A mismatch-error minimized four-channel time-interleaved 11 b 150 MS/s pipelined SAR ADC

Abstract

This work proposes a four-channel time-interleaved 11 b 150 MS/s pipelined SAR ADC based on various analog techniques to minimize mismatches between channels without any calibration scheme. The proposed ADC eliminates an input SHA to reduce offset mismatches, while the pipelined SAR architecture solves the problem of limited input bandwidth as observed in conventional SHA-free ADCs. In addition, a shared residue amplifier between four channels minimizes various mismatches caused by amplifiers in the first-stage MDACs. Two types of references for the residue amplifier and the SAR ADCs isolate the reference instability problem due to different functional requirements, while the shared residue amplifier uses only a single reference during the amplifying mode of each channel to reduce a gain mismatch. For high performance of the SAR ADC, high-frequency clocks with a controllable duty cycle are generated on chip without external, complicated, high-speed multi-phase clocks. The prototype 11 b ADC in a 0.13 μm CMOS shows a measured DNL and INL of 0.31 LSB and 1.18 LSB, respectively, with an SNDR of 59.3 dB and an SFDR of 67.7 dB at 100 MS/s, and an SNDR of 54.5 dB and an SFDR of 65.5 dB at 150 MS/s. The ADC with an active die area of 2.42 mm2 consumes 46.8 mW at 1.2 V and 150 MS/s.