DESIGN A MONITORING SYSTEM OF A SINGLE-PHASE ELECTRICITY METER BASED ON THE INTERNET OF THINGS

Spektra: Jurnal Fisika dan Aplikasinya Pub Date : 2022-12-30 DOI:10.21009/spektra.073.01

M. Manfaluthy, A. Sunardi, Sinka Wilyanti, A. Jaenul, Endang Mulyana

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Abstract

This research aims to create systematic monitoring of a single-phase electricity meter that is accompanied by power monitoring features, the amount of electrical energy usage costs and relay control features using internet connections. The design has been carried out using PZEM-004T current and voltage sensors. The microcontrollers have been implemented by using ESP8266. This configuration is to reduce separate micro-controller. The embedded microcontroller and WiFi are made improvements from previous research. This embedded microcontroller is used to send data to the internet through WIFI. This monitoring system can then be accessed using the Cayenne interface. The test results of this tool show that the connection between the microcontroller and the Cayenne application works well through an internet connection. With this tool, users can see real-time data on the use of electrical energy and its cost, as shown in the cayenne dashboard. The voltage sensor test results show an average accuracy is 99.17%. The current sensor testing has an average accuracy rate of 96.9%. On average, the wattage delta between the cayenne dashboard and multimeter measurement is 2.16 watts.

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设计一种基于物联网的单相电表监控系统

本研究旨在创建单相电表的系统监控，该电表具有电力监控功能，电能使用成本的数量和使用互联网连接的继电器控制功能。设计采用了pzm - 004t电流电压传感器。单片机采用ESP8266单片机实现。这种配置是为了减少单独的微控制器。嵌入式微控制器和WiFi在前人研究的基础上进行了改进。该嵌入式微控制器用于通过WIFI将数据发送到互联网。然后可以使用卡宴接口访问该监控系统。该工具的测试结果表明，微控制器和卡宴应用程序之间的连接通过互联网连接工作良好。有了这个工具，用户可以看到电能使用及其成本的实时数据，如卡宴仪表板所示。测试结果表明，该电压传感器的平均精度为99.17%。目前传感器测试的平均准确率为96.9%。平均而言，卡宴仪表盘和万用表测量之间的瓦数增量为2.16瓦。

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Spektra: Jurnal Fisika dan Aplikasinya

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