LED converter and method for controlling a converter circuit of an LED converter

The invention claimed is: 1. An LED converter, comprising a converter circuit with a potential barrier providing potential separation, wherein the converter circuit comprises at least one controllable switch; a control device controlling the at least one controllable switch with a clock the control device modulating a switching frequency of the clock and controlling the at least one controllable switch to transmit information across the potential barrier, the information comprising a sequence of data bits; and a demodulator receiving the information comprising the sequence of data bits and controlling the LED converter based on the information comprising the sequence of data bits. 2. The LED converter according to claim 1 , wherein the control device changes the switching frequency in at least one frequency ramp in order to transmit the information. 3. The LED converter according to claim 2 , wherein a temporal mean of an output current of the LED converter during the at least one frequency ramp corresponds to a predetermined LED current. 4. The LED converter according to claim 3 , wherein the control device modulates the switching frequency of the controllable switch so the temporal mean of the output current of the LED converter in a time interval in which information is transmitted is substantially equal to a further time interval in which no information is transmitted. 5. The LED converter according to claim 1 , wherein the control device modulates the switching frequency of the at least one controllable switch in dependence on the sequence of data bits. 6. The LED converter according to claim 1 , wherein the converter circuit comprises an LLC resonant converter, and wherein the control device modulates the switching frequency of a first controllable switch and of a second controllable switch of a half-bridge circuit in order to transmit the information. 7. The LED converter according to claim 1 , wherein the demodulator is coupled with a secondary coil of the converter circuit. 8. The LED converter according to claim 1 , wherein the control device transmits the information to an illuminant that comprises at least one light-emitting diode. 9. An LED converter system comprising: a converter circuit with a potential barrier providing potential separation, wherein the converter circuit comprises at least one controllable switch; a control device controlling the at least one controllable switch with a clock, the control device modulating a switching frequency of the clock and controlling the at least one controllable switch to transmit information across the potential barrier, the information comprising a sequence of data bits; and a demodulator receiving the information comprising the sequence of data bits and controlling the LED converter based on the information comprising the sequence of data bits, and an illuminant that comprises at least one light-emitting diode and which is connected to the LED converter. 10. System according to claim 9 , wherein the illuminant comprises at least one integrated semiconductor circuit for demodulating the information. 11. System according to claim 10 , wherein the demodulator is configured to control or regulate a further converter in dependence on the transmitted information. 12. System according to claim 11 , wherein the transmitted information is status, brightness, colour or operational state information. 13. System according to claim 9 , wherein the illuminant is an LED module. 14. A method for controlling a converter circuit of an LED converter which comprises at least one controllable switch, wherein the method comprises: controlling the at least one controllable switch with a clock; switching the at least one controllable switch at an input side of the LED converter in a clocked manner, and modulating a switching frequency of the at least one controllable switch to transmit information to an output side of the LED converter across a potential barrier of the converter circuit; demodulating received information at the output side of the LED converter the received information comprising a sequence of data bits; and controlling the LED converter based on the received information.