Parameters for the Application of the Integration Method to 36 kV Porcelain Insulators under Non-Standard Impulses. (2025)
- Authors:
- USP affiliated authors: PIANTINI, ALEXANDRE - IEE ; SHIGIHARA, MILTOM - IEE
- Unidade: IEE
- Subjects: SISTEMAS ELÉTRICOS DE POTÊNCIA; DESCARGA ATMOSFÉRICA
- Keywords: Transformador de potência
- Language: Inglês
- Imprenta:
- Publisher: IEEE
- Publisher place: Piscataway
- Date published: 2025
- Source:
- Título: Proceedings. SIPDA 2025
- Conference titles: International Symposium on Lightning Protection
-
ABNT
SHIGIHARA, Miltom e PIANTINI, Alexandre. Parameters for the Application of the Integration Method to 36 kV Porcelain Insulators under Non-Standard Impulses. 2025, Anais.. Piscataway: IEEE, 2025. . Acesso em: 10 abr. 2026. -
APA
Shigihara, M., & Piantini, A. (2025). Parameters for the Application of the Integration Method to 36 kV Porcelain Insulators under Non-Standard Impulses. In Proceedings. SIPDA 2025. Piscataway: IEEE. -
NLM
Shigihara M, Piantini A. Parameters for the Application of the Integration Method to 36 kV Porcelain Insulators under Non-Standard Impulses. Proceedings. SIPDA 2025. 2025 ;[citado 2026 abr. 10 ] -
Vancouver
Shigihara M, Piantini A. Parameters for the Application of the Integration Method to 36 kV Porcelain Insulators under Non-Standard Impulses. Proceedings. SIPDA 2025. 2025 ;[citado 2026 abr. 10 ] - Estimation of lightning currents from measurements performed on elevated objects
- Lightning overvoltages on shield wire lines
- A method for the evaluation of the behavior of a 15 kV insulator under bipolar oscillating impulse voltages
- Sensitivity analysis of lightning return stroke currents in case of direct hits to elevated objects
- Evaluation of lightning currents along elevated structures through the use of PSPICE
- Analysis of the disruptive effect model for the prediction of the breakdown characteristics of distribution insulators under non-standard lightning impulses
- A Proposal for the prediction of the volt-time curves of MV insulators based on the disruptive effect model
- Lightning overvoltages due to direct strikes to a hybrid overhead line
- Surge Impedance of a Hybrid Overhead Line Tower
- Insulator Models of a Hybrid Overhead Line
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