of cultivation groups and will be continued 3) introduction of an IoT-based pond water quality monitoring system and its operation. Based on the results of the activity, it can be concluded that the tilapia fish cultivation group in Kaweruan village can understand and explain the influence of water quality on the growth of tilapia fish and is skilled in practicing how to compile a cash book using a simple application. Meanwhile, the water quality monitoring tool that has been designed can operate well and can be monitored remotely for PH, TDS, temperature, and water level values with an Internet connection.
ANALISIS KUALITAS AIR IRIGASI DENGAN METODE STORET DAN METODE INDEKS PENCEMARAN (IP) PADA MONITORING SYSTEM BERBASIS IOT Raco, Brigitha; Singgeta, Ryan Laksmana
Rang Teknik Journal Vol 8, No 1 (2025): Vol. 8 No. 1 Januari 2025
Publisher : Fakultas Teknik Universitas Muhammadiyah Sumatera Barat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31869/rtj.v8i1.6151

Abstract

The degradation of water quality, a result of various human activities and climate change, poses a significant threat to agricultural productivity and food security. The complex process of testing water quality for irrigation, typically surface water, involves multiple stages and laboratory testing. This research, crucial in the current context, aims to determine water quality in irrigation using IoT-based testing, as PP. RI No. 82 tahun 2001. The use of IoT-based testing simplifies the water quality testing process. The water quality methods employed in this study are the STORET Water Quality Method and the Pollution Index Method (IP). The research focuses on the water quality in Tara Tara Village, West Tomohon District, Tomohon City, North Sulawesi. The initial research stage was to design a monitoring device with three sensors determining water quality: water temperature, TDS, and pH.  Sensors are connected and integrated with the ESP32 Microcontroller. The value output can be accessed using the internet on the ThingSpeak Application. The results of the STORET method show that in class II and class III, there are pH parameters that do not meet the quality standards at the minimum value, so they get a value of -1, which classifies class II and class III as lightly polluted. However, for class IV, it shows that it is not polluted. The IP method results obtained for class II and III were 0.430, and for class IV were 0.422, with the category of meeting water quality standards. Keywords: IoT, Irrigation, Pollutant Index Method, STORET Method, Water Quality.
Rancang Bangun Alat Gerak Jatuh Bebas Berbasis Arduino Uno Pada Praktikum Fisika Rante, Julie Cynthia; Singgeta, Ryan Laksmana; Padachan, Chrysantus M.M.; Koyongian, Randi
Journal of Electrical Engineering and Computer (JEECOM) Vol 5, No 2 (2023)
Publisher : Universitas Nurul Jadid

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33650/jeecom.v5i2.6877

Abstract

Free fall motion is a falls down movement of an object due to the influence of the earth's gravitational force without any other significant forces affecting the movement. In free fall, the acceleration of an object is always constant and heading downward, and its value is about 9.8 meters per second squared (m/s²) on the Earth's surface. The implementation of free fall motion technology is expected to help students in doing their basic physics practicum so that observations is no longer done manually using a stopwatch. In addition, with this teaching media, the measurement data will be more constant in value because it has been arranged in the system, so that the results will be more accurate. The implementation of this free fall motion media is used to measure the travel time of an object, its speed and gravity value during free fall from a height of 60 cm and 30 cm. The travel time can be determined using a timer of an Arduino Uno and an Infrared Sensor that will be detected and read when there is an object passing by. Based on experiments that have been carried out at a height of 60 cm using ping pong ball, large marble, and small marble, the obtained value of gravitational acceleration is almost the same as the average value of gravitational acceleration measured namely 9.99, 10.00, and 10.24 m⁄s2 respectively. At a height of 30 cm, using the same objects, the obtained value of gravitational acceleration is 10.62 m⁄s2 .
Rancangan gelang pintar untuk siswa tunarungu menggunakan metode Quality Function Deployment Tumewu, Tryadi Wilhelmus; Singgeta, Ryan Laksmana; Rachmadi, Ronald Albert; Raton, Yulius Christian; Rottie, Ronaldo Ignasius Ferdy
Jurnal Teknik Industri Terintegrasi (JUTIN) Vol. 7 No. 4 (2024): October
Publisher : LPPM Universitas Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/jutin.v7i4.37568

Abstract

Improving the quality of life for deaf students with special needs, the development of assistive technology is crucial to aid in the classroom learning process. This research aims to design an assistive technology in the form of a Smartband that is beneficial for helping deaf students to interact, understand instructions, and engage in social interactions. The design of this smartband employs the Quality Function Deployment method to ensure that the needs and desires of deaf students are met in the designed device. Based on the analysis of questionnaires from 43 deaf students, eight Customer Requirements were identified. The top priorities for development were voice call detection (14.2%), surrounding hazard alerts (13.99%), and notification capabilities (13.49%). By utilizing the Relationship Matrix in the House of Quality, the Technical Priorities to be developed were determined, namely a voice recognition sensor (19% with a technical importance score of 135), followed by ESP32 and Vibration Motor (16% with a technical importance score of 117). The designed smart bracelet functions well but requires further evaluation, especially in terms of aesthetics, as the current respondents were limited and did not differentiate based on age, which is known to have varying preferences.
Co-Authors Brigitha Raco, Brigitha Chrysantus M. M. Padachan Ignatia R. Honandar Ignatia R. Honandar Julie C Rante Koyongian, Randi Padachan, Chrysantus M.M. Pinrolinvic D. K. Manembu Pinrolinvic D. K. Manembu Pinrolinvic D.K. Manembu Pinrolinvic Manembu Rachmadi, Ronald Albert Rante, Julie Cynthia Raton, Yulius Christian Refsi G. Sangkay Rottie, Ronaldo Ignasius Ferdy Rumondor, Refliano Swensy Wales Tumewu, Tryadi Wilhelmus