光纤通信技术在高压电力系统远程监控中的应用与性能分析  

Application and Performance Analysis of Fiber Optic Communication Technology in Remote Monitoring of High Voltage Power Systems

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作  者:袁文康 YUAN Wenkang(Guangxi Polytechnic Vocational School of Technology,Chongzuo 532200,China)

机构地区:[1]广西理工职业技术学院,广西崇左532200

出  处:《通信电源技术》2025年第4期83-85,共3页Telecom Power Technology

摘  要:随着高压电力系统规模的不断扩大及其复杂性的增加,传统通信技术在高压环境下面临数据传输不稳定、抗干扰性差等问题,难以满足系统远程监控对实时性和可靠性的高要求。光纤通信技术以其高速传输、低信号衰减和抗电磁干扰的特性,成为高压电力系统远程监控的首选通信手段。文章基于光纤通信技术在高压电力系统中的实际应用,分别从数据传输路径优化、实时响应、故障检测与定位、多区域监控等方面进行了性能测试,结果表明光纤通信技术在数据传输速率、信号稳定性、响应时间及并行传输容量等指标上显著优于传统通信方式。As the scale and complexity of high-voltage power systems continue to expand,traditional communication technologies face challenges in high-voltage environments,including unstable data transmission and poor anti-interference capabilities,making it difficult to meet the high demands of remote monitoring for real-time performance and reliability.Fiber optic communication technology,with its high-speed transmission,low signal attenuation,and resistance to electromagnetic interference,has become the preferred communication method for remote monitoring in high-voltage power systems.Based on the practical application of fiber optic communication technology in high-voltage power systems,this paper conducts performance tests focusing on data transmission path optimization,real-time response,fault detection and localization,and multi-area monitoring.The results indicate that fiber optic communication technology significantly outperforms traditional communication methods in terms of data transmission rate,signal stability,response time,and parallel transmission capacity.

关 键 词:光纤通信技术 高压电力系统 远程监控 数据传输优化 

分 类 号:TN929.11[电子电信—通信与信息系统] TP277[电子电信—信息与通信工程]

 

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