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All Journal RELE: Rekayasa Elektrikal dan Energi Jurnal Teknik Elektro Jurnal Mutiara Elektromedik Jurnal ABDIMAS MUTIARA
Dabukke, Hotromasari
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Chemistry Computer Science & IT Electrical & Electronics Engineering Industrial & Manufacturing Engineering Mechanical Engineering Medicine & Pharmacology Nursing Other

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Journal : Jurnal Mutiara Elektromedik

 1 
ANALISIS KECEPATAN PUTARAN HOTPLATE MAGNETIC STIRRER BERBASIS ARDUINO UNO Dabukke, Hotromasari; Primasyukra, Mhd. Aldi; Lasiyah, Nani; Gaol, Midun Andrike Lumban
JURNAL MUTIARA ELEKTROMEDIK Vol. 7 No. 1 (2023): Jurnal Mutiara Elektromedik
Publisher : Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51544/elektromedik.v7i1.4495

Abstract

The Arduino Uno Based Hotplate Magnetic Stirrer Rotational Speed ​​Design has been successfully carried out. The function is to stir and heat one solution with another solution which aims to make a homogeneous solution with the help of a Magnetic stir bar (Stir Bar). The purpose of this design is to know the design of the HotPlate Magnetic Stirrer with 400 Rpm Rotation Speed ​​Settings and to determine the accuracy of the Hotplate Magnetic Stirr rotation speed. The method used is the experimental method. The components in this design are Arduino uno and consist of DC Stepper motor components, motor drivers, 20x4 lcd. The working principle of the design of the hotplate magnetic stirrer based on Arduino Uno. The PLN AC 220V current enters the power supply which converts to a DC voltage of 12V 10A, then Arduino Uno receives a DC voltage of 12V to turn on circuits such as motor drivers that require 12V voltage directly from the power supply, 9V stepper motors, 5V buzzers. Furthermore, the stepper motor will run according to the command set on keyped. To compare the rotational speed settings, use the tachometer calibration tool. The test results show the Rotational Speed ​​of the Arduino Uno-Based Hotpate Magnetic Stirrer, the rpm rotation speed is in accordance with the settings and the results obtained are 10% tolerance. The results of measuring the voltage on the power supply.
PEMANTAUAN DAN KONTROL REAL TIME INKUBATOR NEONATAL Sijabat, Salomo; Rajagukguk, Desy Lustiyani; Dabukke, Hotromasari; Adiansyah
JURNAL MUTIARA ELEKTROMEDIK Vol. 7 No. 2 (2023): Jurnal Mutiara Elektromedik
Publisher : Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51544/elektromedik.v7i2.4944

Abstract

Telah dilakukan penelitian dengan membuat alat inkubator bayi yang dapat berfungsi secara otomatis pemantauan dan kontrol real-time inkubator neonatal. Kontrol suhu dan kelembaban sistem monitoring sangat dibutuhkan dalam sebuah inkubator karena saat ini masih banyak suhu pemantauan dilakukan secara manual. Demikian pemantauan dan pengendaliannya sistem suhu dan kelembaban inkubator telah dirancang yang dapat dipantau secara otomatis dari jarak yang cukup jauh berdasarkan Internet Of Things (IoT). Metode penelitian ini terdiri dari 2 bagian sistem yaitu perangkat utama dan perangkat pemantauan. Sensor yang digunakan adalah DHT11 untuk temperatur dan kelembaban, serta sensor DS18B20 untuk suhu ruangan. Pemantauan dapat dilakukan secara real-time dan pengontrolan manual dapat dilakukan dan ditampilkan pada LCD. Jika suhu dan kelembaban tidak cocok, pemanas atau kipas DC akan menyala. Penelitian ini adalah membuat alat inkubator yang dapat berfungsi secara otomatis pemantauan dan kontrol real-time inkubator neonatal. Hasil penelitian nilai kesalahan setiap kondisi suhu sedang diuji dapat diketahui dengan pasti besaran kesalahan (eror) yang terjadi pada setiap perlakuan hal ini akan memberikan gambaran tentang keakuratan alat yang digunakan dari data tersebut diperoleh nilai kesalahan rata-rata dari ke 13 kali percobaan adalah sebesar 0,09% demikian juga halnya perbandingan dengan pembanding termometer digital dan termometer air raksa. Jadi, tingkat akurasi peralatan sensor yang digunakan dengan pendeteksi suhu DS18B20 adalah mencapai 99,91% .
ANALISIS PEMELIHARAAN KOREKTIF PADA ALAT HFNC (High Flow Nasal Cannula) Mukhlis, Alfi; Dabukke, Hotromasari; Ulina, Sri; Sijabat, Salomo
JURNAL MUTIARA ELEKTROMEDIK Vol. 8 No. 1 (2024): Jurnal Mutiara Elektromedik
Publisher : Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51544/elektromedik.v8i1.5144

