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A Gradient-Based Algorithm for Sampling Clock Skew Calibration of SHA-less Pipeline ADCs Pingli Huang and Yun Chiu. Illinois Center for Wireless Systems. Calibration Algorithm (I). Introduction. Modern wireless communication systems demand low-power pipeline ADCs
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A Gradient-Based Algorithm for Sampling Clock Skew Calibration of SHA-less Pipeline ADCs Pingli Huang and Yun Chiu Illinois Center for Wireless Systems Calibration Algorithm (I) Introduction • Modern wireless communication systems demand low-power pipeline ADCs • Bluetooth, IEEE 802.11a/b/g, DVB-T, andetc. • SHA-less pipeline ADC can be used in IF sampling applications for DVB-T systems • Pipeline ADC architectural power efficiency • SHA-less multi-bit-per-stage architecture is the most power efficient • Severe performance degradation at high input frequencies due to sampling clock skew Without sampling clock skew, residues are bounded between ±Vref/2 With sampling clock skew, some residues are pushed exceeding ±Vref/2 • Sampling clock skew in SHA-less Architecture • Effectively creates dynamic offsets in the sub-ADC • Problem exacerbates with large input slew rates • Proposed approach • Calibrate sampling clock skew • Improve the viability of SHA-less multi-bit-per-stage architecture at high input frequencies ADC Conversion errors occur when residues exceed ±Vref The larger the sampling clock skew, the more residues exceed ±Vref/2 Calibration Algorithm (II) Calibration implementation Two sub-ADC sampling timings are initially apart, with S/H sampling timing in between. About 1800 gates, 8-bit digital delay control, 2000-Sample/update The sub-ADC timing resulting in more out-of-bound residues is stepped towards the other In steady state, both sub-ADC timings converge to the S/H sampling timing. Simulation Results Convergence of the algorithm Conversion error free in tracking Simulation Setup 1: error 0: correct