DIGITAL LOGIC CORRECTION CIRCUIT FOR A PIPELINE ANALOG TO DIGITAL (A/D) CONVERTER

A digital logic correction (DLC) circuit for a pipeline analog to digital (A/D) converter. The A/D converter having a plurality of stages, each stage producing at least a pair of digital output bits from which a digital representation of an analog input signal can be obtained. The DLC circuit has an adder, the adder having a plurality of inputs and an output. The DLC circuit has a plurality of digital delay sets, each digital delay set comprising at least one digital delay, an input of the digital delay set receiving a corresponding digital output bit and an output of the delay set providing a delayed digital output bit to a respective adder input. The DLC circuit has a clock generator, the clock generator providing clock signals to the DLC circuit to synchronize the arrival of the output of each digital delay set at the adder inputs during a data-valid-period. A primary clock signal is applied to the digital delay sets for every other stage. A secondary clock signal is applied to the remaining digital delay sets. The timing of the primary and secondary clock signals being effective to delay the digital output bits of each stage via the respective digital delay sets to cause the digital output bits to arrive at the adder inputs during the data-valid-period so that the adder produces the digital representation of the analog input signal at the adder output.