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<![CDATA[STERILIZER CHAMBER SEBAGAI SALAH SATU ALAT PENCEGAHAN PENYEBARAN VIRUS COVID-19 ]]>
<![CDATA[Antara, Made Adi Surya]]>;
<![CDATA[Suteja, I Wayan Arsa]]>;
<![CDATA[Prabowo, Agung]]>
<![CDATA[ Jurnal Leverage, Engagement, Empowerment of Community (LeECOM) Vol. 2 No. 2 (2020): Jurnal Leverage, Engagement, Empowerment of Community (LeECOM) ]]>
Publisher : <![CDATA[Universitas Ciputra Surabaya ]]>
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DOI: 10.37715/leecom.v2i2.1596
<![CDATA[Seperti kita ketahui bersama virus Covid-19 yang menjadi musuh kita bersama di seluruh dunia. Banyak inovasi yang telah dilakukan untuk mencegah terjadinya penyebaran virus corona ini, salah satunya yaitu memanfaatkan disinfektan sebagai pencegah penyebaran virus. Disinfektan mengandung chlorin yang mampu mensterilkan benda-benda dari kuman, bakteri, dan virus. Banyak kalangan saat ini berusaha untuk membuat alat semprot disinfektan otomatis, higienis, dan aman bagi penggunaan bagi tubuh manusia. Salah satunya yaitu sistem alat yang otomatis dan bisa disemprotkan ke seluruh tubuh dengan menggunakan sterilizer chamber yang lebih sempurna dan lebih simple dibandingkan dengan cuci tangan. Alat yang diperlukan untuk membuat sebuah chamber yaitu sebuah bilik atau ruangan yang terbuat dari baja ringan, plastik tebal sebagai pelapis bilik, pompa spray nozzle tipe 12 V sebanyak 15 titik, sensor gerak berbasis switch pada komponen mosfet sebagai sistem penyemprotan, dan bahan disinfektan dengan campuran tertentu. Susunan alat alat tersebut akan menghasilkan sterilizer chamber yang bekerja dengan cara menyemprotkan cairan disinfektan ke tubuh manusia secara otomatis ketika ada orang yang masuk ke dalam sterilizer chamber yang mana akan dibaca oleh sensor gerak yang diletakkan diatas chamber. Harapan pembuatan alat ini yaitu semoga dapat menekan serta mencegah penyebaran virus Covid-19. Sterilizer chamber dapat ditempatkan dipintu masuk tempat umum seperti kampus, pasar, dan perkantoran.]]>
<![CDATA[Analisis Sensor Arus Invasive ACS712 dan Sensor Arus Non Invasive SCT013 Berbasis Arduino ]]>
<![CDATA[wayan arsa suteja]]>;
<![CDATA[adi surya antara]]>
<![CDATA[ PROtek : Jurnal Ilmiah Teknik Elektro Vol 8, No 1 (2021): PROtek : Jurnal Ilmiah Teknik Elektro ]]>
Publisher : <![CDATA[Program Studi Teknik Elektro Universitas Khairun ]]>
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DOI: 10.33387/protk.v8i1.2116
<![CDATA[The electric load measurement system is a device designed to measure and monitor electricity consumption. In this research, the comparison process of reading the electric current uses the Non-Invasive current sensor model SCT013 and the Invasive current sensor model ACS712 which is connected to the load of electricity consumption. The microcontroller used is the Arduino Microcontroller which functions as the main control system that will be connected to the computer. With the aim later to be able to determine which current sensor is suitable and accurate in reading the electric current. By conducting experiments on the variables of two current sensors, in order to obtain the results of the comparison of the measurement and monitoring of the non-invasive current sensor model SCT013 with the Invasive current sensor model ACS712. Researchers hope to get how much the error percentage value or error of two non-invasive current sensors model SCT013 with Invasive current sensor model ACS712, so that later we can find the right sensor to get the right data for measuring tools, and can be used to monitor energy consumption. electricity that we use]]>
<![CDATA[Electricity Consumption Measurement System Using Current Transformer Sensor TA12-100 ]]>
<![CDATA[adi surya antara]]>;
