Capacitance determination circuit and method for determining a capacitance

What is claimed is: 1. A capacitance determination circuit comprising: a voltage controlled oscillator configured to generate a frequency signal whose frequency depends on a control voltage supplied to the voltage controlled oscillator; a capacitor coupled to the voltage controlled oscillator wherein the control voltage depends on a voltage across the capacitor; a comparator coupled to the capacitor and configured to provide a comparison of an output of the capacitor with a voltage threshold and provide the comparison to a processing circuit; and the processing circuit configured to generate, based on the comparison and the frequency signal generated by the voltage controlled oscillator over a time interval comprising at least one phase in which the capacitor is charged and comprising at least one phase in which the capacitor is discharged, an indication of a capacitance of the capacitor, wherein the indication of the capacitance specifies the value of the capacitance of the capacitor. 2. The capacitance determination circuit of claim 1 , further comprising a control circuit configured to control the capacitor to be charged in one or more charge phases and to be discharged in one or more discharge phases. 3. The capacitance determination circuit of claim 2 , wherein the control circuit is coupled to the voltage controlled oscillator and is configured to receive the frequency signal and to control the capacitor to be charged in one or more charge phases and to be discharged in one or more discharge phases based on the frequency signal. 4. The capacitance determination circuit of claim 2 , wherein the control circuit is configured to generate a control signal which controls the capacitor to be charged in one or more charge phases and to be discharged in one or more discharge phases based on the frequency signal. 5. The capacitance determination circuit of claim 4 , wherein the processing circuit is configured to generate the indication of the capacitance of the capacitor based on the control signal. 6. The capacitance determination circuit of claim 4 , wherein the processing circuit is configured to convert the control signal into the indication of the capacitance of the capacitor. 7. The capacitance determination circuit of claim 6 , wherein the converting of the control signal into the indication comprises noise-shaping. 8. The capacitance determination circuit of claim 6 , wherein the processing circuit comprises a frequency-to-digital converter and is configured to convert the control signal into the indication of the capacitance of the capacitor by performing a frequency-to-digital conversion of the control signal. 9. The capacitance determination circuit of claim 4 , wherein the control signal is an oscillation signal oscillating between a state which controls the capacitor to be charged and a state which controls the capacitor to be discharged. 10. The capacitance determination circuit of claim 4 , wherein the control signal controls the capacitor to be charged in one or more charge phases and to be discharged in one or more discharge phases by controlling a switch coupled to the capacitor. 11. The capacitance determination circuit of claim 10 , wherein the switch has a first state leading to the capacitor being discharged and a second state leading to the capacitor being charged. 12. The capacitance determination circuit of claim 2 , wherein the control circuit is configured to control the capacitor to be charged after a predetermined number of oscillations of the frequency signal of discharging the capacitor. 13. The capacitance determination circuit of claim 2 , wherein the control circuit is configured to control the capacitor to be discharged when the capacitor has been charged to a predetermined threshold voltage. 14. The capacitance determination circuit of claim 2 , wherein the control circuit is configured to control the capacitor to be charged when the capacitor has been discharged to a predetermined threshold voltage. 15. The capacitance determination circuit of claim 2 , wherein the control circuit is configured to control the capacitor to be discharged after a predetermined number of oscillations of the frequency signal of charging the capacitor. 16. The capacitance determination circuit of claim 1 , comprising a frequency divider configured to generate a frequency divided signal from the frequency signal, wherein the processing circuit is configured to generate the indication based on the frequency divided signal. 17. The capacitance determination circuit of claim 1 , wherein the capacitance is the capacitance of a Microelectromechanical System device. 18. The capacitance determination circuit of claim 1 , wherein the processing circuit is configured to generate the indication based on the frequency signal generated by the voltage controlled oscillator over a time interval comprising a plurality of phases in which the capacitor is charged and comprising a plurality of phases in which the capacitor is discharged. 19. A method for determining a capacitance comprising: generating a frequency signal with a frequency depending on a voltage across a capacitor; generating a comparison of a voltage output of the capacitor with a voltage threshold; generating, based on the comparison and the frequency signal generated over a time interval comprising at least one phase in which the capacitor is charged and comprising at least one phase in which the capacitor is discharged, an indication of the capacitance of the capacitor; and providing a digital value specifying the capacitance of the capacitor based on the indication of the capacitance. 20. The capacitance determination circuit of claim 1 , wherein the processing circuit comprises a frequency to digital sigma delta modulator comprising a digital to analog converter, an oversampled frequency to digital converter, and a quantizer, wherein an output of the frequency to digital sigma delta modulator is a digital output providing the indication of the capacitance.