A 640pW 32kHz switched-capacitor ILO analog-to-time converter for wake-up sensor applications

Proceedings of the ACM/IEEE International Symposium on Low Power Electronics and Design Pub Date : 2020-08-10 DOI:10.1145/3370748.3406582

N. Goux, Jean-Baptiste Casanova, G. Pillonnet, F. Badets

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Abstract

This paper presents the architecture and ultra-low power (ULP) implementation of a switched-capacitor injection-locked oscillator (SC-ILO) used as analog-to-time converter for wake-up sensor applications. Thanks to a novel injection-locking scheme based on switched capacitors, the SC-ILO architecture avoids the use of power-hungry constant injection current sources. The SC-ILO design parameters and transfer function, resulting from an analytical study, are determined, and used to optimize the design. The ULP implementation strategy regarding power consumption, gain, modulation bandwidth and output phase dynamic range is presented and optimized to be compatible with audio wake-up sensor application that require ultra-low power consumption but low dynamic range performances. This paper reports SC-ILO circuit experimental measurements, fabricated in a 22 nm FDSOI process. The measured chip exhibits a 129° phase-shift range, a 6kHz bandwidth leading to a 34.6dB-dynamic range for a power consumption of 640pW under 0.4V.

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640pW 32kHz开关电容ILO模拟-时间转换器，用于唤醒传感器应用

本文介绍了一种开关电容注入锁定振荡器(SC-ILO)的结构和超低功耗(ULP)实现，该振荡器用作唤醒传感器应用的模拟-时间转换器。由于基于开关电容的新颖注入锁定方案，SC-ILO架构避免了使用耗电的恒定注入电流源。SC-ILO设计参数和传递函数是通过分析研究确定的，并用于优化设计。提出了关于功耗、增益、调制带宽和输出相位动态范围的ULP实现策略，并对其进行了优化，以兼容需要超低功耗但低动态范围性能的音频唤醒传感器应用。本文报道了SC-ILO电路在22 nm FDSOI工艺下的实验测量结果。所测芯片具有129°相移范围，6kHz带宽，在0.4V下功耗为640pW，动态范围为34.6 db。

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Proceedings of the ACM/IEEE International Symposium on Low Power Electronics and Design

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