A 0.6V 19.5μW 80dB DR ΔΣ Modulator with SA-Quantizers and Digital Feedforward Path

Abstract

This paper presents a discrete-time multi-bit Delta–Sigma modulator employing successive approximation (SA)-quantizers for bio-signal acquisitions. In the proposed [Formula: see text] modulator, the input signal is separately quantized and the signal summation is performed in the digital domain to avoid the power hungry analog adder. Two SA-quantizers are used in this modulator. One is dedicated to quantize the input signal and the other is to quantize the summation of the integrators’ outputs. Dynamic Element Matching (DEM) technique is used to mitigate the mismatch among the digital-to-analog conversion (DAC) elements. To reduce the complexity of the DEM logic, the 7-bit summed quantizer output is truncated into a 5-bit code before it is fed to the DEM circuits. Double tailed inverter-based op-amp is used in the loop filter for low-voltage operation. Correlated-double-sampling is adopted to enhance the effective gain of the integrator. The proposed modulator is designed and fabricated in a 130-nm CMOS technology. The measurement result shows that the modulator achieves a dynamic range of 80[Formula: see text]dB, a peak SNDR of 77[Formula: see text]dB in a 25[Formula: see text]kHz signal bandwidth at sampling rate of 800[Formula: see text]kHz. The prototype modulator occupies 0.25[Formula: see text]mm2 and consumes only 19.5[Formula: see text][Formula: see text]W from a 0.6[Formula: see text]V supply. The proposed modulator achieves a figure of merit of 67 fJ per conversion step.