Actuator for a medium voltage circuit breaker

What is claimed is: 1. An actuator for a medium voltage circuit breaker or recloser, comprising: at least one movable contact with a contact stem, driven by an electromagnetic drive or a motor drive; and a spring, the spring being positioned in a kinematic chain between the drive and the at least one movable contact or contact stem, wherein in a first nominal stroke the at least one movable contact is configured to move to an open position from a closed position, wherein in a second nominal stroke the at least one movable contact is configured to move to the closed position from the open position, wherein in the closed position the electromagnetic drive or motor drive is configured to activate a first micromotion such that the at least one movable contact is configured to move from the closed position back to the closed position without moving to the open position, wherein in the open position the electromagnetic drive or motor drive is configured to activate a second micromotion such that the at least one movable contact is configured to move from the open position back to the open position without moving to the closed position, and wherein the actuator further comprises at least one sensor configured to detect the first micromotion and the second micromotion, the at least one sensor comprising a position sensor, an acceleration sensor, an acoustic sensor, or a back e.m.f. sensor. 2. The actuator according to claim 1 , wherein a micromotion amplitude is round about 1 mm at the at least one movable contact in the open position and at the contact spring in the closed position. 3. The actuator according to claim 1 , further comprising an axial contact spring arranged between the stem of the at least one movable contact and a pushrod. 4. The actuator according to claim 3 , wherein an opening spring is arranged in a same effective axial direction of the pushrod. 5. The actuator according to claim 1 , wherein the at least one sensor comprises the position sensor, and wherein the position sensor is mechanically linked to a movable part of the electromagnetic drive or motor drive to detect the micromotion. 6. The actuator according to claim 1 , wherein the at least one sensor comprises the acceleration sensor, and wherein the acceleration sensor is coupled to the electromagnetic drive or motor drive by placing the acceleration sensor inside of or closely to the circuit breaker or recloser to detect the micromotion. 7. The actuator according to claim 1 , wherein the at least one sensor comprises the back e.m.f. sensor configured to detect a back e.m.f., of the electromagnetic drive or motor drive, and wherein the back e.m.f. of the electromagnetic drive or motor drive is evaluated to detect the micromotion. 8. The actuator according to claim 1 , wherein activation of the first micromotion is configured to move the at least one movable contact less than several mm from the closed position, and activation of the second micromotion is configured to move the at least one movable contact less than several mm from the closed position. 9. A method for operating an actuator for a medium voltage circuit breaker with at least one movable contact with a contact stem, driven by a contact electromagnetic drive or a motor drive, and a spring, wherein the spring is positioned in a kinematic chain between the drive and the at least one movable contact or contact stem, wherein, in a first nominal stroke the at least one movable contact is configured to move to an open position from a closed position, wherein in a second nominal stroke the at least one movable contact is configured to move to the closed position from the open position, the method comprising: in the closed position, activating by the electromagnetic drive or motor drive a first micromotion such that the at least one movable contact is configured to move from the closed position back to the closed position without moving to the open position; in the open position, activating by the electromagnetic drive or motor drive a second micromotion such that the at least one movable contact is configured to move from the open position back to the open position without moving to the closed position; and detecting by at least one sensor the first micromotion and the second micromotion, the at least one sensor comprising a position sensor, an acceleration sensor, an acoustic sensor, or a back e.m.f. sensor. 10. The method according to claim 9 , wherein in the open position in activating the second micromotion, only a closing coil of a two-coil actuator is used, and wherein at first the two-coil actuator is energised with positive current, and then the coil is energised with negative current to keep the at least one movable contact of the electromagnetic drive or the motor drive in the open position or to return it to the open position. 11. The method according to claim 9 , wherein in the closed position in activating the first micromotion, only a closing coil of a two-coil actuator is used, a latch of the electromagnetic drive or a motor drive in the first micromotion being at first released by a negative current in the closing coil, and then the latch is re-established by a positive current, the positive current being larger in magnitude than the negative current.