7.4采用1T1MTJ共源线结构阵列的STT-MRAM共价键交叉耦合电流模感测放大器

2015 IEEE International Solid-State Circuits Conference - (ISSCC) Digest of Technical Papers Pub Date : 2015-03-19 DOI:10.1109/ISSCC.2015.7062962

Chankyung Kim, K. Kwon, Chulwoo Park, Sungjin Jang, Joosun Choi

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引用次数: 58

摘要

本文提出了一种基于1T1MTJ共SL结构阵列的STT-MRAM传感方案:共价键交叉耦合电流模传感放大器(CBSA)。CBSA可以适应传统的DRAM阵列架构，并在相邻的BLs中使用两个正常单元，一个用于存储数据“1”，另一个用于存储数据“0”，为CBSA产生参考电流。一行8k单元格中有64个CBSA，其中一个CBSA和两个参考bl由相邻的128个bl共享。直接访问STT-MRAM单元，而不是像在DRAM中那样打开页面。通过引入cbsa作为传感方案，读取访问时间可以减少到10ns以下，并且具有较强的鲁棒性，可以抵抗MTJ细胞电阻的广泛随机变化。

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7.4 A covalent-bonded cross-coupled current-mode sense amplifier for STT-MRAM with 1T1MTJ common source-line structure array

In this paper, we present a sensing scheme for STT-MRAM with 1T1MTJ common SL structure array: covalent-bonded cross-coupled current-mode sense amplifier (CBSA). The CBSA can fit in conventional DRAM array architecture and use two normal cells in adjacent BLs, one for storing data “1” and the other for storing data “0”, for generating reference currents for CBSA. There are 64 CBSAs in a row of 8k cells, where one CBSA and two references BLs are shared by adjacent 128 BLs. STT-MRAM cell is directly accessed instead of page opening as in DRAM. By introducing CBSAs as sensing schemes, read-access time can be reduced to under 10ns with strong robustness against wide random variations of MTJ cell resistances with a small TMR.

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2015 IEEE International Solid-State Circuits Conference - (ISSCC) Digest of Technical Papers

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