초록 ▼

A method for reducing bit errors in an analog to digital converter having an array of comparators. The outputs of first and second comparators are received as in inputs to an Exclusive OR gate. The first and second comparators are separated in the array by a third comparator. The output of the Excl

A method for reducing bit errors in an analog to digital converter having an array of comparators. The outputs of first and second comparators are received as in inputs to an Exclusive OR gate. The first and second comparators are separated in the array by a third comparator. The output of the Exclusive OR gate is used to determine if the third comparator is in a metastable condition. If the third comparator is in a metastable condition, the bias current of the latch circuit of the third comparator is increased to increase the rate at which the third comparator transitions to a steady state.

대표청구항 ▼

What is claimed is: 1. An array of comparators, comprising: a first, a second, and a third comparator; a first device configured to perform a comparison of a characteristic of said first comparator with said characteristic of said second comparator; and a second device configured to increase, based

What is claimed is: 1. An array of comparators, comprising: a first, a second, and a third comparator; a first device configured to perform a comparison of a characteristic of said first comparator with said characteristic of said second comparator; and a second device configured to increase, based on said comparison, a rate at which said third comparator transitions from a metastable state to a steady state; wherein said first device is an Exclusive OR gate. 2. The array of comparators of claim 1, wherein said characteristic is a quantized signal. 3. An array of comparators, comprising: a first, a second, and a third comparator: a first device configured to perform a comparison of a characteristic of said first comparator with said characteristic of said second comparator; and a second device configured to increase, based on said comparison, a rate at which said third comparator transitions from a metastable state to a steady state; wherein said comparison indicates that said first comparator is in a first steady state and said second comparator is in a second steady state, said second steady state different from said first steady state. 4. The array of comparators of claim 3, wherein said second device is a current source configured to provide a bias current to said third comparator. 5. The array of comparators of claim 4, wherein said current source is a variable current source. 6. The array of comparators of claim 5, wherein said rate at which said third comparator transitions from said metastable state to said steady state is increased by increasing said bias current. 7. An array of comparators, comprising: a first, a second, and a third comparator; a first device configured to perform a comparison of a characteristic of said first comparator with said characteristic of said second comparator; and a second device configured to increase, based on said comparison, a rate at which said third comparator transitions from a metastable state to a steady state; wherein said second device is a current source configured to provide a bias current to said third comparator and said current source comprises: a first current source; a switch coupled in series with said first current source; and a second current source coupled in parallel with said first current source and said switch. 8. The array of comparators of claim 7, wherein said rate at which said third comparator transitions from said metastable state to said steady state is increased by increasing said bias current by closing said switch. 9. In an array of comparators, a system for increasing a rate at which a comparator in a metastable state transitions to a steady state, comprising: a first device configured to determine an identity of the comparator in the metastable state; and a second device configured to increase, based on said identity, the rate at which the comparator in the metastable state transitions to the steady state; wherein said first device is an Exclusive OR gate. 10. The system of claim 9, wherein said Exclusive OR gate is configured to receive an output from a first comparator in the array of comparators and an output from a second comparator in the array of comparators, said first comparator and said second comparator different from the comparator in the metastable state. 11. The system of claim 9, wherein said second device is a current source configured to provide a bias current to the comparator in the metastable state. 12. The system of claim 11, wherein said current source is a variable current source. 13. The system of claim 12, wherein said rate at which the comparator in the metastable state transitions to the steady state is increased by increasing said bias current. 14. In an array of comparators, a system for increasing a rate at which a comparator in a metastable state transitions to a steady state, comprising: a first device configured to determine an identity of the comparator in the metastable state; and a second device configured to increase, based on said identity, the rate at which the comparator in the metastable state transitions to the steady state; wherein said second device is a current source configured to provide a bias current to said comparator and said current source comprises: a first current source; a switch coupled in series with said first current source; and a second current source coupled in parallel with said first current source and said switch. 15. The system of claim 14, wherein said rate at which the comparator in the metastable state transitions to the steady state is increased by increasing said bias current by closing said switch. 16. An analog to digital converter, comprising: an array of comparators having respective inputs configured to receive an analog signal and respective outputs configured to produce quantized signals responsive to said analog signal; a priority encoder coupled to said array of comparators and configured to produce a digital signal responsive to said quantized signals; an array of first devices coupled to said array of comparators and configured to identify, from said array of comparators, a comparator in a metastable state; and an array of second devices coupled to said array of first devices and configured to increase a rate at which said comparator in said metastable state transitions to a steady state. 17. The analog to digital converter of claim 16, wherein said first devices are Exclusive OR gates. 18. The analog to digital converter of claim 16, wherein said second devices are current sources.