Controlling brightness and color temperature of light sources

What is claimed is: 1. A circuit for driving a light source having an adjustable color temperature, the driving circuit comprising: a power converter, coupled between a power source and the light source, operable for receiving power from the power source and for providing a regulated power to the light source; and a controller, coupled to the power converter, operable for receiving a conduction status signal indicating a conduction state of a dimmer coupled between the power source and the power converter, and operable for adjusting brightness of the light source based on the conduction status signal, wherein the controller is further operable for receiving an operation indicating signal indicative of operation of an ON/OFF switch coupled to the dimmer and adjusting color temperature of the light source based on the operation indicating signal, wherein the controller includes: a signal generator operable for generating a monitoring signal proportional to an output current flowing through the light source; a dimmer monitoring unit operable for receiving the conduction status signal and generating a reference signal indicative of a target level for the output current flowing through the light source based on the conduction status signal; and a driver, coupled to the signal generator and the dimmer monitoring unit, operable for generating a driving signal based on the monitoring signal and the reference signal to control the power converter to provide the regulated power to the light source. 2. The circuit as claimed in claim 1 , wherein the signal generator, the driver, and a transformer in the power converter constitute a negative feedback loop circuit that maintains the output current flowing through the light source at the target level. 3. The circuit as claimed in claim 1 , wherein the conduction status signal indicates a conduction angle of the dimmer, wherein when the conduction status signal indicates that the conduction angle is increased, then the dimmer monitoring unit increases the reference signal, and the driver adjusts the driving signal to increase the output current flowing through the light source, and wherein when the conduction status signal indicates that the conduction angle is decreased, then the dimmer monitoring unit decreases the reference signal, and the driver adjusts the driving signal to decrease the output current flowing through the light source. 4. The circuit as claimed in claim 1 , wherein the light source comprises a first light-emitting component having a first color temperature level and a second light-emitting component having a second color temperature level, wherein the controller comprises a color temperature control unit for generating a first control signal and a second control signal based on the operation indicating signal, wherein the first control signal selectively turns on a first control switch coupled between the controller and the first light-emitting component so that the color temperature of the light source is adjusted to the first color temperature level, and wherein the second control signal selectively turns on a second control switch coupled between the controller and the second light-emitting component so that the color temperature of the light source is adjusted to the second color temperature level. 5. The circuit as claimed in claim 4 , wherein the color temperature control unit comprises: a timer operable for receiving the operation indicating signal, beginning timing when a falling edge of the operation indicating signal is detected, and generating a pulse signal after a predefined time interval; a first D flip-flop operable for receiving the pulse signal; and a second D flip-flop, coupled to the first D flip-flop, operable for receiving the operation indicating signal, wherein the first control signal and the second control signal are generated based on an output of the second D flip-flop. 6. The circuit as claimed in claim 1 , wherein the controller comprises a judging unit operable for detecting a power status of the controller and generating a first judging signal and a second judging signal based on the power status of the controller, and wherein the controller adjusts the color temperature of the light source based on the first judging signal, the second judging signal, and the operation indicating signal. 7. The circuit as claimed in claim 1 , wherein when the operation indicating signal indicates that a time period between a turn-off operation and the next turn-on operation of the ON/OFF switch following the turn-on operation is less than a predetermined time period, then the controller changes the color temperature of the light source from a first color temperature level to a second color temperature level in response to the following turn-on operation of the ON/OFF switch. 8. The circuit as claimed in claim 1 , wherein when the operation indicating signal indicates that a time period between a turn-off operation and the next turn-on operation of the ON/OFF switch following the turn-on operation is greater than a predetermined time period, then the controller resets the color temperature of the light source to a default color temperature level in response to the following turn-on operation of the ON/OFF switch. 9. The circuit as claimed in claim 1 , wherein the circuit includes a rectifier, and the power converter includes a transformer, wherein the transformer has a primary winding, a secondary winding, and an auxiliary winding, wherein the primary winding is coupled to the rectifier and operable for receiving power from the power source through the rectifier, wherein the secondary winding is operable for providing the regulated power to the light source, wherein the auxiliary winding is operable for providing power to the controller, and wherein the ON/OFF switch and the dimmer are coupled between the power source and the rectifier. 10. A controller for controlling color temperature of a light source, comprising: a signal generator operable for generating a monitoring signal proportional to an output current flowing through the light source; a dimmer monitoring unit operable for receiving a conduction status signal indicative of a conduction state of a dimmer coupled between a power source and a power converter, and for generating a reference signal indicative of a target level for the output current flowing through the light source based on the conduction status signal; a driver, coupled to the signal generator and the dimmer monitoring unit, operable for generating a driving signal based on the monitoring signal and the reference signal to control the power converter to provide a regulated power to the light source; and a color temperature control unit operable for receiving an operation indicating signal indicative of operation of an ON/OFF switch coupled to the dimmer, and for adjusting the color temperature of the light source based on the operation indicating signal. 11. The controller as claimed in claim 10 , wherein the signal generator, the driver, and a transformer in the power converter constitute a negative feedback loop circuit that maintains the output current flowing through the light source at the target level. 12. The controller as claimed in claim 10 , wherein the conduction status signal indicates a conduction angle of the dimmer, wherein when the conduction status signal indicates that the conduction angle is increased, then the dimmer monitoring unit increases the reference signal, and the driver adjusts the driving signal to increase the output current flowing through the light source, and wherein when the conduction status signal indicates that the conduction angle is decreased, then