Studying the Impact of Momentary Cessation of IBRs Compliant With IEEE Std. 2800-2022 on Transmission Line Protection Elements

Soham Chakraborty; Paulo Pinheiro; Jing Wang; Brian Johnson; Romulo Bainy; Scott Manson; Hangtian Lei; Andy Hoke; Cameron Kruse

doi:10.1109/PESGM52009.2025.11225744

Studying the Impact of Momentary Cessation of IBRs Compliant With IEEE Std. 2800-2022 on Transmission Line Protection Elements

Soham Chakraborty
, Paulo Pinheiro
, Jing Wang
, Brian Johnson
, Romulo Bainy
, Scott Manson
, Hangtian Lei
, Andy Hoke
, Cameron Kruse

Power Systems Engineering

Research output: Contribution to conference › Paper

Abstract

This paper examines the impact of inverter-based resource (IBR) momentary cessation timing on transmission system protection relays. IEEE Std. 2800 mandates voltage ride-through, requiring IBRs to remain online during voltage disturbances. However, for severe voltage dips (|V| <= 0.1 p.u.), the standard permits current blocking. In practice, vendors implement momentary cessation with varying delays, potentially affecting relay operation if IBRs cease too early. This article studies the impact of the time IBRs enter momentary cessation on transmission line protective relays. Using an electromagnetic transient (EMT) simulation, this study models IBR momentary cessation with tunable delays in a realistic transmission network. COMTRADE files generated from EMT simulations are analyzed in MATLAB using detailed protective relay models. Results indicate that IBRs must sustain operation for at least one cycle to ensure proper relay response; otherwise, relays may fail to operate. These findings guide IBR vendors in optimizing momentary cessation settings to enhance transmission line protection.

Original language	American English
Number of pages	5
DOIs	https://doi.org/10.1109/PESGM52009.2025.11225744
State	Published - 2025
Event	2025 IEEE Power and Energy Society General Meeting - Austin, Texas Duration: 27 Jul 2025 → 31 Jul 2025

Conference

Conference	2025 IEEE Power and Energy Society General Meeting
City	Austin, Texas
Period	27/07/25 → 31/07/25

NLR Publication Number

NREL/CP-5D00-92063

Keywords

GFL inverter
GFM inverter
IBR dominant grid
IEEE 2800 compliant
momentary cessation
transmission line protection

Access to Document

10.1109/PESGM52009.2025.11225744

Cite this

Chakraborty, S., Pinheiro, P., Wang, J., Johnson, B., Bainy, R., Manson, S., Lei, H., Hoke, A., & Kruse, C. (2025). Studying the Impact of Momentary Cessation of IBRs Compliant With IEEE Std. 2800-2022 on Transmission Line Protection Elements. Paper presented at 2025 IEEE Power and Energy Society General Meeting, Austin, Texas. https://doi.org/10.1109/PESGM52009.2025.11225744

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title = "Studying the Impact of Momentary Cessation of IBRs Compliant With IEEE Std. 2800-2022 on Transmission Line Protection Elements",

abstract = "This paper examines the impact of inverter-based resource (IBR) momentary cessation timing on transmission system protection relays. IEEE Std. 2800 mandates voltage ride-through, requiring IBRs to remain online during voltage disturbances. However, for severe voltage dips (|V| <= 0.1 p.u.), the standard permits current blocking. In practice, vendors implement momentary cessation with varying delays, potentially affecting relay operation if IBRs cease too early. This article studies the impact of the time IBRs enter momentary cessation on transmission line protective relays. Using an electromagnetic transient (EMT) simulation, this study models IBR momentary cessation with tunable delays in a realistic transmission network. COMTRADE files generated from EMT simulations are analyzed in MATLAB using detailed protective relay models. Results indicate that IBRs must sustain operation for at least one cycle to ensure proper relay response; otherwise, relays may fail to operate. These findings guide IBR vendors in optimizing momentary cessation settings to enhance transmission line protection.",

keywords = "GFL inverter, GFM inverter, IBR dominant grid, IEEE 2800 compliant, momentary cessation, transmission line protection",

author = "Soham Chakraborty and Paulo Pinheiro and Jing Wang and Brian Johnson and Romulo Bainy and Scott Manson and Hangtian Lei and Andy Hoke and Cameron Kruse",

year = "2025",

doi = "10.1109/PESGM52009.2025.11225744",

language = "American English",

note = "2025 IEEE Power and Energy Society General Meeting ; Conference date: 27-07-2025 Through 31-07-2025",

