Architectural and Circuit Design Techniques for Power Management of Ultra-Low-Power MCU Systems

Lueders M.; Eversmann B.; Gerber J.; Huber K.; Kuhn R.; Zwerg M.; Schmitt-Landsiedel D.; Brederlow R.

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Architectural and Circuit Design Techniques for Power Management of Ultra-Low-Power MCU Systems

机译：超低功耗MCU系统电源管理的架构和电路设计技术

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摘要

A holistic power saving concept for ultra-low-power microcontroller (MCU) systems involving application requirements, system architecture, and circuit design techniques is presented. The key of this concept is a digitally enhanced low dropout regulator (LDO) supplying the MCU digital core. By making use of known system power information, the LDO digitally adapts its maximum current drive capability up to 2.56 mA while its quiescent current is as low as 650 nA in light load conditions. In this way, the power management overhead is drastically reduced when operating at low clock speeds enabling system energy savings of 31% at 1 MHz. At the same time, a drastic reduction of the LDO output capacitance enables ultra-low-power consumption during sleep and energy efficient wake-up, resulting in system energy savings up to a factor of 4.6.

机译：提出了一种超低功耗微控制器（MCU）系统的整体节能概念，其中涉及应用需求，系统架构和电路设计技术。这个概念的关键是为MCU数字内核提供数字增强型低压降稳压器（LDO）。通过利用已知的系统功率信息，LDO在轻负载条件下以数字方式调整其最大电流驱动能力，最高可达2.56 mA，而静态电流则低至650 nA。这样，当以低时钟速度运行时，电源管理的开销将大大减少，从而使系统在1 MHz时节能31％。同时，大幅降低LDO输出电容可实现睡眠期间的超低功耗和高能效唤醒，从而使系统节能高达4.6倍。

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来源
《Very Large Scale Integration (VLSI) Systems, IEEE Transactions on》 |2014年第11期|2287-2296|共10页
作者
Lueders M.; Eversmann B.; Gerber J.; Huber K.; Kuhn R.; Zwerg M.; Schmitt-Landsiedel D.; Brederlow R.;
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, Texas Instruments, Freising, Germany;

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正文语种 eng
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关键词
Capacitance; Clocks; Energy consumption; Power demand; Random access memory; Switches; Temperature measurement; Digitally enhanced analog; energy harvesting; fully integrated voltage regulator; power management unit; ultra-low-power microcontroller; ultra-low-power microcontroller.;

机译：电容;时钟;能耗;功率需求;随机存取存储器;开关;温度测量;数字增强模拟;能量收集;完全集成的稳压器;电源管理单元;超低功耗微控制器;超低功耗微控制器;

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Architectural and Circuit Design Techniques for Power Management of Ultra-Low-Power MCU Systems

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