集电结是反向编置。
在正常工作中,发射结正向偏置,基集电结反向偏置。
In typical operation, the emitter-base junction is forward biased and the base-collector junction is reverse biased.
本文简述了晶体管作开关运用时集电结由反偏状态向正偏状态转化的物理本质。
This paper illustrates the physical essence transferred for the Collector Junction from reverse bias to forward bias.
模拟表明,在恒定的偏置电流下,沿集电结方向移动量子阱能显著提高光学带宽。
At constant bias current, the simulation shows significant enhancement in optical bandwidth due to moving the quantum well in the direction of collector-base junction.
模拟表明,在恒定的偏置电流下,沿集电结方向移动量子阱能显著提高光学带宽。
At constant bias current, the simulation shows significant enhancement in optical bandwidth due to moving the quantum well in the direction of collector-base junction.
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