Converter arrangement having a control die with control logic for generating a control signal and a control output for controlling a converter die

The invention claimed is: 1. A switched DC/DC converter arrangement, comprising: a control die; converter dies; wherein the control die comprises a control logic for generating a first set of signals and further comprises control outputs for controlling the converter dies by means of the first set of signals, respectively, wherein each of the converter dies comprises at least one converter and each of the converter dies is designed for converting an input signal into an output signal in dependence on its respective signal within the first set of signals, wherein the first set of signals can be received at a dedicated control input; and single-line interfaces that each connect the control outputs to the dedicated control inputs, wherein the control logic comprises a common feedback input that is connected to feedback outputs of the converter dies in order to receive feedback signals from the converter dies, wherein the feedback signals are dependent on the output signals, wherein the first set of signals are dependent on the feedback signal, and wherein the single-line interfaces are designed for bidirectional communication, to exchange between the first set of signals and a second set of signals for the controller die and the converter dies over the single-line interfaces in a bidirectional manner, wherein the first set of signals comprises control signals and the second set of signals comprises current signals. 2. The switched DC/DC converter arrangement according to claim 1 , wherein the single-line interfaces are designed for the bidirectional communication between the control outputs and the control inputs. 3. The switched DC/DC converter arrangement according to claim 2 , wherein the bidirectional communication is designed for transmitting the first set of signals from the control outputs to the control inputs, and for receiving the second set of signals from the control inputs at the control outputs, and wherein the second set of signals are dependent on at least one coil current flowing through a coil that can be connected to at least one of the converter dies. 4. The switched DC/DC converter arrangement according to claim 3 , wherein the control logics of the control dies generate the first set of signals in dependence on the second set of signals. 5. The switched DC/DC converter arrangement according to claim 1 , wherein the control logic comprises a comparator that is coupled to the common feedback input and designed for generating a comparison signal by comparing the second set of signals and the feedback signals. 6. The switched DC/DC converter arrangement according to claim 5 , wherein the control logic comprises a modulator for modulating the first set of signals by means of pulse-width modulation, wherein the pulse-width modulation is carried out in dependence on the comparison signal of the comparator, and wherein the modulated first set of signals define a duty factor of the converter dies. 7. The switched DC/DC converter arrangement according to claim 1 , wherein the converter dies comprise: the at least one converter that comprises switches; a converter control logic that is connected to the respective control input and respectively connected to the switches via driver stages; and a current source that is connected to the respective control input and coupled to a current meter. 8. The switched DC/DC converter arrangement according to claim 1 , wherein the control dies comprise a temperature inputs, wherein the converter dies comprise temperature outputs, and wherein second single-line interfaces connect the temperature inputs to the temperature outputs. 9. The switched DC/DC converter arrangement according to claim 8 , wherein the second single-line interfaces are designed for bidirectional communication between the respective temperature inputs and the temperature outputs. 10. The switched DC/DC converter arrangement according to claim 8 , wherein the converter dies comprise means for generating temperature signals, and wherein the temperature signals are dependent on the temperature of the respective converter dies and made available at the temperature outputs, respectively. 11. The switched DC/DC converter arrangement according to claim 10 , wherein the bidirectional communication is designed for transmitting the temperature signals from the temperature outputs to the temperature inputs, and for receiving configuration signals from the temperature outputs at the temperature inputs. 12. The switched DC/DC converter arrangement according to claim 11 , wherein the control logic, in dependence on the configuration signals, switches the converter dies on or off, and/or makes available a respective bias current at the converter dies. 13. The switched DC/DC converter arrangement according to claim 1 , wherein the control die comprises a plurality of control logics that respectively comprise a control output, and wherein the converter die comprises a plurality of converters that respectively comprise a control input. 14. The switched DC/DC converter arrangement according to claim 13 , wherein the plurality of control logics is integrated into a common semiconductor chip, and wherein the plurality of converters is integrated into another common semiconductor chip. 15. The switched DC/DC converter arrangement according to claim 13 , wherein the plurality of control logics comprise the same feedback input, and wherein the feedback input is respectively connected to the feedback outputs of the plurality of converters. 16. A method for operating a switched DC/DC converter arrangement, comprising the steps of: generating a first set of signals by means of a control logic of a control die in order to control converter dies, respectively; transmitting the first set of signals by means of single-line interfaces that connect a control output of the control die to a control input of a respective one of the converter dies; receiving the first set of signals at the control input of the respective converter dies; and converting an input signal into an output signal in dependence on the received first set of signals by means of at least one converter of the respective converter dies, wherein the single-line interfaces are designed for bidirectional communication, to exchange between the first set of signals and a second set of signals for the controller die and the converter dies over the single-line interfaces in a bidirectional manner, and wherein the first set of signals comprises control signals and the second set of signals comprises current signals.