Development of a robust 2-D thermal wind sensor using glass reflow process for low power applications

Abstract: In this paper, a low-power MEMS two-dimensional (2-D) thermal wind sensor with high reliability is presented. The sensor is based on a glass-in-silicon reflow process. The embedded vertical silicon vias in the glass substrate are used to realize the electrical connections between the sensing elements and the electrode-pads, which are respectively placed on on the front and the back surface of the chip. Then, the sensor and the external circuit are connected using the wire-bonding process through the electrode-… Show more

“…Relying on TGV technology allows for electrical connections without the need for external wiring, meeting the requirements of reliability and high performance. Zhu et al [ 104 , 105 , 106 , 107 ] proposed a thermal wind sensor packaging scheme, implemented using glass reflow technology. Drawing upon the performance benefits of the glass substrate and TGVs, the total heating power consumption of the sensor amounted to a mere 14.5 mW.…”

Application of Through Glass Via (TGV) Technology for Sensors Manufacturing and Packaging

“…Relying on TGV technology allows for electrical connections without the need for external wiring, meeting the requirements of reliability and high performance. Zhu et al [ 104 , 105 , 106 , 107 ] proposed a thermal wind sensor packaging scheme, implemented using glass reflow technology. Drawing upon the performance benefits of the glass substrate and TGVs, the total heating power consumption of the sensor amounted to a mere 14.5 mW.…”

Application of Through Glass Via (TGV) Technology for Sensors Manufacturing and Packaging

MEMS Devices in Agriculture

Ceramic Film Packaging for 2-D Thermal Wind Sensor Using LTCC Technology