一种用于嵌入式DRAM的超快速浮体/栅极单元

2013 IEEE SOI-3D-Subthreshold Microelectronics Technology Unified Conference (S3S) Pub Date : 2013-10-01 DOI:10.1109/S3S.2013.6716575

Zhichao Lu, J. Fossum, D. Sarkar, Zhenming Zhou

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引用次数: 1

摘要

由于传统纳米级1T/ 1C DRAM的大容量存储电容存在集成问题，因此SOI上的浮体DRAM电池(fbc)备受关注。然而，由于通常的冲击电离或隧道体充电过程控制的相对较慢的写入时间，对FBC速度的限制阻碍了大多数感兴趣嵌入式DRAM的应用。我们最近提出了一种新的2T (T1和T2) FBC，即浮体/栅极单元(FBGC)，它可以实现优化性能的设计灵活性。我们在此提出了一种新的2T设计概念(FBGC4)，除了具有良好的电流信号裕度和长保持时间外，还提供了超快的写入时间，从而使嵌入式dram应用成为可能。此外，由于FBGC4提供了低电压运行，意味着低功耗和良好的可靠性。

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An ultra-fast floating-body/gate cell for embedded DRAM

Floating-body DRAM cells (FBCs) on SOI are of interest because of integration problems associated with the large storage capacitor of nanoscale conventional 1T/ 1C DRAM. However, limitations on FBC speed, due to relatively slow write times governed by the usual impact-ionization or tunneling body-charging processes, preclude the application of most interest - embedded DRAM. We recently proposed a novel 2T (T1 and T2) FBC, i.e., a floating-body/gate cell (FBGC) , which enables design flexibility for optimizing performance. We present herein a new 2T design concept (FBGC4) that gives ultra-fast write times, in addition to good current-signal margin and long retention times, and thus enables the embedded-DRAM application. Further, low power and good reliability are implied because of low-voltage operation afforded by FBGC4.

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2013 IEEE SOI-3D-Subthreshold Microelectronics Technology Unified Conference (S3S)

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