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Analysis and modeling of the converter with active rectifier and its influence on energy efficiency of the electric drive
aUniversity of Novi Sad, Technical Faculty, Zrenjanin
bInformatika AD, Beograd

emailsinik.vladimir@gmail.com
Keywords: active rectifier; electric drive; simulation model; Matlab / Simulink; harmonic analysis; compression
Abstract
The aim of this paper is to present, analyse and demonstrate the benefits of using an active bidirectional rectifier as a front end converter in the variable speed drive converter of an electric motor. The use of an active bidirectional rectifier allows for more advanced operation of the drive, in terms of current waveshape, energy recovery during braking or generating mode of the motor. Also the compensation of the reactive power of consumers connected to the same common point of connection to network can be performed with the active bidirectional rectifier of the proposed drive. In addition to the basic drive topology with an active rectifier and corresponding control mode, the experimental results and results of the simulation on the model are given in several operating points of case study plant.
References
*** (2014) Electromagnetic compatibility: Limits, section 2: Limits for harmonic current emissions (equipment input current up to and including 16 A per phase). part 3, IEC/EN 61000-3-2/A14 4th Edition, May
*** (2014) SINAMICS S120/S150: List Manual. Edition 04 (https://cache.industry.siemens.com/dl/files/911/99682911/att_863921/v1/S 120_S150_List_Manual_LH1_0414_eng.pdf, 07.09.2017.)
*** (2014) SINAMICS S120: Control Units and additional system components: Manual. Edition 04, (https://www.automatyka.siemens.pl/docs/docs_ia/S120-CU-andcomponents-0414-en.pdf, 07.09.2017.)
*** (2009) SINAMICS S120: Control Units and Supplementary System Components: Manual. 11, (http://www.industry.usa.siemens.com/datapool/us/dt/drives/docs/drvsinamics_s120-cu_comp_manual.pdf, 07.09.2017.)
*** (2012) SINAMICS S120: Function Manual. 01, (https://cache.industry.siemens.com/dl/files/625/59737625/att_59993/v1/FH 1_012012_eng_en-US.pdf, 07.09.2017.)
*** (2013) SINAMICS S120: Booksize Power Units: Manual. 01, Accessed: 07.09.2017. [Online]. Available: https://cache.industry.siemens.com/dl/files/012/68042012/att_97659/v1/GH 2_0113_eng_en-US.pdf
*** Simulink. Accessed: 06.09.2017. [Online]. Available: https://en.wikipedia.org/wiki/Simulink#cite_note-2
Guccione, S., Swamy, M.M., Stankovic, A. (2002) Three-Phase Pulse-Wisth-Modulated Boost-Type Rectifiers. in: Skvarenina Timothy L. [ed.] The Power Electronics Handbook, CRC Press, ch 4.3
IEEE (2014) Standard 519: IEEE recommended practices and requirements for harmonic control in electrical power systems. New York
Janda, Ž. (2004) Jedna klasa trofaznih ispravljača sa sinusoidalnom strujom koji koriste ubrizgavanje viših harmonika struje. Beograd, Doktorska disertacija
Jeftenić, B., Bebić, M., Mihailović, I., Rašić, N., Štatkić, S., Aleksandrović, S., Jeftenić, I., Jevtić, D., Ristić, L. (2015) Power converters on mining machines. in: 18th Inernational Symposium on Power Electronics - IEEE 2015, Novi Sad, Srbija, 28.-30. oktobar
Jeftinić, B., Štatkić, S., Bebić, M., Ristić, L. (2012) Multimotor controlled drives and energy efficiency in practice. in: Energy efficiency of electrical drives, Čačak: University of Kragujevac-Faculty of technical sciences, (in Serbian), ISBN:978-86-7776-147-9, UDC 621 313, pp 219 - 337
Katić, V. (2002) Kvalitet električne energije - viši harmonici. Novi Sad: Fakultet tehničkih nauka
Kazmierkowski, M.P., Malesani, L. (1998) Current control techniques for three-phase voltage-source PWM converters: A survey. IEEE Transactions on Industrial Electronics, 45(5): 691-703
Kazmierkowski, M.P., Blaabjerg, F., Krishnan, R. (2002) Control in Power electronics: Selected problems. Academic Press Elsevier Science
Kolar, J.W., Friedli, T. (2013) The Essence of Three-Phase PFC Rectifier Systems. IEEE Transactions on Power Electronics, Part I, Volume: 28, Issue: 1, pp 176-198
Majid, A., Saleem, J., Alam, F., Bertilsson, K. (2013) Analysis of radiated EMI for power converters switching in MHz frequency range. in: IEEE 9th International Symposium on Diagnostics for Electric Machines, Power Electronics and Drives (SDEMPED 2013), Valencia (Spain), Aug. 27-30, Proc, 428-432
Noguchi, T., Tomiki, H., Kondo, S., Takahashi, I. (1998) Direct power control of PWM converter without power-source voltage sensors. IEEE Transactions on Industry Applications, 34(3): 473-479
Ristić, L., Bebić, M., Taulo, T., Šinik, M., Mihailović, I., Jevtić, D., Rašić, N. (2017) Analysis of energy efficiency and ingluence to the supply grid of electrical drives with active rectifier. in: VI regionalna konferencija Industrijska energetika i zaštita životne sredine u zemljama jugoistočne Evrope IEEP 2017, Zlatibor, Srbija, 21-24. jun
Šinik, M., Ristić, L., Bebić, M., Štatkić, S., Jevtić, D., Rašić, N., Brkovi, B. (2017) Primena aktivnih ispravljača u elektromotornim pogonima visoke energetske efikasnosti. in: Naučno-stručni simpozijum Energetska efikasnost | ENEF 2017, Banja Luka, 3-4. novembar
Šinik, M. (2017) Analiza energetske efikasnosti i uticaj na napojnu mrežu elektromotornog pogona sa aktivnim ispravljačem. Beograd: Univerzitet u Beogradu-Elektrotehnički fakultet, Master rad, Septembar
Zhaoming, Q., Xin, W., Zhengyu, L., Pong, M.H. (2000) Status of electromagnetic compatibility research in power electronics. in: IEEE Power Electronics and Motion Control Conference (IPEMC 2000), Beijing (China), Aug 15-18, Proc, 12 pp
Zhong, Q. (2016) Virtual Synchronous Machines: A unified interface for smart grid integration. IEEE Power Electronics Magazine, December
 

About

article language: Serbian
document type: Professional Paper
DOI: 10.5937/zeint29-22213
published in SCIndeks: 24/01/2020
peer review method: single-blind
Creative Commons License 4.0