DESIGN A MONITORING SYSTEM OF A SINGLE-PHASE ELECTRICITY METER BASED ON THE INTERNET OF THINGS
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 vol...
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| Format: | Article |
| Language: | English |
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Universitas Negeri Jakarta
2022-12-01
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| Series: | Spektra: Jurnal Fisika dan Aplikasinya |
| Subjects: | |
| Online Access: | https://journal.unj.ac.id/unj/index.php/spektra/article/view/28450 |
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| author | Mauludi Manfaluthy Ade Sunardi Sinka Wilyanti Ariep Jaenul Endang Mulyana |
| author_facet | Mauludi Manfaluthy Ade Sunardi Sinka Wilyanti Ariep Jaenul Endang Mulyana |
| author_sort | Mauludi Manfaluthy |
| collection | DOAJ |
| description | 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. |
| format | Article |
| id | doaj-art-a06bc9a5ef3844e0a1d5c6e4ade6d4c6 |
| institution | Kabale University |
| issn | 2541-3384 2541-3392 |
| language | English |
| publishDate | 2022-12-01 |
| publisher | Universitas Negeri Jakarta |
| record_format | Article |
| series | Spektra: Jurnal Fisika dan Aplikasinya |
| spelling | doaj-art-a06bc9a5ef3844e0a1d5c6e4ade6d4c62025-08-20T03:38:08ZengUniversitas Negeri JakartaSpektra: Jurnal Fisika dan Aplikasinya2541-33842541-33922022-12-017311312610.21009/SPEKTRA.073.0123093DESIGN A MONITORING SYSTEM OF A SINGLE-PHASE ELECTRICITY METER BASED ON THE INTERNET OF THINGSMauludi Manfaluthy0Ade Sunardi1Sinka Wilyanti2Ariep Jaenul3Endang Mulyana4Faculty of Engineering and Computer Science Jakarta Global University Jl. Boulevard Grand Depok City 16413, IndonesiaFaculty of Engineering and Computer Science Jakarta Global University Jl. Boulevard Grand Depok City 16413, IndonesiaFaculty of Engineering and Computer Science Jakarta Global University Jl. Boulevard Grand Depok City 16413, IndonesiaFaculty of Engineering and Computer Science Jakarta Global University Jl. Boulevard Grand Depok City 16413, IndonesiaFaculty of Engineering and Computer Science Jakarta Global University Jl. Boulevard Grand Depok City 16413, IndonesiaThis 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.https://journal.unj.ac.id/unj/index.php/spektra/article/view/28450monitoring systemsingle-phase electricity meterinternet of things |
| spellingShingle | Mauludi Manfaluthy Ade Sunardi Sinka Wilyanti Ariep Jaenul Endang Mulyana DESIGN A MONITORING SYSTEM OF A SINGLE-PHASE ELECTRICITY METER BASED ON THE INTERNET OF THINGS Spektra: Jurnal Fisika dan Aplikasinya monitoring system single-phase electricity meter internet of things |
| title | DESIGN A MONITORING SYSTEM OF A SINGLE-PHASE ELECTRICITY METER BASED ON THE INTERNET OF THINGS |
| title_full | DESIGN A MONITORING SYSTEM OF A SINGLE-PHASE ELECTRICITY METER BASED ON THE INTERNET OF THINGS |
| title_fullStr | DESIGN A MONITORING SYSTEM OF A SINGLE-PHASE ELECTRICITY METER BASED ON THE INTERNET OF THINGS |
| title_full_unstemmed | DESIGN A MONITORING SYSTEM OF A SINGLE-PHASE ELECTRICITY METER BASED ON THE INTERNET OF THINGS |
| title_short | DESIGN A MONITORING SYSTEM OF A SINGLE-PHASE ELECTRICITY METER BASED ON THE INTERNET OF THINGS |
| title_sort | design a monitoring system of a single phase electricity meter based on the internet of things |
| topic | monitoring system single-phase electricity meter internet of things |
| url | https://journal.unj.ac.id/unj/index.php/spektra/article/view/28450 |
| work_keys_str_mv | AT mauludimanfaluthy designamonitoringsystemofasinglephaseelectricitymeterbasedontheinternetofthings AT adesunardi designamonitoringsystemofasinglephaseelectricitymeterbasedontheinternetofthings AT sinkawilyanti designamonitoringsystemofasinglephaseelectricitymeterbasedontheinternetofthings AT ariepjaenul designamonitoringsystemofasinglephaseelectricitymeterbasedontheinternetofthings AT endangmulyana designamonitoringsystemofasinglephaseelectricitymeterbasedontheinternetofthings |