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A Monitoring System of Ankle Rehabilitation For Paralyzed Patients Using Android Aplication Hanum Arrosida; Asih Setiarini; Basuki Winarno; Albert Sudaryanto
Kinetik: Game Technology, Information System, Computer Network, Computing, Electronics, and Control Vol 4, No 3, August 2019
Publisher : Universitas Muhammadiyah Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22219/kinetik.v4i3.674

Abstract

A Monitoring system of ankle rehabilitation for paralyzed patients was successfully designed. The monitoring application on Android smartphone was made app inventor. This application uses bluetooth HC-05 as a data transmission between the ankle therapy aids and smartphone Android. A MPX5050DP sensor is used to determine the muscle condition of the paraplegic to measure the muscle strength scale and control the motor dc speed of ankle rehabilitation hardware. The virtual keys on the application are five instructions of therapeutic movement such as, dorsiflexion (200), plantarflection (450), eversion (100), inversion (100) and patterned of movement. The access time to operate the ankle rehabilitation hardware is 0.8 seconds. This application includes an alarm and a database that can be used as a monitoring system. An alarm menu serves as a reminder for patients to take therapy and database to store data readings of sensors that converted into scale and muscle pressure. A MPX55050DP sensor output is displayed on smartphone application, stored in database and the therapy results are reserved to document format. The capacity of the database corresponds to the memory on the smartphone. Based on the measurement results, the ankle therapy application on android smartphone can control the system movement of ankle therapy aids and as a monitoring system of therapy results for paralyzed patients and make easily in analyzing the condition of leg muscle strength.
COMPARISON OF STATOR WINDINGS ON PERMANENT MAGNET GENERATORS FOR HORIZONTAL AXIS WIND TURBINE (HAWT) Basuki Winarno; Jasa Kusumo Haryo; Yulius Harry Widodo; imam basuki
JEEMECS (Journal of Electrical Engineering, Mechatronic and Computer Science) Vol 2, No 1 (2019): February 2019
Publisher : Merdeka Malang University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (349.759 KB) | DOI: 10.26905/jeemecs.v2i1.2718

Abstract

The generator is the main component for a wind power plant.  The Horizontal Axis Wind Turbine (HAWT) is one of electric power plants types which has a horizontal axis. The plant is suitable to be operated in areas that have a fairly large wind speed. The low-speed HAWT generator can be designed using a permanent magnet.  This paper compares the coil design of the stator generator which has 12 poles arranged in 3 phases, and the rotor part consists of 24 Neodymium (NdFeB) type permanent magnets. Based on analytical studies, the design of generator windings is varied by 3 turns and 6 turns. The tests has been carried out for  100rpm - 1000rpm generator rotation. The research conclusions are recommendations to reduce 0.5 times the rotation and at 3 times the winding in obtaining optimal performance. DOI : https://doi.org/10.26905/jeemecs.v2i1.2718
Monitoring System Motor Induksi 3 Fasa Berbasis Internet of Things Ricky Febri Aryo; Basuki Winarno; Suluh Argo Pambudi
JEECAE (Journal of Electrical, Electronics, Control, and Automotive Engineering) Vol. 6 No. 2 (2021): JOURNAL OF ELECTRICAL, ELECTRONICS, CONTROL, AND AUTOMOTIVE ENGINEERING (JEECAE
Publisher : Pengelolaan Penerbitan Publikasi Ilmiah (P3I) Politeknik Negeri Madiun

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

Abstract

Penelitian ini bertujuan untuk merancang alat sistem monitoring dan gangguan pada motor listrik berdasarkan parameter arus, tegangan, daya, dan faktor daya berbasis IoT (Internet of Things) yang didapatkan dari sensor energi listrik PZEM-004T yang telah terpasang pada rangkaian kontrol pada motor. kemudian data yang dihasilkan sensor diolah pada rangkaian mikrokontroler dan selanjutnya data ditampilkan dalam web aplikasi IoT ThingSpeak guna untuk mengetahui arus, tegangan, daya, dan faktor daya pada motor. Dengan adanya alat monitoring ini maka dapat mengetahui berapa besar arus, tegangan, daya, dan faktor daya yang ditunjukkan pada layar PC/ Laptop dengan web aplikasi IOT ThingSpeak dan jika terjadi gangguan pada motor maka Buzzer yang difungsikan sebagai indikator akan berbunyi ketika arus diatas 1 ampere.
Penerapan ELCB Pada Pompa Irigasi Sawah Untuk Pengaman Arus Bocor di Desa Rejosari Madiun Budi Triyono; Yuli Prasetyo; Hanifah N. K. N.; Basuki Winarno; R. Jasa K. H; Budi Artono
J-ADIMAS (Jurnal Pengabdian Kepada Masyarakat) Vol 7, No 2: 2019
Publisher : (STKIP) PGRI Tulungagung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29100/j-adimas.v7i2.1448

