热风传感器的板上倒装芯片封装

G. Shen, M. Qin, Qing‐An Huang, Hua Zhang, Jian Wu
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引用次数: 2

摘要

采用陶瓷衬底代替硅衬底设计、制作并封装了二维风传感器。Ti/Pt加热器和热敏电阻采用单次升离工艺制备。然后再次使用发射过程将金凸起溅射并在芯片上形成图案。相应的,金属化后在FR4衬底上采用模板印刷法制备了Pb/Sn凸起。传感器芯片在FR4衬底上进行倒装封装,并用环氧基底填料填充缝隙,以提高结构强度和热隔离性。对传感器的风速和风向偏差进行了分析和补偿,并进行了软硬件标定。在风洞恒功率模式下对封装传感器进行了测试。仿真和测试结果表明,热风传感器可以测量风速高达10 m/s,精度为0.5 m/s, 360°全范围风向,分辨率在5°以内。
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Flip-chip on board packaging of a thermal wind sensor
A two dimensional wind sensor was designed, fabricated and packaged on ceramic substrate instead of silicon substrate. The Ti/Pt heater and thermistors were fabricated using single lift-off process. The gold bumps were then sputtered and patterned on the chip using lift-off process again. Correspondingly, the Pb/Sn bumps were fabricated on the FR4 substrate using stencil printing method after metallization. The sensor chip was flip-chip packaged on the FR4 substrate, and the gap was filled with epoxy-based underfill to improve the structure strength and thermal isolation. The wind velocity and direction offsets of the sensor were analyzed and compensated using software and hardware calibration. The packaged sensor was tested in wind tunnel in constant power mode. Both the simulation and test results show that the thermal wind sensor can measure wind speeds up to 10 m/s with an accuracy of 0.5 m/s, and wind direction in a full range of 360deg with a resolution within 5deg.
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