在高达 150°C 的温度和不同脉冲宽度条件下对 4 mm x 4 mm SiC GTO 进行评估

Conference Record of the 2006 Twenty-Seventh International Power Modulator Symposium Pub Date : 2006-05-14 DOI:10.1109/MODSYM.2006.365219

H. O’Brien, W. Shaheen

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引用次数: 6

摘要

美国陆军研究实验室（ARL）正在评估碳化硅超级 GTO（SGTO），以确定碳化硅在未来脉冲开关应用中可能替代硅的能力范围。在高温和不同的脉冲宽度下，对单个尺寸为 4 毫米乘 4 毫米的碳化硅芯片进行脉冲处理。这些 SGTO 在温度高达 150 摄氏度的 RLC 电路中进行开关。在此峰值温度下，它们的开关电流高达 3.2 kA，并以 2.6 kA 和 5 Hz 的频率重复脉冲超过 14,000 次。还设计了一个脉冲形成网络 (PFN)，以增加碳化硅器件的脉冲宽度和作用。在环境温度和 2 kA 峰值电流条件下，SiC SGTO 在 PFN 中以 40 mus 的 50% 脉冲宽度和 150 A2s 的动作进行切换。本报告包括高温和宽脉冲宽度测试的进一步数据，以及器件故障点分析。

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Evaluation of a 4 mm x 4 mm SiC GTO at Temperatures up to 150°C and Varying Pulse Width

The U. S. Army Research Laboratory (ARL) is evaluating silicon carbide Super GTOs (SGTOs) to determine the extent of silicon carbide's capabilities as a possible replacement for silicon in future pulsed switching applications. Individual SiC die measuring 4 mmtimes4 mm were pulsed at high temperatures and varying pulse widths. These SGTOs were switched in an RLC circuit at temperatures up to 150 degC. At this peak temperature, they were switched as high as 3.2 kA and repetitively pulsed at 2.6 kA and 5 Hz for greater than 14,000 pulses. A pulse forming network (PFN) was also designed to increase the pulse width and the action seen by the SiC devices. At ambient temperature and a peak current of 2 kA, SiC SGTOs were switched in the PFN at a 50% pulse width of 40 mus and an action of 150 A2s. This report includes further data on high temperature and wide pulse width testing, as well as analysis of the devices' failure points

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Conference Record of the 2006 Twenty-Seventh International Power Modulator Symposium

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