Monitoring of inactive solenoid valves

The invention claimed is: 1. A method for monitoring a solenoid valve, the method comprising: applying a test signal on one side of the solenoid valve, the solenoid valve having a control coil for controlling an air pressure in a brake cylinder of an electropneumatic brake, wherein the solenoid valve has a supply voltage side, at which the control coil takes up an electric supply current, and a reference potential side, at which the control coil delivers the electric supply current; tapping a measurement signal on the other side of the solenoid valve; and determining the state of the solenoid valve based on a juxtaposition of the test signal and of the measurement signal; wherein one of the following is satisfied: (i) the control coil is connected in parallel with a supply-side voltage divider and the measurement signal is tapped at an intermediate potential point of the supply-side voltage divider, or (ii) the control coil is connected in series with a reference-potential-side voltage divider and the test signal is applied at an intermediate potential point of the reference-potential-side voltage divider. 2. The method of claim 1 , wherein the test signal is dependent on the control of the air pressure in the brake cylinder. 3. The method of claim 1 , wherein the test signal has a predetermined, temporally changing profile. 4. The method of claim 3 , wherein the temporal profile is formed from a plurality of pulses. 5. The method of claim 4 , further comprising: counting pulses in the measurement signal over a predetermined period, wherein a juxtaposition includes a comparison of the counted pulses in the measurement signal with a count value, which corresponds to a number of pulses in the test signal over the predetermined period. 6. The method of claim 1 , wherein (i) is satisfied so that the control coil is connected in parallel with the supply-side voltage divider and the measurement signal is tapped at the intermediate potential point of the supply-side voltage divider. 7. The method of claim 1 , wherein (ii) is satisfied so that the control coil is connected in series with the reference-potential-side voltage divider and the test signal is applied at the intermediate potential point of the reference-potential-side voltage divider. 8. The method of claim 6 , wherein a ratio between the total resistance of the voltage divider and the inductance of the control coil is between 1:50 and 1:200. 9. A method for monitoring a solenoid valve, the method comprising: applying a test signal on one side of the solenoid valve, the solenoid valve having a control coil for controlling an air pressure in a brake cylinder of an electropneumatic brake, wherein the solenoid valve has a supply voltage side, at which the control coil takes up an electric supply current, and a reference potential side, at which the control coil delivers the electric supply current; tapping a measurement signal on the other side of the solenoid valve; and determining the state of the solenoid valve based on a juxtaposition of the test signal and of the measurement signal; wherein there is a further solenoid valve having a further control coil, and wherein the solenoid valve and the further solenoid valve are connected in series and the test signal is applied at an intermediate potential point between the solenoid valves. 10. The method of claim 9 , further comprising: tapping a further measurement signal on the side of the further solenoid valve opposite the intermediate potential point; and determining the state of the further solenoid valve based on a juxtaposition of the test signal and of the further measurement signal. 11. A control apparatus for monitoring a solenoid valve, comprising: a control unit configured to perform the following: applying a test signal on one side of the solenoid valve, the solenoid valve having a control coil for controlling an air pressure in a brake cylinder of an electropneumatic brake, wherein the solenoid valve has a supply voltage side, at which the control coil takes up an electric supply current, and a reference potential side, at which the control coil delivers the electric supply current; tapping a measurement signal on the other side of the solenoid valve; and determining the state of the solenoid valve based on a juxtaposition of the test signal and of the measurement signal; wherein one of the following is satisfied: (i) the control coil is connected in parallel with a supply-side voltage divider and the measurement signal is tapped at an intermediate potential point of the supply-side voltage divider, or (ii) the control coil is connected in series with a reference-potential-side voltage divider and the test signal is applied at an intermediate potential point of the reference-potential-side voltage divider. 12. An electropneumatic brake, comprising: a brake cylinder that can be filled with compressed air for actuating a brake actuator; a compressed air source for filling the brake cylinder; a solenoid valve for targeted application of compressed air from the compressed air source to the brake cylinder; and a control apparatus for monitoring the state of the solenoid valve; wherein the control includes a control unit configured to perform the following: applying a test signal on one side of the solenoid valve, the solenoid valve having a control coil for controlling an air pressure in a brake cylinder of an electropneumatic brake, wherein the solenoid valve has a supply voltage side, at which the control coil takes up an electric supply current, and a reference potential side, at which the control coil delivers the electric supply current; tapping a measurement signal on the other side of the solenoid valve; and determining the state of the solenoid valve based on a juxtaposition of the test signal and of the measurement signal; wherein one of the following is satisfied: (i) the control coil is connected in parallel with a supply-side voltage divider and the measurement signal is tapped at an intermediate potential point of the supply-side voltage divider, or (ii) the control coil is connected in series with a reference-potential-side voltage divider and the test signal is applied at an intermediate potential point of the reference-potential-side voltage divider. 13. A non-transitory computer readable medium having a computer program, which is executable by a processor, comprising: a program code arrangement having program code for monitoring a solenoid valve, by performing the following: applying a test signal on one side of the solenoid valve, the solenoid valve having a control coil for controlling an air pressure in a brake cylinder of an electropneumatic brake, wherein the solenoid valve has a supply voltage side, at which the control coil takes up an electric supply current, and a reference potential side, at which the control coil delivers the electric supply current; tapping a measurement signal on the other side of the solenoid valve; and determining the state of the solenoid valve based on a juxtaposition of the test signal and of the measurement signal; wherein one of the following is satisfied: (i) the control coil is connected in parallel with a supply-side voltage divider and the measurement signal is tapped at an intermediate potential point of the supply-side voltage divider, or (ii) the control coil is connected in series with a reference-potential-side voltage divider and the test signal is applied at an intermediate potential point of the reference-potential-side voltage divider. 14. The method of claim 6 , wherein a ratio between the total resistance of the voltage divide