具有NAND结构单元的实验性4mb CMOS EEPROM

IEEE International Solid-State Circuits Conference, 1989 ISSCC. Digest of Technical Papers Pub Date : 1900-01-01 DOI:10.1109/isscc.1989.48209

Y. Itoh, M. Momodomi, R. Shirota, Y. Iwata, R. Nakayama, R. Kirisawa, T. Tanaka, K. Toita, S. Inoue, F. Masuoka

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引用次数: 17

摘要

讨论了一种仅5v的CMOS 512 K*8 EEPROM(电可擦除和可编程只读存储器)，该存储器使用nand结构单元实现10/sup / 4/周期的持久时间。其主要特点是采用了适合于NAND结构单元的编程技术和动态感测放大器。NAND结构单元将8位串行排列，夹在两个选定的晶体管之间。第一个晶体管确保选择性;第二个防止电流通过编程操作期间。电流单元每比特有一个选择晶体管。然而，NAND结构每8位只有两个选择晶体管;因此，它只有1/4选择晶体管和1/16接触孔每位。因此，该NAND结构可以实现比现有单元更小的单元面积。对于高速编程，采用页面模式。在读操作中，地址转换检测电路用于预充位线并复位读控制电路。对设计特点进行了总结。

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An experimental 4 Mb CMOS EEPROM with a NAND structured cell

A 5-V-only CMOS 512 K*8 EEPROM (electrically erasable and programmable read-only memory), which achieves 10/sup 4/ cycle endurance using a NAND-structured cell, is discussed. The main features are a programming technique appropriate to the NAND structured cell and a dynamic sense amplifier. The NAND structured cell arranges 8 bits in series, sandwiched between two select transistors. The first transistor ensures selectivity; the second prevents the current from passing during programming operation. The current cell has one select transistor per bit. However, the NAND structure has only two select transistors per 8 bits; therefore it has only 1/4 select transistor and 1/16 contact hole per bit. Thus, the NAND structure can realize a smaller cell area than that of the current cell. For high-speed programming, a page mode is adopted. In read operation, address transition detection circuitry is used to precharge the bit lines and reset the read control circuitry. A summary of design characteristics is presented.<>

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IEEE International Solid-State Circuits Conference, 1989 ISSCC. Digest of Technical Papers

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