Warianty tytułu
Języki publikacji
Abstrakty
Conducted EMI generated by an inverter-fed induction motor drive systems with the pulse with modulation (PWM) are one of the most difficult current technical problem which limits power electronics drive's evolution. The conducted and radiated emission of PWM drives is essentially related also to the electric behaviour of the frequency converter's load which is AC motor and motor cable. Detailed analysis of the impedance characteristics of the converters load (motor and cable) is fundamental to interpret the common and differential mode of emission spectra of the converter. Presented identification of the impedance parameters of the evaluated drive system is based on the measurement of impedance characteristics, which allows determining the adequate circuit model for different frequency ranges. Obtained results illustrate the different behaviour of the investigated motors for different frequency ranges and explain the influence of the motor power cable on the investigated phenomena in the high frequency ranges. Presented analysis and measurement results leads to the conclusion that the impedance characteristic of the converters load can be very helpful for analysing high frequency phenomena in the converter-motor link. The overvoltage and conducted EMI problems in many of ASD application with high power motor and long cable can be clarified by load impedance analysis. The impedance analysis allow to determine the high frequency range where for modelling transmission line based model is evidently necessary, instead of much more simple circuit model.
Słowa kluczowe
Rocznik
Tom
Strony
47--51
Opis fizyczny
Bibliogr. 13 poz., rys.
Twórcy
autor
- Gdañsk University of Technology, POLAND, jlusz@ely.pg.gda.pl
autor
- Gdañsk University of Technology, POLAND, kiwan@ pg.gda.pl
Bibliografia
- 1.K e m p s k i A . : EMI Noise Splitting Into Common and Differential Modes in PWM Inverter Drive System. Proc. 4th International Workshop Compatibility in Power Electronics CPE 2005, 1–3 June 2005, Gdynia 2005.
- 2. A r n e d o L . , V e n k a t e s a n K : High frequency modeling of induction motor drives for EMI and over-voltage mitigation studies. Electric Machines and Drives Conference, 2003. IEMDC'03. IEEE International, Volume 1, 1–4 June 2003.
- 3. G r a n d i G . , M o n t a n a r i U . , R e g g i a n i U .: Effects of power converter parasitic components on conducted EMI. International Zurich Symposium on EMC, Zurich, 18–20 February 1997.
- 4. G u b i a E . , S a n c h i s P . , U r s u a A . , L o p e z J . , M a r r o y o L .: Frequency domain model of conducted EMI in electrical drives. IEEE Power Electronics Letters, Vol. 3, Issue 2, June 2005.
- 5. H u i b i n Z h u , J i h - S h e n g L a i , H e f n e r A . R . , J r . Y u q i n g T a n g , C h i n g c h i C h e n : Modeling-based examination of conducted EMI emissions from hard and soft-switching PWM inverters. Industry Aplications, IEEE Transactions on Volume 37, Issue 5, Sept.–Oct. 2001.
- 6. K e m p s k i A . , S m o l e ń s k i R . , S t r z e l e c k i R . : Common mode current path and their modelling In PWM inverter-fed drives. Proc. 33rd IEEE Power Electronics Specialists Conference PESC 2002, Cairns, Austria, 2002, Vol. 3, pp. 1551–1556.
- 7. K e m p s k i A . , S t r z e l e c k i R . , S m o l e n s k i R . , F e d y c z a k Z . : Bearing current path and pulse rate in PWM-inverter-fed induction. PESC. 2001 IEEE 32nd Annual , Volume: 4 , 17–21 June 2001 Pages 2025– 2030 vol. 4.
- 8. Ł u s z c z J . , I w a n K . , N i e z n a ń s k i J . :Propagation of conducted electromagnetic interference in power electronic converters with transformers. 9th European Conference on Power Electronics and Applications EPE'2001.
- 9. Ł u s z c z J . : Conducted EMI Propagation Modelling in the Wound Components. Seventeenth International Wroclaw Symposium and Exhibition on Electromagnetic Compatibility EMC'2004, 29 June-1 July 2004, Wroclaw 2004.
- 10. Ł u s z c z J . : Iron Core Inductor High Frequen-cy Circuit Model for EMC Application. Coil Win-ding International & Electrical Insulation Magazine. Volume 28, Issue 1, 2004.
- 11. M u s z n i c k i P . , S c h a n e n J - L . , C h r z a n P . J . : Design of high voltage busbar: trade off between electrical field and stray induc-tance. Proc. 3th International Workshop Compati-bility in Power Electronics CPE 2003, Gdańsk 2003.
- 12. O g a s a w a r a S . , A k a g i H . : Modelling and damping of high-frequency leakage currents in PWM inverter-fed AC motor drive systems. Thirtieth IAS Annual Meeting, IAS '95., Conference Record of the 1995 IEEE , Volume: 1 , 8–12 Oct. 1995.
- 13. S k i b i n s k i G.., K e r k m a n R . , L e g g a t e D ., P a n k a u J ., S c h l e g e l D .: Reflected wave modelling techniques for PWM AC motor dri-ves. APEC '98. Conference Proceedings 1998., Thir-teenth Annual, Volume: 2, 15–19 Feb. 1998.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.baztech-106af3b8-8d77-47ad-a8e1-15434a088f05