<![CDATA[I Wayan Arsa Suteja]]>;
<![CDATA[I Gede Eka Wiantara Putra]]>;
<![CDATA[Ida Bagus Putu Widja]]>
<![CDATA[ PROtek : Jurnal Ilmiah Teknik Elektro Vol 9, No 1 (2022): PROtek : Jurnal Ilmiah Teknik Elektro ]]>
Publisher : <![CDATA[Program Studi Teknik Elektro Universitas Khairun ]]>
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DOI: 10.33387/protk.v9i1.3963
<![CDATA[Electricity consumption measurement system with an embedded system device with Arduino-based technology combined with a current transformer sensor TA12-100 which is connected to the load of electricity consumption. Arduino microcontroller which functions as the main control system that will be connected to the computer, with the aim of future loads so that they can be monitored in real time. By experimenting with the assembly of the Arduino sensor module combined with the current transformer sensor TA12-100, it is continued by comparing the current measurements obtained from the TA12-100 sensor readings to the ampere meter pliers. The results of this study obtained a measurement data for house electrical energy consumption and the percentage error from the comparison of the TA12-100 sensor readings with the readings from the ampere meter measuring instrument. By conducting this research, it is possible to obtain data on what percentage of error is obtained from the use of the TA12-100 sensor, so that later from the experimental results, the TA12-100 sensor is able to properly and correctly monitor electricity consumption at house loads.]]>
<![CDATA[Household Electricity Voltage, Current, Power, Energy, and Cost Monitoring System With Thingspeak Application ]]>
<![CDATA[I Wayan Arsa Suteja]]>;
<![CDATA[made adi surya antara]]>;
<![CDATA[I Gede Eka Wiantara Putra]]>;
<![CDATA[Ida Bagus Putu Widja]]>
<![CDATA[ Patria Artha Technological Journal Vol 6, No 2 (2022): Patria Artha Technological Journal ]]>
Publisher : <![CDATA[Department of Electrical Engineering, University of Patria Artha ]]>
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DOI: 10.33857/patj.v6i2.599
<![CDATA[Sistem pengukuran beban listrik adalah peralatan yang dirancang untuk mengukur dan memonitoring pemakaian listrik. Proses pembacaan arus listrik menggunakan sebuah sensor arus, tegangan, daya, dan energi model PZEM-004T yang dihubungkan dengan beban pemakaian listrik. Mikrokontroler yang digunakan adalah mikrokontroler NodeMCU esp8266 yang berfungsi sebagai sistem kontrol utama yang akan dihubungkan dengan aplikasi IoT thingspeak dengan agar bisa di monitoring secara real time. Dengan melakukan eksperimen perakitan modul sensor PZEM-004T dengan NodeMCU esp8266 yang menghasilkan fitur monitoring pembacaan pengukuran arus, tegangan, daya, energi, dan biaya yang dari aplikasi IoT thingspeak melalui sensor PZEM-004T. Pada penelitian sebelumnya sudah pernah dilakukan perbandingan pengukuran antara pembacaan sensor PZEM-004T dan clamp meter dengan hasil presentase error yang rendah (8.3% - 16.7%) untuk tiap beban yang diukur. Hasil penelitian Sistem Monitoring Tegangan, Arus dan Biaya Pemakaian Listrik Rumah Tangga Dengan Aplikasi Thingspeak adalah sebuah data monitoring pengukuran real time melalui aplikasi IoT thingspeak untuk pemakaian beban energi listrik dari alat elektronik rumah tangga berupa hasil pembacaan besaran arus, tegangan, daya, energi, dan biaya dengan sensor PZEM-004T. Aplikasi IoT thingspeak, sensor PZEM-004T hampir mendekati pada alat ukur atau clamp meter yang digunakan sehingga mampu memonitoring dengan baik dan benar pemakaian listrik pada beban rumah tangga.]]>
<![CDATA[Electrical Control and Monitoring Home System With ACS712 Sensor & Relay Module via Blynk ]]>
<![CDATA[adi surya antara]]>;
<![CDATA[wayan Arsa suteja]]>;
