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Method and system for evaluating DC fault ride-through capability of modular multilevel converters

A DC fault ride-through, modular multi-level technology, applied in the direction of power transmission AC network, emergency treatment AC circuit layout, etc., can solve the problem of one-sided evaluation results and achieve comprehensive evaluation results

Active Publication Date: 2018-07-03
XIAN XJ POWER ELECTRONICS TECH +3
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  • Abstract
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Problems solved by technology

[0004] The purpose of the present invention is to provide a method and system for evaluating the DC fault ride-through capability of modular multilevel converters, so as to solve the problem that the evaluation results are relatively one-sided due to the current fault current suppression capability only used to evaluate the fault ride-through capability

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  • Method and system for evaluating DC fault ride-through capability of modular multilevel converters
  • Method and system for evaluating DC fault ride-through capability of modular multilevel converters

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Embodiment Construction

[0035] The specific embodiments of the present invention will be further described below in conjunction with the accompanying drawings.

[0036] Embodiment of the method for evaluating the DC fault ride-through capability of the modular multilevel converter of the present invention

[0037] The DC fault ride-through capability evaluation method of the modular multilevel converter of the present invention is based on the DC fault ride-through capability of the half-bridge sub-module MMC, and is evaluated from two aspects: the fault current suppression capability and the overvoltage degree of the sub-module after the fault The DC fault ride-through capability of various topological MMCs is quantitatively evaluated, and a comprehensive evaluation of MMC is realized. The specific implementation process of this method is as follows:

[0038] 1. Calculate the fault current integral of the topology MMC to be investigated and the maximum sub-module voltage deviation after the fault. ...

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Abstract

The invention relates to a method and a system for evaluating the DC fault crossing capability of a modularized multi-level transverter and belongs to the DC power transmission technology field. According to the method, the fault current integration of a to-be-investigated topology MMC and the largest sub module voltage deviation after fault generation are calculated firstly; taking the fault current integration of a half bridge MMC having the same quantity of capacitors as the to-be-investigated topology MMC and the largest sub module voltage deviation after fault generation as reference, per-unit processing on the fault current integration of the to-be-investigated topology MMC and the largest sub module voltage deviation after fault generation is carried out; results after per-unit processing are respectively multiplied by corresponding weight coefficients and are then summed to acquire a value, and the acquired value is the DC fault crossing capability evaluation result of the to-be-investigated topology MMC. Through the method, quantitative evaluation on the DC fault crossing capability of various types of topologies MMC can be carried out from two aspects of the fault current inhibition capability and the sub module overvoltage degree after fault generation, and comprehensive evaluation on the MMC is realized.

Description

technical field [0001] The invention relates to a method and system for evaluating the DC fault ride-through capability of a modular multilevel converter, belonging to the technical field of DC transmission. Background technique [0002] DC fault is a common fault in the operation of MMC flexible DC transmission system. The traditional half-bridge sub-module MMC cannot quickly suppress the fault current through its own characteristics when a DC short-circuit fault occurs, and must rely on AC circuit breakers or DC circuit breakers to clear it. fault current. On the one hand, due to the long response time of the AC circuit breaker, the protection may not be timely and cause overcurrent damage to the converter; on the other hand, the configuration of the DC circuit breaker increases the technical requirements for the equipment and increases the system cost. In order to solve the DC fault ride-through problem of the MMC flexible DC transmission system, in 2010, German scholar ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02J3/36
CPCH02J3/001H02J3/36Y02E60/60
Inventor 李道洋吴金龙刘欣和杨美娟张浩姚为正潘景霞匡海艳
Owner XIAN XJ POWER ELECTRONICS TECH
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