Method for operating a switching element

What is claimed is: 1. A method for operating at least one switching element, comprising: connecting at least one first connection of at least one sensor device to at least one connection of an actuator of the switching element; connecting the first connection or another connection of the sensor device to a reference potential; establishing a measuring state in which the at least one connection of the actuator is essentially at least temporarily decoupled at least one of (a) from the reference potential and (b) from a source activating the actuator; and ascertaining, in the measuring state, at least one signal of at least one sensor of the sensor device from at least one electrical potential at the at least one connection of the actuator; wherein control lines which are connected to the connections of the actuator and used outside the measuring state for activating the switching element are used in the measuring state for the purpose of transmitting the at least one electrical potential to an evaluating circuit. 2. The method as recited in claim 1 , wherein the switching element is a servo valve of a fuel injector of an internal combustion engine or belongs thereto, and a variable which characterizes a pressure prevailing in a hydraulic control chamber or a pressure prevailing in a hydraulic valve chamber or a pressure change is ascertained from the signal of the sensor, and at least one of an opening and closing point in time of a valve element of the fuel injector is, in turn, ascertained from the variable. 3. The method as recited in claim 1 , wherein the switching element is activated by the source in a first phase, the source is then decoupled from the actuator in a second phase, and the measuring state is established in a third phase. 4. A method for operating at least two switching elements, the method comprising: connecting at least one first connection of at least one sensor device to at least one connection of actuators of the at least two switching elements; connecting the first connection or another connection of the sensor device to a reference potential; establishing a measuring state in which the at least one connection of the actuators is essentially at least temporarily decoupled at least one of (a) from the reference potential and (b) from a source activating the actuators; and ascertaining, in the measuring state, at least one signal of at least one sensor of the sensor device from at least one electrical potential at the at least one connection of the actuators; wherein: a particular first connection of the actuators of the switching elements is activated by a switching device shared by the switching elements; a particular second connection of the actuators of the switching elements is activated by an individual switching device for the switching elements; and in the measuring state, at least one of (i) the shared switching device and (ii) at least one of the individual switching devices is switched to a blocking state. 5. An electrical circuit for operating at least one switching element, comprising: at least one first connection of at least one sensor device connected to at least one connection of an actuator of the switching element, wherein: the first connection or another connection of the sensor device is connected to a reference potential; the electrical circuit is configured to: establish a measuring state in which the at least one connection of the actuator is essentially at least temporarily decoupled from (a) the reference potential and (b) from a source activating the actuator; and ascertain, in the measuring state, at least one signal of the at least one sensor from at least one electrical potential at the at least one connection of the actuator; and control lines which are connected to the connections of the actuator and used outside the measuring state for activating the switching element are used in the measuring state for the purpose of transmitting the at least one electrical potential to an evaluating circuit. 6. The electrical circuit as recited in claim 5 , wherein the sensor device is able to generate a voltage or a current. 7. The electrical circuit as recited in claim 5 , wherein the sensor device is a force-sensitive transducer. 8. The electrical circuit as recited in claim 7 , wherein the force-sensitive transducer is a piezoelectric element. 9. The electrical circuit for operating at least two switching elements, the electrical circuit comprising: at least one first connection of a sensor device connected to at least one connection of an actuator of the at least two switching elements; wherein: the first connection or another connection of the sensor device is connected to a reference potential; the electrical circuit is configured to: establish a measuring state in which the at least one connection of the actuator is essentially at least temporarily decoupled at least one of (a) from the reference potential and (b) from a source activating the actuator; and ascertain, in the measuring state, at least one signal of the sensor device from at least one electrical potential at the at least one connection of the actuator; a particular first connection of the actuator of the at least two switching elements is activatable by a shared switching device; and each of a plurality of second connections of the actuator of the at least two switching elements is activatable by a respective one of a plurality of individual switching devices, the second connections being connected to the individual switching devices via a first set of control lines. 10. The electrical circuit as recited in claim 9 , wherein the first connection of the actuators includes a plurality of first connections that are each connected to the shared switching device via a second set of control lines and via first individual rectifiers which are connected in series to the second set of control lines. 11. The electrical circuit as recited in claim 10 , wherein the first connections of the actuators are each connectable to a first DC voltage source via the second set of control lines and via the first individual rectifiers connected in series to the second set of control lines and via a shared first switch of the shared switching device, and the first connections of the actuators are also connectable to a second DC voltage source via the second set of control lines and via second individual rectifiers connected in series to the second set of control lines and via a shared second switch of the shared switching device. 12. The electrical circuit as recited in claim 11 , wherein the first connections of the actuators are also each connected to the reference potential or a ground via the second set of control lines and via third individual rectifiers connected in series to the second set of control lines, and the second connections of the actuators are each connected to the first DC voltage source via the first set of control lines and via fourth individual rectifiers connected in series to the first set of control lines. 13. A control device configured to carry out a method comprising: connecting at least one first connection of at least one sensor device to at least one connection of an actuator of a switching element; connecting the first connection or another connection of the sensor device to a reference potential; establishing a measuring state in which the at least one connection of the actuator is essentially at least temporarily decoupled at least one of (a) from the reference potential and (b) from a source activating the actuator; and ascertaining, in the measuring state, at least one signal of at least one sensor o