An Energy-Efficient 13-bit Zero-Crossing ΔΣ Capacitance-to-Digital Converter with 1 pF-to-10 nF Sensing Range

2018 IEEE International Symposium on Circuits and Systems (ISCAS) Pub Date : 2018-05-27 DOI:10.1109/ISCAS.2018.8351703

Bing Li, Chuang Li, Wen Wang, Jia Liu, Wen-Jun Liu, Qian Yang, W. Ye

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Abstract

Conventional capacitance-to-digital converters (CDCs) suffer limitations either on narrow capacitance range or low resolution for jitter-induced noise and high power consumption. In order to overcome these limitations, a 13-bit 1 pF-to-10 nF generic CDC is presented. In the proposed CDC with the oversampled ΔΣ modulation, the zero-crossing-based circuits (ZCBCs) are used to replace the operational transconductance amplifier to avoid feedback loop stability issues. However, the ZCBCs inevitably incur the non-idealities and thus a novel calibration scheme is presented for efficient non-ideality-error cancellation. A prototype fabricated using 0.18 μm CMOS technology is experimentally verified using a MEMS capacitive humidity sensor. The measurement results show the CDC achieves a 13-bit rms noise equivalent resolution with a 128 μs conversion time and a 230 fJ/conversion-step figure of merit. The calibration scheme enhances the linearity from 7 bits to 11.4 bits in the 1 pF-to-10 nF compatible capacitance range.

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一种节能的13位过零ΔΣ电容-数字转换器，传感范围为1pf - 10nf

传统的电容-数字转换器(cdc)存在电容范围窄、分辨率低、抖动噪声和高功耗的限制。为了克服这些限制，提出了一个13位的1 pf -10 nF通用CDC。在提出的过采样ΔΣ调制的CDC中，基于零交叉的电路(ZCBCs)被用来取代操作跨导放大器，以避免反馈回路的稳定性问题。然而，ZCBCs不可避免地会产生非理想性，因此提出了一种新的校准方案来有效地消除非理想性误差。采用0.18 μm CMOS工艺制作的原型机采用MEMS电容式湿度传感器进行了实验验证。测量结果表明，该系统实现了13位rms噪声等效分辨率，转换时间为128 μs，转换步长为230 fJ/。校准方案将1 pf -10 nF兼容电容范围内的线性度从7位提高到11.4位。

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2018 IEEE International Symposium on Circuits and Systems (ISCAS)

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