Monitoring DC Motor Based On LoRa and IOT

Journal of Robotics and Control (JRC) Pub Date : 2024-01-04 DOI:10.18196/jrc.v5i1.19642

Dimas Ahmad Nur Kholis Suhermanto, Widi Aribowo, Hisham A. Shehadeh, R. Rahmadian, M. Widyartono, A. Wardani, Aditya Chandra Hermawan

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引用次数: 0

Abstract

Electrical energy efficiency is a dynamic in itself that continues to be driven by electrical energy providers. In this work, long-range (LoRa) technology is used to monitor DC motors. In the modern world, IoT is becoming increasingly prevalent. Embedded systems are now widely used in daily life. More can be done remotely in terms of control and monitoring. LoRa is a new technology discovered and developing rapidly. LoRa technology addresses the need for battery-operated embedded devices. LoRa technology is a long-range, low-power technology. In this investigation, a LoRa transmitter and a LoRa receiver were employed. This study employed a range of cases to test the LoRa device. In the first instance, there are no barriers, whereas there are in the second instance. The results of the two trials showed that the LoRa transmitter and receiver had successful communication. In this study, the room temperature is used to control DC motors. So that the DC motor's speed adjusts to fluctuations in the room's temperature. Additionally, measuring tools and the sensors utilised in this investigation were contrasted. The encoder sensor and the INA 219 sensor were the two measured sensors employed in this study. According to the findings of the experiment, the tool was functioning properly.

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基于 LoRa 和物联网监控直流电机

电能效率本身就是一种动态变化，不断受到电能供应商的推动。在这项工作中，长距离（LoRa）技术被用于监控直流电机。在当今世界，物联网正变得越来越普遍。嵌入式系统现已广泛应用于日常生活。在控制和监测方面，可以远程完成更多工作。LoRa 是一项新发现的技术，发展十分迅速。LoRa 技术满足了电池供电嵌入式设备的需求。LoRa 技术是一种远距离、低功耗技术。本研究采用了 LoRa 发射器和 LoRa 接收器。这项研究采用了一系列情况来测试 LoRa 设备。在第一种情况下，没有障碍物，而在第二种情况下则有障碍物。两次试验的结果表明，LoRa 发射器和接收器都能成功通信。在这项研究中，室温被用来控制直流电机。这样，直流电机的转速就能根据室内温度的波动进行调整。此外，本研究还对比了测量工具和传感器。编码器传感器和 INA 219 传感器是本研究中使用的两种测量传感器。根据实验结果，该工具运行正常。

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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来源期刊

Journal of Robotics and Control (JRC)

CiteScore

6.30

自引率

0.00%

发文量