LED driver with adaptive dynamic headroom voltage control

What is claimed is: 1. A multi-channel LED driver, comprising: a plurality of linear current regulators, each linear current regulator connected to a bottom of a corresponding string of a plurality of strings of series connected LEDs of a multi-channel LED array, for controlling a bias current in the corresponding sting of the series connected LEDs responsive to an LED bias reference voltage; and a dynamic headroom regulation voltage control circuit monitoring a plurality of headroom regulation voltage at a plurality of bottoms of the plurality of strings of the series connected LEDs of the multi-channel LED and for generating a reference voltage controlling the plurality of headroom regulation voltages responsive to the LED bias reference voltage, the dynamic headroom regulation voltage control circuit comprising: first control logic configured to determine a minimum headroom regulation voltage from the monitored plurality of headroom regulation voltages; and second control logic including a first comparator, a second comparator, and an input offset current source coupled to at least one of the first comparator and the second comparator, wherein the second control logic is configured to compare the minimum headroom regulation voltage with a high load dependent threshold voltage and a low load dependent threshold voltage and vary the high load dependent threshold voltage and the low load dependent threshold voltage directly proportionally with the LED bias reference voltage, the first comparator is configured to generate a first control signal to increase the reference voltage responsive to the minimum headroom regulation voltage falling below the low load dependent threshold voltage and the second comparator is configured to generate a second control signal to decrease the reference voltage responsive to the minimum headroom regulation voltage exceeding the high load dependent threshold voltage. 2. The multi-channel LED driver of claim 1 , wherein the dynamic headroom regulation voltage control circuit further comprises: a reference voltage generator for generating the reference voltage responsive to the first control signal and the second control signal. 3. The multi-channel LED driver of claim 2 , wherein the second control logic is configured to generate the low load dependent threshold voltage and the high load dependent threshold voltage responsive to the LED bias reference voltage. 4. The multi-channel LED driver of claim 2 , wherein the reference voltage generator further comprises: a clock for generating a clock signal; an up-down counter for generating a digital representation of the reference voltage responsive to the clock signal and the first control signal and the second control signal; and a digital to analog converter for generating an analog representation of the reference voltage responsive to the digital representation of the reference voltage. 5. The multi-channel LED driver of claim 2 , wherein the first control logic further comprises: at least one comparator to compare a pair of headroom regulation voltages and generate a selection signal indicating a minimum regulation headroom voltage of the pair of headroom regulation voltages; and at least one multiplexor configured to receive the pair of the headroom regulation voltages and select the minimum regulation headroom voltage responsive to the selection signal. 6. The multi-channel LED driver of claim 2 , wherein the second control logic further comprises: voltage generation circuitry configured to generate the low load dependent threshold voltage and the high load dependent threshold voltage responsive to the LED bias reference voltage; the first comparator configured to compare the low load dependent threshold voltage with the minimum headroom regulation voltage and generate the first control signal responsive thereto; and the second comparator configured to compare the high load dependent threshold voltage with the minimum headroom regulation voltage and generate the second control signal responsive thereto. 7. The multi-channel LED driver of claim 1 , wherein the LED bias reference voltage sets a load current in the strings of series connected LEDs. 8. An apparatus comprising: a voltage regulator for generating a regulated output voltage responsive to an input voltage, a reference voltage and a feedback voltage; a plurality of LED strings, each string including a plurality of series connected LEDs, a first end of the plurality of LED strings connected to the regulated output voltage and a second end of the plurality of LED strings providing a plurality of headroom regulation voltages; a multi-channel LED driver, comprising: a plurality of linear current regulators, each linear current regulator connected at the second end to a corresponding string of the plurality of strings of series connected LEDs of a multi-channel LED array, for controlling a bias current in the corresponding string of series connected LEDs responsive to an LED bias reference voltage; and a dynamic headroom regulation voltage control circuit monitoring the plurality of headroom regulation voltages and for generating a reference voltage controlling the plurality of headroom regulation voltages responsive to the LED bias reference voltage, the dynamic headroom regulation voltage control circuit comprising: first control logic for determining a minimum headroom regulation voltage from the monitored plurality of headroom regulation voltages; and second control logic including a first comparator, a second comparator, and an input offset current source coupled to at least one of the first comparator and the second comparator, wherein the second control logic is configured to compare the minimum headroom regulation voltage with a high load dependent threshold voltage and a low load dependent threshold voltage and vary the high load dependent threshold voltage and the low load dependent threshold voltage directly proportionally with the LED bias reference voltage, the first comparator is configured to generate a first control signal to increase the reference voltage responsive to the minimum headroom regulation voltage falling below the low load dependent threshold voltage and the second comparator is configured to generate a second control signal to decrease the reference voltage responsive to the minimum headroom voltage exceeding the high load dependent threshold voltage. 9. The multi-channel LED driver of claim 8 , wherein the dynamic headroom regulation voltage control circuit further comprises: a reference voltage generator for generating the reference voltage responsive to the first control signal and the second control signal. 10. The multi-channel LED driver of claim 9 , wherein the second control logic is configured to generate the low load dependent threshold voltage and the high load dependent threshold voltage responsive to the LED bias reference voltage. 11. The multi-channel LED driver of claim 9 , wherein the reference voltage generator further comprises: a clock for generating a clock signal; an up-down counter for generating a digital representation of the reference voltage responsive to the clock signal and the first control signal and the second control signal; and a digital to analog converter for generating an analog representation of the reference voltage responsive to the digital representation of the reference voltage. 12. The multi-channel LED driver of claim 9 , wherein the first control logic further comprises: at least one comparator configured to compare a pair of the headroom regulation voltages and generate a selection signal indicating a minimum regulation headroom voltage of the p