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引用次数: 4
摘要
为了实现用于Read most Memory应用的电可重写器件,FAMOS器件的结构被修改,通过在浮动多晶硅栅极顶部合并额外的金属栅极,并通过特殊生长的热氧化物与之分离。电擦除是通过向金属栅极施加正电压脉冲来完成的。通过离子注入降低了写入电压。讨论了可靠性和电荷保留,并评估了它们对器件设计的影响。建立了氧化物在浮栅和金属栅之间导电的经验模型,并将结果与装置上得到的数据进行了投影和比较。
P-Channel Rewritable Avalanche Injection Device (RAID) Operation and Degradation Mechanisms
To implement an electrically rewritable device for Read Mostly Memory applications, the structure of the FAMOS device is modified by incorporating an additional metal gate on top of the floating polysilicon gate and separated from it by a specially grown thermal oxide. Electrical erasure is accomplished by applying a positive voltage pulse to the metal gate. The "write" voltage has been lowered by using ion implantation. Reliability and charge retention are discussed and their impact on the design of the device is assessed. An empirical model for the conduction of oxide between the floating gate and the metal gate is developed and results are projected and compared with data obtained on the device.
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