Switching losses in three-phase voltage source inverters
cytuj
pobierz pliki
RIS BIB ENDNOTEWybierz format
RIS BIB ENDNOTESwitching losses in three-phase voltage source inverters
Data publikacji: 08.02.2016
Czasopismo Techniczne, 2015, Elektrotechnika Zeszyt 2-E (13) 2015, s. 47 - 60
https://doi.org/10.4467/2353737XCT.15.087.3919Autorzy
Switching losses in three-phase voltage source inverters
The efficiency of three-phase voltage source inverters depends mainly on power losses that occur in semi-conductor elements. Total losses in these elements are a sum of conduction losses and switching losses. The switching losses are dependent on the supply voltage, load current, operating frequency and on the dynamic parameters of the switching elements; these losses can be limited with the use of soft switching methods. This paper discusses the switching loss dependence on the above mentioned factors. An analysis was carried out on power losses in voltage source inverters which generate the output voltage in the form of a rectangular wave and losses in these inverters operating with pulse width modulation. A comparison of switching losses was performed for two voltage source inverters with different nominal power ratings.
[1] Feix G., Dieckerhoff S., Allmeling J., Schonberger J., Simple Methods to Calculate IGBT and Diode Conduction and Switching Losses, 13th European Conference on Power Electronics and Applications, EPE, Barcelona, Spain, 8–10 September, 2009, 1-8.
[2] Drofenik U., Kolar J.W., A General Scheme for Calculating Switching- and Conduction-Losses of Power Semiconductors in Numerical Circuit Simulations of Power Electronic Systems, 5th International Power Electronics Conference, IPEC-Niigata, Japan, 2005.
[3] Hiraki E., Tanaka T., Nakaoka M., Zero-Voltage and Zero-Current Soft – Switching PWM Inverter, 36th Power Electronics Specialists Conference PESC, Recife, Brazil, 12–16 June, 2005, 798-803.
[4] Martinez B., Li R., Ma K., Xu D., Hard Switching and Soft Switching Inverters Efficiency Evaluation, International Conference on Electrical Machines and Systems ICEMS, Wuhan, China, 17–20 October, 2008, 1752-1757.
[5] Bernet S., Lüscher M., Steimer P.K., IGCTs in Soft Switching Power Converters, 8th European Conference on Power Electronics and Applications, Lausanne, France, 7–9 September. 1999, 1-11.
[6] Jinrong Q., Khan A., Batarseh I., Turn-off Switching Loss Model and Analysis of IGBT under Different Switching Operation Modes, 21st International Conference on Industrial Electronics, Control, and Instrumentation IEEE IECON, Orlando, USA, 6–10 November, 1995, Vol. 1, 240-245.
[7] Cavalcanti M.C., da Silva E.R., Boroyevich D., Wei D., A Feasible Loss Model for IGBT in Soft-Switching Inverters, 34th IEEE Power Electronics Specialist Conference, PESC, de Campina Grande, Brazil, 15–19 June, 2003, Vol. 4, 1845-1850.
[8] Maswood A.I., A switching loss study in SPWM igbt inverter, 2nd IEEE International Conference on Power and Energy (PECon 08), Johor Baharu, Malaysia, 1–3 December, 2008, 609-613.
[9] Rashid M.H., Power electronics handbook, Academic Press, San Diego 2001.
[10] Skvarenina T.L., The power electronics handbook, Industrial Electronics Series, CRC Press, Boca Raton 2002.
[11] Peng F.Z., Gui-Jia S., Tolbert L.M., A Passive Soft-Switching Snubber for PWM Inverters, IEEE Transactions on Power Electronics, Vol. 19, Issue 2, March 2004, 363-370.
[12] Rajapakse A.D., Gole A.M., Wilson P.L., Approximate Loss Formulae for Estimation of IGBT Switching Losses through EMTP-type Simulations, International Conference on Power Systems Transients, IPST, Montreal, Canada, 19–23 June, 2005, Paper No. 184.
[13] Mori M., Kobayashi H., Saiki T., Nagasu M., Sakano J., Saitou R., 3.3 kV Punchthrough IGBTwith Low Loss and Fast Switching, IEEE International Symposium on Power Semiconductor Devices and IC’s, ISPSD, Weimar, Germany, 26–29 May, 1997, 229-232.
[14] Petterteig A., Lode J., Undeland T.M., IGBT turn-off losses for hard switching and with capacitive snubbers, IEEE Conference of Industry Applications Society Annual Meeting, Dearborn, USA, 28 September–4 October, 1991, Vol. 2, 1501-1507.
Informacje: Czasopismo Techniczne, 2015, Elektrotechnika Zeszyt 2-E (13) 2015, s. 47 - 60
Typ artykułu: Oryginalny artykuł naukowy
Tytuły:
Switching losses in three-phase voltage source inverters
Switching losses in three-phase voltage source inverters
Institute of Electromechanical Energy Conversion, Faculty of Electrical and Computer Engineering, Cracow University of Technology
Institute of Electromechanical Energy Conversion, Faculty of Electrical and Computer Engineering, Cracow University of Technology
Institute of Electromechanical Energy Conversion, Faculty of Electrical and Computer Engineering, Cracow University of Technology
Publikacja: 08.02.2016
Status artykułu: Otwarte
Licencja: Żadna
Udział procentowy autorów:
Korekty artykułu:
-Języki publikacji:
AngielskiLiczba wyświetleń: 2159
Liczba pobrań: 8472