Technique for insulation monitoring in vehicles

We claim: 1. A device for determining insulation resistances in coupled electric power grids in a motor vehicle, comprising: an active control device which is designed, to actively control a respective operating state of at least one power converter of the motor vehicle in each of at least two measuring intervals, which is conductively connected to an electric traction energy store; a measuring device with a measuring terminal, which is conductively connected or connectable to at least one direct current (DC) voltage pole of the electric traction energy store of the motor vehicle, and a ground terminal, which is conductively connected or connectable to a reference potential of the motor vehicle, wherein the measuring device is designed, to respectively measure a conductance between the measuring terminal and the ground terminal in each of the at least two measuring intervals; and a calculation device, which is designed to determine the insulation resistances as a function of the at least two measured conductances and the at least two operating states controlled, wherein each of the at least two operating states comprises a duty factor of at least one switching element of the power converter and wherein the duty factor controlled is less than 100% and greater than 10%, and wherein the active control device defines at least one measuring interval of the at least two measuring intervals which precedes driving readiness being established and/or follows driving readiness of the motor vehicle being withdrawn. 2. The device according to claim 1 , wherein each of the at least two operating states comprises a circuit state of at least one switching element of the power converter. 3. The device according to claim 2 , wherein the insulation resistance determined is a strictly monotonically declining function of the duty factor. 4. The device according to claim 1 , wherein each of the at least two operating states controlled in the respective measuring interval is temporally constant. 5. The device according to claim 1 , wherein the at least one power converter comprises an inverter or a DC converter. 6. The device according to claim 1 , wherein the at least one power converter supplies a unit of the motor vehicle. 7. The device according to claim 1 , wherein the reference potential is constituted by an electrically conductive bodywork of the motor vehicle. 8. The device according to claim 1 , wherein the active control device is designed to respectively control the at least two operating states of a plurality of power converters in a plurality of measuring intervals, the measuring device is designed for the measurement of conductance in each of the measuring intervals, and the calculation device is designed for the calculation, for each of the power converters, of an insulation resistance on the basis of the measured conductances and the at least two operating states controlled. 9. The device according to claim 1 , wherein the function incorporates parameters for a weighting of a dependence of the insulation resistance on each of the at least two operating states controlled, and wherein the calculation device incorporates a memory, in which motor vehicle-specific parameter values are saved. 10. The device according to claim 1 , wherein the function incorporates parameters for a weighting of a linear dependence or a non-linear dependence of the insulation resistance on the operating state controlled. 11. The device according to claim 1 , wherein the active control device defines the measuring intervals in accordance with a driving state of the motor vehicle. 12. A motor vehicle, in particular a utility vehicle, comprising: an electric traction energy store; at least one power converter which is conductively connected to the electric traction energy store; and a device for determining insulation resistances in coupled electric power grids in the motor vehicle including, an active control device which is designed, to actively control a respective operating state of at least one power converter of the motor vehicle in each of at least two measuring intervals, which is conductively connected to the electric traction energy store; a measuring device with a measuring terminal, which is conductively connected or connectable to at least one direct current (DC) voltage pole of the electric traction energy store of the motor vehicle, and a ground terminal, which is conductively connected or connectable to a reference potential of the motor vehicle, wherein the measuring device is designed, in the at least two measuring intervals, to respectively measure a conductance between the measuring terminal and the ground terminal in each of the at least two measuring intervals; and a calculation device, which is designed to determine the insulation resistances as a function of the at least two measured conductances and the at least two operating states controlled, wherein each of the at least two operating states comprises a duty factor of at least one switching element of the power converter and wherein the duty factor controlled is less than 100% and greater than 10%, and wherein the active control device defines at least one measuring interval of the at least two measuring intervals which precedes driving readiness being established and/or follows driving readiness of the motor vehicle being withdrawn.