EMT Model Validation of a 2 MVA PV Inverter via Transient and Frequency-Domain Hardware Testing

Shahil Shah; Przemyslaw Koralewicz; Pengxiang Huang; Vahan Gevorgian; Robb Wallen; Emanuel Mendiola; Jing Wang; Siddharth Pant; Pooja Gupta; Huzaifa Karimjee; Lang Chen; Andrew Arana

doi:10.1109/PESGM52009.2025.11225174

EMT Model Validation of a 2 MVA PV Inverter via Transient and Frequency-Domain Hardware Testing

Shahil Shah
, Przemyslaw Koralewicz
, Pengxiang Huang
, Vahan Gevorgian
, Robb Wallen
, Emanuel Mendiola
, Jing Wang
, Siddharth Pant
, Pooja Gupta
, Huzaifa Karimjee
, Lang Chen
, Andrew Arana

Research output: Contribution to conference › Paper

1 Scopus Citations

Abstract

This paper presents the results and new insights from a hardware test campaign on a 2 MVA PV inverter for validating its vendor-supplied electromagnetic transient (EMT) model. The test campaign was conducted using a 7 MVA grid simulator and a 2 MW PV emulator. It considered both time-domain transient tests and frequency-domain impedance scan tests. The paper highlights the inadequacy of the transient tests in capturing all critical resonance modes of the inverter and the effectiveness of the frequency scan testing in addressing this problem. The paper shows the frequency scan testing as an effective tool for the EMT model validation of IBR units, which can highlight inaccuracies that are easy to overlook when the model validation is performed using only the time-domain transient tests, such as low voltage ride-through and phase jump tests.

Original language	American English
Number of pages	5
DOIs	https://doi.org/10.1109/PESGM52009.2025.11225174
State	Published - 2025
Event	2025 IEEE Power & Energy Society General Meeting (PESGM) - Austin, Texas Duration: 27 Jul 2025 → 31 Jul 2025

Conference

Conference	2025 IEEE Power & Energy Society General Meeting (PESGM)
City	Austin, Texas
Period	27/07/25 → 31/07/25

NLR Publication Number

NLR/CP-5D00-98912

Keywords

accuracy
hardware
inverters
power system stability
resonance
resonant frequency
testing
time-domain analysis
transient analysis
wind turbines

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10.1109/PESGM52009.2025.11225174

Cite this

Shah, S., Koralewicz, P., Huang, P., Gevorgian, V., Wallen, R., Mendiola, E., Wang, J., Pant, S., Gupta, P., Karimjee, H., Chen, L., & Arana, A. (2025). EMT Model Validation of a 2 MVA PV Inverter via Transient and Frequency-Domain Hardware Testing. Paper presented at 2025 IEEE Power & Energy Society General Meeting (PESGM), Austin, Texas. https://doi.org/10.1109/PESGM52009.2025.11225174

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title = "EMT Model Validation of a 2 MVA PV Inverter via Transient and Frequency-Domain Hardware Testing",

abstract = "This paper presents the results and new insights from a hardware test campaign on a 2 MVA PV inverter for validating its vendor-supplied electromagnetic transient (EMT) model. The test campaign was conducted using a 7 MVA grid simulator and a 2 MW PV emulator. It considered both time-domain transient tests and frequency-domain impedance scan tests. The paper highlights the inadequacy of the transient tests in capturing all critical resonance modes of the inverter and the effectiveness of the frequency scan testing in addressing this problem. The paper shows the frequency scan testing as an effective tool for the EMT model validation of IBR units, which can highlight inaccuracies that are easy to overlook when the model validation is performed using only the time-domain transient tests, such as low voltage ride-through and phase jump tests.",

keywords = "accuracy, hardware, inverters, power system stability, resonance, resonant frequency, testing, time-domain analysis, transient analysis, wind turbines",

author = "Shahil Shah and Przemyslaw Koralewicz and Pengxiang Huang and Vahan Gevorgian and Robb Wallen and Emanuel Mendiola and Jing Wang and Siddharth Pant and Pooja Gupta and Huzaifa Karimjee and Lang Chen and Andrew Arana",

year = "2025",

doi = "10.1109/PESGM52009.2025.11225174",

language = "American English",

note = "2025 IEEE Power \& Energy Society General Meeting (PESGM) ; Conference date: 27-07-2025 Through 31-07-2025",

}

Shah, S , Koralewicz, P, Huang, P, Gevorgian, V , Wallen, R , Mendiola, E , Wang, J, Pant, S, Gupta, P, Karimjee, H, Chen, L & Arana, A 2025, 'EMT Model Validation of a 2 MVA PV Inverter via Transient and Frequency-Domain Hardware Testing', Paper presented at 2025 IEEE Power & Energy Society General Meeting (PESGM), Austin, Texas, 27/07/25 - 31/07/25. https://doi.org/10.1109/PESGM52009.2025.11225174

TY - CONF

T1 - EMT Model Validation of a 2 MVA PV Inverter via Transient and Frequency-Domain Hardware Testing

AU - Shah, Shahil

AU - Koralewicz, Przemyslaw

AU - Huang, Pengxiang

AU - Gevorgian, Vahan

AU - Wallen, Robb

AU - Mendiola, Emanuel

AU - Wang, Jing

AU - Pant, Siddharth

AU - Gupta, Pooja

AU - Karimjee, Huzaifa

AU - Chen, Lang

AU - Arana, Andrew

PY - 2025

Y1 - 2025

N2 - This paper presents the results and new insights from a hardware test campaign on a 2 MVA PV inverter for validating its vendor-supplied electromagnetic transient (EMT) model. The test campaign was conducted using a 7 MVA grid simulator and a 2 MW PV emulator. It considered both time-domain transient tests and frequency-domain impedance scan tests. The paper highlights the inadequacy of the transient tests in capturing all critical resonance modes of the inverter and the effectiveness of the frequency scan testing in addressing this problem. The paper shows the frequency scan testing as an effective tool for the EMT model validation of IBR units, which can highlight inaccuracies that are easy to overlook when the model validation is performed using only the time-domain transient tests, such as low voltage ride-through and phase jump tests.

AB - This paper presents the results and new insights from a hardware test campaign on a 2 MVA PV inverter for validating its vendor-supplied electromagnetic transient (EMT) model. The test campaign was conducted using a 7 MVA grid simulator and a 2 MW PV emulator. It considered both time-domain transient tests and frequency-domain impedance scan tests. The paper highlights the inadequacy of the transient tests in capturing all critical resonance modes of the inverter and the effectiveness of the frequency scan testing in addressing this problem. The paper shows the frequency scan testing as an effective tool for the EMT model validation of IBR units, which can highlight inaccuracies that are easy to overlook when the model validation is performed using only the time-domain transient tests, such as low voltage ride-through and phase jump tests.

KW - accuracy

KW - hardware

KW - inverters

KW - power system stability

KW - resonance

KW - resonant frequency

KW - testing

KW - time-domain analysis

KW - transient analysis

KW - wind turbines

U2 - 10.1109/PESGM52009.2025.11225174

DO - 10.1109/PESGM52009.2025.11225174

M3 - Paper

T2 - 2025 IEEE Power & Energy Society General Meeting (PESGM)

Y2 - 27 July 2025 through 31 July 2025

ER -

EMT Model Validation of a 2 MVA PV Inverter via Transient and Frequency-Domain Hardware Testing

Abstract

Conference

NLR Publication Number

Keywords

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