Circuit arrangement for controlling a LED unit and method of operating the same

The invention claimed is: 1. A circuit arrangement for controlling the brightness of at least one LED unit, the circuit arrangement comprising: an input for receiving a phase-cut operating voltage having an amplitude from a power supply; a signal processor, connected with said input and adapted to provide a dimming signal for said at least one LED unit from said phase-cut operating voltage, said signal processor being configured to operate at least in a noise suppression mode and a dimming mode; and a control device, connected with said signal processor and configured to set the mode of said signal processor in dependence of the variation in said phase-cut operating voltage, and to determine said variation by comparing said amplitude of said phase-cut operating voltage with a reference signal to determine whether the amplitude of said phase-cut operating voltage exceeds a predetermined threshold value, wherein said control device comprises a switchable control circuit comprising a resistor in series with a diode arrangement of two parallel connected opposing diodes, to provide an alternative current path through the resistor so that a cut-off frequency of the signal processor is set to a second cut-off frequency; wherein said reference signal corresponds to said dimming signal, wherein the predetermined threshold value is at least as high as a forward voltage of one of the opposing diodes. 2. The circuit arrangement according to claim 1 , wherein a first low-pass filter is connected between said input and said signal processor. 3. The circuit arrangement according to claim 2 , wherein said signal processor comprises a second low-pass filter to provide said dimming signal from said phase-cut operating voltage and wherein said second low-pass filter is operated in said noise suppression mode with a first cut-off frequency and in said dimming mode with a second cut-off frequency, said first cut-off frequency being lower than said second cut-off frequency. 4. The circuit arrangement according to claim 3 , wherein the second low-pass filter is an RC low-pass filter circuit, comprising at least a resistive and a capacitive path and wherein said switchable control circuit is arranged parallel to said resistive path of said filter circuit to control the cut-off frequency of said RC filter circuit. 5. LED lamp comprising at least a circuit arrangement according to claim 1 and one or more LED units, connected with said circuit arrangement. 6. A lighting system comprising a power supply adapted to provide a phase-cut operating voltage and one or more LED lamps according to claim 5 , connected to said power supply. 7. The circuit arrangement according to claim 2 , wherein a second low-pass filter is connected between said input and said signal processor. 8. A circuit arrangement for controlling the brightness of at least one LED unit, the circuit comprising: an input for receiving a phase-cut operating voltage from a power supply, a signal processor, connected with said input and adapted to provide a dimming signal for said at least one LED unit from said phase-cut operating voltage, said signal processor being configured to operate at least in a noise suppression mode and a dimming mode and a control device, connected with said signal processor and configured to set the mode of said signal processor in dependence of the variation in said phase-cut operating voltage, and to determine said variation by comparing said phase-cut operating voltage with a reference signal; wherein said reference signal corresponds to said dimming signal, wherein said signal processor comprises a sampling circuit, which is adapted upon activation to sample an amplitude of said dimming signal, so that said dimming signal corresponds to said sampled amplitude until said sampling circuit is deactivated. 9. The circuit arrangement according to claim 8 , wherein said control device comprises a delay unit, adapted to receive said phase-cut operating voltage and to provide said reference signal, corresponding to said phase-cut operating voltage with a predefined delay time. 10. The circuit arrangement according to claim 8 , wherein the signal processor is configured so that said sampling circuit is activated in said noise suppression mode. 11. The circuit arrangement according to claim 10 , wherein the signal processor is configured so that said sampling circuit is deactivated in said dimming mode. 12. The circuit arrangement according to claim 11 , further comprising a driver unit, connected with said input and adapted to provide an operating current to set at least one LED unit, wherein said driver unit is further connected with said signal processor to set the operating current corresponding to said dimming signal. 13. A method of controlling the brightness of at least one LED unit with a circuit arrangement comprising an input for receiving a phase-cut operating voltage having an amplitude from a power supply, and a signal processor, connected with said input and being adapted to provide a dimming signal from said phase-cut operating voltage in at least a noise suppression mode and a dimming mode, in which the mode of said signal processor is set in dependence of the variation in said phase-cut operating voltage and said variation being determined by comparing said amplitude of said phase-cut operating voltage with a reference signal corresponding to said dimming signal to determine whether the amplitude of said phase-cut operating voltage exceeds a predetermined threshold value, and wherein an alternative current path is provided so that a cut-off frequency of the signal processor is set to a second cut-off frequency, wherein the brightness of the at least one LED unit is controlled according to the dimming signal. 14. A circuit arrangement for controlling the brightness of at least one LED unit, the circuit comprising: an input for receiving a phase-cut operating voltage having an amplitude from a power supply; a signal processor connected with said input and adapted to provide a dimming signal for said at least one LED unit from said phase-cut operating voltage, said signal processor being configured to operate at least in a noise suppression mode and a dimming mode; a first low-pass filter connected between said input and said signal processor, wherein the signal processor comprises a second low-pass filter to provide said dimming signal from said phase-cut operating voltage, the signal processor providing a first current path; and a control device is arranged parallel to said signal processor and configured to set the mode of said signal processor in dependence of the variation in said phase-cut operating voltage, and to determine said variation by comparing said amplitude of said phase-cut operating voltage with a reference signal to determine whether the amplitude of said phase-cut operating voltage exceeds a predetermined threshold value, the control device providing an alternative current path to provide an alternative current path so that a cut-off frequency of the signal processor is set to a second cut-off frequency, wherein the brightness of the at least one LED unit is controlled according to the dimming signal.