Abstract
This paper describes a timing-skew calibration technique which equalizes the phase spacings among multiphase clocks. The scheme uses simple sample-and-hold circuits controlled by the multiphase clocks to sample a common reference input. Phase spacing is measured by counting the number of zero crossings between two adjacent sampling sequences. A zero-crossing detection scheme is proposed. It has better immunity against the offsets of the comparators used in the detector. A digital calibration processor is also proposed. It examines the outputs from the zero-crossing detectors, and then adjusts the delays of clock buffers in order to minimize timing skews. The proposed calibration scheme does not demand stringent requirement for the reference input. Its application to a eight-channel 6-b time-interleaved analog-to-digital converter is demonstrated.
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