Current driving system for a solenoid

The invention claimed is: 1. A current driving system for a solenoid valve, comprising: a pre-driver to control a control input of a transistor coupled to an electrical input of a solenoid valve, wherein the transistor supplies electric power to the solenoid valve when the transistor is switched on; a signal generator to generate a small signal and to output the small signal to the electrical input of the solenoid valve, wherein an amount of electric power of the small signal input to the solenoid valve is substantially smaller than an amount of the electric power supplied by the transistor to the solenoid valve when the transistor is switched on; a capacitor comprising a first electrode and a second electrode, wherein the first electrode is connected to an output of the signal generator, and wherein the second electrode is connected to the electrical input of the solenoid valve; and a measurement unit to measure a response to the small signal. 2. The current driving system of claim 1 , wherein the small signal is a periodic signal. 3. The current driving system of claim 1 , wherein no small signal is coupled to the electrical input of the solenoid valve during the time in which the transistor drives current into the solenoid valve. 4. The current driving system of claim 1 , wherein the measurement unit measures a frequency response at the electrical input. 5. The current driving system of claim 4 , wherein the frequency response is within a range of substantially between 1 and 10 MHz. 6. The current driving system of claim 1 , wherein the measurement unit comprises: a comparator; and a counter coupled downstream of an output of the comparator. 7. The current driving system of claim 1 , wherein the pre-driver, the signal generator and the measurement unit are monolithically integrated in an integrated circuit. 8. The current driving system of claim 1 , wherein the electric power supplied by the transistor to the solenoid valve when the transistor is switched on is at least ten times larger than the electric power being supplied by the small signal into the solenoid valve. 9. The current driving circuit according to claim 1 , whereby no small signal is coupled to the output during the time in which the transistor drives current into the solenoid valve. 10. The current driving system of claim 1 , further comprising: a regulator for regulating the current through the solenoid valve by controlling the pre-driver; a first feedback path to the regulator for providing a measurement of one or more of a voltage at the electrical input of the solenoid valve and a current through the solenoid valve; and a second feedback path to the regulator for providing a measurement of the response to the small signal. 11. The current driving circuit according to claim 10 , wherein the regulator bases the regulation on an impedance value of the solenoid valve, wherein the impedance value is based on the measured response to the small signal. 12. The current driving circuit according to claim 1 , whereby the small signal has a frequency in the range of 5 to 10 MHz. 13. The current driving circuit according to claim 1 , whereby the measurement unit comprises a sampling unit for sampling the response with sampling frequency between 100 and 200 MHz. 14. The current driving circuit according to claim 1 , whereby the measurement unit comprises a zero crossing detection unit. 15. A method for controlling a solenoid valve, comprising: generating, by a signal generator, a small signal; outputting, by the signal generator and via a capacitor, the small signal to an electrical input of the solenoid valve, wherein a first electrode of the capacitor is coupled to the signal generator and a second electrode of the capacitor is coupled to the electrical input of the solenoid valve; measuring, using a measurement unit, a response to the coupled small signal at the electrical input of the solenoid valve. 16. The method of claim 15 , wherein generating the small signal comprises generating a periodic signal. 17. The method of claim 15 , further comprising: not coupling any small signal to the electrical input of the solenoid valve during a time in which a transistor drives current into the solenoid valve.