Constant current linear driver with high power factor

What is claimed is: 1. A controller for controlling a light-emitting diode (LED) string that includes one or more light-emitting diodes connected in series, the controller comprising: an input node for receiving a rectified input AC (alternating current) voltage; a common current sense node for sensing current flow in the LED string; a reference voltage generator configured to generate a reference voltage, the reference voltage generator further configured to vary the reference voltage based on a sampled voltage signal, the sampled voltage signal comprising one or both of a peak voltage of the rectified input AC voltage and a peak voltage of an LED diode forward voltage, wherein the reference voltage generator is configured to: respond to one or both of a peak voltage of the rectified input AC voltage and a peak voltage of an LED diode forward voltage; in response to the rectified input AC voltage, decrease the reference voltage when the sampled voltage signal is increased, and increase the reference voltage when the sampled voltage signal is decreased; and when responding to the LED diode forward voltage, increase the reference voltage when the sampled voltage signal is increased, and decrease the reference voltage when the sampled voltage signal is decreased; a linear regulator, coupled between a cathode of the LED string and a common current sense node, the linear regulator configured to control a current through the LED string based the reference voltage; wherein the controller is configured to regulate a current through the LED string to be in phase with the rectified input AC voltage and to maintain a target average LED current over changes in one or both of the rectified input AC voltage and the LED diode forward voltage. 2. The controller of claim 1 , wherein the reference voltage generator is coupled to the rectified AC input voltage to receive the sampled voltage signal. 3. The controller of claim 2 , wherein the reference voltage generator comprises: a band-gap voltage generator for providing a band-gap reference voltage; a peak voltage detector for coupling to the sampled voltage signal and to provide a peak voltage signal of the sampled voltage signal; an operational amplifier having: a positive input node coupled to the band-gap reference voltage; a negative input node coupled to the sampled voltage signal; and an output node providing a base reference voltage that varies inversely with the sampled voltage signal. 4. The controller of claim 1 , wherein the reference voltage generator is coupled to a diode forward voltage sampling circuit to receive a sampled voltage signal that represents an LED diode forward voltage signal from an LED diode in an LED string. 5. The controller of claim 4 , wherein the reference voltage generator comprises: a band-gap voltage generator for providing a band-gap reference voltage; a peak voltage detector for coupling to the sampled voltage signal and providing a peak voltage signal of the sampled voltage signal; an operational amplifier having: a negative input node coupled to the band-gap reference voltage; a positive input node coupled to the sampled voltage signal; and an output node providing a base reference voltage that varies proportionally with the sampled voltage signal. 6. The controller of claim 1 , wherein the reference voltage generator is coupled to the rectified AC input voltage to receive a first sampled voltage signal, and the reference voltage generator is coupled to a diode forward voltage sampling circuit to receive a second sampled voltage signal that represents an LED diode forward voltage signal from an LED diode in an LED string. 7. The controller of claim 6 , wherein the reference voltage generator comprises: a band-gap voltage generator for providing a band-gap reference voltage; a first peak voltage detector for coupling to first sampled voltage signal and providing a first peak voltage signal of the first sampled voltage signal; a first operational amplifier having: a positive input node coupled to the band-gap reference voltage; a negative input node coupled to the first peak voltage signal; and a second peak voltage detector for coupling to the second sampled voltage signal and providing a second peak voltage signal of the sampled voltage signal; a second operational amplifier having: a negative input node coupled to the band-gap reference voltage; a positive input node coupled to the second peak voltage signal; and an output node coupled to both the first operational amplifier and the second operational amplifier to provide a base reference voltage that varies with the first sampled voltage signal and the second sampled voltage signal. 8. The controller of claim 1 , wherein the reference voltage generator is coupled to a cathode of an LED diode to receive the sampled voltage signal that represents the rectified AC input voltage and LED diode forward voltage signal. 9. The controller of claim 1 , wherein the reference voltage generator further comprises a voltage divider circuit for receiving a base reference voltage and generating the reference voltage. 10. The controller of claim 1 , wherein the linear regulator comprises: a transistor for controlling current flow in a current path; an operational amplifier having a first input terminal and a second input terminal, configured to: receive at the first input terminal a preset reference voltage; receive at the second input terminal a feedback signal from the current path; and output a control signal for controlling current flow in the current path. 11. The controller of claim 1 , wherein to maintain a target average LED current comprises maintaining an average LED current to within 1% to 10% of a target average LED current. 12. The controller of claim 1 , wherein an LED string comprises one or more light-emitting diodes. 13. An LED (light-emitting diode) lighting device, comprising: a rectifier circuit for rectifying an input AC (alternating current) voltage for providing a rectified input AC voltage; a plurality of serially-connected LED strings; a reference voltage generator configured to generate a plurality of reference voltages, the reference voltage generator further configured to vary the plurality of reference voltages based on a sampled voltage signal, the sampled voltage signal comprising both a peak voltage of the rectified input AC voltage and a peak voltage of an LED diode forward voltage; and a plurality of linear regulators, each linear regulator coupled between a cathode of a corresponding LED string and a common current sense node, wherein each linear regulator is configured to regulate a current through a corresponding LED string according to a corresponding reference voltage. 14. The device of claim 13 , wherein the reference voltage generator is configured to: in response to the rectified input AC voltage, decrease each of the plurality of reference voltages when the sampled voltage signal is increased, and increase each of the plurality of reference voltages when the sampled voltage signal is decreased; and in response to the LED diode forward voltage, increase each of the plurality of reference voltages when the sampled voltage signal is increased, and decrease each of the plurality of reference voltages when the sampled voltage signal is decreased. 15. The device of claim 13 , wherein the reference voltage generator comprises: a band-gap voltage generator for providing a band-gap reference voltage; a first peak voltage detector for coupling to a first sampled voltage signal and providing a first peak voltage sig