在实用最高频率下、在不同输入功率时实测了的尖峰电压的宽度。
Also the peak voltage width is tested under different input power at the highest frequency and the difference is analyzed.
当振幅调制为灰尘颗粒时,功率增益谱出现起伏,并且产生尖峰。
As the modulation of amplitude is dust particle, the fluctuation and peaks are shown in the power gain spectrum.
在大功率风电变换器中,由于杂散电感的存在,器件在关断过程中往往会产生超出允许范围的瞬态尖峰值,从而导致其失效和损坏。
In large production converters, due to the stray inductance, the switching transient spike is usually beyond the voltage allowed by the device, which can destroy the converter.
然而,由于漏感影响,反激变换器功率开关管关断时将引起电压尖峰,必须用钳位电路加以抑制。
However, due to leakage effects flyback converter power switch off when the voltage spike caused by the need to be inhibited by clamping circuit.
从互易性偏置调制的机理出发,将对本征频率的测量转化为对无效调制光功率响应的尖峰脉冲的测量;根据光功率响应机理,将对半波电压的测量转化为求有效调制光功率最小值。
The method comes from the mechanism of reciprocal shift modulation, which transforms the measuring of eigenfrequency into measuring the spike pulse responding to ineffective-modulation optic power.
探讨了IGBT功率电路尖峰电压产生的原因,并针对第三代IGBT,给出了适应不同功率的吸收电路。
The reason of appearing peak voltage in IGBT(insulated gate bipolar transistor)absorber is discussed. Absorbers corrcsponding to different powers are proposed for the 3rd generation IGBT.
探讨了IGBT功率电路尖峰电压产生的原因,并针对第三代IGBT,给出了适应不同功率的吸收电路。
The reason of appearing peak voltage in IGBT(insulated gate bipolar transistor)absorber is discussed. Absorbers corrcsponding to different powers are proposed for the 3rd generation IGBT.
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