LED lighting circuit fed by current source

The invention claimed is: 1. A lighting circuit for producing light, the lighting circuit comprising: a first circuit comprising an element with a diode function, a capacitor, a first light emitting diode arrangement and a first switch, the element with the diode function being coupled serially to parallel branches, a first branch of the parallel branches comprising the capacitor, and a second branch of the parallel branches comprising the first light emitting diode arrangement and the first switch coupled serially to each other; a second circuit comprising a second switch, the second switch being coupled in parallel to the first circuit; and wherein the lighting circuit further comprises a fourth circuit, wherein the fourth circuit comprises a second light emitting diode arrangement and a third switch, wherein the second light emitting diode arrangement and the third switch are coupled in parallel, and wherein the second and the fourth circuit are coupled in series. 2. The lighting circuit as defined in claim 1 , the lighting circuit producing the light in response to a supply current from a current source, the second switch being parallel to the element with a diode function, the element with the diode function having a diode forward direction such that in a conducting mode of the second switch, the supply current is prevented flowing through the element with the diode function, and in a non-conducting mode of the second switch, the supply current is forced to flow through the element with the diode function. 3. The lighting circuit as defined in claim 2 , the first switch being configured to, in a non-conducting mode of the first switch, preventing the first light emitting diode arrangement from producing at least a first part of the light, and the first switch being configured to, in a conducting mode of the first switch, allowing the first light emitting diode arrangement to produce at least the first part of the light, power for the first light emitting diode arrangement being delivered via the supply current when flowing through the element with the diode function or being delivered via a capacitor current supplied by the capacitor. 4. The lighting circuit as defined in claim 1 , further comprising: a third circuit for generating a first control signal for controlling the first switch and for generating a second control signal for controlling the second switch, the first control signal having respective first and second values for bringing the first switch into the respective conducting and non-conducting modes, and the second control signal having respective third and fourth values for bringing the second switch into the respective conducting and non-conducting modes. 5. The lighting circuit as defined in claim 1 , the lighting circuit producing the light in response to a supply current from a current source, the third switch being configured to, in a conducting mode of the third switch, letting the supply current pass, thereby preventing the supply current from flowing through the second light emitting diode arrangement, and the third switch being configured to, in a non-conducting mode of the third switch, letting the supply current not pass, whereby the supply current is forced to flow through the second light emitting diode arrangement for producing at least a second part of the light. 6. The lighting circuit as defined in claim 4 , wherein the third circuit is configured to generate a third control signal for controlling the third switch, the third control signal having respective fifth and sixth values for bringing the third switch into the respective conducting and non-conducting modes. 7. The lighting circuit as defined in claim 1 , further comprising a fifth circuit: wherein the fifth circuit comprises a third light emitting diode arrangement and a fourth switch wherein the third light emitting diode arrangement and the fourth switch are coupled in parallel, and wherein the fourth and the fifth circuit are coupled in series. 8. The lighting circuit as defined in claim 7 , the lighting circuit producing the light in response to a supply current from a current source, the fourth switch being configured to, in a conducting mode of the fourth switch, letting the supply current pass, thereby preventing the supply current from flowing through the third light emitting diode arrangement, and the fourth switch being configured to, in a non-conducting mode of the fourth switch, letting the supply current not pass, whereby the supply current is forced to flow through the third light emitting diode arrangement for producing at least a third part of the light. 9. The lighting circuit as defined in claim 4 , further comprising: wherein the third circuit is configured to generate a fourth control signal for controlling the fourth switch, the fourth control signal having respective seventh and eighth values for bringing the fourth switch into the respective conducting and non-conducting modes. 10. The lighting circuit as defined in claim 1 , the first switch comprising a first transistor, the second switch comprising a second transistor, and the element with the diode function comprising a diode or a zener diode or a part of a third transistor or a fourth transistor. 11. The lighting circuit as defined in claim 1 , the third switch comprising a fifth transistor. 12. The lighting circuit as defined in claim 7 , the fourth switch comprising a sixth transistor. 13. The lighting circuit as defined in claim 1 , a value of a first duty cycle of the first switch defining an amplitude of an arrangement current flowing through the first light emitting diode arrangement for a given value of a second duty cycle of the second switch, and a value of the second duty cycle of the second switch defining an average value of the arrangement current. 14. A device comprising the lighting circuit as defined in claim 1 and further comprising a current source for producing a supply current.