Journal
2021 IEEE ENERGY CONVERSION CONGRESS AND EXPOSITION (ECCE)
Volume -, Issue -, Pages 5894-5898Publisher
IEEE
DOI: 10.1109/ECCE47101.2021.9595274
Keywords
PWM generator; fast dv/dt; high-frequency; partial discharge
Categories
Funding
- Semiconductor Research Corporation
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This study designed and successfully implemented a high-voltage high-frequency PWM generator for studying partial discharge characteristics of insulation systems under high-frequency PWM voltage. By utilizing GaN devices and high-frequency transformers, the cost was reduced and controllable dv/dt, duty ratio, and output voltage were achieved.
With the development of wide bandgap power devices, higher voltage and higher frequency PWM voltages are applied in power electronics system. However, there is a lack of research tools on insulation system partial discharge (PD) characterization under high-frequency PWM voltage stress with high dv/dt. To address this issue, this paper designed and implemented a +/- 5kV GaN-based PWM generator for PD characterization. 600V GaN devices and a high-frequency transformer are utilized to lower the cost. Additionally, the intelligent PWM generator can provide controllable dv/dt at the rising and falling edges, variable duty ratio and switching frequency and controllable output voltages up to +/- 5kV. The developed PWM generator is utilized to test a twisted Litz wire sample and the PD signals are monitored by a high frequency current transformer (HFCT) and TEM antenna.
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