论文信息 - Mathematical analysis and interpretation of pulsed electro-acoustic system

Mathematical analysis and interpretation of pulsed electro-acoustic system

A mathematical analysis, which results in an improved understanding of the pulsed electro-acoustic (PEA) system and a correct interpretation of the PEA signals, is made of the fundamental measurement principle by introducing the theory of signals and systems. As a result, the overall measurement system, without consideration of the attenuation and dispersion effects in the acoustic wave propagation, can be equivalently turned into and modeled by a linear time-invariant (LTI) system with a charge-wave function as its input. From this model, it is revealed that the measured PEA signal is not linearly proportional to, but is interpreted as a weighted running-average of, the real space charge distribution. The impulse response of the LTI system, acting as the weighting function, can be employed for the assessment of the system quality and should be given together with the measured PEA signals for evaluating the space charge distribution.

D. Tu | Yongchang Zhu | T. Takada

[1] T. Okamoto,et al. Direct observation of time-dependent space charge profiles in XLPE cable under high electric fields , 1994 .

[2] Ying Li,et al. Pulsed electroacoustic method for measurement of charge accumulation in solid dielectrics , 1994 .

[3] T. Takada,et al. Pulsed electro-acoustic method for measurement of space charge distribution in power cables under both DC and AC electric fields , 1993 .

[4] T. De-min,et al. The new theory of measurement technique of space charge distribution in solid dielectrics by electro-acoustic method , 1992, Conference Record of the 1992 IEEE International Symposium on Electrical Insulation.

[5] T. Takada,et al. An Electric Stress-Pulse Technique for The Measurement of Charges in A Plastic Plate Irradiated by an Electron Beam , 1987, IEEE Transactions on Electrical Insulation.

[6] J. Lewiner. Evolution of Experimental Techniques for the Study of the Electrical Properties of Insulating Materials , 1986, IEEE Transactions on Electrical Insulation.