Optical sensor arrangement and method for light sensing

The invention claimed is: 1. An optical sensor arrangement, comprising: a photodiode, an integrator with an integrator input, a first switch that couples the photodiode to the integrator input, a comparator with a first input coupled to an integrator output of the integrator, and a reference capacitor circuit that is coupled to the integrator input and is designed to provide a charge package to the integrator input, wherein in a measuring phase, a photocurrent is provided by the photodiode to the integrator input, wherein in a start phase, charge packages are provided to the integrator input, until a comparator input voltage at the first input of the comparator crosses a comparator switching point, and wherein the measuring phase follows the start phase. 2. The optical sensor arrangement according to claim 1 , wherein in the start phase, the first switch is set in a non-conducting state, and in a measuring phase, the first switch is set in a conducting state. 3. The optical sensor arrangement according to claim 1 , comprising a second switch that couples the photodiode to a reference potential terminal. 4. The optical sensor arrangement according to claim 1 , wherein the reference capacitor circuit is designed to selectively provide at least two different charge values of the charge package to the integrator input. 5. The optical sensor arrangement according to claim 1 , wherein the reference capacitor circuit comprises a reference capacitor. 6. The optical sensor arrangement according to claim 5 , wherein the reference capacitor is controllable and can obtain at least two different capacitance values. 7. The optical sensor arrangement according to claim 5 , wherein the reference capacitor circuit comprises: a first reference switch coupling a first electrode of the reference capacitor to the integrator input, a second reference switch coupling the first electrode of the reference capacitor to a reference terminal, a third reference switch coupling a second electrode of the reference capacitor to a reference source terminal and a fourth reference switch coupling the second electrode of the reference capacitor to the reference terminal. 8. The optical sensor arrangement according to claim 7 , wherein the reference capacitor circuit is configured to selectively provide at least two different reference voltages to the reference source terminal. 9. The optical sensor arrangement according to claim 1 , wherein the integrator comprises an amplifier having an input coupled to the integrator input and an output coupled to the integrator output, and wherein the integrator comprises a integrator capacitor that is coupled between the input of the amplifier and the output of the amplifier. 10. The optical sensor arrangement according to claim 9 , wherein the integrator comprises an integrator switch coupling the integrator capacitor to the output of the amplifier. 11. The optical sensor arrangement according to claim 10 , wherein the integrator comprises a further integrator switch coupling a node between the integrator capacitor and the integrator switch to a voltage terminal. 12. The optical sensor arrangement according to claim 1 , comprising a de-charging switch coupling the integrator input to a reference potential terminal. 13. The optical sensor arrangement according to claim 1 , wherein a comparator threshold voltage is applied to a second input of the comparator for setting the comparator switching point. 14. A method for light sensing, comprising: in a start phase, providing charge packages by a reference capacitor circuit to an integrator input of an integrator, until a comparator input voltage at a first input of a comparator crosses a comparator switching point, wherein the first input of the comparator is coupled to an integrator output of the integrator, and in a measuring phase, providing a photo current of a photodiode to the integrator input, wherein the measuring phase follows the start phase, and wherein a first switch couples the photodiode to the integrator input.