A zero-crossing-based circuit (ZCBC) is a promising technique for low-power high-resolution pipeline analog-to-digital converters (ADCs). Unfortunately, operating ZCBC ADCs at high speeds near 1 GS/s is quite challenging due to the delay of the zero-crossing detector that introduces nonlinear gain and offset errors. To solve nonlinearity, we propose a ZCBC pipeline ADC that employs a passive resistor as a current source. Due to its inherent linearity, the resistor-based ZCBC eliminates the input dependency of the interstage gain and offset errors, allowing a simple calibration. Furthermore, a background offset calibration scheme is proposed to cope with the large offset that results from high-speed operation. A prototype ADC implemented in 65-nm CMOS achieves an SNDR/SFDR of 47.26/62.64 dB at 1 GS/s while consuming 46.52 mW from 1 V supply.

• 出版日期2016-7