<![CDATA[I Gede Eka Wiantara Putra]]>;
<![CDATA[Ida Bagus Putu Widja]]>;
<![CDATA[I Putu Agus Setiawan]]>
<![CDATA[ Patria Artha Technological Journal Vol 7, No 1 (2023): Patria Artha Technological Journal ]]>
Publisher : <![CDATA[Department of Electrical Engineering, University of Patria Artha ]]>
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DOI: 10.33857/660
<![CDATA[Electrical load control and monitoring system is a device designed to control and monitor electricity consumption. The process of monitoring electric loads uses a power sensor model ACS712 which is connected to a relay module to supply electric loads and stop using electric loads if power consumption exceeds a predetermined capacity of 1000 watts so that energy control can be carried out. The microcontroller used is the NodeMCU esp8266 microcontroller which functions as the main control system that will be linked to the blynk application with the aim of being able to monitor it in real time in the future. By conducting an experiment assembling the ACS712 sensor module with NodeMCU esp8266 which produces a monitoring feature for reading current, power, energy and peak power measurements from the IoT blynk application through the ACS712 sensor. The results of this study are a control and monitoring of household electricity measurements through the blynk application to control the use of electrical energy loads from household electronic devices in the form of readings of current, power, energy, and stopping the supply of electric power to loads connected to the ACS712 sensor and relay. module. The Blynk IoT application, the ACS712 sensor is almost close to the measuring instrument or clamp meter used so that it is able to properly and correctly monitor electricity usage in household loads]]>
<![CDATA[OPTIMALISASI MESIN KOMPOSTER DI TPS3R BESTARI DESA BENGKEL KAB. TABANAN BALI ]]>
<![CDATA[Ida Bagus Putu Widja]]>;
<![CDATA[I Wayan Arsa Suteja]]>;
<![CDATA[Made Adi Surya Antara]]>;
<![CDATA[I Gede Eka Wiantara Putra]]>
<![CDATA[ Charity : Jurnal Pengabdian Masyarakat Vol 6 No 1a (2023): Special Issue ]]>
Publisher : <![CDATA[PPM Universitas Telkom ]]>
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DOI: 10.25124/charity.v6i1a.5910
<![CDATA[Permasalahan sampah di Desa Bengkel yang merupakan salah satu desa wisata di wilayah Tabanan Bali, membuat pihak desa dan pemerintah kabupaten Tabanan pada tahun 2022 membangun Tempat Pengelolaan Sampah Reduce, Reuse, Recycle (TPS3R) dengan kelompok kerja yang diberi nama TPS3R Bestari. TPS3R Bestari sendiri memiliki 2 buah mesin komposter yang digunakan untuk memutar sampah agar proses fermentasi menjadi lebih merata untuk menghasilkan pupuk kompos lebih cepat. Mesin komposter tersebut harus diaktifkan di waktu tertentu atau saat suhu kompos mencapai 50oC. Sayangnya produktifitas pembuatan kompos menjadi kurang optimal karena proses pengaktifan mesin komposter masih dilakukan secara manual dan sering kali terlupakan oleh para pekerja karena berbenturan dengan proses kerja lainnya. Berlatar belakang permasalahan tersebut kami dari Politeknik Nasional berkesempatan melakukan kegiatan pengabdian masyarakat dengan mendesain sebuah alat berupa saklar otomatis berbasis mikrokontroler. Alat tersebut dipasangkan pada mesin komposter untuk membuat mesin berputar secara otomatis mengikuti alur program timer dan sensor suhu. Dengan demikian pekerja hanya perlu memasukkan sampah ke drum mesin tanpa perlu memikirkan proses pengadukannya, tinggal menunggu hari untuk memanen kompos. Hasil dari kegiatan pengabdian ini ternyata mampu mengoptimalkan kerja mesin komposter sekaligus membantu efisiensi tenaga kerja dimana alat saklar yang terpasang tersebut berhasil membuat mesin komposter berputar secara otomatis. Pekerjaaan aktivasi mesin telah dialihkan ke saklar otomatis setiap harinya, sehingga kinerja mesin yang optimal dapat dirasakan menfaatnya oleh pengelola TPS3R Bestari.]]>
