A 12-Bit 100-MS/s Pipelined-SAR ADC With PVT-Insensitive and Gain-Folding Dynamic Amplifier
Shubin Liu, Haolin Han, Yi Shen, Zhangming Zhu
Abstract
This paper presents a process, voltage, and temperature (PVT)-insensitive dynamic amplifier (DA) with gain enhancement for a pipelined successive approximation register (SAR) analog-to-digital converter (ADC). The gain shift due to temperature and process variation is attenuated through the counteraction of input transconductance and delay-based integration time. Furthermore, based on charge conservation, a gain-folding technique is proposed to improve the gain limit of conventional DA, tripling the gain amplitude. The proposed DA is incorporated in a design of a 12-bit 100 MS/s SAR ADC. In 65 nm CMOS process, at 100 MS/s, the prototype ADC achieves an SNDR (signal-to-noise plus distortion ratio) of 65.7 dB and a Walden FoM of 12.06 fJ/conversion-step for a near-Nyquist input. The power dissipation is less than 1.9 mW. No more than 1.65 dB SNDR variations are obtained for supply voltage varying from 1.15 to 1.25 V and temperature varying from -20 °C to 125 °C with various process corners, respectively.