11.2 A 0.85fJ/conversion-step 10b 200kS/s subranging SAR ADC in 40nm CMOS

Analog-to-digital converters (ADC) are extensively used in wireless sensor networks and healthcare electronic devices to monitor long-term signal conditions. It is essential to prolong battery life in these applications by using an energy-efficient ADC. A successive-approximation register (SAR) architecture, mostly composed of digital circuits, can achieve low power under low supply voltages [1,2]. Power consumption can be decreased by using either an energy-efficient capacitive-DAC switching method [1] or a low-power comparator with a majority voting technique [2]. In this work, a small coarse ADC resolves the MSB bits. Then, a detect-and-skip algorithm and an aligned switching technique are used to reduce the big fine DAC switching energy. The comparator power is also decreased by utilizing a low-power comparator during coarse conversion and a low-noise comparator during fine conversion. As a result, its FoM performance is as low as 0.85fJ/conversion-step, which is about 3 times better than that of the state-of-the-art work [2].

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[2]  Chih-Cheng Hsieh,et al.  A 2.4-to-5.2fJ/conversion-step 10b 0.5-to-4MS/s SAR ADC with charge-average switching DAC in 90nm CMOS , 2013, 2013 IEEE International Solid-State Circuits Conference Digest of Technical Papers.

[3]  Jon Guerber,et al.  Merged capacitor switching based SAR ADC with highest switching energy-efficiency , 2010 .

[4]  Arthur H. M. van Roermund,et al.  A 2.2/2.7fJ/conversion-step 10/12b 40kS/s SAR ADC with Data-Driven Noise Reduction , 2013, 2013 IEEE International Solid-State Circuits Conference Digest of Technical Papers.

[5]  Eric A. M. Klumperink,et al.  A 1.9μW 4.4fJ/Conversion-step 10b 1MS/s Charge-Redistribution ADC , 2008, 2008 IEEE International Solid-State Circuits Conference - Digest of Technical Papers.

[6]  Chung-Ming Huang,et al.  A 10b 100MS/s 1.13mW SAR ADC with binary-scaled error compensation , 2010, 2010 IEEE International Solid-State Circuits Conference - (ISSCC).