In particular, as a non-volatile memory device undergoes many programming cycles, charge becomes trapped in the insulator or dielectric between the floating gate and the channel region.
特定来说,在非易失性存储器装置经历许多编程循环时,电荷变为俘获在浮动栅极与沟道区之间的绝缘体或电介质中。
The invention also discloses a fabricating method for the nanocrystal floating gate memory with the multi-media composite tunneling layer.
本发明同时公开了一种多介质复合遂穿层的纳米晶浮栅存储器的制作方法。
The invention simultaneously discloses a production method of the nanocrystal floating gate non-volatile memory with the double-layer tunneling dielectric structure.
同时公开 了一种双层隧穿介质结构的纳米晶浮栅非易失存储器的制作方法。
This work focus on the evolution ways to study the Nanocrystal floating gate non-volatile memory devices.
本文从改进型方案入手,研究了纳米晶浮栅结构的非易失性存储技术。
The charge storage characteristic of Ge/Si double-layer quantum-dots floating-gate nano-memory was investigated.
设计了一种新型的存储器结构单元———锗/硅双层量子点阵列浮栅结构纳米存储器。
The charge storage characteristic of Ge/Si double-layer quantum-dots floating-gate nano-memory was investigated.
设计了一种新型的存储器结构单元———锗/硅双层量子点阵列浮栅结构纳米存储器。
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