Title :
Transformer used as a DC link filter inductance in DC high power traction applications
Author :
Carpita, M. ; Zueger, H. ; Pellerin, M. ; Stefanutti, P.
Author_Institution :
HES-SO, Appl. Sci. Univ.
Abstract :
For multi-system locomotives that have to be able to work under different supply conditions (e.g. a locomotive able to work under both the 3 kV DC supply in Italy and the 15 kV 16.7 Hz AC supply in Switzerland) both an AC transformer/filter and a DC filter inductance are normally required. This paper describes the use of the secondary winding of the transformer, normally used when the traction drive is supplied by an AC network, as a filter inductance when the traction drive is supplied by a DC network. This choice allows to reduce the on-board passive elements. The possible instability problems created by the nonlinear characteristics of this inductance together with the high dynamic torque response of the drive have been addressed. A stabilisation algorithm to increase the DC link voltage damping characteristics of the systems is proposed
Keywords :
damping; electric locomotives; inductance; power filters; power transformers; stability; traction motor drives; 15 kV; 16.7 Hz; 3 kV; AC filter; AC transformer; DC high power traction; DC link filter inductance; high dynamic torque response; multisystem locomotives; onboard passive elements reduction; secondary winding; stabilisation algorithm; traction drive; transformer; voltage damping; Capacitors; Circuits; Damping; Electronic mail; Filters; Inductance; Inverters; Torque; Uniform resource locators; Voltage control; Locomotive; Traction application; Transformer; Voltage Source Inverter (VSI);
Conference_Titel :
Power Electronics and Applications, 2005 European Conference on
Conference_Location :
Dresden
Print_ISBN :
90-75815-09-3
DOI :
10.1109/EPE.2005.219354
