Power switch device

What is claimed is: 1. A power switch device, comprising: a power switch, an overload control adapted to open the power switch when a quantity related to the power switch exceeds a predetermined threshold, and an overload limit determination circuit adapted to adjust the predetermined threshold based on an inductivity coupled to the power switch to keep a clamp energy discharged after opening the switch at or below a predetermined value. 2. The power switch device of claim 1 , wherein the quantity comprises at least one quantity selected from a group consisting of a current flowing via the power switch, a voltage drop across the power switch or a temperature of the power switch. 3. The power switch device of claim 1 , wherein the overload limit determination circuit is adapted to estimate the inductivity coupled to the power switch and to adjust the predetermined threshold based on the estimated inductivity. 4. The power switch device of claim 3 , wherein the overload limit determination circuit is configured to estimate the inductivity based on a time duration of a clamping following an overload. 5. The power switch device of claim 3 , wherein the overload limit determination circuit comprises a lookup table to convert the estimated inductance into an overload limit. 6. The power switch device of claim 1 , wherein the overload limit determination circuit is adapted to adjust the overload limit after a first opening of the power switch due to an overload of a series of openings of the power switch. 7. The power switch device of claim 1 , wherein the overload limit determination circuit comprises a counter adapted to measure a time duration of a voltage across the power switch exceeding a predetermined voltage after the power switch has been opened. 8. The power switch device of claim 1 , wherein the overload limit determination circuit comprises an analog-to-digital converter. 9. The power switch device of claim 1 , wherein the power switch comprises a field effect transistor. 10. The power switch device of claim 1 , further comprising a control circuit to control the power switch device to close the power switch again after the power switch has been opened due to an overload. 11. The power switch device of claim 1 , wherein the overload control comprises a comparator. 12. A method of operating a power switch, comprising: estimating an inductance coupled to the power switch device, and setting an overload limit based on the inductance, wherein estimating the inductance comprises measuring a time duration of a discharge following an opening of the power switch due to overload. 13. The method of claim 12 , wherein measuring the time duration comprises measuring a duration during which a voltage across the power switch exceeds a predetermined threshold. 14. The method of claim 12 , wherein the measured time is taken as a measure for the inductivity. 15. The method of claim 12 , wherein the inductivity is estimated according to L=t CL ×V CL /I pk , wherein t CL is the measured time, V CL is a voltage across the power switch device during the time duration, and I pk is a peak current. 16. The method of claim 12 , wherein setting an overload limit comprises setting a current limit. 17. A power switch device, comprising: a switch transistor, a further transistor coupled parallel to the switch transistor and scaled with respect to the switch transistor, a load terminal of the further transistor being coupled with a sense resistor and an input of a comparator, a further input of the comparator being coupled to a reference resistor, and a reference current adjustment circuit adapted to adjust a reference current to the reference resistor based on an inductivity coupled to the switch transistor, the reference current adjustment circuit being configured to estimate the inductivity based on a time duration of a clamping following an opening of the switch due to overload. 18. The power switch device of claim 17 , wherein the reference current adjustment circuit comprises a counter coupled with a monitoring circuit monitoring a voltage between load terminals of the switch transistor. 19. The device of claim 18 , further comprising a digital-to-analog converter coupled with the counter.