<![CDATA[Sistem Pencatatan Pemakaian Listrik Menggunakan Aplikasi Arduino ]]>
<![CDATA[Wayan Arsa Suteja]]>;
<![CDATA[adi surya antara]]>
<![CDATA[ PROtek : Jurnal Ilmiah Teknik Elektro Vol 6, No 2 (2019): PRotek : Jurnal Ilmiah Teknik Elektro ]]>
Publisher : <![CDATA[Program Studi Teknik Elektro Universitas Khairun ]]>
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DOI: 10.33387/protk.v6i2.1229
<![CDATA[Sistem pengukuran beban listrik adalah alat yang dirancang untuk mengukur dan memonitoring pemakaian listrik. Proses pembacaan arus listrik menggunakan sebuah sensor arus model SCT013 yang dihubungkan dengan beban pemakaian listrik. Mikrokontroler yang digunakan adalah mikrokontroler arduino yang berfungsi sebagai sistem kontrol utama yang akan dihubungkan dengan komputer, dengan tujuan kedepan beban agar bisa dimonitoring secara real time. Metode penelitian yang dilakukan adalah penelitian kuantitatif. Penelitian kuantitatif yang dilakukan adalah metoda penelitian eksperimental. Dengan melakukan eksperimen perakitan modul sensor arduino uno dan melakukan perbandingan dari pengukuran arus yang diperoleh dari pembacaan sensor arus model SCT013 terhadap alat ukur tang ampere meter. Hasil penelitian ini adalah sebuah data pengukuran pemakaian beban energi listrik rumah tangga dan persentase error dari perbandingan pembacaan sensor arus SCT013 dengan pembacaan dari alat ukur tang ampere meter. Dengan diadakannya penelitian ini, dapat memperoleh data berapa besar persentase error yang diperoleh dari penerapan sensor SCT013, sehingga nantinya dari hasil percobaan tersebut sensor SCT013 mampu memonitoring dengan baik dan benar pemakaian listrik pada beban rumah tangga]]>
<![CDATA[Controlling of capacity household electricity using ACS758 sensor ]]>
<![CDATA[Antara, Adi Surya]]>;
<![CDATA[Suteja, I Wayan arsa]]>;
<![CDATA[Wiantara Putra, I Gede Eka]]>;
<![CDATA[Putu Widja, Ida Bagus]]>
<![CDATA[ Patria Artha Technological Journal Vol 8, No 1 (2024): Patria Artha Technological Journal ]]>
Publisher : <![CDATA[Department of Electrical Engineering, University of Patria Artha ]]>
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DOI: 10.33857/patj.v8i1.808
<![CDATA[An electric load monitoring system is a tool designed to monitor and measure electricity usage. The electrical load monitoring process uses a ACS758 model current sensor that connects the electrical load. The microcontroller used is an Arduino Uno microcontroller which functions as the main control system which will be connected to a 16x2 LCD monitor with the aim that in the future it can be monitored in real time and can be read directly on the LCD. By carrying out experiments on assembling the ACS758 sensor module with Arduino Uno which produces a monitoring feature for current measurement readings. The result of this research is a household electricity measurement monitoring system through a prototype made using the ACS758 sensor model with an Arduino Uno which is equipped with a 16x2 LCD monitor to make it easier to monitor the electrical energy load from household electronic devices in the form of current readings and is equipped with a relay module. 5V 1 channel which functions to cut off the current once it exceeds the specified usage limit . The magnitude of the current measurement obtained from the reading of the ACS758 model current sensor will be compared with an ampere meter measuring instrument. By conducting this research, data can be obtained on the percentage of error obtained from the application of the ACS758 sensor, so that later from the results of this experiment the ACS758 sensor will be able to properly and correctly monitor electricity usage and its usage capacity for household loads.]]>
