Xin Meng, Jinzhou Cao, Tao He, Yi Zhang, G. Temes, M. Aniya, Kazuki Sobue, K. Hamashita
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引用次数: 3
摘要
介绍了一种具有移位环路延迟(SLD)的三阶开关电容低失真δ - σ ADC,并对其性能进行了讨论。它可以放松量化器和动态元素匹配(DEM)块的速度要求,并消除最后一级加法器。采用该架构的0.18 um CMOS原型在4 MHz的信号带宽下提供81.6 dB SNDR, 81.8 dB动态范围和-95.6 dB THD。它的功耗为19.2 mW,电源为1.6 V。为了进行比较,我们还在同一芯片上实现了传统的低失真ADC。新电路性能优越,功耗比传统电路低25% (19.2 mW vs. 24.9 mW)。具有SLD的ADC的性能值是宽带离散时间ADC中报道的最好的,并且比传统ADC好近40%。
A 19.2-mW, 81.6-dB SNDR, 4-MHz bandwidth delta-sigma modulator with shifted loop delays
A third-order switched-capacitor low-distortion delta-sigma ADC with shifted loop delays (SLD) is described, and its performance is discussed. It can relax the speed requirements of the quantizer and the dynamic element matching (DEM) block, and eliminate the last stage adder. An implemented 0.18 um CMOS prototype with the proposed architecture provided 81.6 dB SNDR, 81.8 dB dynamic range, and -95.6 dB THD in a signal bandwidth of 4 MHz. It dissipates 19.2 mW with a 1.6 V power supply. The conventional low-distortion ADC was also implemented on the same chip for comparison. The new circuit has superior performance, and dissipates 25% less power (19.2 mW vs. 24.9 mW) than the conventional one. The figure-of-merit for the ADC with SLD is among the best reported for wideband discrete-time ADCs, and is almost 40% better than that of the conventional ADC.
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