基于LoRa的物联网(IoT)三相电能表通信设计

2022 IEEE International Conference on Internet of Things and Intelligence Systems (IoTaIS) Pub Date : 2022-11-24 DOI:10.1109/IoTaIS56727.2022.9975998

Meutia Gina Salsabila, M. A. Murti, A. Z. Fuadi

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引用次数: 0

摘要

电能表是测量电能使用情况的工具。该工具在家庭和工业中广泛使用。大多数千瓦时表只能显示电量，电量表上显示的电量。这将导致电力用户无法远程查看或监控电力使用情况。这种基于物联网(IoT)的千瓦时电表通信设计允许将来自千瓦时电表的所有数据发送到网关并转发到物联网云。本研究将使用LoRa (Long Range)通讯。随着物联网技术的普及，千瓦时电表可以随时随地监控用电量数据。在这个最终项目的测试结果中，该设备能够读取千瓦时表上的电量数据。LoRa通信模块可以将电能表采集的数据发送到网关，在Antares中显示。数据传输的平均信噪比为9.81 dB, RSSI为−78.14 dBm，时延为3.546 s，丢包率为1.11%。

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Design of 3 Phase kWh Meter Communication Based on Internet of Things (IoT) Using LoRa

kWh meter is a tool to measure the use of electrical energy. This tool is widely used at home and in industry. Most kWh meters can only display the amount of electricity used from the display on the kWh meter. This causes power users to be unable to view or monitor electricity usage remotely. This Internet of Things (IoT) based kWh meter communication design allows all data from the kWh meter to be sent to the gateway and forwarded to the IoT cloud. LoRa (Long Range) communication will be used in this research. The kWh meter that has been added with IoT technology is expected to make it easier for users to monitor the electricity consumption data from anywhere. The results of the tests in this final project, the device is able to read the data on the amount of electricity from the kWh meter. The LoRa communication module can send the data taken from the kWh meter to the gateway to be displayed in Antares. The data transmission results have an average SNR 9.81 dB, RSSI −78.14 dBm, delay 3.546 seconds, and packet loss 1.11%.

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2022 IEEE International Conference on Internet of Things and Intelligence Systems (IoTaIS)

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