Penampil Gelombang Tegangan dan Arus Berbasis Arduino Due untuk Generator AC Tiga Fasa

MARTANTO MARTANTO, RB DWISENO WIHADI, RONNY DWI AGUSULISTYO, TJENDRO TJENDRO

Sari


ABSTRAK

Dalam pengembangan generator tiga fasa magnet permanen diperlukan pengukuran besaran-besaran untuk melihat karakteristik generator. Besaran yang biasanya diukur adalah tegangan, arus, dan daya, namun bentuk gelombang keluaran tegangan dan arus tiap fasa kurang diperhatikan apakah sinus atau tidak. Maka perlu dirancang sebuah sistem yang bisa menampilkan bentuk gelombang tegangan dan arus sekaligus. Sistem ini diimplementasikan menggunakan sensor tegangan, sensor arus, rangkaian pengondisi sinyal, Arduino Due, dan komputer sebagai penampil menggunakan bahasa Python. Hasil pengujian diperoleh bahwa sistem bisa menampilkan bentuk gelombang keluaran tegangan dan arus, menampilkan nilai maksimum, minimum, rerata, dan rms. Nilai galat rata-rata untuk ketiga pengukuran tegangan adalah 1%, dan untuk pengukuran arus adalah 3,15%.

Kata kunci: gelombang tegangan dan arus, Arduino Due, Python, tiga fasa

 

ABSTRACT

The development of three phase permanent magnet generators require the measurement of related quantities to determine the characteristics of generator. The common measured quantities are voltage, current, and power. However the voltage and current output waveforms of each phase are not considered. Therefore a system is designed which is able to display voltage and current waveforms at once. This system is implemented using a voltage sensor, current sensor, signal conditioning circuit, Arduino Due, and a computer as a GUI using the Python programming language. The results of implementation and testing show that the GUI is able to display the voltage and current output waveforms, in addition, performs the maximum, minimum, average, and rms values. The average error value for the three voltage measurements is 1%, and for the three current measurements is 3.15%.

Keywords: voltage and current waveforms, Arduino Due, Python, three phases


Kata Kunci


gelombang tegangan dan arus; Arduino Due; Python; tiga fasa

Teks Lengkap:

PDF

Referensi


Abdillah, A.W., Syahrial, Waluyo, (2016), Perancangan Generator Magnet Permanen dengan Arah Fluks Aksial untuk Aplikasi Pembangkit Listrik. Jurnal Reka Elkomika, 4(2):93-108

Allegro, (2019), Fully Integrated, Hall-Effect-Based Linear Current Sensor IC with 2.1 kVRMS Isolation and a Low-Resistance Current Conductor ACS712, Allegro MicroSystems.

Arduino, (2017), Getting started with the Arduino Due, Retrieved from

https://www.arduino.cc/en/Guide/ArduinoDue.

Arduino, (2019), Language Reference, Retrieved from https://www.arduino.cc/reference/en/

Carter, B., Brown, T.R., (2016), Handbook of Operational Amplifier Applications, Texas Instruments Incorporated.

Emmanuel, O., (2018), Arduino Based Real-Time Oscilloscope, Retrieved from https://circuitdigest.com/microcontroller-projects/arduino-oscilloscope-code-circuit

Karim, I.A., (2014), A low cost portable oscilloscope based on Arduino and GLCD, International Conference on Informatics, Electronics and Vision, ICIEV 2014.

Kuchling, A.M., (2010), The Python Tutorial, Retrieved from https://docs.python.org/2.7/tutorial/index.html.

Noprizal, L., Syukri, M., Syahrizal. (2016). Perancangan Prototype Generator Magnet Permanen 1 Fasa Jenis Fluks Aksial pada Putaran Rendah. KITEKTRO, 1(1), 40-44

Prasetijo, H., Ropiudin, Dharmawan, B.. (2012). Generator Magnet Permanen Sebagai Pembangkit Listrik Putaran Rendah. Dinamika Rekayasa, 8(2), 70-77

Texas Instruments, (2019), LMx58-N Low-Power, Dual-Operational Amplifiers, Texas Instruments Incorporated.

Willems, K., (2017), Beginners Guide, Retrieved from https://wiki.python.org/moin/BeginnersGuide.




DOI: https://doi.org/10.26760/elkomika.v8i2.336

Refbacks

  • Saat ini tidak ada refbacks.


_______________________________________________________________________________________________________________________

ISSN (print) : 2338-8323 | ISSN (electronic) : 2459-9638

Publisher:

Department of Electrical Engineering Institut Teknologi Nasional Bandung

Address: 20th Building  Institut Teknologi Nasional Bandung PHH. Mustofa Street No. 23 Bandung 40124

Contact: +627272215 (ext. 206)

Email: jte.itenas@itenas.ac.id________________________________________________________________________________________________________________________


Free counters!

Web

Analytics Made Easy - StatCounter

Statistic Journal

Jurnal ini terlisensi oleh Creative Commons Attribution-ShareAlike 4.0 International License.

Creative Commons License