|
COMPUTATIONAL METHODS
OF COIL IMPEDANCE
OF EDDY CURRENT SENSOR
YU Yating1, 2 DU Ping’an1,
2
LI Daisheng3
(1. School of Mechatronics Electronics Engineering, University of Electronic Science
and Technology of China, Chengdu 610054;
2. State Key Laboratory of Mechanical Transmissions, Chongqing University, Chongqing 400044;
3. Institute of Southwest Structure Engineering, Chinese Academy of Engineering Physics, Mianyang 621900
)
|
|
Abstract: To research the computational methods about
the transducer coil impedance with the magnetic and non-magnetic
measured target, two computational methods, theoretic method and finite
element method, are proposed. The computational model of the coil
impedance is simplified as a cylindrical coil over a cylindrical
measured target with the thickness δ. According to the sensor
measurement principal and the electromagnetic theory, the integral
expression of the coil impedance is derived, which is expanded by series
in polar coordinate system in order to compute easily and feasibly. And
the coil impedance value is computed by MathematicTM. Then, based on the
modeling theory of finite element method, the finite element model is
built. The coil impedance value and the magnetic distribution figures
are obtained by finite element analysis, respectively. Finally, the
results from the derivation and finite element analysis are in agreement
very well by comparison, and they are given to validate the accuracy and
feasibility of the derivation method with finite element method.
Key words: Eddy current sensor Transducer coil
Impedance computation Series expansions
Finite element method
CLC No: TM154.1 TP391.7
机械传动国家重点实验室访问学者基金资助项目. Received 20060215, received in revised form 20060928
|