Article Per Year (5 Year)
p-Index From 2019 - 2024
1.235
P-Index
This Author published in this journals
All Journal Jurnal Teknologi Elektro PROtek : Jurnal Ilmiah Teknik Elektro Jurnal Sustainable: Jurnal Hasil Penelitian dan Industri Terapan Jurnal Segara Journal of Applied Electrical Engineering Electron: Jurnal Ilmiah Teknik Elektro Jurnal Pengabdian Masyarakat Nusantara
Tonny Suhendra
Universitas Maritim Raja Ali Haji
Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Earth & Planetary Sciences Electrical & Electronics Engineering Energy Environmental Science Industrial & Manufacturing Engineering Materials Science & Nanotechnology

Published : 7 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 7 Documents
Search

 1 
Implementasi Sistem Monitoring Kecepatan Angin, Suhu, dan Kelembaban Berbasis Web di Daerah Kepulauan Rian Anjasmara; Tonny Suhendra; Anton Hekso Yunianto
Journal of Applied Electrical Engineering Vol 3 No 2 (2019): JAEE, December2019
Publisher : Politeknik Negeri Batam

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1050.797 KB) | DOI: 10.30871/jaee.v3i2.1485

Abstract

Pengukuran suhu, kelembaban, dan kecepatan angin sangat penting untuk dilakukan di pulau sebagai informasi cuaca kepada masyarakat. Sistem monitoring ditambahkan perangkat pengiriman data menggunakan kartu GSM agar dapat ditampilkan datanya ke dalam dashboard platform online. Penelitian ini bertujuan melakukan pengembangan sistem monitoring kecepatan angin, suhu, dan kelembaban berbasis web yang dapat diterapkan di daerah kepulauan, pemantauan data secara realtime yang terkirim ke platform, dan pengukuran konsumsi daya pada perangkat. Metode penelitian ini dilaksanakan dengan melakukan studi literatur, observasi, perancangan, dan pengujian sistem. Pada penelitian ini GSM Shield SIM900 digunakan sebagai perangkat pengiriman data, DHT22 sebagai perangkat sensor suhu dan kelembaban, perangkat anemometer sebagai pembaca kecepatan angin, platform Thingspeak sebagai penampil data, dan micro SD Card sebagai penyimpanan data cadangan. Hasil penelitian didapatkan bahwa pengembangan sistem monitoring suhu, kelembaban, dan kecepatan angin telah berhasil dilakukan dengan pengiriman data menggunaakan GSM yang ditampilkan ke dalam platform Thingspeak. Data yang tidak terkirim ke server diduga karena kualitas sinyal GSM pada saat pengiriman data tidak cukup kuat atau karena adanya timeout. Sistem monitoring ini menghabiskan daya sebesar 0,977 Wh.
Effect of Pulse Width Modulation on Proportional, Integral, and Derivative Coefficient Characteristics Tonny Suhendra
PROtek : Jurnal Ilmiah Teknik Elektro Vol 10, No 2 (2023): PROtek : Jurnal Ilmiah Teknik Elektro
Publisher : Program Studi Teknik Elektro Universitas Khairun

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33387/protk.v10i2.5033

Abstract

Based on the value of feedback obtained from the sensor (LDR), the PID algorithm uses the error value obtained from the comparison between the sensor value and the setpoint value to perform calculations so that the PWM generator will use the output value to produce a row of pulses that will be converted to a voltage (signal) with a range of  0 to 255 (0 volt to 5 volt)  and is used to turn on the LED lamp according to the desired light level. The output characteristics generated by the PID control for each coefficient can be used as a benchmark to determine the correct coefficient value for Propotional coefficient, Integral coefficient and Derivative coefficient  as a whole. From the test results, it can be seen that the coefficient value adjustment can be taken based on the size of the difference or error contained in the system. If the difference in error is slight, the use of large coefficient values, especially in derivative coefficients. It helps the system achieve a stable condition and reduces overshoot. Still, if the error value is significant, then applying a considerable efficiency value will make the system achieve stable condition stable becomes a little tricky because it is possible to overshoot the PID output.
IMPLEMENTASI SISTEM KEAMANAN LOKER BERBASIS WIRELESS SENSOR NETWORK DI PERPUSTAKAAN PUSAT UMRAH: Implementasi Sistem Keamanan Loker Berbasis Wireless Sensor Network di Perpustakaan Pusat UMRAH Riski Putra; Alena Uperiati; Tonny Suhendra; Dwi Amelia Purnamasari
Sustainable Vol 12 No 1 (2023): Jurnal Sustainable : Jurnal Hasil Penelitian dan Industri Terapan
Publisher : Fakultas Teknik Universitas Maritim Raja Ali Haji

