DQ Admittance Extraction for Inverter-Based Resources

Rahul Ramakrishna; Zhixin Miao; Lingling Fan; Shahil Shah

doi:10.1109/PESGM52003.2023.10253247

DQ Admittance Extraction for Inverter-Based Resources

Rahul Ramakrishna
, Zhixin Miao
, Lingling Fan
, Shahil Shah

Power Systems Engineering

University of South Florida

Research output: Contribution to conference › Paper

Abstract

The power grid industry is pushing for electromagnetic transient (EMT)-based studies for generation interconnection and planning process due to high penetrations of inverter-based resource (IBRs). Vendor-specific and site-specific black-box IBR models are preferred in those simulation studies. For small-signal analysis, measurement-based admittance models are necessary. In this paper, we demonstrate the extraction of frequency-domain dq frame IBR models. These linear models are specific to operating conditions. We demonstrate two extraction methods: frequency scan and a step response-based method. The latter relies on converting time-domain responses to Laplace-domain expressions via eigensystem realization analysis (ERA). Both can lead to dq admittance representation and the latter is time saving.

Original language	American English
Number of pages	5
DOIs	https://doi.org/10.1109/PESGM52003.2023.10253247
State	Published - 2023

Bibliographical note

See NREL/CP-5D00-85295 for preprint

NLR Publication Number

NREL/CP-5D00-88245

Keywords

admittance model
eigensystem realization analysis
frequency scan
system identification

Access to Document

10.1109/PESGM52003.2023.10253247

Cite this

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title = "DQ Admittance Extraction for Inverter-Based Resources",

abstract = "The power grid industry is pushing for electromagnetic transient (EMT)-based studies for generation interconnection and planning process due to high penetrations of inverter-based resource (IBRs). Vendor-specific and site-specific black-box IBR models are preferred in those simulation studies. For small-signal analysis, measurement-based admittance models are necessary. In this paper, we demonstrate the extraction of frequency-domain dq frame IBR models. These linear models are specific to operating conditions. We demonstrate two extraction methods: frequency scan and a step response-based method. The latter relies on converting time-domain responses to Laplace-domain expressions via eigensystem realization analysis (ERA). Both can lead to dq admittance representation and the latter is time saving.",

keywords = "admittance model, eigensystem realization analysis, frequency scan, system identification",

author = "Rahul Ramakrishna and Zhixin Miao and Lingling Fan and Shahil Shah",

note = "See NREL/CP-5D00-85295 for preprint",

year = "2023",

doi = "10.1109/PESGM52003.2023.10253247",

language = "American English",

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TY - CONF

T1 - DQ Admittance Extraction for Inverter-Based Resources

AU - Ramakrishna, Rahul

AU - Miao, Zhixin

AU - Fan, Lingling

AU - Shah, Shahil

N1 - See NREL/CP-5D00-85295 for preprint

PY - 2023

Y1 - 2023

N2 - The power grid industry is pushing for electromagnetic transient (EMT)-based studies for generation interconnection and planning process due to high penetrations of inverter-based resource (IBRs). Vendor-specific and site-specific black-box IBR models are preferred in those simulation studies. For small-signal analysis, measurement-based admittance models are necessary. In this paper, we demonstrate the extraction of frequency-domain dq frame IBR models. These linear models are specific to operating conditions. We demonstrate two extraction methods: frequency scan and a step response-based method. The latter relies on converting time-domain responses to Laplace-domain expressions via eigensystem realization analysis (ERA). Both can lead to dq admittance representation and the latter is time saving.

AB - The power grid industry is pushing for electromagnetic transient (EMT)-based studies for generation interconnection and planning process due to high penetrations of inverter-based resource (IBRs). Vendor-specific and site-specific black-box IBR models are preferred in those simulation studies. For small-signal analysis, measurement-based admittance models are necessary. In this paper, we demonstrate the extraction of frequency-domain dq frame IBR models. These linear models are specific to operating conditions. We demonstrate two extraction methods: frequency scan and a step response-based method. The latter relies on converting time-domain responses to Laplace-domain expressions via eigensystem realization analysis (ERA). Both can lead to dq admittance representation and the latter is time saving.

KW - admittance model

KW - eigensystem realization analysis

KW - frequency scan

KW - system identification

U2 - 10.1109/PESGM52003.2023.10253247

DO - 10.1109/PESGM52003.2023.10253247

M3 - Paper

ER -

DQ Admittance Extraction for Inverter-Based Resources

Abstract

Bibliographical note

NLR Publication Number

Keywords

Access to Document

Fingerprint

Cite this