可靠性测试标准在SiC功率mosfet中的应用

R. Green, A. Lelis, D. Habersat
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引用次数: 64

摘要

将现有的基于Si技术的可靠性测试标准应用于SiC功率MOSFET的可靠性鉴定,在某些情况下会导致测试结果不明确。根据精确的测量程序,给定的设备在相同条件下的压力测试可能通过,也可能失败。在ID-VGS特性中观察到的巨大变化,以及伴随的阈值电压(VT)的变化和泄漏电流的变化,可能是由于大量近界面氧化物陷阱的充电和放电的复杂时间、温度和偏置依赖性质(可能通过移动离子的运动减轻),而这些在Si功率器件中不存在。高温门偏压(HTGB)应力后VT的变化与测量延迟时间、扫描方向和温度有关。负的栅极偏置温度应力结果表明,由于栅极偏置应力时间、偏置幅度和应力温度的变化导致VT大幅度变化,导致关闭状态下漏极漏电流增加,可能会限制器件的可靠性。此外,高温下的正栅极偏置应力可能会增加导通状态下的功耗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of reliability test standards to SiC Power MOSFETs
The application of existing reliability test standards, based on Si technology, to SiC power MOSFET reliability qualification can in some cases result in ambiguous test results. Depending on the exact measurement procedure, a given device stress tested under identical conditions may either pass or fail. The large variations observed in ID-VGS characteristics, and accompanying shift in threshold voltage (VT) and change in leakage current, are likely due to the complex time, temperature, and bias dependent nature of the charging and discharging of significant numbers of near-interfacial oxide traps (and possibly mitigated by the movement of mobile ions) which are not present in Si power devices. The variation in VT following a high temperature gate-bias (HTGB) stress is shown to be dependent on the measurement delay time, sweep direction, and temperature. Negative gate-bias temperature stress results show that device reliability may be limited due to increased drain leakage current in the OFF-state, which is caused by large shifts in VT depending on the gate-bias stress time, bias magnitude, and stress temperature. In addition, positive gate-bias stressing at elevated temperature may increase power dissipation in the ON-state.
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