THE DEVELOPMENT OF ELECTRONIC DEVICES FOR MEASURING THE HIGHER HARMONICS FOR SOLAR POWER PLANTS OF ALTERNATING CURRENT OF INDUSTRIAL FREQUENCY

The paper is devoted to the problem of determining the higher harmonics presence in a power network. The paper notes the negative influence of higher harmonics of voltage and current on the power supply system’s elements and communication lines. During the research, a device has been developed to analyze the higher harmonics of the power network. The main element of the device is the Arduino board on the Atmega328p microcontroller. For the correct operation of the device, the corresponding software has been created. The result of modeling of the proposed device operation is a set of harmonic values of the investigated signal in a form suitable for further analysis.

1. Measurement and elimination of harmonics: Issue 30. Technical collection of Schneider Electric (Izmerenie i ustranenie garmonik: vypusk 30. Tekhnicheskaya kollekciya Schneider Electric), 2009, 48 p.

2. Saenko Yu.L., Baranenko T., Baranenko E.V. Methods for compensating reactive power in networks with nonlinear loads (Metody kompensacii reaktivnoi moshchnosti v setyah s nelinejnymi nagruzkami). Bulletin of the Priazov State Technical University. Series: Engineering science, 2013;26:204–210 (in Russ.).

3. Zhezhelenko I.V. Higher harmonics in power supply systems of industrial enterprises (Vysshie garmoniki v sistemah elektrosnabzheniya promyshlennyh predpriyatii). Moscow: Energoatomizdat, 2000, 331 p. (in Russ.).

4. Asiminoaei L., Blaabjerg F., Hansen S. Evaluation of harmonic detection methods for active power filter applications. Proceedings of Twentieth Annual IEEE Applied Power Electronics Conference and Exposition, 2005 “APEC 2005”, pp. 635–641.

5. Dovgun A.A., Alferov.A.A. , AlferovaT.V. , Rudenko Yu.A. Automation of higher harmonics calculation in electrical networks of industrial enterprises with nonlinear load (Avtomatizaciya rascheta vysshih garmoniki v elektricheskih setyah promyshlennyh predpriyatii s nelinejnoi nagruzkoi). Bulletin of P.O. Suhoy GGTU, 2016;(3):46–52 (in Russ.).

6. Durdhavale S.R., Ahire D.D.A Review of Harmonics Detection and Measurement in Power System. International Journal of Computer Applications, 2016;143(10):42–45.

7. Bracewell, R.N. Computing with the Hartley Transform. Computers in Physics, 1995:9(4):373–379.

8. ArduinoFHTlibrary [E-resource]. Available on: http://wiki.openmusiclabs.com/wiki/ArduinoFHT (05.01.2018).

9. Ango A. Mathematics for electric and radio engineers (Matematika dlya elektro- i radioinzhenerov). Moscow: Nauka Publ., 1964, 772 p.

10. ArduinoUnoRev3 [E-resource]. – Available on: https://store.arduino.cc/usa/arduino-uno-rev3 (05.01.2018).