Reducing the Harmonics Level in a Three-Level Single-Phase Autonomous Inverter without Pulse-Width Modulation

被引：0

作者：

Shchurov, N.I. ^{[1
]}

Myatezh, S.V. ^{[1
]}

Lisitsyn, P.S. ^{[1
]}

Abramov, E. Yu. ^{[1
]}

Latyshev, R.N. ^{[1
]}

机构：

[1] Novosibirsk State Technical University, Novosibirsk

来源：

Russian Electrical Engineering | 2024年 / 95卷 / 05期

关键词：

harmonics; load balancing; modulation; multilevel inverter; pulse-width modulation;

D O I：

10.3103/S1068371224700445

中图分类号：

学科分类号：

摘要：

Abstract: An autonomous multilevel single-phase inverter with no applied pulse-width modulation (PWM) and capacitive voltage dividers, the output voltage curve of which is close to a sine-wave shape and corresponds to the contemporary standards of electrical energy quality for 0.38-kV networks is considered. As compared with inverters with the use of PWM, the proposed inverter, owing to the use of low switching frequencies for power semiconductors at a level of the industrial frequency of 50 Hz and due to the optimal use of different-level amplitudes, should not generate significant electromagnetic interference and not cause accelerated wear in the insulation of connected equipment. Studies that have been performed with mathematical and physical models have demonstrated the potentiality of obtaining a voltage with a permissible harmonic coefficient at a level of KHU amounting to about 6.36% for 0.38-kV networks with the use of a three-level autonomous inverter constructed based on a three-core magnetic circuit of the transformer with a passive LC filter containing a sequential resonant circuit. © Allerton Press, Inc. 2024. ISSN 1068-3712, Russian Electrical Engineering, 2024, Vol. 95, No. 5, pp. 402–411. Allerton Press, Inc., 2024. Russian Text The Author(s), 2024, published in Elektrotekhnika, 2024, No. 5, pp. 58–67.

引用

页码：402 / 411

页数：9

共 10 条

[1]

Matyukhin S., Stavtsev A., Modeling of frequency characteristics of power semiconductor devices, Silovaya Elektron, 4, pp. 34-40, (2010)

[2]

Bakhovtsev I.A., Comparative analysis of two-level PWM AIN control methods, IX Mezhdunar. Nauchno-tekhnich. konf.: Silovaya elektronika i mekhanotronika. Ustroistva avtomatiki i sistemy upravleniya (9th Int. Sci. and Tech. Conf.: Power Electronics and Mechatronics: Automation and Control Systems), 7, (2008)

[3]

Myatezh S.V., Lisitsyn P.S., Construction of multi-level inverters for an autonomous power supply system for responsible electric receivers of mining industry enterprises, Gorn. Inf.-Anal. Byull., 10-1, pp. 110-126, (2023)

[4]

Electric Energy. Electromagnetic Compatibility of Technical Equipment. Power Quality Limits in the Public Power Supply Systems, (2014)

[5]

Myatezh S.V., Lisitsyn P.S., On output-voltage shape correction of two- and three-level single-phase autonomous inverters without pulse-width modulation, Russ. Electr. Eng, 94, pp. 351-355, (2023)

[6]

Pustovetov M.Y., Parameters of filters for frequency-controlled electric drive with induction motors, Elektrichestvo, 5, pp. 41-44, (2013)

[7]

Pustovetov M.Y., Parameter analysis and computer simulation of sine filters in vvvf-drive, Vestn. Donskogo Gos. Tekh. Univ., 12, 3, pp. 56-64, (2012)

[8]

Chaplygin E.E., Khukhtikov S.V., Control method for self-commutated voltage inverter with vector PWM, Prakt. Silovaya Elektron., 3, pp. 40-43, (2010)

[9]

Zhezhelenko I.V., Vysshie Garmoniki V Sistemakh Elektrosnabzheniya Prompredpriyatii (Higher Harmonics in Industrial Power Supply Systems), (2000)

[10]

Tikhomirov P.M., Raschet Transformatorov (Calculation of Transformers), (1986)

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