<![CDATA[ANALISIS ARUS, TEGANGAN, DAYA, ENERGI, DAN BIAYA PADA SENSOR PZEM-004T BERBASIS NODEMCU ESP8266 ]]>
<![CDATA[Antara, Made Adi surya]]>;
<![CDATA[Suteja, Wayan Arsa]]>
<![CDATA[ Patria Artha Technological Journal Vol 5, No 1 (2021): Patria Artha Technological Journal ]]>
Publisher : <![CDATA[Department of Electrical Engineering, University of Patria Artha ]]>
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DOI: 10.33857/patj.v5i1.405
<![CDATA[Readings of the amount of current, voltage and electric power can be done using a sensor. One of the sensors for the amount of voltage, power and energy is in the form of the PZEM-004T model which is connected to the installed electrical load. The microcontroller used is the NodeMCU esp8266 microcontroller which functions as the main control system that will be connected to a computer, with the aim of being able to monitor it in real time in the future. By conducting experiments on the assembly of the PZEM-004T sensor module with NodeMCU esp8266 and making comparisons of the current measurements obtained from the PZEM-004T model sensor readings with the clamp meter current measuring instrument. The results of this study are a data measurement of current, voltage, power, energy, and the cost of household electrical energy consumption as well as the percentage error results from the comparison of current readings, on the PZEM-004T sensor with a reading from a clamp meter measuring instrument. By holding this research, researchers hope to obtain data on how much error percentage is obtained from the application of the PZEM-004T sensor, so that later from the results of the experiment, the PZEM-004T sensor is able to properly and properly monitor the use of electricity in household loads]]>
<![CDATA[Efficiency of Monitoring Household Electricity With ZMCT103C ]]>
<![CDATA[Suteja, I Wayan Arsa]]>;
<![CDATA[antara, adi surya]]>;
<![CDATA[Wiantara Putra, Gede Eka]]>;
<![CDATA[Putu, Ida Bagus]]>
<![CDATA[ Patria Artha Technological Journal Vol 7, No 2 (2023): Patria Artha Technological Journal ]]>
Publisher : <![CDATA[Department of Electrical Engineering, University of Patria Artha ]]>
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DOI: 10.33857/patj.v7i2.709
<![CDATA[An electric load monitoring system is a tool designed to monitor and measure electricity usage. The process of monitoring the electrical load uses a current sensor model ZMCT103C which is connected to the electrical load. The microcontroller used is an Arduino Uno microcontroller which functions as the main control system which will be connected to a 16x2 LCD monitor with the aim that in the future it can be monitored in real time and can be read directly on the LCD. By carrying out experiments on assembling the ZMCT103C sensor module with Arduino Uno which produces a monitoring feature for current measurement readings. The result of this research is a household electricity measurement monitoring system through a prototype made using the ZMCT103C sensor model with an Arduino Uno which is equipped with a 16x2 LCD monitor to make it easier to monitor the electrical energy load from household electronic devices in the form of current readings. The magnitude of the current measurement obtained from the reading of the ZMCT103C model current sensor will be compared to the ampere meter measuring instrument. By conducting this research, we can obtain data on the percentage of error obtained from the application of the ZMCT103C sensor, so that later from the results of this experiment the ZMCT103C sensor will be able to properly and correctly monitor electricity usage for household loads.]]>