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31629/sustainable.v12i1.4751

Abstract

Perkembangan teknologi dan sistem automasi berkembang semakin pesat. Kemajuan teknologi turut membantu dalam pengembangan sistem keamanaan menjadi lebih baik. Pada awalnya sistem keamanaan pada loker dilakukan secara manual dan kurang praktis dibandingkan dengan sistem teknologi saat ini. Hal ini membuat peneliti melakukan inovasi membangun sistem keamanan loker pada perpustakaan menggunakan RFID berbasis Wireless Sensor Network, dan tidak lagi menggunakan kunci konvensional sebagai akses membuka loker. Harapannya keberadaan suatu barang yang berada di loker dapat dilakukan monitoring dalam layar atau informasi node, baik dalam tampilan layar dan penyimpanan database sehingga memastikan kondisi loker tetap aman. Berdasarkan hasil penelitian yang dilakukan dapat disimpulkan bahwa sistem keamanan loker Menggunakan metode prototype berhasil diimplementasikan dalam membangun sistem keamanan loker menggunakan RFID berbasis Wireless Sensor Network yaitu, sistem keamanan loker berbasis RFID RC522 telah berhasil dibuat dan dapat bekerja dengan baik sesuai rancangannya. Sistem keamanan loker berbasis RFID ini menggantikan kunci konvensional menjadi card RFID yang dapat membuka loker dan sistem keamanan loker juga dapat dimonitoring melalui web dan perangkat ini tersambung dengan jaringan Wi-Fi.
Mini Power Plant Sebagai Pemanfaatan Potensi Energi Baru Terbarukan di Desa Lancangkuning Bintan tonny Suhendra; Ahmad Syafiq; Sapta Nugraha; Rusfa; Anton Hekso Yunianto; Septia Refly; Hollanda Arief Kusuma; Lucky Pradana
Jurnal Pengabdian Masyarakat Nusantara Vol 2 No 2 (2023): Vol.2 No.2 (Juni 2023)
Publisher : Universitas Nusantara PGRI Kediri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29407/dimastara.v2i2.20237

Abstract

Abstrak—Dalam kegiatan ini dilakukan dengan tujuan melakukan pengenalan teknologi pembangkit listrik yang menggunakan energi baru terbarukan serta memanfaatkan cahaya matahari sebagai sumber energi di desa Lancangkuning, Kab. Bintan Kepulauan Riau. Hal ini dilakukan karena sebagian besar wilayah Indonesia memiliki potensi yang belum termanfaatkan berkaitan energi matahari sebagai energi alternatif yang bisa dikonversi menjadi energi listrik. Dan juga memberikan pemahaman kepada masayarakat melalui sosialisasi, bahawa membangun sebuah pembangkit listrik khususnya mini power plant tidak membutuhkan biaya yang besar, karena saat ini sudah banyak banyak pilihan (solar panel, baterai, solar charge controller dll) yang bisa digunakan dan harganya sudah sangat terjangkau. Dengan melakukan kegiatan ini juga diharapkan masyarakat dapat membangun sebuah pembangkit mini dengan harga murah, dan wilayah Indonesia memiliki potensi untuk membangun pembangkit berbasis energi baru terbarukan oleh masyarakat secara mandiri, khususnya pada off-grid system. Hasil dari kegiatan ini adalah sebuah prototype pembangkit listrik dengan kategori Mini Power Plant, yang di telah diujikan di salah satu pos ronda yang ada di desa Lancangkuning, dan juga pemehaman masayarakat sekitar berkaitan dengan pemanfaatan energi baru terbarukan (EBT), khususnya energi matahari. Kata Kunci—EBT, Solar Panel, Mini Power Plant, Energi Matahari, Energi Alternatif
Development Arduino Data Logger using TDR H3CR for Tidal Simulator Hollanda Arief Kusuma; Riandra Putra; Tonny Suhendra
Jurnal Teknologi Elektro Vol 15, No 1 (2024)
Publisher : Electrical Engineering, Universitas Mercu Buana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22441/jte.2024.v15i1.010

