Flash ADC with interpolators

What is claimed is: 1. An analog-to-digital converter, comprising: a plurality of pre-amplifiers, each receiving a pair of differential analog signals, a first reference voltage corresponding to one of the differential analog signals and a second reference voltage corresponding to another of the differential analog signals, and amplifying difference between the pair of differential analog signals and the first and second reference voltages to provide a pair of differential outputs, wherein the first reference voltage is different from the second reference voltage; a plurality of dynamic comparators coupled to the pre-amplifiers, each providing a first comparing signal and a second comparing signal according to the pair of differential outputs of the corresponding pre-amplifier; a plurality of interpolators, each providing an interpolating signal according to the first and second comparing signals of two of the dynamic comparators; and an encoder, providing a digital output according to the interpolating signals, wherein the first and second comparing signals are the same in a reset phase, and the first and second comparing signals are complementary according to the pair of differential outputs of the corresponding pre-amplifier in an evaluation phase, wherein the dynamic comparator comprises: a transconductance (Gm) stage unit, having a first input terminal for receiving one output among the pair of differential outputs of the corresponding pre-amplifier, a second input terminal for receiving another output among the pair of differential outputs of the corresponding pre-amplifier, a first output terminal for providing the first comparing signal, a second output terminal for providing the second comparing signal, and a command terminal; a first inverter, having an input terminal coupled to the first output terminal of the Gm stage unit, and an output terminal coupled to the second output terminal of the Gm stage unit; a second inverter, having an input terminal coupled to the second output terminal of the Gm stage unit, and an output terminal coupled to the first output terminal of the Gm stage unit; a first switch coupled between a first voltage source and the first output terminal of the Gm stage unit; a second switch coupled between the first voltage source and the second output terminal of the Gm stage unit; and a third switch coupled between a second voltage source and the command terminal of the Gm stage unit. 2. The analog-to-digital converter as claimed in claim 1 , wherein the digital output is a N-bit signal, and a quantity of the pre-amplifiers and a quantity of the dynamic comparators are is equal to 2 (N−1) +1, wherein a quantity of the interpolators is equal to 2 (N-1) . 3. The analog-to-digital converter as claimed in claim 1 , wherein the first and second switches are turned on and the third switch is turned off in the reset phase, and the first and second switches are turned off and the third switch is turned on in the evaluation phase. 4. The analog-to-digital converter as claimed in claim 1 , wherein an average value of the first and second reference voltages corresponding to each of the pre-amplifiers is the same. 5. An analog-to-digital converter, comprising: a plurality of pre-amplifiers, each receiving a pair of differential analog signals, a first reference voltage corresponding to one of the differential analog signals and a second reference voltage corresponding to another of the differential analog signals, and amplifying difference between the pair of differential analog signals and the first and second reference voltages to provide a pair of differential outputs, wherein the first reference voltage is different from the second reference voltage; a plurality of dynamic comparators coupled to the pre-amplifiers, each providing a first comparing signal and a second comparing signal according to the pair of differential outputs of the corresponding pre-amplifier; a plurality of interpolators, each providing an interpolating signal according to the first and second comparing signals of two of the dynamic comparators; and an encoder, providing a digital output according to the interpolating signals, wherein the first and second comparing signals are the same in a reset phase, and the first and second comparing signals are complementary according to the pair of differential outputs of the corresponding pre-amplifier in an evaluation phase, wherein the interpolator comprises: a first processing unit coupled to a first dynamic comparator among the dynamic comparators, determining whether a first comparison of the first dynamic comparator is completed according to the first and second comparing signals of the first dynamic comparator; a second processing unit coupled to a second dynamic comparator among the dynamic comparators, determining whether a second comparison of the second dynamic comparator is completed according to the first and second comparing signals of the second dynamic comparator; a third processing unit coupled to the first and second processing units, determining which comparison of the first and second comparisons is earlier than the other comparison, to provide the interpolating signal. 6. The analog-to-digital converter as claimed in claim 5 , wherein a first pre-amplifier and a second pre-amplifier among the pre-amplifiers are respectively coupled to the first and second dynamic comparators, and the first reference voltages corresponding to the first and second pre-amplifiers are different, and the second reference voltages corresponding to the first and second pre-amplifiers are different. 7. The analog-to-digital converter as claimed in claim 6 , wherein when one of the differential analog signals is between the first reference voltage corresponding to the first pre-amplifier and the first reference voltage corresponding to the second pre-amplifier, the first comparing signal of the first dynamic comparator is complementary to the first comparing signal of the second dynamic comparator. 8. The analog-to-digital converter as claimed in claim 6 , wherein when each of the differential analog signals is not between the first reference voltage corresponding to the first pre-amplifier and the first reference voltage corresponding to the second pre-amplifier, the first comparing signal of the first dynamic comparator is equal to the first comparing signal of the second dynamic comparator. 9. The analog-to-digital converter as claimed in claim 6 , wherein when one of the differential analog signals is between the first reference voltage corresponding to the first pre-amplifier and the first reference voltage corresponding to the second pre-amplifier and close to the first reference voltage corresponding to the first pre-amplifier, the third processing unit determines that the completion of the second comparison is earlier than the completion of the first comparison, and when the one of the differential analog signals is between the first reference voltage corresponding to the first pre-amplifier and the first reference voltage corresponding to the second pre-amplifier and close to the first reference voltage corresponding to the second pre-amplifier, the third processing unit determines that the completion of the first comparison is earlier than the completion of the second comparison. 10. The analog-to-digital converter as claimed in claim 5 , wherein the first and second processing units comprises XOR gates, and the third processing unit comprises an SR latch. 11. The analog-to-digital converter as claimed in claim 5 , wherein when the first and second comparing signals are a high logic level in the reset phase for the dynamic comparators, each of the