Shorter rise times, faster switching frequencies, and higher DC link voltages are all features of high dV/dt power converters that promote power density and loss reduction [1] - [4] . A higher dV/dt increases the risk of partial discharge (PD) between the turn-to-turn insulation, especially in the first turns of the machine winding, where a higher voltage can drop because of the reflections (the surge impedance of the machine is higher than that of the feeding cable which connects it to the converter) [5] . PD activity can cause electrical machines to go out of operation by prematurely failing the winding insulation, especially for Type I turn-to-turn insulations (i.e., organic insulating materials), reducing reliability [6] , [7]

(2023). Impact of Unipolar Repetitive Square Wave Voltage Rise Time and Frequency on (RPDIV-PDIV) and (PDIV-PDEV) . Retrieved from https://hdl.handle.net/10446/261366

Impact of Unipolar Repetitive Square Wave Voltage Rise Time and Frequency on (RPDIV-PDIV) and (PDIV-PDEV)

Giangrande, P.;
2023-01-01

Abstract

Shorter rise times, faster switching frequencies, and higher DC link voltages are all features of high dV/dt power converters that promote power density and loss reduction [1] - [4] . A higher dV/dt increases the risk of partial discharge (PD) between the turn-to-turn insulation, especially in the first turns of the machine winding, where a higher voltage can drop because of the reflections (the surge impedance of the machine is higher than that of the feeding cable which connects it to the converter) [5] . PD activity can cause electrical machines to go out of operation by prematurely failing the winding insulation, especially for Type I turn-to-turn insulations (i.e., organic insulating materials), reducing reliability [6] , [7]
2023
Naderiallaf, H.; Giangrande, Paolo; Galea, M.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10446/261366
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