An Iterative phase difference detection method for High Sensitivity Eddy Current Sensor
In this paper, a new non-contacting strain sensing method applying an iterative phase difference detection to eddy current sensor is proposed. The iterative phase difference detection means that the time between zero cross points of sensing coil voltage which indicates the phase difference is accumulated repetitively. Proposed method is characterized as a simple sensor which consists of very small size coils, oscillator circuits, and a microprocessor. Previously, the phase difference caused by inductance changes has been detected by a synchronous amplifier, especially a lock-in amplifier. The new method proposed in this paper will be equivalent to the synchronous detection technique, in which the lock-in amplifier is needless. The accumulation can be held by repetitive drive of the oscillator circuit which consists of sensing coil connected to a capacitor in series or parallel. In the experiment, a torque test unit is used, and torque which causes up to 0.2% torsional strain in test pieces is applied. For test pieces, AL2017, AL5056, and SUS304 are selected. From experimental results, a linear relation between sensor output and applied torque is observed. And it is shown that the proposed method is effective.
Iterative phase difference detection Repetitive accumulation time domain eddycurrent sensor
Takahiko TSUJISAWA Kazuhiro YAMAKAWA Kazuyuki ABE
Department of Mechanical Engineering, Ashikaga Institute of Technology Azuma Systems Corporation, Kumagaya, JAPAN;
国际会议
第十七届世界无损检测会议(17th World Conference on Nondestructive Testing)
上海
英文
2039-2045
2008-10-25(万方平台首次上网日期,不代表论文的发表时间)