Electronic device

What is claimed is: 1. An electronic device, comprising: a component to be supplied; a supply line providing a supply voltage; a transistor to which the supply voltage is fed from the supply line, the transistor comprising a control input and configured to output an output voltage depending on a signal applied to the control input to supply the component; a linear first control loop, comprising a delta-sigma analog-to-digital converter configured to convert an analog output voltage level into a digital measurement signal, a controller configured to generate a digital control signal for the transistor depending on the digital measurement signal, and a delta-sigma digital-to-analog converter configured to convert the digital control signal into a first analog control signal and feed it to the control input of the transistor; a non-linear second control loop, configured to generate a second analog control signal depending on the analog output voltage level and feed it to the control input of the transistor, wherein the second analog control signal is superimposed with the first analog control signal; and a microcontroller with a processor, wherein the controller is implemented by a software task running on the processor, wherein the non-linear second control loop is implemented by a digital-to-analog converter or a comparator of the microcontroller, a further software task running on the processor, and an output interface of the microcontroller. 2. The electronic device of claim 1 , wherein the controller is configured to generate the digital control signal for the transistor from a control error between an output voltage level indicated by the digital measurement signal and a reference variable for the output voltage. 3. The electronic device of claim 1 , wherein the controller is a PI controller. 4. The electronic device of claim 1 , wherein the delta-sigma digital-to-analog converter is configured to feed the first analog control signal to the control input of the transistor via a low-pass filter. 5. The electronic device of claim 1 , wherein the non-linear second control loop comprises a comparator configured to compare the analog output voltage level with a threshold value, and generate the second analog control signal dependent on a result of the comparison. 6. The electronic device of claim 1 , wherein the non-linear second control loop comprises an analog-to-digital converter configured to convert the analog output voltage level into a digital level of the output voltage, compare the digital level of the output voltage with a threshold value, and generate the second analog control signal depending on a result of the comparison. 7. The electronic device of claim 1 , wherein the second analog control signal has one of two levels. 8. The electronic device of claim 1 , wherein the transistor is a field-effect transistor and wherein the non-linear second control loop is configured to generate the second analog control signal depending on the analog output voltage level, wherein charge is extracted from a gate of the field-effect transistor or charge is fed to the gate of the field-effect transistor based on the second analog control signal. 9. The electronic device of claim 1 , wherein the non-linear second control loop is configured not to feed the second analog control signal to the control input of the transistor if the analog output voltage level lies within a pre-defined tolerance range. 10. The electronic device of claim 1 , wherein the microcontroller comprises the delta-sigma analog-to-digital converter and the delta-sigma digital-to-analog converter. 11. The electronic device of claim 1 , wherein the electronic device is a radar device and the component to be supplied is a monolithic microwave integrated circuit. 12. A method for controlling an output voltage supplied to a component of an electronic device, comprising: generating a first control signal based on a control error between an output voltage level of a transistor and a reference variable for the output voltage level; generating a second control signal based on a comparison of the output voltage level of the transistor and at least one threshold voltage to exhibit either a first value that causes charge to be extracted from a gate of the transistor when the output voltage level exceeds a first threshold or a second value that causes charge to be fed to the gate of the transistor when the output voltage level is below a second threshold; and feeding the first control signal and the second control signal, superimposed with respect to one another, to a gate of the transistor to control the transistor to output the output voltage. 13. The method of claim 12 , comprising: converting the output voltage level into a digital measurement signal, generating a digital control signal for the transistor depending on the digital measurement signal, and converting the digital control signal into the first control signal. 14. The method of claim 12 , comprising filtering the first control signal with a low-pass filter and feeding the filtered first control signal to the gate of the transistor. 15. The method of claim 12 , comprising generating the second control signal to exhibit a third value that causes the gate of the transistor to be tied to a high impedance input when the output voltage level lies between the first threshold and the second threshold. 16. A power supply system for a component of an electronic device, comprising: a transistor to which supply voltage is fed from a supply line, the transistor comprising a control input and configured to output an output voltage depending on a signal applied to the control input, wherein the output voltage is provided to the component; a linear first control loop, comprising a delta-sigma analog-to-digital converter configured to convert an analog output voltage level into a digital measurement signal, a controller configured to generate a digital control signal for the transistor depending on the digital measurement signal, and a delta-sigma digital-to-analog converter configured to convert the digital control signal into a first analog control signal and feed it to the control input of the transistor; and a non-linear second control loop, configured to generate a second analog control signal depending on the analog output voltage level and feed it to the control input of the transistor, wherein the second analog control signal is superimposed with the first analog control signal, wherein the transistor is a field-effect transistor and wherein the non-linear second control loop is configured to generate the second analog control signal depending on the analog output voltage level, wherein the second analog control signal causes charge to be extracted from a gate of the field-effect transistor when the analog output voltage level is above a first threshold and causes charge to be fed to the gate of the field-effect transistor when the analog output voltage level is below a second threshold. 17. The power supply system of claim 16 , wherein the controller is configured to generate the digital control signal for the transistor from a control error between an output voltage level indicated by the digital measurement signal and a reference variable for the output voltage. 18. The power supply system of claim 16 , comprising a low-pass filter and wherein the delta-sigma digital-to-analog converter is configured to feed the first analog control signal to the control input of the transistor via the low-pass filter.