公开(公告)号：US20040196695A1

公开(公告)日：2004-10-07

申请号：US10805365

申请日：2004-03-22

Applicant: Renesas Technology Corp.

Inventor： Toshihiro Tanaka ,  Takashi Yamaki ,  Yutaka Shinagawa ,  Daisuke Okada ,  Digh Hisamoto ,  Kan Yasui ,  Tetsuya Ishimaru

IPC: G11C011/34

CPC classification number: G11C16/10 ,  G11C16/0433

Abstract: Disclosed here is a method for speeding up data writing and reducing power consumption by reducing the variation of the threshold voltage of each of non-volatile memory cells at data writing. When writing data in a memory cell, a voltage of about 8V is applied to the memory gate line, a voltage of about 5V is applied to the source line, a voltage of about 1.5V is applied to the selected gate line respectively. At that time, in the writing circuit, the writing pulse is 0, the writing latch output a High signal, and a NAND-circuit outputs a Low signal. And, a constant current of about 1 iA flows in a constant current source transistor and the bit line is discharged by a constant current of about 1 iA to flow a current in the memory cell.

Abstract translation: 这里公开了一种通过在数据写入时减小每个非易失性存储单元的阈值电压的变化来加速数据写入并降低功耗的方法。 当在存储单元中写入数据时，约8V的电压被施加到存储器栅极线，大约5V的电压被施加到源极线，大约1.5V的电压分别施加到所选择的栅极线。 此时，在写入电路中，写入脉冲为0，写入锁存器输出高电平信号，NAND电路输出低电平信号。 并且，在恒定电流源晶体管中流动约1IA的恒定电流，并且通过约1iA的恒定电流放电位线以使存储单元中的电流流动。

公开(公告)号：US20040198019A1

公开(公告)日：2004-10-07

申请号：US10814627

申请日：2004-04-01

Applicant: Renesas Technology Corp.

Inventor： Kan Yasui ,  Toshiyuki Mine ,  Yasushi Goto ,  Natsuki Yokoyama

IPC: H01L021/76

CPC classification number: H01L21/76224 ,  Y10S438/907

Abstract: In order to achieve an isolation trench formation process according to the present invention in which the structure of a silicon nitride film liner can be easily controlled and to allow both of reduction of the device feature length and reduction in stress occurring in an isolation trench, the silicon nitride film liner is first deposited on the inner wall of the trench formed on a silicon substrate. The upper surface of a first embedded insulator film for filling the inside of the trench is recessed downward so as to expose an upper end portion of the silicon nitride film liner. Next, the exposed portion of the silicon nitride film liner is converted into non-silicon-nitride type insulator film, such as a silicon oxide film. A second embedded insulator film is then deposited on the upper portion of the first embedded insulator film, and the deposited surface is then planarized.

Abstract translation: 为了实现根据本发明的隔离沟槽形成方法，其中可以容易地控制氮化硅膜衬垫的结构并且允许器件特征长度的减小和在隔离沟槽中发生的应力的减小， 氮化硅膜衬垫首先沉积在形成在硅衬底上的沟槽的内壁上。 用于填充沟槽内部的第一嵌入式绝缘体膜的上表面向下凹入以暴露氮化硅膜衬垫的上端部分。 接下来，将氮化硅膜衬垫的露出部分转换成诸如氧化硅膜的非氮化硅型绝缘膜。 然后将第二嵌入式绝缘膜沉积在第一嵌入式绝缘膜的上部上，然后将沉积的表面平坦化。