Title :
A 1.2 V 2.64 GS/s 8 bit 39 mW Skew-Tolerant Time-interleaved SAR ADC in 40 nm Digital LP CMOS for 60 GHz WLAN
Author :
Kundu, Sandipan ; Alpman, Erkan ; Lu, Julia Hsin-Lin ; Lakdawala, Hasnain ; Paramesh, Jeyanandh ; Byunghoo Jung ; Zur, Sarit ; Gordon, Eshel
Author_Institution :
Intel Corp., Hillsboro, OR, USA
Abstract :
A clock-skew tolerant 8-bit 16x time-interleaved (TI) semi-synchronous SAR ADC with switching-energy efficient hybrid resistive-capacitive DAC is presented that meets WiGig standard requirements with only background offset and gain calibrations. Skew tolerance is achieved by using a “correct-by-construction,” timing-calibration-free global bottom-plate sampling scheme. The ADC achieves a sampling rate of 2.64 GS/s while maintaining an ENOB of over 6 bits in the entire Nyquist band. The 40 nm LP CMOS design dissipates 39 mW from 1.2 V. The TI-SAR ADC characterized with an integrated receiver front-end achieves -21.44 dB EVM at sensitivity with a QAM16 signal.
Keywords :
CMOS integrated circuits; analogue-digital conversion; calibration; digital-analogue conversion; energy conservation; wireless LAN; ENOB; QAM16 signal; TI semisynchronous SAR ADC; WLAN; WiGig standard requirement; complementary metal oxide semiconductor; correct-by-construction; digital LP CMOS; digital-analogue converter; effective number of bits; frequency 60 GHz; gain calibration; hybrid resistive-capacitive DAC; integrated receiver front-end; power 39 mW; sampling rate; size 40 nm; skew-tolerant time-interleaved SAR ADC; successive approximation analog-to-digital converter; switching-energy efficiency; timing-calibration-free global bottom-plate sampling scheme; voltage 1.2 V; wireless local area network; word length 8 bit; Bandwidth; Calibration; Capacitors; Clocks; Receivers; Switches; Timing; 802.11ad; ADCs; SAR; WiGig; semi-synchronous; skew-tolerant; switching-energy; time-interleaving;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2015.2452372
