%0 Journal Article %T 用于超低频信号测量的高精度低功耗 增量式模数转换器<br>Incremental Analog??to??Digital Converter with High Resolution and Low Power for Measurement of Ultra??Low??Frequency Signals %A 陈浩 %A 孙权 %A 张鸿 %A 程军 %A 张瑞智 %J 西安交通大学学报 %D 2017 %R 10.7652/xjtuxb201706013 %X 针对超低频信号测量装置对模数转换器(ADC)的高精度、低功耗和小面积要求,提出了一种带有斩波稳零(CHS)和自校准技术的增量式模数转换器(I??ADC)。I??ADC带有复位操作,可避免超低频信号带来的模式噪声。为了尽量降低功耗和芯片面积,I??ADC采用一阶结构,并通过增加一定的转换时间来实现14 bit的转换精度。该I??ADC采用斩波稳零技术来消除运放低频噪声和失调对其精度的影响,I??ADC的系统失调则采用上电自校准技术来消除。采用DongBu 0.5 μm BCD工艺完成了I??ADC电路及其调制器版图的设计。仿真结果表明:在-156.25~156.25 mV输入范围内,I??ADC转换误差的绝对值最大为21 μV,微分非线性误差的绝对值最大为0.12 bit,积分非线性误差的绝对值最大为0.21 bit,调制器的平均电流消耗仅为20 μA;调制器的版图面积仅为150 μm×310 μm;所设计的I??ADC可满足锂电池电量计等超低频测量系统所需的14 bit转换精度,并具有显著的低功耗和小面积优势。<br>An incremental analog??to??digital converter (I??ADC) with chopper stabilization (CHS) and self??calibration techniques is presented to meet the requirements of high resolution, low power consumption and small area for measuring devices of ultra??low??frequency signals. The I??ADC has the function of reset operation to avoid pattern noise caused by ultra??low??frequency signals. A first??order architecture is adopted for the I??ADC to reduce power consumption and chip area, and to achieve 14??bit resolution by increasing certain conversion time. The chopper stabilization technique is employed to eliminate the influence of amplifier’s low??frequency noise and offset on the I??ADC’s precision, and power??on self??calibration is employed to eliminate the systematic offset of the I??ADC. The circuit of the I??ADC and the layout of the modulator are designed with the DongBu 0.5 μm BCD technology. Simulation results in an input range of -156.25~156.25 mV show that the maximum absolute conversion error of the I??ADC is 21 μV, the maximum errors of differential nonlinearity and integral nonlinearity are 0.12 and 0.21 bit, respectively, and the average current consumption of the modulator is only 20 μA. The modulator occupies a chip area of only 150 μm×310 μm. The proposed I??ADC achieves 14 bit resolution, which is required by ultra??low??frequency signal measuring systems, such as lithium??ion battery coulometer, and has significant advantages of low power consumption and small area %K 超低频 %K 增量式 %K 模数转换器 %K 斩波稳零 %K 自校准< %K br> %K ultra??low??frequency %K incremental %K analog??to??digital converter %K chopper stabilization %K self??calibration %U http://zkxb.xjtu.edu.cn/oa/DArticle.aspx?type=view&id=201706013