Jin-Hong Ahn, B. Jeong, Saeng-Hwan Kim, Shin-Ho Chu, Sung-Kwon Cho, Hanjun Lee, Min-Ho Kim, Sang-il Park, Sung-Won Shin, Jun-Ho Lee, Bong-Seok Han, Jae-Keun Hong, P. Moran, Yong Kim
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引用次数: 35
摘要
由于电池晶体管尺寸的减小对电容充电的均匀性产生了不利的影响,在现代dram中,自刷新电流的处理变得越来越困难。为了解决这一问题,开发了自适应自刷新(ASR)方案。在ASR方案中执行基于双周期的刷新,以减少使用行寄存器信息的功耗。根据单元格数据保留特征自适应地修改行寄存器信息。当DRAM进入自我刷新模式时,只有那些为写而激活的行才使用内部刷新测试电路进行测试。测试结果用于选择合适的周期进行双周期基础自刷新操作。本文演示了512M移动SDRAM利用这种自适应自刷新(ASR)能力,将待机功率降至150 uA @85°c,同时使用相同的工艺技术保持传统方案的芯片面积。
Adaptive Self Refresh Scheme for Battery Operated High-Density Mobile DRAM Applications
Self refresh current in modern DRAMs is becoming more difficult problem to handle because the decreasing cell transistor size has a negative effect on the uniformity of capacitor charge. In order to solve this issue, adaptive self refresh(ASR) scheme has been developed. A dual period based refresh is performed in the ASR scheme to reduce power dissipation using row register information. The row register information is adaptively modified according to the cell data retention characteristics. When DRAM enters self refresh mode, only the rows which were activated for write are tested using internal refresh test circuits. The test results are used to choose the appropriate period for the dual period base self refresh operation. This paper demonstrates 512M mobile SDRAM utilizing this adaptive self refresh(ASR) capability to minimize standby power to 150 uA @85degC while maintaining chip area of the conventional scheme using the same process technology.
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