In this study, an acceleration sensor that has optical fibers to measure the inclination and acceleration of a structure through contradictory changes in two-component FBG sensors was examined. The proposed method was to ensure precise measurement through the unification of the deformation rate sensor and the angular displacement sensor. A high sensitivity three-axis accelerometer was designed and prepared using this method. To verify the accuracy of the accelerometer, the change in wavelength according to temperature and tension was tested. Then, the change in wavelength of the prepared accelerometer according to the sensor angle, and that of the sensor according to the change in ambient temperature were measured. According to the test results on the FBG-based vibration sensor that was developed using a high-speed vibrator, the range in measurement was 0.7 g or more, wavelength sensitivity, 2150 pm/g or more, and the change in wavelength change, 9.5 pm/℃.

• 이금석(㈜에프비지코리아) | Lee, Geum-Suk
• 안수홍(㈜아크로비젼) | Ahn, Soo-Hong
• 손수덕(한국기술교육대학교 건축공학부) | Shon, Su-Deok
• 이승재(한국기술교육대학교 건축공학부) | Lee, Seung-Jae 교신저자