Power Model of Rain Gauge Sensor Node with Solar Panel Power Source

TENCON 2018 - 2018 IEEE Region 10 Conference Pub Date : 2018-10-01 DOI:10.1109/TENCON.2018.8650526

F. Cruz, E. Chua, Charity L. Monteclaro, Ma. Lhealynn N. Daquioag, Rigel Kent L. Zabate, M. G. Binag, Marlou Ryan G. Ga

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引用次数: 1

Abstract

Nowadays, the Philippines encounters unpredictable weather and the awareness of the circumstance is important. The traditional use of measuring instruments is implemented to perceive the state of the atmosphere. Rain gauge remote sensor node is a device that is utilized for effective monitoring of rainfall. It is known that rain gauge remote sensor nodes need energy to fully operate. Since most of remote areas lack on providing electric power, batteries are common substitute for the sensor nodes to operate at a span of time. Repetitive changing of batteries is time-wasting and costly for remote areas. Solar panel power source is a remedy for this situation which is used to continuously supply energy to the rain gauge remote sensor node. This paper gives information to the readers on a device that is possible to be placed on remote areas like mountains which have limited source of electricity or zero accessibility at all. The design of the power supply has been accumulated from voltage and current measurements that are evaluated through distinctive trials during various operating modes.

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太阳能电池板供电的雨量计传感器节点功率模型

如今，菲律宾遇到不可预测的天气，对情况的认识是很重要的。传统上使用测量仪器是为了感知大气的状态。雨量计遥感节点是一种对降雨进行有效监测的设备。众所周知，雨量计遥感节点需要能量才能完全工作。由于大多数偏远地区缺乏电力供应，电池通常是传感器节点在一段时间内运行的替代品。对偏远地区来说，反复更换电池既浪费时间又昂贵。太阳能电池板电源是解决这一问题的一种方法，用于向雨量计遥感节点持续供电。这篇论文为读者提供了一种设备上的信息，这种设备可能被放置在偏远地区，如山区，这些地区的电力来源有限或根本没有可达性。电源的设计是从电压和电流的测量中积累起来的，这些测量是在各种工作模式下通过不同的试验来评估的。

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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TENCON 2018 - 2018 IEEE Region 10 Conference

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