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首页> 外文会议>IEEE International Conference on Signal Processing, Communications and Computing >Chip design of a 12-bit 5MS/s fully differential SAR ADC with resistor-capacitor array DAC technique for wireless application
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Chip design of a 12-bit 5MS/s fully differential SAR ADC with resistor-capacitor array DAC technique for wireless application

机译:用于无线应用的具有电阻电容阵列DAC技术的12位5MS / s全差分SAR ADC的芯片设计

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摘要

A 1.8-V 12-bit 5MS/s successive approximation register (SAR) analog-to-digital converter (ADC) implemented in TSMC 0.18-um CMOS process is presented. To reduce DAC switching energy and chip area, a hybrid resistor-capacitor DAC is applied. To save energy, asynchronous control logic to drive the ADC is used. A pre-amplifier based comparator circuit is built to reduce the kickback noise from the dynamic latch designs. With 1.8 V supply voltage and 5.0 MHz sampling rate, measured results achieve -0.55/0.72 LSB (Least Significant Bit) of DNL (differential nonlinearity) and -0.78/0.92 LSB of integral nonlinearity (INL) respectively, and 10.76 bits of an effective number of bits (ENOB) at 1MHz input frequency. The chip area is 0.83 mm including pads and the power consumption is 490μW for optical and wireless communications.
机译:提出了一种采用TSMC 0.18um CMOS工艺实现的1.8V 12位5MS / s逐次逼近寄存器(SAR)模数转换器(ADC)。为了减少DAC的开关能量和芯片面积,采用了混合电阻电容DAC。为了节省能量,使用了异步控制逻辑来驱动ADC。建立了一个基于前置放大器的比较器电路,以减少动态锁存器设计产生的反冲噪声。在1.8 V电源电压和5.0 MHz采样率的情况下,测量结果分别达到DNL(差分非线性)的-0.55 / 0.72 LSB(最低有效位)和积分非线性(INL)的-0.78 / 0.92 LSB,有效的10.76位输入频率为1MHz时的位数(ENOB)。芯片面积为0.83 mm(包括焊盘),光和无线通信的功耗为490μW。

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