Fault Modeling of IIDG Considering Inverter's Detailed Characteristics

As more and more inverter interfaced distributed generators (IIDGs) such as PV are connected to the distribution network (DN), the existing relay protection system may malfunction due to the impact of the IIDGs. In order to evaluate that impact, the fault analysis of the DN with IIDGs is needed and...

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Bibliographic Details
Published inIEEE access Vol. 8; pp. 183401 - 183410
Main Authors Shi, Xiaohan, Zhang, Hengxu, Wei, Chuanzi, Li, Zeyu, Chen, Shi
Format Journal Article
LanguageEnglish
Published Piscataway IEEE 2020
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
Analytical models
Circuit faults
Control systems
Current sources
Distributed generation
Electric potential
fault analysis of the distribution network with IIDGs
fault ride-through
Impact analysis
Inverter interfaced distributed generator (IIDG)
Inverters
Mathematical model
Model accuracy
Modelling
Modulation
modulation limitation
Reactive power
stagtewise fault model of IIDG
Voltage
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Summary:As more and more inverter interfaced distributed generators (IIDGs) such as PV are connected to the distribution network (DN), the existing relay protection system may malfunction due to the impact of the IIDGs. In order to evaluate that impact, the fault analysis of the DN with IIDGs is needed and the fault modelling of IIDG is of great significant for the fault analysis and the protection system validation and improvement. This paper proposes a new fault modelling method of IIDG that could consider the detailed characteristics of the inverter in different situations including the limitation of the modulation. The symmetrical fault model of PQ controlled IIDG is deduced by the proposed method, based on which the symmetrical fault analysis of the DN with IIDGs is carried out. The proposed model depicts IIDG as a voltage-controlled current source or a voltage-controlled voltage source according to whether the modulation is limited, therefore covers the full characteristics of the inverter under different conditions, improving the modelling accuracy. The case study based on the modified IEEE 13 nodes system shows that the fault analysis results obtained from the proposed model are more consistent with electromagnetic transient simulation than that of the state-of-art fault model, verifying its effectiveness.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2020.3027323