Rough signal processing of AC power intelligent sensor under the background of smart grid

J. Comput. Methods Sci. Eng. Pub Date : 2023-01-04 DOI:10.3233/jcm-226686

Xuetang Lei, Yaya Xie, Jinkai Lei

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Abstract

In the rough signal processing of AC intelligent sensor, the effective value and initial phase of voltage/current determine the test accuracy. To improve the harmonic detection and compensation performance of the existing APF and promote the improvement of power grid power quality. The direct positioning method is used as the comparison method, and the error LMS method is proposed to obtain and test the voltage and current signals of intelligent sensors. The simulation results of error LMS method show that the accuracy of voltage RMS and initial phase value calculated by method 1 increases with the increase of the number of sampling points, while the accuracy of voltage RMS of method 2 and method 3 does not change significantly. The results of correlation analysis method show that the test accuracy of the proposed method is 1/2–1/3 of the direct definition method when the amplitude of interference noise signal is 5%, 10% and 15%. Compared with the direct definition method, the rough signal processing technology has lower sampling amount and higher test accuracy, which helps to simplify the system and save the overhead cost.

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智能电网背景下交流电源智能传感器的粗信号处理

在交流智能传感器的粗信号处理中，电压/电流的有效值和初始相位决定了测试精度。提高现有有源滤波器的谐波检测与补偿性能，促进电网电能质量的提高。采用直接定位法作为对比方法，提出误差LMS法对智能传感器的电压电流信号进行获取和测试。误差LMS法的仿真结果表明，方法1计算电压均方根值和初始相位值的精度随着采样点数的增加而增加，而方法2和方法3计算电压均方根值的精度变化不明显。相关分析方法的结果表明，当干扰噪声信号幅值为5%、10%和15%时，本文方法的测试精度为直接定义方法的1/2 ~ 1/3。与直接定义法相比，粗信号处理技术具有采样量小、测试精度高的优点，有助于简化系统，节省开销成本。

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J. Comput. Methods Sci. Eng.

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