An 8-Bit Single-Ended Ultra-Low-Power SAR ADC With a Novel DAC Switching Method and a Counter-Based Digital Control Circuitry
IEEE Trans. on Circuits and Systems(2013)
摘要
This paper proposes a design of ultra-low-power successive approximation register (SAR) analog-to-digital converters (ADC) specially optimized for very low frequency biosensor applications. Two new techniques are introduced: 1) a novel digital-to-analog converter (DAC) switching method suitable for single-ended SAR ADCs; and 2) a counter-based digital control circuitry. The DAC switching method uses VR/2 as an only reference voltage to digitize the input signals within [0, VR ], and reduces the power consumption in the DAC during digitizing by 87.5% versus the traditional one. The counter-based controller can reduce power consumption in the digital circuitry by 30%. Two prototype 8-bit SAR ADCs are designed, one in a TI 0.35-μm Bipolar-CMOS-DMOS (BCD) process and the other in a TSMC 0.18-μm CMOS process. The 0.35-μm ADC consumes 101 nW, and achieves a signal to noise and distortion ratio (SNDR) of 48.2 dB and a figure of merit (FOM) of 227 fJ/conversion-step at 2 kS/s. The 0.18-μm ADC can achieve a SNDR of 46.3 dB with only 27 nW and a FOM of 79.9 fJ/conversion-step at 2 kS/s.
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关键词
biosensors,cmos integrated circuits,single-ended ultralow-power sar adc,power consumption,word length 8 bit,analogue-digital conversion,dac switching method,reference voltage,successive approximation register,analog-to-digital converters,single-ended sar adc,bcd process,counter-based digital control circuitry,digital-to-analog converter (dac),size 0.35 mum,size 0.18 mum,ti bipolar-cmos-dmos process,analog-to-digital converter (adc),tsmc cmos process,successive approximation register (sar) adc,power 101 nw,biosensor,digital-to-analog converter,digital control,digital-analogue conversion,counter-based controller,ultra-low-power sensor
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