Device for controlling a multiple spark operation of an internal combustion engine, and related method

The invention claimed is: 1. A control unit for regulating a multiple spark operation of a combustion engine, comprising an ignition transformer that is switched on and off for releasing or interrupting an ignition spark current by a regulator electronic circuit for actuating the ignition transformer with the aid of at least one programmed current threshold, wherein the control unit is configured to transmit a first control signal and a second control signal to the regulator electronic circuit, the first and second control signals being separated from each other in time such that a value for a follow-up current threshold is defined by a variable pulse pause between a termination of the first control signal and a beginning of the second control signal when the first control signal and the second control signal are not being transmitted; wherein the control unit is configured to store a plurality of thresholds that correspond to a plurality of operating statuses of the combustion engine, wherein the first and second control signals are supplied to the regulator electronic circuit for defining the follow-up current threshold and for actuating the ignition transformer, wherein the first and second control signals are communicated from the control unit to the regulator electronic circuit over a single-wire interface, wherein the first control signal provides a loading time and an ignition time of a conventional ignition, and wherein the second control signal provides a duration of a multiple spark phase, wherein the variable pulse pause is an encoded interval, and wherein the value for the follow-up current threshold is transmitted over the single-wire interface via the encoded interval between the first control signal and the second control signal. 2. The control unit according to claim 1 , wherein the release or interruption of the ignition spark current takes place depending on a comparison of the follow-up current threshold and a measurable transformer current, wherein the measurable transformer current is a secondary current. 3. The control unit according to claim 1 , wherein a transmission of the value for the follow-up current threshold takes place depending on a duration of the variable pulse pause in combination with a further value of a related follow-up current threshold, wherein the related follow-up current threshold is a primary current switch-off threshold. 4. The control unit according to claim 3 , wherein the transmission of the value for the follow-up current threshold value and/or a transmission of a further value for the follow-up current threshold takes place with the aid of a protocol which contains correlations between a duration of the variable pulse pause and the follow-up current threshold values. 5. The control unit according to claim 1 , wherein a transmission of the value for the follow-up current threshold value takes place in connection with a current threshold difference value over a duration of the variable pulse pause. 6. The control unit according to claim 1 , wherein a bidirectional interface is provided between the control unit and the ignition transformer, the bidirectional interface being used for transmitting a spark burning time. 7. The control unit according to claim 1 , wherein a transmission of a value of a secondary current switch-off threshold over a duration of the variable pulse pause takes place during the detection of an amplitude value of a first primary current pulse for adjusting a primary current switch-off threshold. 8. The control unit according to claim 1 , wherein a transmission of a combination of a secondary current switch-off threshold and a primary current switch-off threshold takes place with an amplitude of a first primary current pulse. 9. A regulator electronic circuit for an ignition transformer and for regulating a multiple spark operation of a combustion engine, comprising the ignition transformer, the ignition transformer being switched on and off for releasing or interrupting an ignition spark current by the regulator electronic circuit with the aid of at least one programmed current threshold, wherein the regulator electronic circuit is configured to receive a first control signal and a second control signal from a control unit, the first and second control signals being separated from each other in time such that a value for a follow-up current threshold is defined by a variable pulse pause between a termination of the first control signal and a beginning of the second control signal when the first control signal and the second control signal are not being transmitted; wherein the control unit is configured to associate a duration of the variable pulse pause with the follow-up current threshold, wherein the first and second control signals are supplied to the regulator electronic circuit for defining the follow-up current threshold and for actuating the ignition transformer, wherein the first and second control signals are communicated from the control unit to the regulator electronic circuit over a single-wire interface, wherein the first control signal provides a loading time and an ignition time of a conventional ignition, and wherein the second control signal provides a duration of a multiple spark phase, wherein the variable pulse pause is an encoded interval, and wherein the value for the follow-up current threshold is transmitted over the single-wire interface via the encoded interval between the first control signal and the second control signal. 10. The regulator electronic circuit according to claim 9 , wherein the release or interruption of the ignition spark current takes place depending on a comparison of the follow-up current threshold and a measurable transformer current, wherein the measurable transformer current is a secondary current. 11. The regulator electronic circuit according to claim 9 , wherein a transmission of the value for the follow-up current threshold takes place depending on the duration of the variable pulse pause in combination with a further value of a related follow-up current threshold, wherein the related follow-up current threshold is a primary current switch-off threshold. 12. The regulator electronic circuit according to claim 11 , wherein the transmission of the value for the follow-up current threshold value and/or a transmission of a further value of the related follow-up current threshold takes place with the aid of a protocol which contains correlations between the duration of the variable pulse pause and the follow-up current threshold values. 13. The regulator electronic circuit according to claim 9 , wherein a transmission of the value for the follow-up current threshold value takes place in connection with a current threshold difference value over the duration of the variable pulse pause. 14. The regulator electronic circuit according to claim 9 , wherein a bidirectional interface is provided between the control unit and the ignition transformer, the bidirectional interface being used for transmitting a spark burning time. 15. The regulator electronic circuit according to claim 9 , wherein a transmission of the value for the follow-up current threshold value of a secondary current switch-off threshold over a duration of the variable pulse pause takes place during the detection of an amplitude value of a first primary current pulse for adjusting a primary current switch-off threshold. 16. The regulator electronic circuit according to claim 9 , wherein a transmission of a combination of a secondary current switch-off threshold and a primary current switch-off threshold takes place with an amplitude of a first pri