用于手持产品的低功耗SRAM技术

ISLPED '05. Proceedings of the 2005 International Symposium on Low Power Electronics and Design, 2005. Pub Date : 2005-08-08 DOI:10.1145/1077603.1077652

R. Islam, A. Brand, Dave Lippincott

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引用次数: 16

摘要

SRAM泄漏构成了用于手持应用(如PDA和蜂窝电话)的现代SoC产品的待机功率预算的重要部分。NMOS和PMOS反向偏置技术用于减少泄漏，在采用低功耗90nm技术构建的2MByte SRAM测试芯片上实现。采用复杂的模拟调节器来精确控制PMOS和NMOS的反向偏置电平。反向偏置的应用导致总阵列待机泄漏减少16倍，单元泄漏仅为20pA/bit。通过详细的Vccmin测量，证明了这些偏置条件下的出色数据保留。

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Low power SRAM techniques for handheld products

SRAM leakage constitutes a significant portion of the standby power budget of modern SoC products for handheld applications such as PDA and cellular phones. NMOS and PMOS reverse bias techniques for leakage reduction are implemented in a 2MByte SRAM testchip built with low power 90nm technology. Sophisticated analog regulators were implemented to precisely control the PMOS and NMOS reverse bias levels. The application of the reverse bias led to a 16X reduction in total array standby leakage and a cell leakage of only 20pA/bit. Excellent data retention for these bias conditions was demonstrated with detailed Vccmin mesurements.

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ISLPED '05. Proceedings of the 2005 International Symposium on Low Power Electronics and Design, 2005.

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