Fault Response of Distributed Energy Resources Considering the Requirements of IEEE 1547-2018: Preprint

Rasel Mahmud; Andy Hoke; David Narang

Fault Response of Distributed Energy Resources Considering the Requirements of IEEE 1547-2018: Preprint

Power Systems Engineering

Research output: Contribution to conference › Paper

Abstract

Inverter-based DER responses to faults on the electric power system are different than those of conventional generators and are often poorly understood. Inverter fault responses are largely software-defined, within physics-based constraints. DERs are regulated by standards and grid codes that also constrain their responses. Though fault response of DERs will vary widely, for any DER following any particular standard, a pattern of fault response can be synthesized by observing that particular standard. In this paper, the recently published IEEE 1547-2018 is examined to explore the general fault response of any DER that follows IEEE 1547-2018. Additionally, an IEEE 1547-2018compliant inverter model is developed and tested in simulation to find the fault response, and that response is compared with the fault response of a commercial off-the-shelf inverter.

Original language	American English
Number of pages	8
State	Published - 2020
Event	2020 IEEE Power and Energy Society General Meeting (IEEE PES GM) - Duration: 3 Aug 2020 → 6 Aug 2020

Conference

Conference	2020 IEEE Power and Energy Society General Meeting (IEEE PES GM)
Period	3/08/20 → 6/08/20

Bibliographical note

See NREL/CP-5D00-79032 for paper as published in proceedings

NREL Publication Number

NREL/CP-5D00-75046

Keywords

DER
fault current
IEEE 1547-2018
inverter
inverter-interfaced distributed generation

Access to Document

https://www.nrel.gov/docs/fy20osti/75046.pdf

Cite this

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title = "Fault Response of Distributed Energy Resources Considering the Requirements of IEEE 1547-2018: Preprint",

abstract = "Inverter-based DER responses to faults on the electric power system are different than those of conventional generators and are often poorly understood. Inverter fault responses are largely software-defined, within physics-based constraints. DERs are regulated by standards and grid codes that also constrain their responses. Though fault response of DERs will vary widely, for any DER following any particular standard, a pattern of fault response can be synthesized by observing that particular standard. In this paper, the recently published IEEE 1547-2018 is examined to explore the general fault response of any DER that follows IEEE 1547-2018. Additionally, an IEEE 1547-2018compliant inverter model is developed and tested in simulation to find the fault response, and that response is compared with the fault response of a commercial off-the-shelf inverter.",

keywords = "DER, fault current, IEEE 1547-2018, inverter, inverter-interfaced distributed generation",

author = "Rasel Mahmud and Andy Hoke and David Narang",

note = "See NREL/CP-5D00-79032 for paper as published in proceedings; 2020 IEEE Power and Energy Society General Meeting (IEEE PES GM) ; Conference date: 03-08-2020 Through 06-08-2020",

year = "2020",

language = "American English",

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TY - CONF

T1 - Fault Response of Distributed Energy Resources Considering the Requirements of IEEE 1547-2018: Preprint

AU - Mahmud, Rasel

AU - Hoke, Andy

AU - Narang, David

N1 - See NREL/CP-5D00-79032 for paper as published in proceedings

PY - 2020

Y1 - 2020

N2 - Inverter-based DER responses to faults on the electric power system are different than those of conventional generators and are often poorly understood. Inverter fault responses are largely software-defined, within physics-based constraints. DERs are regulated by standards and grid codes that also constrain their responses. Though fault response of DERs will vary widely, for any DER following any particular standard, a pattern of fault response can be synthesized by observing that particular standard. In this paper, the recently published IEEE 1547-2018 is examined to explore the general fault response of any DER that follows IEEE 1547-2018. Additionally, an IEEE 1547-2018compliant inverter model is developed and tested in simulation to find the fault response, and that response is compared with the fault response of a commercial off-the-shelf inverter.

AB - Inverter-based DER responses to faults on the electric power system are different than those of conventional generators and are often poorly understood. Inverter fault responses are largely software-defined, within physics-based constraints. DERs are regulated by standards and grid codes that also constrain their responses. Though fault response of DERs will vary widely, for any DER following any particular standard, a pattern of fault response can be synthesized by observing that particular standard. In this paper, the recently published IEEE 1547-2018 is examined to explore the general fault response of any DER that follows IEEE 1547-2018. Additionally, an IEEE 1547-2018compliant inverter model is developed and tested in simulation to find the fault response, and that response is compared with the fault response of a commercial off-the-shelf inverter.

KW - DER

KW - fault current

KW - IEEE 1547-2018

KW - inverter

KW - inverter-interfaced distributed generation

M3 - Paper

T2 - 2020 IEEE Power and Energy Society General Meeting (IEEE PES GM)

Y2 - 3 August 2020 through 6 August 2020

ER -

Fault Response of Distributed Energy Resources Considering the Requirements of IEEE 1547-2018: Preprint

Abstract

Conference

Bibliographical note

NREL Publication Number

Keywords

Access to Document

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Cite this