内置电流传感器和过流保护的发射极关断(ETO)晶闸管

38th IAS Annual Meeting on Conference Record of the Industry Applications Conference, 2003. Pub Date : 2003-10-12 DOI:10.1109/IAS.2003.1257712

Bin Zhang, A.Q. Huang, Xigen Zhou, Yunfeng Liu, S. Atcitty

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引用次数: 20

摘要

ETO是一种基于传统GTO和MOSFET混合集成的先进大功率半导体器件。该ETO具有高开关速度、无滞后关断能力和低导通损耗等特点。当ETO导通电流时，总电流将通过集成的MOSFET。在这种情况下，MOSFET充当一个小的线性电阻，其压降反映通过它的电流。本文讨论了一种测量电流并将电流信息转换成占空比与电流值成正比的PWM信号的方法。PWM信号的频率也根据MOSFET的结温而改变。这样就消除了温度对MOSFET导通电阻的影响。感应到的电流信息通过光纤发出。因此，它很容易被接收并用于控制目的。感应电流信息也用于内置过流保护目的。ETO内置的电流传感器，快速关断速度和高电流关断能力使ETO在过流故障情况下能够非常快速地关闭故障电流。实验结果表明，ETO内置电流传感器的误差小于1%。过流保护功能有效阻止过流触发后故障电流在2 /spl mu/s左右的上升，并在4 /spl mu/s左右将故障电流关断。

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The built-in current sensor and over-current protection of the emitter turn-off (ETO) thyristor

ETO is an advanced high-power semiconductor device based on hybrid integration of traditional GTO and MOSFET. The ETO has high switching speed, snubberless turn-off capability and low conduction loss. When ETO is conducting current, the total current will go through the integrated MOSFET. In this situation, the MOSFET acts as a small linear resistor whose voltage drop reflects the current through it. This paper discusses a method to measure the current and transfer the current information to a PWM signal whose duty cycle is proportional to the current value. The frequency of the PWM signal is also changed according to the MOSFET's junction temperature. In this way the temperature effect on the MOSFET's on-resistance is eliminated. The sensed current information is sent out through an optical fiber. So it is very easy to be received and used for control purpose. The sensed current information is also used for the built-in over-current protection purpose. The ETO's built-in current sensor, fast turn-off speed, and high current turn-off capability enable the ETO to shut down the fault current very fast in the over-current fault situation. The experimental results show that the error of ETO built-in current sensor is less than 1%. And the over-current protection function effectively stops the rising of the fault current in about 2 /spl mu/s after the over-current triggering, and shut down the fault current in about 4 /spl mu/s.

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来源期刊

38th IAS Annual Meeting on Conference Record of the Industry Applications Conference, 2003.

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