采用双面后cmos工艺的单片环境传感中心

2020 IEEE 33rd International Conference on Micro Electro Mechanical Systems (MEMS) Pub Date : 2020-01-01 DOI:10.1109/MEMS46641.2020.9056143

Cheng-Chun Chang, Ping-Hsiu Hong, Sheng-Kai Yeh, Yung-Chian Lin, Mei-Feng Lai, W. Fang

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引用次数: 4

摘要

本研究报告了一种单片集成的湿度/温度计/压力传感器来实现环境传感中心。采用台积电$0.18 \mu \ mathm {m}$ 1P6M CMOS平台及后续的双面后置CMOS微加工工艺，设计并实现了环境传感中心。本研究的特点是:(1)占地面积小，封装工作量少，将温湿度传感器集成在单个芯片上;(2)相对湿度(RH)传感器响应时间快，采用双面后cmos工艺去除背面硅，增强电容式RH传感器的蒸气扩散。(3)双面后cmos工艺:同时制作H/P传感器背面空腔。测量结果表明，环境传感轮毂的性能:湿度传感器灵敏度为4.06fF/%RH，响应时间为3.1秒(常规设计参考型为15.7秒)，压力传感器灵敏度为0.79fF/kPa，温度计响应为15.8mV/°C。

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Environmental Sensing Hub on Single Chip Using Double-Side Post-CMOS Processes

This research reports a monolithically integrated Humidity/Thermometer/Pressure sensor to realize an environment sensing hub. The environment sensing hub is designed and implemented using the TSMC $0.18 \mu \mathrm{m}$ 1P6M CMOS platform and the follow-up double-side post-CMOS micromachining processes. Features of this study are: (1) Small footprint with less packaging effort: monolithic integration of H/T/P sensors on a single chip, (2) Fast response time of relative-humidity (RH) sensor: removal of backside silicon by double-side post-CMOS process to enhance vapor diffusion of capacitive RH sensor. (3) Double-side post-CMOS process: simultaneously fabricating backside cavities for H/P sensors. Measurement results indicate the performances of the environment sensing hub: humidity sensor with sensitivity of 4.06fF/%RH and response time of 3.1sec (15.7sec for the reference type of conventional design), and pressure sensor with sensitivity of 0.79fF/kPa, thermometer with response of 15.8mV/°C.

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来源期刊

2020 IEEE 33rd International Conference on Micro Electro Mechanical Systems (MEMS)

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