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引用次数: 21
摘要
功率器件如IGBT在亚微秒时间内产生具有陡前波形的开关浪涌。高度重复的浪涌可能导致逆变器供电的低压电机绕组意外的绝缘老化,这些绕组在设计时没有考虑局部放电(PD)。由于定子槽内相邻磁线之间的距离分布在/spl μ /m到mm之间,因此研究了极短间隙陡前浪涌的微放电现象。为了评价聚合物材料在陡坡前浪涌作用下的局部放电老化,我们对上升时间为纳秒级的阶跃电压下的局部放电起始条件进行了基础研究。采用气隙为20 ~ 50 μ m /spl μ m的棒板电极,同时测量时间延迟和电荷积累。研究发现,与PWM的重复脉冲间隔相比,PD的电荷积累是瞬间的,而减少的速度非常慢。讨论了表面电荷对后续浪涌PD起始的影响。
Partial discharge behavior on PI film with microgap under steep-front step voltage
Power devices such as IGBT generate switching surges with steep-front waveform in sub-microsecond times. The highly repetitive surges may lead to unexpected insulation ageing of inverter-fed low-voltage motor windings, which have been designed without consideration of partial discharges (PD). Since the distance between adjacent magnet wires in a stator slot distributes in /spl mu/m to mm, so-called micro-discharge of very short gap with steep-front surges have been investigated. In order to evaluate PD ageing of polymer material under steep-front surges, we started the fundamental study of PD inception condition under step voltage with rise-time of nanoseconds. Using rod-plate electrodes with 20-50 /spl mu/m air gaps, time delay and charge buildup were measured simultaneously. It was found that charge builds up with PD instantly and decreases very slowly in comparison with repetitive pulse intervals of PWM. The effect of the surface charge on PD inception of the following surge is discussed.
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