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All Journal at-tamkin: Jurnal Pengabdian kepada Masyarakat Dielektrika : Jurnal Ilmiah Kajian Teori dan Aplikasi Teknik Elektro SinarFe7
Agus Kiswantono
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Agriculture, Biological Sciences & Forestry Computer Science & IT Control & Systems Engineering Electrical & Electronics Engineering Energy Social Sciences Other

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MENINGKATKAN PRODUKTIFITAS PENJUALAN DAN PEMASARAN HASIL PANEN WARGA DESA TAMBAK CEMANDI Agus Kiswantono; Sutandyo Lukito Pamungkas
at-tamkin: Jurnal Pengabdian kepada Masyarakat Vol. 3 No. 1 (2020): at-tamkin: Jurnal Pengabdian Kepada Masyarakat
Publisher : Universitas Islam Raden Rahmat Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33379/attamkin.v3i1.547

Abstract

Secara ekonimi penjualan via online adalah salah satu strategi untuk meningkatkan produktifitas penjualan. Di era modern ini penjualan via online (gofood) sangatlah penting, karena banyak pelanggan yang mulai menggunakan aplikasi gofood untuk memesan makanan tanpa harus keluar rumah. Dengan mendaftarkan usahanya via gofood, selain bersaing dagang via online juga dapat mempromosikan usaha dagangan secara otomatis. Dengan adanya program pendaftaran usaha via online (gofood) dari mahasiswa kkn Universitas Bhayangkara, para pedagang didesa Tambak cemandi, kecamatan Sedati kab. Sidoarjo tempat kami melaksanakan KKN (Kuliah Kerja Nyata) banyak yang berminat untuk didaftarkan usahanya via online (gofood). Tidak hanya mendaftarkan pedagang via Online, mahasiswa Universitas Bhayangkara juga membuatkan baner, logo, stiker dan desain kemasan. Tetapi Untuk baner pengusaha tidak dapat memasangnya secara langsung tanpa ada konfirmasi dari pihak gofood. Karena, jika pedagang memasang baner tanpa ada konfirmasi dari pihak gojek dapat dituntut secara hukum oleh pihak gojek karna di baner terdapat logo gofood yang memiliki hak cipta (pasal 40 ayat (1) f undang-undang nomor 28 tahun 2014 tengtang hak cipta). Dari segi pendidikan, mahasiswa Universitas Bhayangkara Surabaya mengajar di Sekolah MI AL-HIDAYAH yang berada didesa Tambak Cemandi. Mahasiswa juga melakukan renovasi balai desa seperti pembetulan AC yang rusak sekaligus memasangnya, membetulkan lampu-lampu yang mati, membetulkan arus listrik yang kongslet. Segala program mahasiswa KKN dari Universitas Bhayangkara Surabaya selalu di suport dan di apresiasi oleh warga desa Tambak Cemandi.
Mini Scada Plts Berbasis Arduino Uno Dan Visual Basic Menggunakan Web Api Crud Erwin Nur Cahyono; Agus Kiswantono
SinarFe7 Vol. 2 No. 1 (2019): Sinarfe7-2 2019
Publisher : FORTEI Regional VII Jawa Timur

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Kebutuhan energi matahari di Indonesia masih terus berkembang. Pesatnya perkembangan teknologi di dunia industri dan pembangkit listrik telah memiliki dampak yang sangat signifikan di bidang komunikasi data dan instrumen. Dengan perkembangan teknologi ini metode komunikasi juga berkembang, penggunaan SCADA diperlukan di dunia industri. tetapi harga untuk menginstal SCADA masih terlalu mahal. maka diperlukan inovasi untuk SCADA dengan harga rendah untuk industri industri kecil dengan sumber energi dari sel surya, dengan menjadikan Arduino Uno dan NodeMCU sebagai pengontrol dan Visual Basic sebagai HMI. Berdasarkan hasil pengujian panas sangat berpengaruh terhadap kinerja surya karena mengandung bahan semikonduktor. fungsi sel surya adalah mengubah sinar matahari menjadi listrik melalui fotovoltaik. Sistem SCADA yang dibuat menggunakan Arduino Uno dan NodeMCU mengirim data harus menggunakan jaringan internet yang stabil. proses perlindungan pada perangkat saat ada kelebihan tegangan atau kelebihan arus sangat sensitif.
Transformasi Proteksi Tegangan: Sistem Monitoring IoT untuk Pemantauan Real-Time Agus Kiswantono
DIELEKTRIKA Vol 11 No 2 (2024): DIELEKTRIKA
Publisher : Jurusan Teknik Elektro Fakultas Teknik Universitas Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/dielektrika.v11i2.377

Abstract

Electric energy is a vital resource extensively used in various sectors such as industry, offices, agriculture, and trade. Its significance in supporting a nation's economy is undeniable, making the monitoring of power consumption and quality crucial. This study focuses on designing and implementing an Internet of Things (IoT)-based monitoring system for overvoltage protection in an electrical power system. The power system incorporates an Over Voltage Relay (OVR) as a protective measure against voltage fluctuations that may harm the equipment. The OVR operates based on electromagnetic principles, promptly responding to deviations in voltage beyond specified limits. Additionally, the system integrates the PZEM-004T module for measuring voltage, current, power, frequency, energy, and power factor, providing comprehensive insights into the electrical system's performance. The heart of the IoT-based monitoring system is the ESP32-32D module, facilitating real-time monitoring and remote control through the Blynk application. The implemented system successfully detects overvoltage conditions, automatically triggers protective measures, and allows users to monitor the power system through an intuitive interface.The study concludes with an evaluation of the average voltage measured by the OVR, emphasizing the system's reliability and potential for further industrial applications. The average OVR voltage, determined to be approximately 239 Volts, provides a comprehensive overview of measurement consistency throughout the experiments. This research contributes to the enhancement of electrical power management, ensuring the reliability and efficiency of overvoltage protection through IoT-based monitoring systems. Further evaluations and advancements could optimize the system's performance for broader industrial applications.
Smart Monitoring: Proteksi Transmisi dari Drop dan Over Voltage Agus Kiswantono
DIELEKTRIKA Vol 12 No 1 (2025): DIELEKTRIKA
Publisher : Jurusan Teknik Elektro Fakultas Teknik Universitas Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/dielektrika.v12i1.412

Abstract

In this research, current and voltage measurements were conducted to monitor and protect the electrical distribution system in real-time. The voltage was measured using a ZMPT101B sensor with a range of ±250V. An Arduino microcontroller was used to read the voltage values and calculate the average voltage over a specific period. This voltage measurement is crucial for detecting disturbances such as overvoltage and undervoltage. For instance, if the voltage exceeds 220V, the system detects the overvoltage condition and activates a relay to disconnect the electrical supply, thus protecting electrical equipment from damage due to excess voltage. Additionally, an ACS712 sensor was used to measure the current with a range of ±5A. The microcontroller calculates the average current value and detects any current surges exceeding the threshold of 5A. If the measured current exceeds this threshold, the system automatically activates the relay to disconnect the electrical supply, preventing damage to equipment or fires due to excessive current. With this protection system, it is expected to enhance the security and reliability of electrical distribution, as well as minimize the risk of disturbances that could damage equipment and improve the operational efficiency of the distribution system. The implementation of continuous current and voltage measurements also provides more accurate and responsive monitoring of the system's condition, facilitating prompt decision-making in a short time. This system is expected to be applied across various sectors to improve protection and efficiency in electrical energy distribution.
Co-Authors Erwin Nur Cahyono Sutandyo Lukito Pamungkas