Study of the Influence of Winding and Sensor Design on Ultra-High Frequency Partial Discharge Signals in Power Transformers. Sensors 2020, (20)2020. [PUMA: Design Discharge Frequency Influence Partial Power Sensor Signals Transformerssend:unibiblio Ultra-High Winding of]
Quantitative Analysis of the Sensitivity of UHF Sensor Positions on a 420 kV Power Transformer Based on Electromagnetic Simulation. Energies 2020, (13)32020. [PUMA: 420 Analysis Based Electromagnetic Positions Power Quantitative Sensitivity Sensor Simulationsend:unibiblio Transformer UHF kV]
Enhanced Diagnosis of Power Transformers using On- and Off-line Methods: Results, Examples and Future Trends. 2001. [PUMA: Analysis Assessment Buchholzgas Frequency Lifetime Monitoring OLTC PD-Measurement Power Response Thermal Transformer control sensor] URL
Comparing Various Moisture Determination Methods for Power Transformers. 2009. [PUMA: Capacitive Determination Dielectric Domain Fischer Frequency Karl Moisture Power Response Saturation Sensor Spectroscopy Titration Transformer Water] URL
Localization of PD Sources inside Transformers by Acoustic Sensor Array and UHF Measurements. 2010. [PUMA: Acoustic Array EC60270 PD Power Sensor UHF discharge localization partial transformer] URL
New Methods for Multisource PD Localization On Power Transfomers by an Acoustic Sensor Array. 2013. [PUMA: Acoustic Array Localization Multisource PD Power Sensor Transfomers] URL
Quantitative Analysis of the Sensitivity of UHF Sensor Positions on a 420 kV Power Transformer Based on Electromagnetic Simulation. Energies 2020, December 2019. [PUMA: PD UHF acceptance discharge evaluation monitoring partial positioning power sensitivity sensor sensors tests transformers] URL
UHF Sensor Placement on Power Transformers for PD Monitoring. 2019. [PUMA: Assessment Condition Monitoring PD Positioning Power Sensor Transformer UHF] URL