Influence of impulse voltage repetition frequency on RPDIV in partial vacuum

The reliability of low-voltage inverter-fed motors is highly dependent on the inception of partial discharges. The effect of impulsive waveform parameters must be investigated to predict the repetitive partial discharge inception voltage (RPDIV) and define test procedures that can indicate properly the behavior in service of the insulation system. This paper focuses on the RPDIV of magnet wires using twisted pairs subjected to repetitive unipolar impulsive voltage waveforms. The effects of supply frequency (5 to 200 kHz) at pressure levels that are typical for aircraft (20 to 100 kPa) is examined. Results show that RPDIV steadily decreases with frequency up to 100 kHz where it reaches a plateau. This behavior is explained as an effect of the oscillations that inevitably exist in the applied voltage waveform. Therefore, a conservative estimate of the RPDIV could be achieved by raising the supply frequency well above the operation frequency. In the experiments, the RPDIV is decreasing linearly with pressure. If this behavior could be confirmed for other insulation systems, the design of systems working at pressures typical of aircraft would result relatively easy.

[1]  L. Niemeyer A generalized approach to partial discharge modeling , 1995 .

[2]  Mors Assessment of Dielectric Degradation by Ultrawide-band PD Detection , 2004 .

[3]  W. O. Schumann Über das Minimum der Durchbruchfeldstärke bei Kugelelektroden , 1923 .

[4]  A. Cavallini,et al.  Effect of rise time on PD pulse features under repetitive square wave voltages , 2013, IEEE Transactions on Dielectrics and Electrical Insulation.

[5]  Paolo Mancinelli,et al.  Qualification of Hairpin Motors Insulation for Automotive Applications , 2017, IEEE Transactions on Industry Applications.

[6]  A. Cavallini,et al.  A UHF Technique for Advanced PD Measurements on Inverter-Fed Motors , 2008, IEEE Transactions on Power Electronics.

[7]  D. Fabiani,et al.  Relation between space charge accumulation and partial discharge activity in enameled wires under PWM-like voltage waveforms , 2004, IEEE Transactions on Dielectrics and Electrical Insulation.

[8]  Guillermo Robles,et al.  Design criteria for inverter-fed Type 1 motors , 2016, 2016 IEEE International Conference on Dielectrics (ICD).

[9]  R. Bartnikas,et al.  On the spark to pseudoglow and glow transition mechanism and discharge detectability , 1992 .

[10]  A. Cavallini,et al.  Modelling Partial Discharge Inception in magnet wires at different altitudes , 2016, 2016 IEEE Conference on Electrical Insulation and Dielectric Phenomena (CEIDP).

[11]  M. Portnoff Time-frequency representation of digital signals and systems based on short-time Fourier analysis , 1980 .

[12]  Alfredo Contin,et al.  Advanced PD inference in on-field measurements. I. Noise rejection , 2003 .

[13]  Gorjan Alagic,et al.  #p , 2019, Quantum information & computation.

[14]  H. Okubo,et al.  Lifetime characteristics of nanocomposite enameled wire under surge voltage application [Feature article] , 2008, IEEE Electrical Insulation Magazine.

[15]  J.A. Ortega,et al.  Moving towards a more electric aircraft , 2007, IEEE Aerospace and Electronic Systems Magazine.

[16]  N. Malik,et al.  Streamer Breakdown Criterion for Compressed Gases , 1981, IEEE Transactions on Electrical Insulation.