使用电池-电容存储的自主传感器的运行时间扩展

2007 International Conference on Sensor Technologies and Applications (SENSORCOMM 2007) Pub Date : 2007-10-14 DOI:10.1109/SENSORCOMM.2007.86

M. T. Penella, M. Gasulla

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引用次数: 6

摘要

电池是自主传感器电源供应链的重要组成部分，因此提取所有可用能量是一个决定性的运行问题。自主传感器具有脉冲功率消耗概况，导致高阻抗电池的高电压降。这些电压降可以使电池电压低于指定的自主传感器的电压供应范围，从而导致运行时间从理想情况下减少。本文提出了一种电池-电容混合结构来降低自主传感器的电压降。给出了脉冲负载作用下电压暂态特性和运行时间扩展的解析表达式。还得到了确定电压降时的最小电容值。实验结果采用两种类型的负载，一个脉冲电阻和一个真正的自主传感器。实现的运行时扩展分别为185%和169%。在两种情况下，理想的运行时间(假设没有电压降)几乎都达到了，所以几乎所有的能量都可以提取出来。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Runtime Extension of Autonomous Sensors Using Battery-Capacitor Storage

Batteries are an important part in autonomous sensors power supply chain, so extracting all available energy is a determinant runtime affair. Autonomous sensors have a pulsed power consumption profile that causes high voltage drops in high impedance batteries. These voltage drops can make battery voltage go under the specified autonomous sensors' voltage supply range leading to a runtime reduction from the ideal case. In this paper battery-capacitor hybrids are proposed to reduce voltage drops in autonomous sensors. Analytical expressions for the voltage transient behavior and runtime extension under pulsed loads have been presented. Minimal capacitor's value for a determined voltage drop has been also obtained. Experimental results were carried out using two types of loads, a pulsed resistor and a real autonomous sensor. The runtime extensions achieved were 185 % and 169 % respectively. The ideal runtime (assuming no voltage drop) is nearly achieved in both cases, so almost all energy can be extracted.

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2007 International Conference on Sensor Technologies and Applications (SENSORCOMM 2007)

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