One of the most used techniques for the detection of space charge is the Pulsed Electro-Acoustic (PEA) method. Calibration of signals is usually done by investigating a “ reference” signal, which must be acquired while the material is free of accumulated charge. Often one of the first acquisition obtained from the system during polarization is used. While this is usually a reasonable choice, testing on materials capable of very fast charge accumulation is more and more often encountered, and most of the commercially available systems are not able to extract a calibration signal before charge accumulation. Authors propose a procedure to correctly obtain a calibration pulse in presence of fast charge accumulating materials, with standard equipment. Experimental validation was done on polyimide samples tested at 90°C with electric fields from 10 to 50 kV/mm, capable of fast charge accumulation, demonstrating how to correctly obtain a charge-free calibration pulse within 0.3 s. The results obtained were confirmed by measurements from a custom system with nonstandard fast acquisitions capabilities.
Seri P., Rumi A., Palmieri F., Cavallini A., Fabiani D. (2023). Challenges and Pitfalls of PEA Calibration with Fast Charge Accumulating Materials. Institute of Electrical Engineers of Japan.
Challenges and Pitfalls of PEA Calibration with Fast Charge Accumulating Materials
Seri P.Writing – Original Draft Preparation
;Rumi A.;Palmieri F.;Cavallini A.;Fabiani D.
2023
Abstract
One of the most used techniques for the detection of space charge is the Pulsed Electro-Acoustic (PEA) method. Calibration of signals is usually done by investigating a “ reference” signal, which must be acquired while the material is free of accumulated charge. Often one of the first acquisition obtained from the system during polarization is used. While this is usually a reasonable choice, testing on materials capable of very fast charge accumulation is more and more often encountered, and most of the commercially available systems are not able to extract a calibration signal before charge accumulation. Authors propose a procedure to correctly obtain a calibration pulse in presence of fast charge accumulating materials, with standard equipment. Experimental validation was done on polyimide samples tested at 90°C with electric fields from 10 to 50 kV/mm, capable of fast charge accumulation, demonstrating how to correctly obtain a charge-free calibration pulse within 0.3 s. The results obtained were confirmed by measurements from a custom system with nonstandard fast acquisitions capabilities.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.