Driver circuit for solid state light sources

What is claimed is: 1. A driver circuit comprising: a rectifier circuit configured to receive an alternating current (AC) input voltage and to provide a rectified AC voltage; a switching converter circuit coupled to a light source including one or more solid state light sources, the switching converter circuit configured to provide a direct current (DC) output to the light source in response to the rectified AC voltage; and a mixing circuit coupled to the light source to switch current through at least one solid state light source of the light source in response to each of a plurality of consecutive half-waves of the rectified AC voltage, wherein the mixing circuit comprises: a switch circuit having a conductive state, wherein the switch circuit is coupled to the at least one solid state light source; a controller circuit configured to provide a controller output to change the conductive state of the switch circuit in response to each of the plurality of half-waves of the rectified AC voltage; and a voltage reference circuit configured to establish a reference voltage; wherein the controller circuit is configured to provide the controller output in response to the reference voltage and the rectified AC voltage; wherein the mixing circuit further comprises a synchronous oscillator circuit configured to provide an output at a frequency of the plurality of half-waves of the rectified AC voltage; and wherein the controller circuit comprises an operational amplifier having an output coupled to the switch circuit, a first input of the operational amplifier coupled to the output of the synchronous oscillator circuit, and a second input of the operational amplifier coupled to the reference voltage. 2. The driver circuit of claim 1 , wherein the voltage reference circuit comprises a voltage divider comprising a thermistor that exhibits a resistance that varies with a temperature of the at least one solid state light source. 3. The driver circuit of claim 1 , wherein the controller circuit comprises an operational amplifier having an output coupled to the switch circuit, wherein a first input of the operational amplifier is coupled to the rectified AC voltage and a second input of the operational amplifier is coupled to the reference voltage. 4. The driver circuit of claim 1 , wherein the switching converter circuit includes a control input and wherein the controller circuit is configured to provide a control output to the control input of the switching converter circuit, the control output to modify the DC output when the current is switched through the at least one solid state light source. 5. The driver circuit of claim 1 , wherein the light source comprises at least one additional solid state light source configured to remain in a light-emitting state while the mixing circuit switches current through the at least one solid state light source. 6. The driver circuit of claim 5 , wherein the light source comprises a first set of solid state light sources and a second set of solid state light sources, wherein the first set of solid state light sources comprises the at least one solid state light source, and wherein the second set of solid state light sources comprises the at least one additional solid state light source, the second set of solid state light sources being coupled in parallel with a series combination of the first set of solid state light sources and the switch circuit. 7. The driver circuit of claim 5 , wherein the light source comprises a first set of solid state light sources and a second set of solid state light sources, wherein the first set of solid state light sources comprises the at least one solid state light source, and wherein the second set of solid state light sources comprises the at least one additional solid state light source, the second set of solid state light sources being coupled in series with a parallel combination of the first set of solid state light sources and the switch circuit. 8. A luminaire, comprising: a housing; a light source including one or more solid state light sources disposed within the housing; and a driver circuit disposed within the housing, the driver circuit comprising: a rectifier circuit configured to receive an alternating current (AC) input voltage and to provide a rectified AC voltage; a switching converter circuit coupled to the light source including one or more solid state light sources, the switching converter circuit configured to provide a direct current (DC) output to the light source in response to the rectified AC voltage; and a mixing circuit coupled to the light source to switch current through at least one solid state light source of the light source in response to each of a plurality of consecutive half-waves of the rectified AC voltage, wherein the mixing circuit comprises: a switch circuit having a conductive state, wherein the switch circuit is coupled to the at least one solid state light source; a controller circuit configured to provide a controller output to change the conductive state of the switch circuit in response to each of the plurality of half-waves of the rectified AC voltage; and a voltage reference circuit configured to establish a reference voltage; wherein the controller circuit is configured to provide the controller output in response to the reference voltage and the rectified AC voltage; wherein the mixing circuit comprises a synchronous oscillator circuit configured to provide an output at a frequency of the plurality of half-waves of the rectified AC voltage: and wherein the controller circuit comprises an operational amplifier having an output coupled to the switch circuit, a first input of the operational amplifier coupled to the output of the synchronous oscillator circuit, and a second input of the operational amplifier coupled to the reference voltage. 9. The luminaire of claim 8 , wherein the controller circuit comprises an operational amplifier having an output coupled to the switch circuit, wherein a first input of the operational amplifier is coupled to the rectified AC voltage and a second input of the operational amplifier is coupled to the reference voltage. 10. The luminaire of claim 8 , wherein the light source comprises at least one additional solid state light source configured to remain in a light-emitting state while the mixing circuit switches current through the at least one solid state light source. 11. The luminaire of claim 10 , wherein the light source comprises a first set of solid state light sources and a second set of solid state light sources, wherein the first set of solid state light sources comprises the at least one solid state light source, and wherein the second set of solid state light sources comprises the at least one additional solid state light source, the second set of solid state light sources being coupled in parallel with a series combination of the first set of solid state light sources and the switch circuit. 12. The luminaire of claim 10 , wherein the light source comprises a first set of solid state light sources and a second set of solid state light sources, wherein the first set of solid state light sources comprises the at least one solid state light source, and wherein the second set of solid state light sources comprises the at least one additional solid state light source, the second set of solid state light sources being coupled in series with a parallel combination of the first set of solid state light sources and the switch circuit.