Immunity Study: Port Impedance Measurement of PMU and PCI Testing Under EMP

Liang Zhang; Wei Qiu; He Yin; Kaiqi Sun; Lawrence C. Markel; Da Han Liao; Zhi Li; Ben W. McConnell; Yilu Liu

doi:10.1109/TIA.2023.3296394

Immunity Study: Port Impedance Measurement of PMU and PCI Testing Under EMP

Liang Zhang, Wei Qiu, He Yin, Kaiqi Sun, Lawrence C. Markel, Da Han Liao, Zhi Li, Ben W. McConnell, Yilu Liu

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

With the increased requirements of real-time grid monitoring, disturbance location, and situation awareness, Phasor Measurement Units (PMUs) have become more critical for the Wide Area Measurement System (WAMS). However, the vulnerability of PMUs has not been well studied, especially under electromagnetic pulse (EMP) scenarios. The stable operation of the power system will be affected directly once EMP damages them. Therefore, studying their immunity to EMP events is urgent and necessary. In this article, the effective impedance measurement scheme and pulsed current injection (PCI) testing are proposed for the port impedance measurement and immunity levels of PMUs. The equivalent non-uniform transmission line model is established to eliminate the impact of the fixture in the de-embedding process. Then, the circuit of the pulsed current generator is set to generate a damping sinusoid, and the double exponential wave is applied to the port. Finally, using measured impedance as a generator load, the voltage and current responses of different ports are calculated in the PCI testing simulation. Results reveal the characteristics of port impedance, waveforms of voltage and current, and distribution of accumulative energy. The relation between port impedance and the waveforms is discussed.

Original language	English
Pages (from-to)	7250-7258
Number of pages	9
Journal	IEEE Transactions on Industry Applications
Volume	59
Issue number	6
DOIs	https://doi.org/10.1109/TIA.2023.3296394
State	Published - Nov 1 2023

Funding

This work was supported in part by the DOE Grid Modernization Lab Call (GMLC) Project: Vulnerability of Power Generation Critical Systems Against Electromagnetic Threats under Grant 36129, and in part by CURENT Industry Partnership Program.

Keywords

Phasor measurement units (PMU)
electromagnetic pulse (EMP)
impedance measurement
pulsed current injection (PCI)

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10.1109/TIA.2023.3296394

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title = "Immunity Study: Port Impedance Measurement of PMU and PCI Testing Under EMP",

abstract = "With the increased requirements of real-time grid monitoring, disturbance location, and situation awareness, Phasor Measurement Units (PMUs) have become more critical for the Wide Area Measurement System (WAMS). However, the vulnerability of PMUs has not been well studied, especially under electromagnetic pulse (EMP) scenarios. The stable operation of the power system will be affected directly once EMP damages them. Therefore, studying their immunity to EMP events is urgent and necessary. In this article, the effective impedance measurement scheme and pulsed current injection (PCI) testing are proposed for the port impedance measurement and immunity levels of PMUs. The equivalent non-uniform transmission line model is established to eliminate the impact of the fixture in the de-embedding process. Then, the circuit of the pulsed current generator is set to generate a damping sinusoid, and the double exponential wave is applied to the port. Finally, using measured impedance as a generator load, the voltage and current responses of different ports are calculated in the PCI testing simulation. Results reveal the characteristics of port impedance, waveforms of voltage and current, and distribution of accumulative energy. The relation between port impedance and the waveforms is discussed.",

keywords = "Phasor measurement units (PMU), electromagnetic pulse (EMP), impedance measurement, pulsed current injection (PCI)",

author = "Liang Zhang and Wei Qiu and He Yin and Kaiqi Sun and Markel, \{Lawrence C.\} and Liao, \{Da Han\} and Zhi Li and McConnell, \{Ben W.\} and Yilu Liu",

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AU - Zhang, Liang

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AU - Sun, Kaiqi

AU - Markel, Lawrence C.

AU - Liao, Da Han

AU - Li, Zhi

AU - McConnell, Ben W.

AU - Liu, Yilu

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N2 - With the increased requirements of real-time grid monitoring, disturbance location, and situation awareness, Phasor Measurement Units (PMUs) have become more critical for the Wide Area Measurement System (WAMS). However, the vulnerability of PMUs has not been well studied, especially under electromagnetic pulse (EMP) scenarios. The stable operation of the power system will be affected directly once EMP damages them. Therefore, studying their immunity to EMP events is urgent and necessary. In this article, the effective impedance measurement scheme and pulsed current injection (PCI) testing are proposed for the port impedance measurement and immunity levels of PMUs. The equivalent non-uniform transmission line model is established to eliminate the impact of the fixture in the de-embedding process. Then, the circuit of the pulsed current generator is set to generate a damping sinusoid, and the double exponential wave is applied to the port. Finally, using measured impedance as a generator load, the voltage and current responses of different ports are calculated in the PCI testing simulation. Results reveal the characteristics of port impedance, waveforms of voltage and current, and distribution of accumulative energy. The relation between port impedance and the waveforms is discussed.

AB - With the increased requirements of real-time grid monitoring, disturbance location, and situation awareness, Phasor Measurement Units (PMUs) have become more critical for the Wide Area Measurement System (WAMS). However, the vulnerability of PMUs has not been well studied, especially under electromagnetic pulse (EMP) scenarios. The stable operation of the power system will be affected directly once EMP damages them. Therefore, studying their immunity to EMP events is urgent and necessary. In this article, the effective impedance measurement scheme and pulsed current injection (PCI) testing are proposed for the port impedance measurement and immunity levels of PMUs. The equivalent non-uniform transmission line model is established to eliminate the impact of the fixture in the de-embedding process. Then, the circuit of the pulsed current generator is set to generate a damping sinusoid, and the double exponential wave is applied to the port. Finally, using measured impedance as a generator load, the voltage and current responses of different ports are calculated in the PCI testing simulation. Results reveal the characteristics of port impedance, waveforms of voltage and current, and distribution of accumulative energy. The relation between port impedance and the waveforms is discussed.

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Immunity Study: Port Impedance Measurement of PMU and PCI Testing Under EMP

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