电工技术学报2025,Vol.40Issue(11):3460-3475,16.DOI:10.19595/j.cnki.1000-6753.tces.240782
非介入型LCC-HVDC系统阻抗宽频测量
Non-Invasive Impedance Wideband Measurement Method for LCC-HVDC Systems
摘要
Abstract
To monitor the dynamic characteristics of the receiving AC system and assess the risk of wideband oscillation in LCC-HVDC without additional equipment,this paper presents a non-invasive impedance wideband measurement method for LCC-HVDC systems.Unlike existing invasive methods,such as single voltage/current or wideband harmonic disturbance injections,the proposed method does not inject harmonic disturbances into LCC-HVDC,thereby avoiding the potential resonance risk.Furthermore,the proposed method introduces curve similarity and a dynamically adjusted time-step sampling scheme.First,this paper discusses the interaction principles between the LCC system and the receiving AC system.Secondly,this paper establishes the harmonic state space(HSS)impedance model for LCC-HVDC,based on HSS theory,focusing on the unipolar earth loop topology.Subsequently,a non-invasive impedance wideband measurement method is proposed to observe the operating state of the system,judge the risk of wideband oscillation,and analyze the interaction and wideband oscillation characteristics between the LCC system and the receiver network through impedance analysis.Finally,an example of CIGRE standard model is used to verify the correctness and practicality of the proposed method. Based on the HSS theory and the concept of digital modulus,this paper introduces a non-invasive impedance wideband measurement method.Firstly,the system topology and the interaction principles of the LCC-HVDC unipolar earth loop subsystems are detailed.Then,the impedance modeling of the LCC-HVDC system is elaborated,and the HSS impedance mathematical model for wideband measurement is derived based on the system's topology.Finally,the system model is constructed in MATLAB/Simulink using parameters from the CIGRE standard model,and the impedance calculation model is applied to measure the impedance of the LCC system.Combined with the measured wideband impedance curve,the interaction between the LCC system and the receiving network,as well as the wideband oscillation characteristics,were analyzed using the generalized Nyquist criterion for stability.At the same time,the Pearson correlation coefficient was introduced to capture the similarity of impedance curves with high granularity,thereby exploring the adaptability of impedance models of different orders and the factors influencing the oscillation risk.It offers theoretical support for the measurement methods used in the engineering application of impedance measurement,and appropriately expanding the permissible error range in the amplitude-frequency intersection can enhance the universality of impedance analysis methods. The main contributions and conclusions of this paper are summarized as follows:(1)A non-invasive LCC-HVDC impedance model and impedance wideband measurement method are designed,which does not require injecting harmonic disturbances into the system.The Pearson correlation coefficient between the measured impedance curve of the 13th-order model and the fitted curve from active measurements is 0.998 3,which is very close to 1.This high value indicates that the accuracy of the measurement model is high,suggesting a close match with the actual impedance characteristics.(2)By analyzing the similarity matrix of measurement curves from models of varying orders,it is observed that the Pearson correlation coefficients for the phase measurement curves are closely matched for orders h=3,h=7,and h=11,with the highest deviation being within 0.2%.Consequently,the acceptable error margin for amplitude-frequency intersection points may be suitably broadened.Considering computational efficiency,a lower-order measurement model within the range of 3 to 13 can be selected.(3)The characteristics of the measured wideband impedance curve of the system can be observed under two conditions:adaptive adjustment of the sampling time step and variation in transmission power.Adaptive adjustment of the time step is not only conducive to accurately identifying the crossover points of the amplitude-frequency response but also reduces the computational load and minimizes storage requirements.Conversely,an increase in transmission power raises the risk of system instability.关键词
换相换流器型高压直流输电(LCC-HVDC)/非介入/阻抗宽频测量/谐波状态空间/曲线相似度/动态调整时间步长Key words
Line-commutated converter based high-voltage direct-current(LCC-HVDC)/non-invasive/impedance wideband measurement/harmonic state space/curve similarity/dynamically adjusted time-step sampling分类
信息技术与安全科学引用本文复制引用
王丹,李勇,张益,付颖,刘泽洪..非介入型LCC-HVDC系统阻抗宽频测量[J].电工技术学报,2025,40(11):3460-3475,16.基金项目
国家重点研发计划政府间国际科技创新合作重点项目(2022YFE0129300)、湖南省科技创新计划项目(2023GK2007,2023RC1038)和宁夏-湖南±800kV特高压直流输电工程科研项目(SGZB0000TGJS2300786)资助. (2022YFE0129300)
