Yin-Ting Yang scite author profile

Yin-Ting Yang

2Publications

4Citation Statements Received

3Citation Statements Given

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National Changhua University of Education

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A New Approach of 2D CMOS Thermal-Bubble-Based Accelerometer

Yang

Chen

Lin

et al. 2007

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A novel thermal-bubble-based micromachined accelerometer with advantages of low solid thermal conductance and high sensitivity is presented in this paper. With our proposed micro-link structure, a new accelerometer was built with a micro heater, two pairs of thermopiles which were floating over an etched cavity. The micro-heater is centered on the membrane and two pairs of thermopiles besides are crossed with each other. The heater and the thermopiles are connected by network structure of micro-links, which enhance the structure and greatly reduce the solid heat flow from the heater to the hot junctions of thermopiles. Furthermore, the samples are fabricated by TSMC 0.35 tm 2P4M CMOS process which is provided by CIC with outstanding strong structures and uniform quality. Our design is proved to be adequate for commercial batch production.

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A New Structure for CMOS Thermal-Bubble-Based Accelerometer

Shen

Chen

Yang

2007

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In this paper, we design andfabrication a novel thermalbubble-based micromachined accelerometer with advantages of minimum solid thermal conductance and high sensitivity successfully. It can detect two-dimension acceleration changed and apply to technology of inclinometers, anemometers andflow meters. A new accelerometer consists of a micro heater and two pairs of thermopiles floating over an etched cavity that is constructed by our proposed micro-link structure. The heater and the thermopiles are connected by network-like structure of micro-links, which enhance the structure and greatly reduce the solid heatflow from the heater to the hot junctions of thermopiles. The samples are fabricated by TSMC 0. 35fum 2P4M CMOS process which is provided by CIC with outstanding strong structures and uniform quality. Our design is proved to be adequate for commercial batch production. We measure the output signal by inclining the sensor to evaluate the performance of this accelerometer. The measurement shows the output signal is inverse proportional to the tilt angel and the output voltage is increased when the input power increases. Furthermore, the sensitivity was obtainedfor acceleration vs. output voltage with an average slope of0. 325uVlg in this case.

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Yin-Ting Yang

A New Approach of 2D CMOS Thermal-Bubble-Based Accelerometer

A New Structure for CMOS Thermal-Bubble-Based Accelerometer

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