The design of a reconfigurable successive approximation analog to digital converter for biomedical applications

机译：用于生物医学应用的可重构逐次逼近模数转换器的设计

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In a biomedical signal processing system, ADC is an important circuit that successively converts analog biomedical signals into digital data for next analysis and processing. However, the ADC operates continuously. The power consumption is a very important factor in ADC circuit design. This brief present a 10 bits and 8 bits reconfigurable SAR ADC with a sampling rate of 20KS/s for implantable devices. It adopt Single-ended split-array capacitive DAC to reduce Power consumption and area. The digital parts of SAR ADC operate at 0.5V. The analog parts operate at 1V and 0.6V in 10bits mode and 8bits mode, respectively. The power consumptions are 1.354μW and 152.28nW. DNL are -9m~0.22LSB and -0.02~0.21LSB. INL are -0.2~0.58LSB and -0.25~0.25LSB. ENOB are 9.1 and 7.7, respectively. The ADC achieves the FOM of 123.37fJ/conversion-step and 36.55fJ/conversion-step, respectively.

机译：在生物医学信号处理系统中，ADC是重要的电路，可将模拟生物医学信号连续转换为数字数据，以进行下一步分析和处理。但是，ADC连续运行。功耗是ADC电路设计中非常重要的因素。本简介介绍了用于植入式设备的10位和8位可重配置SAR ADC，采样率为20KS / s。它采用单端分裂阵列电容式DAC来降低功耗和面积。 SAR ADC的数字部分工作在0.5V电压下。模拟部分分别在10位模式和8位模式下工作于1V和0.6V。功耗为1.354μW和152.28nW。 DNL为-9m〜0.22LSB和-0.02〜0.21LSB。 INL为-0.2〜0.58LSB和-0.25〜0.25LSB。 ENOB分别为9.1和7.7。 ADC的FOM分别为123.37fJ /转换步长和36.55fJ /转换步长。

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《IEEE International Conference on Communication Technology》|2015年|544-547|共4页
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Xiaofei Kuang; Xianli Fang;
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DAC; SAR ADC; dynamic comparator;

机译：DAC; SAR ADC;动态比较器;

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The design of a reconfigurable successive approximation analog to digital converter for biomedical applications

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