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Penerapan Pengatur Suhu Otomatis pada Kebun Bibit Untuk Ketahanan Pangan Pondok Pesantren Al Mujaddadiyah Budi Triyono; Yuli Prasetyo; Hanifah N. Kumalaningrum; R. Jasa Kusumo; Basuki Winarno; Aditya PP
JATI EMAS (Jurnal Aplikasi Teknik dan Pengabdian Masyarakat) Vol 5 No 3 (2021): Jati Emas (Jurnal Aplikasi Teknik dan Pengabdian Masyarakat)
Publisher : Dewan Pimpinan Daerah (DPD) Perkumpulan Dosen Indonesia Semesta (DIS) Jawa Timur

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36339/je.v5i3.468

Abstract

Al Mujaddadiyah Islamic Boarding School has vacant land which is used for nursery. The boarding school nursery is managed by the manager of the boarding school and the students. The boarding school nursery is used to produce plant seeds so that economic benefits are obtained in their management. The problem that exists in the Al Mujaddadiyah Islamic Boarding School Nursery is that plant seeds often dry and wither. This is due to the lack of watering on plant seeds due to the busyness of the cottage manager. Awareness of students to care for and watering plant seeds is also lacking. There is no application of technology to determine the temperature around the nursery to keep it stable. The PKM activity in the nursery school of the AL Mujaddadiyah Islamic boarding school provides solutions to partner problems by setting the temperature automatically in the nursery. The results of this automatic temperature setting can automatically water plant seeds if the temperature in the nursery does not match the initial setting temperature.
Pengabdian Kepada Masyarakat Pembuatan Alat Pakan Ikan Otomatis dengan Solar Cell untuk Budidaya Gurami Budi Artono; Basuki Winarno; Budi Triyono; Kumala Mahda Habsari; Nur Asyik Hidayatullah
Jurnal Pengabdian Mitra Masyarakat (JPMM) Vol 4, No 1: April (2022)
Publisher : Universitas Amikom Purwokerto

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (404.072 KB) | DOI: 10.35671/jpmm.v4i1.1987

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Pemerintah Kabupaten Tulungagung melalui Dinas Perindustrian dan Perdagangan mensosialisasikan dan mendorong berkembangnya usaha mikro dan kecil di wilayah Kabupaten Tulungagung. Salah satu sektor produksi yang memiliki potensi untuk dikembangkan lebih lanjut adalah usaha fillet ikan gurami yang memiliki prospek cukup besar, baik di dalam maupun di luar negeri. Desa Wonorejo, Kecamatan Sumbergempol, Kabupaten Tulungagung merupakan salah satu daerah yang memproduksi fillet ikan gurame dalam skala kecil hingga menengah. Permasalahan yang sangat dasar pada usaha pembesaran ikan air tawar adalah faktor cuaca yang tidak menentu yang mengakibatkan pembesaran ikan gurami air tawar di kolam tidak bisa maksimal dan sering mengalami kerugian karena banyaknya ikan yang mengalami kematian. Fluktuasi suhu menyebabkan ikan stress sehingga nafsu makan menurun sementara perkembangan penyakit terutama jamur dan bakteri serta virus meningkat. Oleh karena itu, dalam kegiatan ini akan membantu menyelesaikan permasalahan mitra dalam bidang produksi pembesaran ikan gurami serta bidang manajemen pakan dan kontrol kualitas ikan yang akan dipasarkan. Pemberian pakan ikan gurami yang kurang merata dapat menyebabkan ukuran gurami konsumsi menjadi kurang maksimal. Sedangkan, ikan gurami yang dihasilkan mitra banyak dipasarkan sebagai gurami konsumsi di beberapa rumah makan dan restoran hingga di kota besar. Ikan gurami yang memiliki cacat atau ukurannya kurang tidak sesuai kualitas yang diharapkan maka tidak dapat dipasarkan ke kota besar. Pada kegiatan pengabdian kepada masyarakat ini, penerapan teknologi pemberi pakan otomatis akan dirancang dan dibuat berbasis renewable energy menggunakan solar cell. Sumber energi listrik dari solar cell akan memberi suplai alat pemberi pakan otomatis. Penerapan alat tersebut akan terhubung ke IoT untuk monitoring dan mengontrol pemberian pakan dari jarak jauh. Alat ini memberikan solusi yang terbaik, terpercaya, dan terjangkau untuk budidaya pembesaran ikan gurami. Memberikan pakan dengan jumlah yang tepat sesuai dengan kebutuhan ikan.
Peningkatan Keselamatan Gedung melalui Pemeriksaan MEP dalam Proses Sertifikat Laik Fungsi (SLF) Yuli Prasetyo; Basuki Winarno; Kumala Mahda H; Ryan Wicaksono; R. Oktav Yama; Narava Kansha Putra P
JURNAL PENGABDIAN MASYARAKAT INDONESIA Vol. 4 No. 3 (2025): Oktober : Jurnal Pengabdian Masyarakat Indonesia (JPMI)
Publisher : Lembaga Pengembangan Kinerja Dosen