Abstract

Ventilator is a mechanical assistive device that functions to provide artificial respiration to patients by providing negative or positive air pressure to the lungs through the airways. who can maintain ventilation and administration of oxygen for long periods of time (Brunner and Suddarth, 2001). While the HFNC (High Flow Nasal Cannula) Ventilator is a Ventilator specifically used for the treatment of patients suffering from acute hypoxemia. It is necessary to carry out maintenance so that the tools with this type of research are of high quality The measurement result is the oxygen gas flow rate, according to the size of the flowrate selection, namely 30 lpm, 45 lpm and 60 lpm.
RANCANG BANGUN TIMER DAN WATER LEVEL SENSOR PADA ALAT NEBULIZER BERBASIS ARDUINO UNO Nasution, Muhammad Ananda Rifky; Dabukke, Hotromasari; Primasyukra, Mhd.Aldi
JURNAL MUTIARA ELEKTROMEDIK Vol. 7 No. 2 (2023): Jurnal Mutiara Elektromedik
Publisher : Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51544/elektromedik.v7i2.5303

Abstract

A nebulizer is a piece of equipment used to convert liquid medication into an aerosol that will be inhaled by the user according to a doctor's prescription. The design of a timer and water level sensor on an Arduino Uno-based nebulizer was carried out to make it easier for users to operate and add an automation system that is integrated with an Arduino Uno type microcontroller. This design has the same device concept as a nebulizer in general, but adds a timer system via an attached push button and relay. Apart from that, the addition of a water level sensor is used to detect the amount of fluid in the reservoir. This design uses an experimental concept with narrative qualitative research methods. Device design is divided into 2 types, namely hardware and software. Programming using Arduino IDE and circuit simulation using Proteus. The design was successfully made and testing was carried out on the timer and water level sensor. The nebulizer worked according to its function and the timer test error value was 0.018704323 with a comparison difference with the stopwatch of 0.5 seconds.  
ANALISA PEMELIHARAAN KOREKTIF PADA ALAT PATIENT MONITOR DI RUMAH SAKIT UNIVERSITAS SUMATERA UTARA Wahyudi, Dody; Dabukke, Hotromasari; Sijabat, Salomo
JURNAL MUTIARA ELEKTROMEDIK Vol. 8 No. 1 (2024): Jurnal Mutiara Elektromedik
Publisher : Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51544/elektromedik.v8i1.5305

Abstract

Patient monitor is a tool that functions to monitor the physiological condition of patients. Where the monitoring process is carried out in real-time. The purpose of this analysis is to find out how this corrective maintenance is carried out starting from the beginning to the end of the process. With this research, the author will get valid data about patient monitor tools, this research is also carried out in accordance with the rules of the law so that no violations will be created. The reason for using this patient monitor is so that things do not happen that can make the patient's condition worse and also medical technicians can find out the patient's condition in real time, in other words this patient monitor tool is made to assess the current condition of the patient and evaluate the influence of the patient's intervention. This monitoring tool can measure vital signs in patients, such as temperature, blood pressure, respiration, pulse rate which are displayed directly on the patient monitor screen itself in real time Corrective maintenance analysis on this patient monitor is equipped with a calibration tool that can help carry out this activity.
Co-Authors Abdillah, Khairil Abid Jaya Harefa Adiansyah Adiansyah Adiansyah, Adiansyah Adiansyah*, Adiansyah Gaol, Midun Andrike Lumban Harold Situmorang, Harold Lasiyah, Nani Mukhlis, Alfi Mutiara Ananda Putri Nasution, Muhammad Ananda Rifky Primasyukra, Mhd. Aldi Primasyukra, Mhd.Aldi Priyulida, Fitria Rajagukguk, Desy Lustiyani Rajagukguk, Desy Lustiyani Rajagukguk Lustiyani Salomo Sijabat Sijabat, S Sijabat, Salomo Ulina, Sri Wahyudi, Dody Yosari Pratama Naibaho