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A 1 GS/s, 31 MHz BW, 76.3 dB Dynamic Range, 34 mW CT-ΔΣ ADC with 1.5 Cycle Quantizer Delay and Improved STF

机译：一个1 GS / s，31 MHz带宽，76.3 dB动态范围，34 mWCT-ΔΣADC，具有1.5个周期量化器延迟和改进的STF

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A 1 GS/s continuous-time delta-sigma modulator (CT- ΔΣM) with 31 MHz bandwidth, 76.3 dB dynamic range and 72.5 dB peak-SNDR is reported in a 0.13 μm CMOS technology. The design employs an excess loop delay (ELD) of more than one clock cycle for achieving higher sampling rate. The ELD is compensated using a fast-loop formed around the last integrator by using a sample-and-hold. Further, the effect of this ELD compensation scheme on the signal transfer function (STF) of a feedforward CT- ΔΣ architecture has been analyzed and reported. In this work, an improved STF is achieved by using a combination of feed-forward, feed-back and feed-in paths and power consumption is reduced by eliminating the adder opamp. This CT- ΔΣ M has a conversion bandwidth of 31 MHz and consumes 34 mW from the 1.2 V power supply. The relevant design trade-offs have been investigated and presented along with simulation results.

机译：据报道，在0.13μmCMOS技术中，具有31 MHz带宽，76.3 dB动态范围和72.5 dB峰值SNDR的1 GS / s连续时间delta-sigma调制器（CT-ΔΣM）。该设计采用了超过一个时钟周期的过量环路延迟（ELD），以实现更高的采样率。通过使用采样保持功能，使用在最后一个积分器周围形成的快速环路来补偿ELD。此外，已经分析并报告了这种ELD补偿方案对前馈CT-ΔΣ架构的信号传递函数（STF）的影响。在这项工作中，通过结合使用前馈，反馈和馈入路径可以实现改进的STF，并且通过消除加法运算放大器来降低功耗。该CT-ΔΣM的转换带宽为31 MHz，从1.2 V电源消耗的功率为34 mW。已经研究了相关的设计折衷，并与仿真结果一起进行了介绍。

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Balagopal Sakkarapani; Zhu Kehan; Saxena Vishal;
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1. A 1 GS/s, 31 MHz BW, 76.3 dB dynamic range, 34 mW CT-ΔΣ ADC with 1.5 cycle quantizer delay and improved STF [J] . Sakkarapani Balagopal, Kehan Zhu, Vishal Saxena Analog Integrated Circuits and Signal Processing . 2014,第2期

机译：一个1 GS / s，31 MHz带宽，76.3 dB动态范围，34 mWCT-ΔΣADC，具有1.5个周期的量化器延迟和改进的STF
2. A 74.5-dB Dynamic Range 10-MHz BW CT-ΔΣ ADC With Distributed-Input VCO and Embedded Capacitive-π Network in 40-nm CMOS [J] . Mukherjee Abhishek, Gandara Miguel, Yang Xiangxing, IEEE Journal of Solid-State Circuits . 2021,第2期

机译：具有40-NM CMOS的分布式输入VCO和嵌入式电容-Π网络的74.5 dB动态范围10-MHz BW CT-ΔΣADC
3. A 0.039 mm$^2$ Inverter-Based 1.82 mW 68.6$~$ dB-SNDR 10 MHz-BW CT-$SigmaDelta$ -ADC in 65 nm CMOS Using Power- and Area-Efficient Design Techniques [J] . Zeller S., Muenker C., Weigel R., Solid-State Circuits, IEEE Journal of . 2014,第7期

机译：采用功率和面积有效设计技术的基于0.039 mm $ ^ 2 $逆变器的1.82 mW 68.6 $〜$ dB-SNDR 10 MHz-BW CT- $ SigmaDelta $ -65 nm CMOS中的ADC
4. A 1 GS/s, 31 MHz BW, 76.3 dB dynamic range, 34 mW CT-ΔΣ ADC with 1.5 cycle quantizer delay and improved STF [C] . Balagopal Sakkarapani, Saxena Vishal 2012 IEEE 55th International Midwest Symposium on Circuits and Systems . 2012

机译：一个1 GS / s，31 MHz带宽，76.3 dB动态范围，34 mWCT-ΔΣADC，具有1.5个周期的量化器延迟和改进的STF
5. A 1 GS/s, 31 MHz BW, 76.3 dB Dynamic Range, 34 mW CT-ΔΣ ADC with 1.5 Cycle Quantizer Delay and Improved STF [O] . Balagopal Sakkarapani, Saxena Vishal 2012

机译：一个1 GS / s，31 MHz带宽，76.3 dB动态范围，34 mWCT-ΔΣADC，具有1.5个周期量化器延迟和改进的STF

A 1 GS/s, 31 MHz BW, 76.3 dB Dynamic Range, 34 mW CT-ΔΣ ADC with 1.5 Cycle Quantizer Delay and Improved STF

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