5SHY3545L0005 IGCT可控硅主板

5SHY3545L0005 对于自然换流型DCB，换流速度取决于机械开关触头间弧压与电力电子支路通态压降的差值。由于IGCT的导通压降终端，以9kA、125℃为例，相近电压电流等级的单体IGCT和IGBT的导通压降分别为3.2V和6V [ 25 ]，从而IGCT-DCB的换流速度更快。另外，对于相同电弧电压，在满足换流的情况下，相同电压等级的IGCT可串联数量较大的IGBT，自然换流混合式IGCT-DCB适用的电压等级较高。

5SHY3545L0005 For the natural commutation type DCB, the commutation speed depends on the difference between the arc voltage between the mechanical switch contacts and the on-state voltage drop of the power electronic branch. Due to the on-state voltage drop termination of the IGCT, for example, the on-state voltage drops of a single IGCT and IGBT of similar voltage and current ratings are 3.2 V and 6 V [ 25 ], respectively, and thus the commutation speed of the IGCT-DCB is faster. In addition, for the same arc voltage, a larger number of IGBTs can be connected in series with IGCTs of the same voltage rating to satisfy the commutation, so that the natural commutation hybrid IGCT-DCB is applicable to a higher voltage rating.

5SHY3545L0005 在DCB关断过程中，电流从机械开关支路转移至电力电子支路，开关管导通线路短路电流约3~5ms后关断。关断时的温度过高可能导致关断失败，而强开关管的通流能力在通流期间的温度上升较小，关断大电流的可靠性较高。IGCT具有较强的电导调制效应，通态压降远低于IGBT，且不会出现IGBT的退闸现象，在通流期间的温度上升远低于IGBT，因此具有更高的通流能力。

5SHY3545L0005 During DCB shutdown, the current is transferred from the mechanical switching branch to the power electronic branch, and the switching tube conducts the line short-circuit current for about 3 to 5 ms before shutting down. The high temperature during turn-off may lead to turn-off failure, while the strong switching tube has a higher reliability of turning off high currents with a smaller temperature rise during turn-off.IGCT has a stronger conductance modulation effect, the on-state voltage drop is much lower than that of IGBT, and the phenomenon of IGBT debounce does not occur, and the temperature rise during turn-off is much lower than that of IGBT, so that it has a much higher turn-off capability.

5SHY3545L0005 在性能上，可控硅不仅具有单向导电性，而且还具有比硅整流元件，更为可贵的可控性，它只有导通和关断两种状态。可控硅能以毫安级电流控制大功率的机电设备，如果大于此功率，因元件开关损耗显著增加，允许通过的平均电流相降低，此时，标称电流应降级使用。

5SHY3545L0005 In terms of performance, the SCR not only has a unidirectional conductivity, but also has more than silicon rectifier components, more valuable controllability, it is only on and off two states. Thyristor can control high-power electromechanical equipment with milliamperes of current, if greater than this power, due to significant increase in component switching losses, allowing the average current through the phase is reduced, at this time, the nominal current should be downgraded to use.