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Chakraborty, S, Pinheiro, P, Wang, J, Johnson, B, Bainy, R, Manson, S, Lei, H, Hoke, A & Kruse, C 2025, 'Studying the Impact of Momentary Cessation of IBRs Compliant With IEEE Std. 2800-2022 on Transmission Line Protection Elements', Paper presented at 2025 IEEE Power and Energy Society General Meeting, Austin, Texas, 27/07/25 - 31/07/25. https://doi.org/10.1109/PESGM52009.2025.11225744

TY - CONF

T1 - Studying the Impact of Momentary Cessation of IBRs Compliant With IEEE Std. 2800-2022 on Transmission Line Protection Elements

AU - Chakraborty, Soham

AU - Pinheiro, Paulo

AU - Wang, Jing

AU - Johnson, Brian

AU - Bainy, Romulo

AU - Manson, Scott

AU - Lei, Hangtian

AU - Hoke, Andy

AU - Kruse, Cameron

PY - 2025

Y1 - 2025

N2 - This paper examines the impact of inverter-based resource (IBR) momentary cessation timing on transmission system protection relays. IEEE Std. 2800 mandates voltage ride-through, requiring IBRs to remain online during voltage disturbances. However, for severe voltage dips (|V| <= 0.1 p.u.), the standard permits current blocking. In practice, vendors implement momentary cessation with varying delays, potentially affecting relay operation if IBRs cease too early. This article studies the impact of the time IBRs enter momentary cessation on transmission line protective relays. Using an electromagnetic transient (EMT) simulation, this study models IBR momentary cessation with tunable delays in a realistic transmission network. COMTRADE files generated from EMT simulations are analyzed in MATLAB using detailed protective relay models. Results indicate that IBRs must sustain operation for at least one cycle to ensure proper relay response; otherwise, relays may fail to operate. These findings guide IBR vendors in optimizing momentary cessation settings to enhance transmission line protection.

AB - This paper examines the impact of inverter-based resource (IBR) momentary cessation timing on transmission system protection relays. IEEE Std. 2800 mandates voltage ride-through, requiring IBRs to remain online during voltage disturbances. However, for severe voltage dips (|V| <= 0.1 p.u.), the standard permits current blocking. In practice, vendors implement momentary cessation with varying delays, potentially affecting relay operation if IBRs cease too early. This article studies the impact of the time IBRs enter momentary cessation on transmission line protective relays. Using an electromagnetic transient (EMT) simulation, this study models IBR momentary cessation with tunable delays in a realistic transmission network. COMTRADE files generated from EMT simulations are analyzed in MATLAB using detailed protective relay models. Results indicate that IBRs must sustain operation for at least one cycle to ensure proper relay response; otherwise, relays may fail to operate. These findings guide IBR vendors in optimizing momentary cessation settings to enhance transmission line protection.

KW - GFL inverter

KW - GFM inverter

KW - IBR dominant grid

KW - IEEE 2800 compliant

KW - momentary cessation

KW - transmission line protection

U2 - 10.1109/PESGM52009.2025.11225744

DO - 10.1109/PESGM52009.2025.11225744

M3 - Paper

T2 - 2025 IEEE Power and Energy Society General Meeting

Y2 - 27 July 2025 through 31 July 2025

ER -

Studying the Impact of Momentary Cessation of IBRs Compliant With IEEE Std. 2800-2022 on Transmission Line Protection Elements

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NLR Publication Number

Keywords

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