Method and system for asynchronous successive approximation register (SAR) analog-to-digital converters (ADCs)

What is claimed is: 1. An analog-to-digital converter (ADC), comprising: a comparator comprising an analog input, a reference input, a preemption input, a codeword output, and a validation output, a codeword on the codeword output of the comparator comprising one or more overlapping redundant bits, wherein if a preemption is indicated at the preemption input, the validation output is set to indicate the preemption and one or more bits of the codeword are set to a particular value, and wherein if a preemption is not indicated at the preemption input, the validation output is set to indicate a valid decision and one or more bits of the codeword are set according to a comparison between the analog input and the reference input; a digital-to-analog converter (DAC) comprising a codeword input and a reference output, wherein the reference output of the DAC is operably coupled to the reference input of the comparator and the codeword input of the DAC is operably coupled to the codeword output of the comparator; and a timer operable to set a preemption output in time according to a validation input, wherein the validation input of the timer is operably coupled to the validation output of the comparator and the preemption output of the timer is operably coupled to the preemption input of the comparator. 2. The ADC according to claim 1 , wherein the comparator is operable to determine one or more bits of the codeword according to one or more comparisons. 3. The ADC according to claim 1 , wherein the comparator is operable to set one or more least significant bits of the codeword up to, but not including, the one or more overlapping redundant bits in the codeword for a current comparison, the one or more least significant bits being set to a value derived from a value of a bit that was determined in an immediately preceding comparison. 4. The ADC according to claim 1 , wherein the timer is operable to indicate a preemption at the preemption output based on a adaptively-determined threshold time. 5. The ADC according to claim 4 , wherein the adaptively-determined threshold time is determined according to a time required for a difference between the analog input and the reference input to be less that a predetermined threshold. 6. The ADC according to claim 5 , wherein the predetermined threshold is based on the one or more overlapping redundant bits. 7. The ADC according to claim 5 , wherein the comparator is operable to map a comparing time for each comparison to a difference between the analog input and the reference input. 8. The ADC according to claim 7 , wherein the comparator is operable to calibrate results from the mapping based on process, temperature and/or variations in the analog input. 9. The ADC according to claim 8 , wherein the comparator is operable to store the results from the mapping and results from the calibrating. 10. The ADC according to claim 7 , wherein the DAC is operable to set a particular value for a next bit if the comparing time of each comparison exceeds a particular time. 11. A method, comprising: comparing an analog signal to a reference signal to determine one or more bits of a codeword, the codeword on the codeword comprising one or more overlapping redundant bits; if a preemption is indicated, a validation signal is set to indicate the preemption and one or more bits of the codeword are set to a particular value; if a preemption is not indicated, the validation signal is set to indicate a valid decision and one or more bits of the codeword are set according to the comparison between the analog input and the reference input; generating the reference signal according to the codeword using a digital-to-analog converter (DAC); and setting the preemption according to a timer and the validation signal. 12. The method according to claim 11 , wherein the method is performed iteratively. 13. The method according to claim 12 , wherein the method comprises determining one or more least significant bits of the codeword up to, but not including, the one or more overlapping redundant bits in the codeword for a current iteration, the one or more least significant bits being set to a value derived from a value of a bit that was determined in an immediately preceding iteration. 14. The method according to claim 11 , wherein the method comprises indicating a preemption based on a adaptively-determined threshold time. 15. The method according to claim 14 , wherein the method comprises determining the adaptively-determined threshold time according to a time required for a difference between the analog input and the reference input to be less that a predetermined threshold. 16. The method according to claim 15 , wherein the predetermined threshold is based on the one or more overlapping redundant bits. 17. The method according to claim 15 , wherein the method comprises mapping a comparing time for each comparison to a difference between the analog input and the reference input. 18. The method according to claim 17 , wherein the method comprises calibrating results from the mapping based on process, temperature and/or variations in the analog input. 19. The method according to claim 18 , wherein the method comprises storing the results from the mapping and results from the calibrating. 20. The method according to claim 17 , wherein the method comprises setting a particular value for a next bit if the comparing time of each comparison exceeds a particular time.