Optical Electric Current Transformer for Monitoring Its Performance in the Substation

Li, Jingxiang; Lai, Hao; Liu, Yuchao; Xia, Xiaopeng

doi:10.1166/jno.2023.3517

Journal of Nanoelectronics and Optoelectronics

2023

DOI: 10.1166/jno.2023.3517

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Optical Electric Current Transformer for Monitoring Its Performance in the Substation

Jingxiang Li,

Hao Lai,

Yuchao Liu

et al.

Abstract: The optical electric current transformer (OECT) is an important measuring and protection equipment in the power system. Its accuracy and reliability are vital to the power system’s safe, reliable, and economical operation. Because the energy supply of a high-voltage side data acquisition system is the biggest obstacle in developing this kind of transformer, a low-power data acquisition system of OECT is designed from cost, reliability, accuracy, and practicability. In the design process, the low-power microco… Show more

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2024

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Design of Laser-Powered Opto-Electrical Current Transformer and Its Application in Electrical Automation of Substations

Zhang,

Zou,

Chen

et al. 2024

Journal of Nanoelectronics and Optoelectronics

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The novel power equipment represented by the Opto-Electrical Current Transformer (OECT) possesses unparalleled advantages compared to traditional Current Transformers (CTs), rendering it with vast potential in power systems. In the design of OECT, this study employs laser power supply and focuses on the overall perspective, particularly the design of the laser power supply module and the optical fiber digital transmission module. The laser power supply module selects a high-power semiconductor laser to provide power to the circuit, incorporating line filters, thermistor resistors, and a laser overcurrent protection circuit. An automatic temperature control circuit based on PI regulation is utilized to stabilize the working temperature of the laser diode (LD). The photoelectric conversion device PPC-6E achieves a maximum photoelectric conversion efficiency of 40%, and the MAX639 DC–DC conversion chip ensures stable output voltage. The optical fiber digital transmission module adopts a circuit composed of multiple NOR gate logic for electro-optical conversion, a low-power driving circuit based on the 74LVC1G07 chip, and the HFBR-2412 photoelectric converter to simplify the circuit board design. To achieve a higher communication baud rate, a quartz multimode optical fiber with a diameter of 62.5 μm is chosen. In the experimental phase, a simulation of high-power AC power with equal turns is conducted. The linearity/temperature test results demonstrate that the designed OECT in this study meets expectations. In the electrical automation test of substations, a comparison between traditional CTs and the designed OECT is carried out using traditional protection algorithms and optical differential protection algorithms. The results indicate that, compared to traditional protection algorithms, the optical differential algorithm using the designed OECT achieves faster protection times.

show abstract

Design of Laser-Powered Opto-Electrical Current Transformer and Its Application in Electrical Automation of Substations

Zhang,

Zou,

Chen

et al. 2024

Journal of Nanoelectronics and Optoelectronics

View full text Add to dashboard Cite

show abstract

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Optical Electric Current Transformer for Monitoring Its Performance in the Substation

Cited by 1 publication

References 25 publications

Design of Laser-Powered Opto-Electrical Current Transformer and Its Application in Electrical Automation of Substations

Design of Laser-Powered Opto-Electrical Current Transformer and Its Application in Electrical Automation of Substations

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