Operating device for lamps for transmitting information

What is claimed is: 1. A method for transmitting information bidirectionally between an operating device (K) for one or more lamps (L) comprising a direct current voltage converter (CS) and a control unit (ST), the method having the following steps: providing a control unit (ST) comprising a pair of inputs ( 3 , 4 ) to which an input-side AC supply voltage (Vin) is applied, a pair of outputs ( 6 , 7 ), a controllable switch ( 5 ) that conducts the input-side AC voltage when closed to the outputs ( 6 , 7 ) of the control unit (ST), and a first control circuit (SC) that controls the opening and closing of the switch ( 5 ); providing an operating device (K) for lamps (L) comprising, a pair of inputs ( 10 , 11 ) for the operating device, bus voltage unit (PSU) including a rectifier, a direct current voltage converter (CS), a pair of outputs from the operating device (K) to one or more lamps (L), and a second control circuit ( 15 ); providing voltage supply lines ( 8 , 9 ) between the outputs ( 6 , 7 ) of the control unit (ST) and the inputs ( 10 , 11 ) of the operating device (K); controlling the switch ( 5 ) with the first control circuit (SC) in the control unit (ST) to temporarily interrupt the input-side AC supply voltage (Vin) on a selective, periodic basis to create gaps ( 20 ) in selected half waves of the sinusoidal waveform of the output voltage (V 1 ) supplied to the operating device (K) over the voltage supply lines ( 8 , 9 ), wherein information is encoded by the control unit (ST) as sequences of the presence or absence of a gap ( 20 ) in a respective half wave in order to send information from the control unit (ST) to the operating device (K) over the voltage supply lines ( 8 , 9 ); using the second control circuit ( 15 ) in the operating device (K) to evaluate as information sequences of gaps ( 20 ) in the respective half wave of the sinusoidal waveform of the output voltage (V 1 ) that is provided to the inputs ( 10 , 11 ) of the operating device (K) over voltage supply lines ( 8 , 9 ); and using the operating device (K) to selectively apply a voltage signal (V 2 , V 3 ) to the voltage supply lines ( 8 , 9 ) during the gaps ( 20 ) to numerous successive half waves of the output voltage (V 1 ), wherein information is encoded by the operating device (K) as sequences of the presence or absence of a voltage signal (V 2 , V 3 ) in gaps ( 20 ) in successive half waves in order to send information from operating device (K) to the the control unit (ST) over the voltage supply lines ( 8 , 9 ); and evaluating the sequences of voltage signals (V 2 , V 3 ) in gaps ( 20 ) in successive half waves as information by the control unit (ST). 2. The method according to claim 1 , wherein the control unit (ST) interrupts the supply voltage (Vin) by means of a leading edge or trailing edge phase cutting or both. 3. The method according to claim 1 , wherein the information transmission from the operating device (K) to the control unit (ST) is transmitted in a digitally encoded form, in that the operating device (K) selectively applies at least two discrete, different, voltage signals to the voltage supply lines ( 8 , 9 ) during the interruption of the AC supply voltage (Vin). 4. The method according to claim 1 , in which the temporary interruption of the AC supply voltage (Vin) is interpreted by the operating device (K) as a polling command for sending information to the control unit (ST). 5. The method according to claim 1 , in which the operating device (K) executes the application the voltage signal (V 2 , V 3 ) to the voltage supply lines ( 8 , 9 ) starting from a DC voltage in the operating device (K) through switches (SW 2 , SW 3 ) controlled by the operating device (K) and a diode that is resistant to electrical flow in the direction from the control unit (ST) towards the diode. 6. The method according to claim 5 , in which the operating device (K) executes the application to the voltage supply lines ( 8 , 9 ) using a galvanically separated transducer (T), with a primary side of transducer (T) switched on and the secondary side of the transducer (T) connected to the voltage supply lines ( 8 , 9 ) through the switches (SW 2 , SW 3 ) controlled by the operating device (K) and said diode. 7. A method for retrieving information from an operating device (K) for LEDS (L) to a control unit (ST) connected via voltage supply lines ( 8 , 9 ) to the operating device (K), the method having the following steps: providing a control unit (ST) comprising a pair of inputs ( 3 , 4 ) to which an input-side AC supply voltage (Vin) is applied, a pair of outputs ( 6 , 7 ), a controllable switch ( 5 ) that conducts the input-side AC voltage when closed to the outputs ( 6 , 7 ) of the control unit (ST), and a first control circuit (SC) that controls the opening and closing of the switch ( 5 ); providing an operating device (K) for LEDs (L) comprising, a pair of inputs ( 10 , 11 ) for the operating device, bus voltage unit (PSU) including a rectifier, a direct current voltage converter (CS), a pair of outputs from the operating device (K) to one or more lamps (L), and a second control circuit ( 15 ); providing voltage supply lines ( 8 , 9 ) between the outputs ( 6 , 7 ) of the control unit (ST) and the inputs ( 10 , 11 ) of the operating device (K); controlling the switch ( 5 ) with the first control circuit (SC) in the control unit (ST) to temporarily interrupt the input-side AC supply voltage (Vin) on a selective, periodic basis to create gaps ( 20 ) in selected half waves of the sinusoidal waveform of the output voltage (V 1 ) supplied to the operating device (K) over the voltage supply lines ( 8 , 9 ); detecting the presence of gaps ( 20 ) in selected half waves of the sinusoidal waveform of the output voltage (V 1 ) supplied to the operating device (K) over the voltage supply lines ( 8 , 9 ); in response to the detection of gaps ( 20 ) using the operating device (K) to selectively apply a voltage signal (V 2 , V 3 ) to the voltage supply lines ( 8 , 9 ) during the gaps ( 20 ); wherein the operating device (K) executes the application of the voltage signal (V 2 , V 3 ) to the voltage supply lines ( 8 , 9 ) using a galvanically separated transducer (T) connected between the bus voltage unit (PSU) and the direct current voltage converter (CS) with a primary side of transducer (T) switched on and the secondary side of the transducer (T) connected to the voltage supply lines ( 8 , 9 ) through the switches (SW 2 , SW 3 ) controlled by the operating device (K) and a diode that is resistant to electrical flow in the direction from the control unit (ST) towards the secondary winding; and evaluating the sequences of voltage signals (V 2 ,V 3 ) in gaps ( 20 ) in successive half waves as information by the control unit (ST). 8. A system for operating one or more LED lamps (L) comprising: a control unit (ST) comprising a pair of inputs ( 3 , 4 ) to which an input-side AC supply voltage (Vin) is applied, a pair of outputs ( 6 , 7 ), a controllable switch ( 5 ) that conducts the input-side AC voltage when closed to the outputs ( 6 , 7 ) of the control unit (ST), and a first control circuit (SC) that controls the opening and closing of the switch ( 5 ); an operating device (K) for lamps (L) comprising, a pair of inputs ( 10 , 11 ) for the operating device, bus voltage unit (PSU) including a rectifier, a direct current voltage converter (CS), a pair of outputs from the operating device (K) to one or more LED lamps (L), and a second control circuit ( 15 ); voltage supply lines ( 8 , 9 ) between the outputs ( 6 , 7 ) of the control unit (ST) and the inputs ( 10 , 11 ) of the operating device (K); wherein the switch ( 5 ) is controlled with the first control circuit (SC) in the co