Results 1 -
1 of
1
A 0.9V 12mW 5MSPS algorithmic ADC with 77dB SFDR
- IEEE J. Solid-State Circuits
, 2005
"... Abstract—An ultra-low-voltage CMOS two-stage algorithm ADC featuring high SFDR and efficient background calibration is presented. The adopted low-voltage circuit technique achieves high-accuracy high-speed clocking without the use of clock boosting or bootstrapping. A resistor-based input sampling b ..."
Abstract
-
Cited by 5 (3 self)
- Add to MetaCart
Abstract—An ultra-low-voltage CMOS two-stage algorithm ADC featuring high SFDR and efficient background calibration is presented. The adopted low-voltage circuit technique achieves high-accuracy high-speed clocking without the use of clock boosting or bootstrapping. A resistor-based input sampling branch demonstrates high linearity and inherent low-voltage operation. The proposed background calibration accounts for capacitor mismatches and finite opamp gain error in the MDAC stages via a novel digital correlation scheme involving a two-channel ADC architecture. The prototype ADC, fabricated in a 0.18 m CMOS process, achieves 77-dB SFDR at 0.9 V and 5 MSPS (30 MHz clocking) after calibration. The measured SNR,
