Adaptive coordinated control strategy for multi-terminal flexible DC transmission systems with deviation control

Mei Mingwan; Wang Ping; Che Yanbo; Xing Chao

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Adaptive coordinated control strategy for multi-terminal flexible DC transmission systems with deviation control

机译：具有偏差控制的多终端灵活直流传输系统的自适应协调控制策略

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摘要

Due to the advantages of multiple power supply points and multiple power receiving points, the multi-terminal direct current (MTDC) technology has gradually become the main trend in the future development of DC power grids. The coordinated control of a MTDC system is one of the key technologies to realize the stable operation of power systems. Droop control is an effective coordinated control method to maintain the power and voltage balance of a DC transmission system. However, improper selection of the droop coefficient leads to an imbalance of the power and voltage distribution. An improved coordinated control strategy based on an adaptive droop coefficient is proposed to realize a faster dynamic response and a more reasonable power distribution, which is applicable to all of the topologies of MTDC systems. The power and voltage deviation controls are added to prevent the output power and voltage from exceeding the range that a converter can bear. In addition, a lagging link is added in the current loop to compensate for the delay caused by the current loop and to improve the response speed of the system. Taking the MMC topology as an example, the dynamic characteristics of the proposed control strategy are analyzed, and a four-terminal MTDC simulation model based on the MATLAB/Simulink simulation platform has been established to verify the superiority of the proposed strategy under different disturbances.

机译：由于多个电源点和多功能接收点的优点，多终端直流（MTDC）技术逐渐成为DC电网未来发展的主要趋势。 MTDC系统的协调控制是实现电力系统稳定运行的关键技术之一。下垂控制是一种有效的协调控制方法，以维持直流传输系统的功率和电压平衡。 However, improper selection of the droop coefficient leads to an imbalance of the power and voltage distribution.提出了一种基于自适应下垂系数的改进的协调控制策略，以实现更快的动态响应和更合理的配电，这适用于MTDC系统的所有拓扑。添加电源和电压偏差控制以防止输出功率和电压超过转换器可以承受的范围。另外，在电流回路中添加滞后链路以补偿由电流回路引起的延迟并提高系统的响应速度。以MMC拓扑为例，分析了所提出的控制策略的动态特性，并建立了基于MATLAB / Simulink仿真平台的四端MTDC仿真模型，以验证所提出的策略在不同干扰下的优越性。

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来源
《Journal of power electronics》 |2021年第4期|724-734|共11页
作者
Mei Mingwan; Wang Ping; Che Yanbo; Xing Chao;
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作者单位

Tianjin Univ Key Lab Smart Grid Educ Minist Tianjin Peoples R China;

Tianjin Univ Key Lab Smart Grid Educ Minist Tianjin Peoples R China;

Tianjin Univ Key Lab Smart Grid Educ Minist Tianjin Peoples R China;

Tianjin Univ Key Lab Smart Grid Educ Minist Tianjin Peoples R China|Yunnan Power Grid Co Ltd Elect Power Res Inst Kunming Yunnan Peoples R China;

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正文语种 eng
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Multi-terminal direct current (MTDC); Power distribution; Voltage deviation; Adaptive coordinated control;

机译：多终端直流（MTDC）;配电;电压偏差;自适应协调控制;

Adaptive coordinated control strategy for multi-terminal flexible DC transmission systems with deviation control

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