Arc chute with splitter plates interconnected by resistors

The invention claimed is: 1. A switchgear comprising a circuit breaking section having a movable contact bridging element and a first arc chute adjacent to the contact bridging element, said first arc chute including a base plate for connecting to the contact bridging element and a group of splitter plates placed adjacent to the base plate, wherein the splitter plates are separated from the base plate and each other via air gaps, wherein all the splitter plates in the first arc chute except for an uppermost splitter plate are interconnected by resistors for bypassing corresponding air gaps, wherein said resistors have values in a range 5 kΩ-1 MΩ, current ratings below 100 mA and power ratings below 1 W. 2. The switchgear according to claim 1 , wherein the movable contact bridging element is electrically connected to the uppermost splitter plate of the first arc chute. 3. The switchgear according to claim 2 , wherein a size of the uppermost splitter plate in the first arc chute is different than sizes of other splitter plates in the first arc chute. 4. The switchgear according to claim 2 , wherein the air gaps between the splitter plates of the first arc chute, except for the air gap between the uppermost splitter plate and the splitter plate adjacent to the uppermost splitter plate, have equal widths. 5. The switchgear according to claim 2 , wherein all of the air gaps in the first arc chute have equal widths. 6. The switchgear according to claim 2 , wherein the splitter plates of the first arc chute are held by a polymer holding structure. 7. The switchgear according to claim 2 , further comprising a second arc chute, where the first and second arc chutes are provided on opposite sides of the contact bridging element. 8. The switchgear according to claim 2 , wherein the switchgear is a direct current switchgear and further includes a current injecting section configured to cause a zero crossing in a current through the circuit breaker section that is to be interrupted. 9. The switchgear according to claim 1 , wherein a size of the uppermost splitter plate in the first arc chute is different than sizes of other splitter plates in the first arc chute. 10. The switchgear according to claim 1 , wherein the air gaps between the splitter plates of the first arc chute, except for the air gap between the uppermost splitter plate and the splitter plate adjacent to the uppermost splitter plate, have equal widths. 11. The switchgear according to claim 1 , wherein all of the air gaps in the first arc chute have equal widths. 12. The switchgear according to claim 1 , wherein the splitter plates of the first arc chute are held by a polymer holding structure. 13. The switchgear according to claim 12 , wherein the resistors are conductive polymer traces between splitter plates in the holding structure. 14. The switchgear according to claim 1 , further comprising a second arc chute, where the first and second arc chutes are provided on opposite sides of the contact bridging element. 15. The switchgear according to claim 14 , wherein the second arc chute has a base plate for connecting to the contact bridging element and a group of splitter plates placed adjacent to the base plate, wherein the splitter plates of the second arc chute are separated from the base plate of the second arc chute and each other via air gaps. 16. The switchgear according to claim 15 , wherein the base plates of the first and second arc chutes are provided in a common plane, wherein the movable contact bridging element is movable along a first axis perpendicular to a plane of the base plates, and wherein for each of the first and second arc chutes, the respective splitter plates are separated from each other along a direction in parallel with the first axis. 17. The switchgear according to claim 15 , wherein all the splitter plates in the second arc chute except for an uppermost splitter plate are interconnected by resistors; and wherein the base plates of the first and second arc chutes are provided in a common plane, wherein the movable contact bridging element is movable along a first axis perpendicular to a plane of the base plates, and wherein for each of the first and second arc chutes, the respective splitter plates are separated from each other along a direction in parallel with the first axis. 18. The switchgear according to claim 1 , wherein the switchgear is a direct current switchgear and further includes a current injecting section configured to cause a zero crossing in a current through the circuit breaker section that is to be interrupted.