Abstract

Tides are the rise and fall of sea level repeatedly over a certain period of time. Tides have an important role in life, such as in the aspects of tourism, fisheries, economy, shipping, and student research. Learning media innovation develops until it looks real, which is called a simulation or simulator application. Simulator media as learning has many benefits, such as shortening research time and reducing research funds. Raja Ali Haji Maritime University has a tidal simulation model that has been equipped with a floodgate, and the weakness of the simulator is that it still uses a manual system. Researchers developed a new tidal simulation tool without a generator and only analyzed the up and down data that had been set using H3CR, DC Water Pump, and DC Selenoid Valve as a tool for automatic tidal circulation commands.
IoT Sea Level Monitoring Development and Field Testing Study Hollanda Kusuma; Muhammad Aris Akbar; Tonny Suhendra; Achmad Zuchriadi; Allsay Kitsash Addifisyukha Cintra
ELECTRON Jurnal Ilmiah Teknik Elektro Vol 4 No 2: Jurnal Electron, November 2023
Publisher : Jurusan Teknik Elektro Fakultas Teknik Universitas Bangka Belitung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33019/electron.v4i2.50

Abstract

The measurement of sea level is essential to oceanography because it provides vital information about the ocean environment, such as tides, currents, and water temperature. This research aimed to develop an Internet of Things (IoT)-based sea level monitoring device that can precisely measure sea level and transmit data in real time. An ESP32 microcontroller, a GSM module, an MS5803-14BA sensor, and a battery constituted the device. To protect the electronics from the ocean environment, the components were assembled on a PCB board and placed within a waterproof box. The field test was conducted for 17 hours at the Class 1 Navigation Office Port in Tanjungpinang, and the Ubidots platform was used to monitor the data. The device accurately measured sea level with an RMSE of 0.69 cm and an accuracy rate of 99.47%, according to the results. However, the field test also revealed problems with data transmission, with 18.81% of the data not being transmitted to the server. This low data transmission rate may have been caused by low RSSI levels and signal quality issues with the operator. To understand the causes of these data losses and improve the device's overall performance, additional research is required. This study demonstrated the viability of utilizing an Internet of Things-based sea level monitoring device to precisely measure sea level and transmit data in real time. It provides valuable information for the improvement and further development of sea level monitoring systems.
IoT Sea Level Monitoring: A Study on the Development and Field Testing Hollanda Arief Kusuma; Muhammad Aris Akbar; Tonny Suhendra
Jurnal Segara Vol 19, No 1 (2024): April
Publisher : Politeknik Kelautan dan Perikanan Dumai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15578/segara.v19i1.12352

Abstract

The measurement of sea level is important in oceanography, as it provides critical information about the ocean environment, including tides, currents, and water temperature. This study aimed to develop an IoT-based sea level monitoring device that can accurately measure sea level and transmit the data in real time. The device consisted of various components: an ESP32 Microcontroller, a GSM Module, an MS5803-14BA sensor, and a battery. The components were assembled on a PCB board and placed inside a waterproof box to protect the electronics from the ocean environment. The field test was conducted for 17 hours at the Tanjungpinang Class 1 Navigation Office Port, and the data was monitored through the Ubidots platform. The results showed that the device accurately measured sea level, with an RMSE value of 0.69 cm and an accuracy rate of 99.47%. However, the field test also revealed data transmission issues, with 18.81% of the data not being sent to the server. This low data transmission rate may have been due to low RSSI levels and issues with operator signal quality. Further research is needed to understand the reasons behind these data losses and to improve the device's overall performance. This study demonstrated the feasibility of using an IoT-based sea level monitoring device to accurately measure sea level and transmit the data in real time. It provides valuable information for further development and improvement of sea level monitoring systems.
Co-Authors Achmad Zuchriadi Ahmad Syafiq Alena Uperiati Allsay Kitsash Addifisyukha Cintra Dwi Amelia Purnamasari Hollanda Arief Kusuma Hollanda Kusuma Lucky Pradana Muhammad Aris Akbar Rian Anjasmara Riandra Putra Riski Putra Rusfa Sapta Nugraha Septia Refly Yunianto, Anton Hekso