Electromechanical circuit breaker

The invention claimed is: 1. An electromechanical circuit breaker comprising: a main contact pair comprising a first main contact disposed on a first main contact bridge; an auxiliary contact pair comprising a first auxiliary contact disposed on a first auxiliary contact bridge, the first auxiliary contact bridge being connected in parallel to the first main contact bridge, the auxiliary contact pair comprising a material that has a higher melting point than a material of the main contact pair; a first armature configured to move the first main contact bridge; and a second armature configured to move the first auxiliary contact bridge; wherein the first and second armatures are configured such that the auxiliary contact pair opens after the main contact pair opens, and the auxiliary contact pair closes before the main contact pair closes. 2. The circuit breaker according to claim 1 , wherein: the main contact pair comprises a second main contact disposed on a contact pole; and the auxiliary contact pair comprises a second auxiliary contact disposed on the contact pole. 3. The circuit breaker according to claim 1 , further comprising: a control unit configured to actuate the first and second armatures such that the main contact pair opens before the auxiliary contact pair opens, and the main contact pair closes after the auxiliary contact pair closes. 4. The circuit breaker according to claim 3 , wherein the control unit further comprises: a first spring element for preloading the first armature; and a second spring element for preloading the second armature, wherein the first spring element has a greater spring force than the second spring element. 5. The circuit breaker according to claim 4 , wherein the first spring element is connected to the second spring element and exerts a force which is directed against a spring force of the second spring element such that the second armature is actuated to open the auxiliary contact pair after the main contact pair has been opened. 6. The circuit breaker according to claim 4 , wherein: the control unit further comprises a drive unit configured to generate a force to counteract the spring force of the first spring element; and the second armature is disposed with respect to the first armature such that a travel distance of the second armature for closing the auxiliary contact pair is shorter than a travel distance of the first armature for closing the main contact pair. 7. The circuit breaker according to claim 6 , wherein the drive unit comprises a coil configured to generate a magnetic force that counteracts the spring force of the first spring element when a current flows through the coil. 8. The circuit breaker according to claim 1 , wherein the main contact pair comprises a material having a higher electrical conductivity than a material of the auxiliary contact pair. 9. The circuit breaker according to claim 1 , wherein the auxiliary contact pair comprises tungsten, and the main contact pair comprises silver. 10. An apparatus, comprising: a main contact pair comprising: a first main contact disposed on a first main contact bridge; and a second main contact disposed on a first contact pole; an auxiliary contact pair comprising: a first auxiliary contact disposed on a first auxiliary contact bridge, the first auxiliary contact bridge being connected in parallel to the first main contact bridge, wherein the auxiliary contact pair comprises a material that has a higher melting point than a material of the main contacts; and a second auxiliary contact disposed on the first contact pole; a first armature configured to move the first main contact bridge; and a second armature configured to move the first auxiliary contact bridge; wherein the first and second armatures are configured such that the auxiliary contact pair opens after the main contact pair opens, and the auxiliary contact pair closes before the main contact pair closes. 11. The apparatus according to claim 10 , further comprising: a control unit configured to actuate the first and second armatures such that the main contact pair opens before the auxiliary contact pair opens, and the main contact pair closes after the auxiliary contact pair closes. 12. The apparatus according to claim 11 , wherein the control unit further comprises: a first spring element for preloading the first armature; and a second spring element for preloading the second armature, wherein the first spring element has a greater spring force than the second spring element. 13. The apparatus according to claim 12 , wherein the first spring element is connected to the second spring element and exerts a force which is directed against a spring force of the second spring element such that the second armature is actuated to open the auxiliary contact pair after the main contact pair has been opened. 14. The apparatus according to claim 12 , wherein: the control unit further comprises a drive unit configured to generate a force to counteract the spring force of the first spring element; and the second armature is disposed with respect to the first armature such that a travel distance of the second armature for closing the auxiliary contact pair is shorter than a travel distance of the first armature for closing the main contact pair. 15. The apparatus according to claim 14 , wherein the drive unit comprises a coil configured to generate a magnetic force that counteracts the spring force of the first spring element when a current flows through the coil. 16. The apparatus according to claim 10 , wherein the main contact pair comprises a material having a higher electrical conductivity than the material of the auxiliary contact pair. 17. The apparatus according to claim 10 , wherein the auxiliary contact pair comprises tungsten or a tungsten coating, and the main contact pair comprises silver or a silver coating. 18. The apparatus according to claim 10 , further comprising: a second main contact pair comprising: a third main contact disposed on a second main contact bridge; and a fourth main contact disposed on a second contact pole; wherein a current passing through the apparatus flows across the first main contact pair to the second main contact pair when the first and second contact pairs are closed. 19. An electromechanical circuit breaker, comprising: a main contact pair comprising: a first main contact disposed on a first main contact bridge; and a second main contact disposed on a first contact pole; an auxiliary contact pair comprising: a first auxiliary contact disposed on a first auxiliary contact bridge, the first auxiliary contact bridge being connected in parallel to the first main contact bridge; and a second auxiliary contact disposed on the first contact pole; a first armature configured to move the first main contact bridge; a second armature configured to move the first auxiliary contact bridge; and a control unit configured to actuate the first and second armatures such that: the auxiliary contact pair opens after the main contact pair opens; and the auxiliary contact pair closes before the main contact pair closes. 20. The electromechanical circuit breaker according to claim 19 , wherein the control unit further comprises: a first spring element for preloading the first armature; and a second spring element for preloading the second armature, wherein the first spring element has a greater spring force than the second spring element.