Circuits for driving light sources

What is claimed is: 1. A light source driving circuit for powering a first light source and a second light source by a DC (direct current) voltage, comprising: a first current regulator, coupled to said first light source, operable for controlling a first switch coupled to said first light source based on a first current reference and a first sensing signal indicating a current flowing through said first light source; a second current regulator, coupled to said second light source, operable for controlling a second switch coupled to said second light source based on a second current reference and a second sensing signal indicating a current flowing through said second light source; a controller operable for regulating said current flowing through said first light source and said current flowing through said second light source by controlling said first current regulator and said second current regulator, wherein if said DC voltage is within a first range, then said controller turns on said first light source, and if said DC voltage is within a second range, then said controller turns on said first light source and said second light source, a first current sensor operable for providing said first sensing signal, wherein said first current sensor comprises a first resistor having a first resistance; and a second current sensor operable for providing said second sensing signal, wherein said second current sensor comprises a second resistor having a second resistance, wherein said first current reference is equal to said second current reference, said first light source comprises a first number of light emitting diodes having a first forward voltage and said second light source comprises a second number of light emitting diodes having a second forward voltage, and a ratio of said first resistance to said second resistance is equal to a ratio of said first forward voltage to a sum of said first forward voltage and said second forward voltage. 2. The light source driving circuit of claim 1 , wherein said first number is greater than said second number. 3. The light source driving circuit of claim 1 , wherein if said DC voltage is within said first range then said DC voltage is greater than said first forward voltage and less than a sum of said first forward voltage and said second forward voltage and said first current regulator regulates said current flowing through said first light source to a first value, and wherein if said DC voltage is within said second range then said DC voltage is greater than a sum of said first forward voltage and said second forward voltage and said second current regulator regulates said current flowing through said first light source and said current flowing through said second light source to a second value, wherein said second value is less than said first value. 4. The light source driving circuit of claim 1 , wherein said first current regulator comprises a first operational amplifier, a non-inverting input of said first operational amplifier receives said first current reference, an inverting input of said first operational amplifier receives said first sensing signal, and an output of said first operational amplifier controls said first switch based on said first current reference and said first sensing signal, wherein said second current regulator comprises a second operational amplifier, a non-inverting input of said second operational amplifier receives said second current reference, an inverting input of said second operational amplifier receives said second sensing signal, and an output of said second operational amplifier controls said second switch based on said second current reference and said second sensing signal, and wherein said controller comprises a third operational amplifier, a non-inverting input of said third operational amplifier is coupled to said second switch, and an inverting input and an output of said third operational amplifier are coupled to said first switch. 5. A light source driving circuit for powering a first light source and a second light source by a DC (direct current) voltage, comprising: a first current regulator, coupled to said first light source, operable for controlling a first switch coupled to said first light source based on a first current reference and a first sensing signal indicating a current flowing through said first light source; a second current regulator, coupled to said second light source, operable for controlling a second switch coupled to said second light source based on a second current reference and a second sensing signal indicating a current flowing through said second light source; a controller operable for regulating said current flowing through said first light source and said current flowing through said second light source by controlling said first current regulator and said second current regulator, wherein if said DC voltage is within a first range, then said controller turns on said first light source, and if said DC voltage is within a second range, then said controller turns on said first light source and said second light source, a first current sensor operable for providing said first sensing signal, wherein said first current sensor comprises a first resistor; and a second current sensor operable for providing said second sensing signal, wherein said second current sensor comprises a second resistor, wherein a resistance if said first resistor is equal to a resistance of said second resistor, said first light source comprises a first number of light emitting diodes having a first forward voltage, said second light source comprises a second number of light emitting diodes having a second forward voltage, and a ratio of said first current reference to said second current reference is equal to a ratio of a sum of said first forward voltage and said second forward voltage to said first forward voltage. 6. The light source driving circuit of claim 5 , wherein if said DC voltage is within said first range then said DC voltage is greater than said first forward voltage and less than a sum of said first forward voltage and said second forward voltage and said first current regulator regulates said current flowing through said first light source to a first value, and wherein if said DC voltage is within said second range then said DC voltage is greater than a sum of said first forward voltage and said second forward voltage and said second current regulator regulates said current flowing through said first light source and said current flowing through said second light source to a second value, wherein said second value is less than said first value. 7. The light source driving circuit of claim 5 , wherein said first number is greater than said second number. 8. The light source driving circuit of claim 5 , wherein said first current regulator comprises a first operational amplifier, a non-inverting input of said first operational amplifier receives said first current reference, an inverting input of said first operational amplifier receives said first sensing signal, and an output of said first operational amplifier controls said first switch based on said first current reference and said first sensing signal, wherein said second current regulator comprises a second operational amplifier, a non-inverting input of said second operational amplifier receives said second current reference, an inverting input of said second operational amplifier receives said second sensing signal, and an output of said second operational amplifier controls said second switch based on said second current reference and said second sensing signal, and wherein said controller comprises a third operational amplifier, a non-inverting input of said third operational amplifier i