Transformer arrangement for mitigating transient voltage oscillations

The invention claimed is: 1. A transformer arrangement for mitigating transient voltage oscillations, comprising: a transformer, the transformer comprising: a transformer core comprising at least one core leg; and a winding wound around each of the at least one core leg, the winding extending from a first winding terminal (A) to a second winding terminal (B) and comprising a first winding section along a first conductor extending from said first winding terminal (A) to a first intermediate end point (C), and a second winding section along a second conductor extending from a second intermediate end point (D) to said second winding terminal (B), wherein said first intermediate end point (C) and said second intermediate end point (D) are separated from each other; an external passive electric component (C ext,1 , C ext,2 ) connected between the first intermediate end point (C) and either the second intermediate end point (D) or said second winding terminal (B) and arranged to decrease an effective difference between capacitive and inductive voltage distributions between the intermediate end points such that transient voltage oscillations in the winding are mitigated; a plurality of tap changer contacts provided along said first conductor; and a tap changer connectable to the winding at said second intermediate end point (D) and a point (E) along said first conductor at one of said plurality of tap changer contacts. 2. The transformer arrangement according to claim 1 , wherein the external passive electric component is an external capacitor C ext,1 connected to the winding between said first intermediate end point (C) and said second intermediate end point (D). 3. The transformer arrangement according to claim 2 , wherein C ext,1 =5-100 nF. 4. The transformer arrangement according to claim 3 , wherein C ext,1 =5-10 nF. 5. The transformer arrangement according to claim 1 , wherein the external passive electric component is an external capacitor C ext,2 connected to the winding between said first intermediate end point (C) and said second winding terminal (B). 6. The transformer arrangement according to claim 5 , wherein C ext,2 =0.1-2.0 nF. 7. The transformer arrangement according to claim 5 , further comprising: an external capacitive voltage divider connected to said first winding terminal (A), said second intermediate end point (D), and said second winding terminal (B). 8. The transformer arrangement according to claim 7 , wherein said external capacitive voltage divider comprises: a capacitor C ext,3 connected to the winding between said first winding terminal (A) and said second intermediate end point (D); and a capacitor C ext,4 connected to the winding between said second intermediate end point (D) and said second winding terminal (B). 9. The transformer arrangement according to claim 8 , wherein C ext,3 =0.1-2.0 nF and C ext,4 =0.1-2.0 nF. 10. The transformer arrangement according to claim 9 , wherein C ext,3 =C ext,4 =1.0 nF. 11. The transformer arrangement according to claim 1 , wherein the external passive electric component is an external varistor connected to the winding between said first intermediate end point (C) and said second intermediate end point (D). 12. The transformer arrangement according to claim 11 , wherein the external varistor has a protection level of 5-30% of the transformer basic insulation level, BIL. 13. The transformer arrangement according to claim 11 , further comprising: an external fuse connected in series with the external varistor. 14. The transformer arrangement according to claim 1 , wherein said winding is denoted a first winding, the transformer arrangement further comprising: a second winding wound either between said first winding and said one core leg, or along a circumference of said first winding. 15. The transformer arrangement according to claim 1 , wherein the transformer is a dry transformer.