A 500-MS/s 9-Bit Time-Domain ADC Using a Nonbinary Successive Approximation TDC

2022 IEEE Asia Pacific Conference on Circuits and Systems (APCCAS) Pub Date : 2022-11-11 DOI:10.1109/APCCAS55924.2022.10090395
Yutong Zhao, Fan Ye, Junyan Ren
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Abstract

This paper presents a 500-MS/s 9-bit time-domain analog-to-digital converter (ADC) using a nonbinary successive approximation time-to-digital converter (SA TDC) for energy efficiency and high linearity. By adding redundancy in the first six decision steps, the delay fluctuations of the delay cells and offset of the time-domain comparators in the SA TDC can be tolerated and nonlinearity can thus be reduced. In addition, a voltage-to-time converter (VTC) with a voltage-boost scheme is utilized to expand the linear dynamic range. Simulated in 28nm CMOS, the time-domain ADC consumes 4.27 mW under supply voltages of 0.9 V and 2.5 V. It is shown that SNDR and SFDR are 54.69 dB and 55.16 dB at Nyquist input frequency operating at a 500-MS/s sampling rate, respectively, resulting in a Walden figure of merit (FOMw) of 19.29 fJ/conversion step.
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采用非二进制连续逼近TDC的500 ms /s 9位时域ADC
本文提出了一种500 ms /s的9位时域模数转换器(ADC),该转换器采用非二进制连续逼近时间-数字转换器(SA TDC),以提高能量效率和高线性度。通过在前六个决策步骤中增加冗余,可以容忍SA TDC中延迟单元的延迟波动和时域比较器的偏移,从而降低非线性。此外,采用电压升压方案的电压-时间转换器(VTC)扩大了线性动态范围。在28nm CMOS上进行仿真,在0.9 V和2.5 V电源电压下,时域ADC功耗为4.27 mW。结果表明,在Nyquist输入频率下,采样率为500 ms /s时,SNDR和SFDR分别为54.69 dB和55.16 dB,瓦尔登优值(FOMw)为19.29 fJ/转换步长。
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2022 IEEE Asia Pacific Conference on Circuits and Systems (APCCAS)
2022 IEEE Asia Pacific Conference on Circuits and Systems (APCCAS)
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