A transistor with a thin gate oxide being driven by too high of a voltage.
一个用薄栅氧化层电晶体被太多的驱动电压高。
TDDB(time-dependent dielectric breakdown)is a key method to value the quality of thin gate oxide.
经时绝缘击穿(TDDB)是评价薄栅氧化层质量的重要方法。
A control gate having a thin gate oxide film is formed over a center channel portion of the channel region.
在沟道区的中央沟道部分上形成具有薄的栅氧化物膜的控制栅。
Hot-carrier enhanced TDDB effect of ultra-thin gate oxide is investigated by using substrate hot-carrier injection technique.
本文通过衬底热载流子注入技术,研究了热载流子增强的超薄栅氧化层TDDB效应。
Secondly, the transient characteristics of FN tunneling and hot hole (HH) stress induced leakage current (SILC) in ultra-thin gate oxide are investigated respectively in this dissertation.
其次,本文分别研究了FN隧穿应力和热空穴(HH)应力导致的超薄栅氧化层漏电流瞬态特性。
The first important thin film from the thermal oxide group is the gate oxide layer under which a conducting channel can be formed between the source and the drain.
第一个重要的来自热氧化组薄膜是栅氧化层,在它之下,源和漏之间就能形成导电通道。
The surfaces of poly-Si thin film and gate oxide of thin film transistors were passivated using N2O/NH3 plasma.
采用N2O和NH3等离子钝化技术对多晶硅薄膜表面和栅氧表面进行了钝化处理。
The surfaces of poly-Si thin film and gate oxide of thin film transistors were passivated using N2O/NH3 plasma.
采用N2O和NH3等离子钝化技术对多晶硅薄膜表面和栅氧表面进行了钝化处理。
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