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55606/jpmi.v4i3.6040

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This activity begins with checking the mechanical, electrical, and plumbing (MEP) systems at the Gunung Mas Building in Madiun City, to assist in the process of issuing a Certificate of Functional Worthiness (SLF). The inspection included electrical power capacity, main distribution panels (MDP and SDP), lightning protection systems, light fire extinguishers (APAR), and pipe or plumbing installations such as clean water channels, waste water channels, and rain drainage. The results showed that the installed power was 105 KVA from PLN, the distribution panel, and cable sizes generally met safety standards (SNI and IEEE). However, several problems were found such as a load imbalance exceeding 10%, the lack of measuring instruments on the panel, and cable sizes that needed to be adjusted to the rating of the protective device. Plumbing installations such as a clean water source with a 2000 liter roof tank, waste disposal to a septic tank, and rainwater channels to the city channel were still running well, although repairs were needed to the bathroom in the putty area. Overall, the building was declared suitable, with recommendations for improving load distribution, adjusting cable sizes, and routine maintenance.
SISTEM CHARGING 110 VDC SEBAGAI SUPPLY CONTROL CIRCUIT VOLTAGE KUBIKEL 20 KV Dimas Nur Prakoso; Yuli Prasetyo; Basuki Winarno; Budi Triyono; Santi Triwijaya
ELECTRON Jurnal Ilmiah Teknik Elektro Vol 6 No 2: Jurnal Electron, November 2025
Publisher : Jurusan Teknik Elektro Fakultas Teknik Universitas Bangka Belitung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33019/electron.v6i2.322

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The 110VDC supply at the substation serves as a supply for the control and protection system at the cubicle panel. In addition, the 110VDC battery used as a backup supply plays an important role when the main supply source is lost. Loss of supply 110VDC is fatal to the electrical system. Causes electrical interference cannot be monitored and protection failure. 110VDC batteries may experience voltage drops. There are several ways to keep the battery in good condition when used, one of them with a charging system which functions to maintain the condition battery. This system uses a Buck converter circuit with charging pulses through the duty cycle can distribute high electric current to battery. With a Buck converter output voltage of 111 Volt 6.54 A at duty cycle 55% using dummy load. Test results with a voltage of 110VDC and a current of 5A in testing with dummy load of 10Ω480W obtained voltage output of 103VDC and current of 8.40A, in testing with dummy load of 10Ω400W received voltage output of 136VDC and current of 6.28A, in testing with dummy load of 12Ω500W received voltage output of 122VDC and current of 6.00 A, in testing with dummy load of 15Ω500W received voltage output of 127VDC and current of 5.88 A, in testing with dummy load of 11Ω500W received voltage output of 111VDC and current of 6.54A. From the overall test data by providing a load in the form of a dummy load, an average error of 9.86% was obtained.
Perancangan dan Pengujian PLTS Off-Grid Portabel Berbasis IoT untuk Aplikasi Darurat Infrastruktur Transportasi Budi Triyono; Dimas Nur Prakoso; Yuli Prasetyo; Basuki Winarno; Ryan Wicaksono; Santi Triwijaya; Satrio Nugroho
Nucleus Journal Vol. 5 No. 1 (2026): May
Publisher : Universitas Darul Ulum

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32492/nucleus.v5i1.5109

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Ketersediaan catu daya yang andal pada infrastruktur transportasi sangat penting untuk menjaga keselamatan, ketertiban, dan kontinambungan layanan, khususnya pada kondisi darurat ketika pasokan listrik dari jaringan terganggu. Penelitian ini bertujuan merancang dan menguji sistem Pembangkit Listrik Tenaga Surya (PLTS) off-grid portabel berbasis Internet of Things (IoT) sebagai sumber daya darurat untuk infrastruktur transportasi berkelanjutan. Metode penelitian menggunakan pendekatan rekayasa sistem yang meliputi studi literatur, perancangan perangkat keras, integrasi sistem monitoring IoT, perakitan prototipe, serta pengujian laboratorium dan lapangan. Sistem yang dikembangkan terdiri atas tiga panel surya dengan total kapasitas 300 Wp, baterai lithium 12 V 100 Ah, solar charge controller PWM 20 A, inverter 1000 W, serta dashboard monitoring berbasis Ubidots. Hasil pengujian menunjukkan bahwa tegangan keluaran panel surya berada pada rentang 19,5–20,5 V dengan daya tertinggi mencapai 89,3 W pada pukul 11.00. Tegangan keluaran solar charge controller relatif stabil pada rentang 13,37–13,43 Vdc selama proses pengisian. Pada pengujian baterai saat pelepasan beban, tegangan menurun dari 13,46 Vdc menjadi 13,37 Vdc, diikuti penurunan tegangan AC inverter dari 205 Vac menjadi 198 Vac. Sistem IoT berhasil menampilkan parameter kelistrikan secara real-time, meliputi tegangan, arus, daya, status charging-discharging, dan state of charge baterai. Hasil penelitian menunjukkan bahwa sistem yang dikembangkan layak digunakan sebagai solusi catu daya darurat yang portabel, efisien, dan mudah dipantau