Optical sensor arrangement and method for light sensing

The invention claimed is: 1. An optical sensor arrangement, comprising a photodiode and an analog-to-digital converter comprising an integrator having an integrator input coupled to the photodiode, a comparator having a first input and a second input, wherein the first input is coupled to an output of the integrator, and wherein the second input is coupled to a reference voltage terminal, and a digital-to-analog converter coupled to a control terminal of the comparator, wherein the digital-to-analog converter provides an analog input signal to the control terminal of the comparator, and an offset of the comparator is controlled by the analog input signal. 2. The optical sensor arrangement according to claim 1 , comprising an input switch that couples the photodiode to the integrator input. 3. The optical sensor arrangement according to claim 1 , comprising a further input switch that couples the integrator input to a reference potential terminal. 4. The optical sensor arrangement according to claim 1 , wherein the analog-to-digital converter comprises a reference capacitor circuit that is coupled to the integrator input and is configured to provide at least a charge packet to the integrator input. 5. The optical sensor arrangement according to claim 1 , comprising a control logic coupled to a comparator output of the comparator. 6. The optical sensor arrangement according to claim 1 , wherein the integrator comprises an amplifier having a first amplifier input connected to the integrator input and an amplifier output coupled to the output of the integrator and the integrator comprises a first integrating capacitor with a first electrode coupled to the first amplifier input and with a second electrode coupled to the amplifier output. 7. The optical sensor arrangement according to claim 6 , wherein the analog-to-digital converter comprises a calibration digital-to-analog converter coupled to a control terminal of the amplifier. 8. The optical sensor arrangement according to claim 6 , wherein the integrator comprises a first switch coupling the second electrode of the first integrating capacitor to the amplifier output and a first reference switch coupling the second electrode of the first integrating capacitor to a reference voltage terminal. 9. The optical sensor arrangement according to claim 8 , wherein the integrator comprises a second integrating capacitor with a first electrode coupled to the first amplifier input, a second switch coupling a second electrode of the second integrating capacitor to the amplifier output and a second reference switch coupling the second electrode of the second integrating capacitor to the reference voltage terminal. 10. The optical sensor arrangement according to claim 9 , wherein the integrator comprises a further first switch coupling the second electrode of the first integrating capacitor to a further reference voltage terminal and a further second switch coupling the second electrode of the second integrating capacitor to an additional reference voltage terminal. 11. A method for light sensing, comprising providing an analog input signal by a digital-to-analog converter to a control terminal of a comparator, wherein an offset of the comparator is controlled by the analog input signal, generating a sensor current by a photodiode and providing the sensor current to an integrator input of an integrator, generating an output voltage by the integrator and providing the output voltage to a first input of the comparator, wherein a second input of the comparator is coupled to a reference voltage terminal, and determining a digital value of the sensor current as a function of a comparator output signal generated by the comparator. 12. The method according to claim 11 , wherein a value of the analog input signal is determined in a calibration phase and is kept constant during a measuring phase following the calibration phase. 13. The method according to claim 11 , wherein a second input of the comparator is coupled to a reference voltage terminal, and wherein an offset of the comparator is controlled by the analog input signal. 14. The method according to claim 13 , wherein the comparator output signal depends on the values of the output voltage, of a reference voltage tapped at the reference voltage terminal and of the analog input signal. 15. An optical sensor arrangement, comprising: a photodiode and an analog-to-digital converter comprising an integrator having an integrator input coupled to the photodiode, a comparator having a first input coupled to an output of the integrator, and a calibration digital-to-analog converter, wherein the integrator comprises an amplifier having a first amplifier input connected to the integrator input, a second amplifier input, a control terminal and an amplifier output coupled to the output of the integrator, wherein the calibration digital-to-analog converter is coupled to the control terminal of the amplifier, generates an analog signal and applies the analog signal to the control terminal of the amplifier, and wherein the offset of the amplifier depends on the analog signal.