8.2 Batteryless Sub-nW Cortex-M0+ processor with dynamic leakage-suppression logic

Wootaek Lim, Inhee Lee, D. Sylvester, D. Blaauw
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引用次数: 81

Abstract

Recent low-voltage design techniques have enabled dramatic improvements in miniaturization and lifetime of wireless sensor nodes [1-3]. These systems typically use a secondary battery to provide energy when the sensor is awake and operating; the battery is then recharged from a harvesting source when the sensor is asleep. In these systems, the key requirement is to minimize energy per operation of the sensor. This extends the number of operations on one battery charge and/or reduces the time to recharge the battery between awake cycles. This requirement has driven significant advances in energy efficiency [1-2] and standby power consumption [3].
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8.2无电池Sub-nW Cortex-M0+处理器,具有动态防漏逻辑
最近的低压设计技术使无线传感器节点的小型化和寿命得到了显著改善[1-3]。这些系统通常使用二次电池在传感器工作时提供能量;然后,当传感器处于睡眠状态时,电池从一个收集源充电。在这些系统中,关键要求是最小化传感器每次操作的能量。这延长了一次电池充电的操作次数和/或减少了在清醒周期之间给电池充电的时间。这一要求推动了能源效率[1-2]和待机功耗[3]的显著进步。
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