Transducer Based on Current Transfer Ratio of Optocouplers to Smart Electricity Meters

2022 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC) Pub Date : 2022-11-09 DOI:10.1109/ROPEC55836.2022.10018634

I. M. Moreno, Marco Vinicio Chávez Báez, Juan Alfonso Salazar Torres, J. C. Gómez

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Abstract

Voltage and current sensors are the first keys in smart electricity meter design. They must meet accuracy, security, and reliability. Hence, these sensors become sophisticated and expensive. This paper proposes a transducer not only to meet charge electricity billing, but also to acquire waveforms to evaluate adverse power quality phenomena. The proposed transducer is based on an optocoupler to isolate the electrical network from the meter. The transducer design uses a suggested method to exploit properly the current transfer ratio to meet the accuracy and linearity needed in the power quality context. In addition, a method to estimate a correction factor to compensate for the tolerance in the component values of the transducer is given. The proposed transducer has been validated using Oread Lite® software to simulate different case studies related to power quality phenomena. Results show that the proposed transducer has an adequate performance for smart electricity meters that can be extended to evaluate adverse power quality phenomena.

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基于光耦合器电流传递比的智能电表传感器

电压和电流传感器是智能电表设计的第一关键。它们必须满足准确性、安全性和可靠性。因此，这些传感器变得复杂而昂贵。本文提出了一种传感器，不仅可以满足充电计费，而且可以获取波形来评估不良的电能质量现象。所提出的换能器是基于一个光耦合器，以隔离电网从仪表。换能器的设计采用了一种建议的方法来适当地利用电流传递比，以满足电能质量环境中所需的精度和线性度。此外，还给出了一种估计校正系数的方法，以补偿传感器的分量值公差。所提出的传感器已使用Oread Lite®软件进行验证，以模拟与电能质量现象相关的不同案例研究。结果表明，所提出的传感器在智能电表中具有足够的性能，可以扩展到评估不良电能质量现象。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2022 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC)

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