Method of producing low-power switched-capacitor amplifier, circuit and a pipeline analog-to-digital converter including the same

摘要

A switched-capacitor amplifier comprises an operational amplifier (op-amp), a first capacitor, a second capacitor, a third capacitor, a fourth capacitor and a plurality of switches connected to these capacitors. The first capacitor equals the third capacitor, the second capacitor equals the fourth capacitor, and the first capacitor is asymmetric to the second capacitor, the third capacitor is asymmetric to the fourth capacitor. A ratio of the first capacitor and the second capacitor is a function of a simulated parasitic capacitance of the switched-capacitor amplifier, a simulated DC gain of the operational amplifier, and a target gain of the switched-capacitor circuit.

主权项

1. A pipeline Analog-To-Digital Converter, comprising a sample/hold(S/H) unit, a plurality of Multiplying Digital-To-Analog (MDAC) units;
wherein at least a plurality of MDAC units comprises two comparators, a DAC and a second switched-capacitor amplifier; and the remaining at least one MDAC unit comprises two comparators, a DAC and a first switched-capacitor amplifier, wherein each of the first switched-capacitor amplifier comprises: a first operational amplifier (op-amp); a first capacitor; a second capacitor; a third capacitor; and a fourth capacitor; wherein both the first capacitor and the second capacitor are configured in a first predetermined period to be connected in parallel between a positive input terminal of the first operational amplifier and a positive input terminal of the first switched-capacitor amplifier; both the third capacitor and a fourth capacitor are configured in the first predetermined period to be connected in parallel between a negative input terminal of the first operational amplifier and a negative input terminal of the first switched-capacitor amplifier, and a voltage level of the positive input terminal of the first operational amplifier is configured in the first predetermined period to equal a voltage level of the negative input terminal of the first operational amplifier; the first capacitor is configured in a second predetermined period which is different from the first predetermined period to be connected between a positive reference voltage and the positive input terminal of the first operational amplifier; the third capacitor is configured in the second predetermined period to be connected between the negative input terminal of the first operational amplifier and a negative reference voltage; the second capacitor is configured in a second predetermined period to be connected between the positive input terminal of the first operational amplifier and a positive output terminal of the first operational amplifier; the fourth capacitor is configured in the second predetermined period to be connected between the negative input terminal of the first operational amplifier and a negative output terminal of the first operational amplifier; and wherein the first capacitor equals the third capacitor, the second capacitor equals the fourth capacitor, and the first capacitor is asymmetric to the second capacitor, the third capacitor is asymmetric to the fourth capacitor; wherein a ratio of the first capacitor and the second capacitor is a function of a simulated parasitic capacitance of the switched-capacitor amplifier, a simulated gain of the first operational amplifier, and a target gain of the switched-capacitor; wherein each of the second switched-capacitor amplifier comprises: a second operational amplifier (op-amp); a fifth capacitor; a sixth capacitor; a seventh capacitor; an eighth capacitor; wherein both the fifth capacitor and the sixth capacitor are configured in a third predetermined period to be connected in parallel between a positive input terminal of the second operational amplifier and a positive input terminal of the first switched-capacitor; both the seventh capacitor and the eighth capacitor are configured to in the third predetermined period be connected in parallel between a negative input terminal of the second operational amplifier and a negative input terminal; and a voltage level of the positive input terminal of the second operational amplifier is configured in the third predetermined period to equal a voltage level of the negative input terminal of the second operational amplifier; and the fifth capacitor is configured in a fourth predetermined period which is different from the third predetermined period to be connected between a positive reference voltage and the positive input terminal of the first operational amplifier; and the seventh capacitor is configured in the fourth predetermined period to be connected between the negative input terminal of the second operational amplifier and a negative reference voltage; the sixth capacitor is configured in the fourth predetermined period to be connected between the positive input terminal of the operational amplifier and a positive output terminal of the second operational amplifier, and the eighth capacitor is configured in the fourth predetermined period to be connected between the negative input terminal of the operational amplifier and a negative output terminal of the second operational amplifier ; and wherein the fifth, the sixth, the seventh and the eighth capacitors are symmetric to each other; and wherein a ratio of the fifth capacitor and the sixth capacitor is a function of a target gain of the second switched-capacitor amplifier.