电力变压器溶解气体检测用半导体传感器分析

Conference Record of the 2006 IEEE International Symposium on Electrical Insulation Pub Date : 2006-06-11 DOI:10.1109/ELINSL.2006.1665297

Lijun Zhou, Guangning Wu, Chong Su, Hongliang Wang, Haolong Tang, Shenglin Li

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引用次数: 0

摘要

提出了半导体气体传感器稳态响应、瞬态响应和恢复行为的三种假设，据此，稳态电阻值的对数与气体浓度的对数服从相切函数;瞬态响应由传感器的电流电阻和气体浓度决定;恢复行为由传感器的电流电阻和下次气体浓度决定。为了验证这些假设，在阶段模型的基础上建立了气体分离函数模型。相关系数通过实验和数学方法得到。通过仿真结果与实验结果的比较，验证了气体分离模型和传感器的假设，结果表明该假设在绝缘油中溶解气体监测系统的半导体应用中是合理的

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Analysis of semiconductor sensor for detecting dissolved gases in power transformers

Three hypotheses for steady-state responding, transient responding and resuming behavior of semiconductor gas sensors are proposed, according to which, the logarithm of the steady-state resistance value and the logarithm of the gases concentration obey a tangent function; the transient response is decided by the current resistance of the sensor and the gases concentration; and the resuming behavior is decided by the current resistance of the sensor and gases concentration at the next time. In order to validate the hypotheses, a gases separating function is modeled on the basis of stage model. Relative coefficients are obtained by experiment and mathematical methods. The gases separating model and the hypotheses about the sensor are validated by comparing the simulating results with the experiment results, and the comparing results show that the hypotheses are reasonable when applied in the semiconductor of the monitoring system for dissolved gases in insulating oil

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Conference Record of the 2006 IEEE International Symposium on Electrical Insulation

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