基于22nm FDSOI CMOS的30 mhz BW 74.6 db SNDR 92 db SFDR CT ΔΣ有源体偏置DAC校准器

2022 IEEE Custom Integrated Circuits Conference (CICC) Pub Date : 2022-04-01 DOI:10.1109/CICC53496.2022.9772799

Marcel Runge, Julius Edler, Dario Schmock, Tobias Kaiser, F. Gerfers

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引用次数: 0

摘要

宽带、节能的连续时间(CT) $\Delta\Sigma$调制器已经成为现代无线接收机架构的核心组成部分。特别是，与单比特调制器拓扑相比，多比特$\Delta\Sigma$调制器拓扑非常受欢迎，因为这不仅可以在给定带宽和SNDR下降低过采样比(OSR)，还可以显著节省功耗。然而，由于多位dac本质上是非线性的，这些误差从根本上限制了整个调制器的线性度。最先进的模拟校正概念[1]通过将辅助DAC (AUXDAC)与主反馈DAC并行来补偿多位DAC误差。AUXDAC在全调制器时钟速度下工作，产生了图1中突出的四个主要缺点。本研究提出了一种体偏置DAC校准方案，该方案利用晶体管后门作为控制节点，将静态DAC单元错配校正到15位精度，从而克服了所有这些缺点。

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A 30-MHz BW 74.6-dB SNDR 92-dB SFDR CT ΔΣ Modulator with Active Body-Bias DAC Calibration in 22nm FDSOI CMOS

Wide-band, power-efficient continuous-time (CT) $\Delta\Sigma$ modulators have become the core building block for modern wireless receiver architectures. In particular, the multi-bit $\Delta\Sigma$ modulator topology is very popular compared to the single-bit variant, as this not only enables a reduced oversampling ratio (OSR) for a given bandwidth and SNDR but also leads to significant power savings. However, as multi-bit DACs are inherently non-linear, these errors fundamentally limit the linearity of the entire modulator. State of the art analog correction concepts [1] compensate multi-bit DAC errors by placing an auxiliary DAC (AUXDAC) in parallel to the main feedback DAC. The AUXDAC operates at full modulator clock speed, giving rise to four major drawbacks highlighted in Fig. 1. This work proposes a body-bias DAC calibration scheme that overcomes all these drawbacks by utilizing the transistor back gate as a control node to correct static DAC unit cell mismatch to 15bit accuracy.

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2022 IEEE Custom Integrated Circuits Conference (CICC)

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