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All Journal PROSIDING : Seminar Nasional Fisika dan Pendidikan Fisika Teodolita: Media Komunikasi Ilmiah di Bidang teknik Indonesian Physical Review Journal of Electronic and Electrical Power Application
Anjar Taufik Hidayat
Universitas Indonesia
Civil Engineering, Building, Construction & Architecture Control & Systems Engineering Education Electrical & Electronics Engineering Energy Engineering Materials Science & Nanotechnology Physics Transportation Other

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Journal : Journal of Electronic and Electrical Power Application

 1 
Sistem Pemantauan Parameter Kelistrikan berbasis Komunikasi LoRaWAN dengan Platform Antares Fredre Nico Panggabean; Sigit Pramono; Anjar Taufik Hidayat
Journal of Electronic and Electrical Power Applications Vol. 3 No. 1 (2023): JEEPA Volume 3 Nomor 1
Publisher : Program Studi Teknik Elektro Universitas Peradaban

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58436/jeepa.v3i1.1427

Abstract

Electrical power is an important parameter to determine how much electrical energy is consumed or produced. Some systems that consume or generate electricity are located in remote or difficult-to-reach locations, for example monitoring volcanoes or micro-hydro power plants at the mountains. Therefore, we need a tool to monitor the electric power from afar. In this research a tool has been designed that can monitor electrical energy with the PZEM004T-10A sensor in real time using the LoRaWAN network on the Antares platform. From the results of system testing, it can be concluded that the designed system can run well according to its function. The results of the average percentage error reading of the PZEM004T sensor against the power meter measuring instrument show a very good value where the average error obtained in the voltage parameter is 0.45%, while the error value obtained for the current parameter is 0.22%, power is 1.44% and power factor of 0.15%. The performance of the Quality of Service delay value on the network according to the standard criteria issued by TIPHON, the delay value produced by SF7 and SF10 is categorized as a bad delay. Then the delay on SF9 and SF12 is included in the good category, and the delay produced by SF8 and SF11 is categorized as a very good delay. Meanwhile, the packet loss value is included in the very good criteria for SF8-SF12 and good for SF 7.
INTERNET OF THINGS BASED BATTERY PERFORMANCE MONITORING ON ELECTRIC SCOOTERS Ramadhan, Aditya Wiratama; Permatasari, Indah; Hidayat, Anjar Taufik
Journal of Electronic and Electrical Power Applications Vol. 3 No. 2 (2023): JEEPA Volume 3 Nomor 2
Publisher : Program Studi Teknik Elektro Universitas Peradaban

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58436/jeepa.v3i2.1662

Abstract

Batteries in electric vehicles, especially scooters, are very important to monitor to avoid the danger of overheating or to maintain battery life. In order for an electric scooter to run, a source of electrical energy is stored in a battery that is flexible and efficient. Batteries have the property of converting chemical energy into electrical energy, so it is necessary to carefully monitor their capacity. This can be done by monitoring several important parameters, namely: voltage, current, temperature on an electric bicycle. On electric scooters, it is necessary to take regular battery indicator readings. In this research, temperature sensor and voltage sensor are connected to Arduino. Arduino then sends data from the two sensors to the Blynk application via an internet connection. Users can access this data from the Blynk application on their smartphone and monitor battery performance on the electric scooter. Data sent from Arduino to the Blynk application can be used to monitor battery conditions on electric scooters in real-time and assist users in making decisions regarding the use of electric scooters. Through the test results obtained an average value of power on the battery of 71,46 W at a speed of 10 km/hour, at a speed of 20 km/hour the average value obtained was 79,34 W, and at a speed of 30 km/hour the average value the average power obtained is 87,62 W. So, the higher the vehicle speed, the higher the required battery performance.
PROTOTYPE OF TODDLER HEIGHT AND WEIGHT MEASURING DEVICE USING IoT. Ikmah, Maghfiroh Nur; Hidayat, Anjar Taufik; Wibisono, Gunawan
Journal of Electronic and Electrical Power Applications Vol. 4 No. 2 (2024): JEEPA Volume 4 Nomor 2
Publisher : Program Studi Teknik Elektro Universitas Peradaban

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58436/jeepa.v4i2.2033

Abstract

The application of IoT is needed to help human tasks, including in the health sector. For example, at the posyandu in previous habits of posyandu officers when measuring height and weight still use conventional equipment. and weight still use conventional equipment, the results also take a lot of time. Through these problems, this research makes a height and weight tool using a Load Cell sensor and an ultrasonic sensor that will be based on the Internet of Things. will be based on the Internet of Things with display of numeric data that appears on the Telkom IoT Platform and on the LCD. Designer tool consists of NodeMcu ESP32 as data processing, ultrasonic sensor (height), Load Cell sensor (weight), and LCD. (height), Load Cell sensor (weight) then the database will be stored in the body) then the database will be stored on the Telkom IoT Platform. For the results of 40 height experiments, the average error and accuracy values are 1.68% and 98.32%. For the average results of 40 weight trials, an error value of 1.85% and an accuracy value of 98.42% were obtained. The results for the calculation of the user assessment scale obtained a result of 35.75 which means the tool is quite good.
Co-Authors Banurea, Yakub Hasurungan Edy Wiyono Fredre Nico Panggabean Gunawan Wibisono Ikmah, Maghfiroh Nur Indah Permatasari Indah Permatasari Ramadhan, Aditya Wiratama Sigit Pramono Surantoro Surantoro