Younghwan Bang scite author profile

This paper presents a thermal convection-based sensor, which is fabricated using carbon nanotube (CNT) yarn. The key element in this device is the non-symmetrically distributed, heated air medium around the heater, particularly when it experiences acceleration and/or changes in inclination. Therefore, it can withstand much higher accelerations/inclination than conventional sensors that use a proof mass. However, a major challenge for the design of this type of sensor is the high heating power (in the order of tens of milliwatts) required to facilitate thermal convection in a sealed chamber. In order to reduce the high heating power, CNTs are investigated as materials for both the heater and the temperature sensors. Moreover, this paper discusses experiments that were performed by varying several parameters, such as the heating power, distance between the heater and temperature sensors, the gas medium used, and air pressure.

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Study on Detection Algorithm of Live Animal in Self-Bag-Drop Kiosk in Airport Using UWB Radar

Jung¹,

Bang

Hwang

2018

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Study on Detection Algorithm of Live Animal in Self-bag-Drop Kiosk in Airport Using UWB Radar

Jung¹,

Bang

Hwang

2018

View full text Add to dashboard Cite

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Younghwan Bang

Thermal convective inclinometer using carbon nanotube yarn

Sensitivity improvement of a thermal convection-based tilt sensor using carbon nanotube

Study on Detection Algorithm of Live Animal in Self-Bag-Drop Kiosk in Airport Using UWB Radar

Study on Detection Algorithm of Live Animal in Self-bag-Drop Kiosk in Airport Using UWB Radar

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