Publicaciones (58) Publicaciones de IGOR FERNANDEZ PEREZ

2023

  1. A review on the empirical characterization of the low voltage distribution grid as a communication channel for power line communications

    Sustainable Energy, Grids and Networks, Vol. 36

  2. Analysis of Requirements for a Measurement Method to Assess Conducted Disturbances in the 2-500 kHz Band

    2023 13th IEEE International Workshop on Applied Measurements for Power Systems, AMPS 2023 - Proceedings

  3. Characterization of the LV distribution grid for the deployment of a pilot BB-PLC network

    2023 IEEE International Symposium on Power Line Communications and its Applications, ISPLC 2023

  4. Comprehensive Evaluation of Novel Light-QP and Statistical-QP Methods for Supraharmonic Disturbances from EV Chargers

    IEEE International Symposium on Electromagnetic Compatibility

  5. EVALUATION OF THE LIGHT-QP MEASUREMENT METHOD FOR EXTENDED MEASUREMENTS

    IET Conference Proceedings

  6. IMPEDANCE CHARACTERISTICS AT SOCKET OUTLETS IN RESIDENTIAL AND COMMERCIAL BUILDINGS IN THE FREQUENCY RANGE 2-150 KHZ

    IET Conference Proceedings

  7. Influence of Electric Vehicle Charging on the Grid Access Impedance from 20 kHz to 500 kHz

    2023 International Conference on Smart Energy Systems and Technologies, SEST 2023

  8. MODELING OF POWER CABLES FOR MEASUREMENT CALIBRATION AND PLC SIMULATION UP TO 20 MHZ

    IET Conference Proceedings

  9. Measurement System of the Mean and Sub-Cycle LV Grid Access Impedance From 20 kHz To 10 MHz

    IEEE Transactions on Power Delivery, Vol. 38, Núm. 3, pp. 2204-2212

  10. On the Feasibility of the Light-QP Method for the Assessment of V2G Supraharmonic Disturbances

    2023 International Conference on Smart Energy Systems and Technologies, SEST 2023

  11. On the suitability of the CISPR 16 method for measuring conducted emissions in the 2–150kHz range in low voltage grids

    Electric Power Systems Research, Vol. 216

  12. Statistical relationship between RMS and QP spectra of voltage measurements in the 9–150 kHz range

    Electric Power Systems Research, Vol. 218

  13. TECHNIQUES TO GENERATE TEST WAVEFORMS FOR POWER GRID MEASUREMENT METHODS UP TO 150 kHz

    IET Conference Proceedings

  14. Technique for the comprehensive characterization of supraharmonic disturbances (9–150 kHz) in the joint time-frequency domain

    Sustainable Energy, Grids and Networks, Vol. 36