Converter with selectable output-voltage ranges

The invention claimed is: 1. Converter for selectively converting an input voltage into at least a first and a second different output voltages, wherein the converter comprises a selector assembly configured to switch between using a first electronic circuit forming an un-boosted switched-mode converter and at least a second electronic circuit forming a boosted switched-mode converter, the first and second electronic circuits allowing the first and second output voltages to be supplied, respectively, wherein: the first electronic circuit comprises a first diode having a terminal serving as an output terminal of the converter, and the second electronic circuit comprises the first diode of the first electronic circuit and a second diode that is selectively connected to the converter by the selector assembly. 2. The converter according to claim 1 , wherein the second electronic circuit comprises the first electronic circuit. 3. The converter according to claim 2 , wherein the selector assembly comprises at least one switch. 4. The converter according to claim 2 , wherein the first electronic circuit is a SEPIC (single-ended primary-inductor converter) circuit and in that the second electronic circuit is a boosted-SEPIC circuit. 5. The converter according to claim 2 , wherein the first electronic circuit comprises an input terminal, a first inductor connecting the input terminal to a first node, a first capacitor, the terminals of which connect the first node to a second node, the first diode, the anode of which is connected to the second node and the cathode of which is connected to a third node, the third node being connected to an output terminal of the converter, and in that a first switch connects the first node to ground, a second inductor connects the second node to ground, and a second capacitor connects the third node to ground. 6. The converter according to claim 2 , wherein the first electronic circuit is capable of generating an output voltage of between 5 and 55 V and in that the second electronic circuit is capable of generating an output voltage of between 30 and 114 V for an input voltage of between 6 and 20 V. 7. Device for driving the power supply for at least one semiconductor element-based light source, wherein the device comprises a converter according to claim 2 , and a control unit that is configured to control the selector assembly of the converter according to the voltage level required to supply the light sources with power. 8. The converter according to claim 1 , wherein the selector assembly comprises at least one switch. 9. The converter according to claim 8 , wherein the first electronic circuit is a SEPIC (single-ended primary-inductor converter) circuit and in that the second electronic circuit is a boosted-SEPIC circuit. 10. The converter according to claim 8 , wherein the first electronic circuit comprises an input terminal, a first inductor connecting the input terminal to a first node, a first capacitor, the terminals of which connect the first node to a second node, the first diode, the anode of which is connected to the second node and the cathode of which is connected to a third node, the third node being connected to an output terminal of the converter, and in that a first switch connects the first node to ground, a second inductor connects the second node to ground, and a second capacitor connects the third node to ground. 11. The converter according to claim 1 , wherein the first electronic circuit is a SEPIC (single-ended primary-inductor converter) circuit and in that the second electronic circuit is a boosted-SEPIC circuit. 12. The converter according to claim 1 , wherein the first electronic circuit comprises an input terminal, a first inductor connecting the input terminal to a first node, a first capacitor, the terminals of which connect the first node to a second node, the first diode, the anode of which is connected to the second node and the cathode of which is connected to a third node, the third node being connected to an output terminal of the converter, and in that a first switch connects the first node to ground, a second inductor connects the second node to ground, and a second capacitor connects the third node to ground. 13. The converter according to claim 12 , wherein the first switch is a transistor, in particular a field-effect transistor, the closure duty cycle of which has an effect on the value of the output voltage of the converter. 14. The converter according to claim 1 , wherein the first electronic circuit is capable of generating an output voltage of between 5 and 55 V and in that the second electronic circuit is capable of generating an output voltage of between 30 and 114 V for an input voltage of between 6 and 20 V. 15. Device for driving the power supply for at least one semiconductor element-based light source, wherein the device comprises a converter according to claim 1 , and a control unit that is configured to control the selector assembly of the converter according to the voltage level required to supply the light sources with power. 16. The converter for selectively converting an input voltage into at least a first and a second different output voltages, wherein the converter comprises a selector assembly configured to switch between using a first electronic circuit forming an unboosted switched-mode converter and at least a second electronic circuit forming a boosted switched-mode converter, the first and second electronic circuits allowing the first and second output voltages to be supplied, respectively, wherein the second electronic circuit comprises at least a portion of the first electronic circuit; wherein the first electronic circuit comprises an input terminal, a first inductor connecting the input terminal to a first node, a first capacitor, the terminals of which connect the first node to a second node, a first diode, the anode of which is connected to the second node and the cathode of which is connected to a third node, the third node being connected to an output terminal of the converter, and in that a first switch connects the first node to ground, a second inductor connects the second node to ground, and a second capacitor connects the third node to ground; and wherein the second electronic circuit comprises the first electronic circuit and further comprises a fourth node that is located between the second inductor and ground, a second diode, the anode of which is connected to the first node and the cathode of which is connected to the fourth node, and a third capacitor connecting the node to ground. 17. The converter according to claim 16 , wherein the selector assembly is capable of selectively connecting and disconnecting the second diode and of selectively shorting the terminals of the third capacitor. 18. The converter according to claim 17 , wherein the selector assembly comprises a first selector switch that is arranged between the first node and the anode of the second diode, and a second selector switch that is connected in parallel with the third capacitor and connects the node to ground. 19. The converter according to claim 16 , wherein the selector assembly comprises a first selector switch that is arranged between the first node and the anode of the second diode, and a second selector switch that is connected in parallel with the third capacitor and connects the node to ground. 20. Converter for selectively converting an input voltage into at least a first and a second different output voltages, wherein the converter comprises a