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All Journal Jurnal Pendidikan Fisika RELE: Rekayasa Elektrikal dan Energi Jurnal Teknik Elektro JURNAL ONLINE KEPERAWATAN INDONESIA Jurnal Darma Agung JURNAL KIMIA SAINTEK DAN PENDIDIKAN Jurnal Mutiara Elektromedik Jurnal ABDIMAS MUTIARA JPFT (Jurnal Pendidikan Fisika Tadulako Online) JURNAL TEKNOLOGI, KESEHATAN DAN ILMU SOSIAL
Hotromasari Dabukke
Universitas Sari Mutiara Indonesia
Humanities Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Chemistry Civil Engineering, Building, Construction & Architecture Computer Science & IT Decision Sciences, Operations Research & Management Earth & Planetary Sciences Education Electrical & Electronics Engineering Energy Engineering Health Professions Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Library & Information Science Materials Science & Nanotechnology Mechanical Engineering Medicine & Pharmacology Nursing Physics Public Health Social Sciences Other

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PENGARUH DAYA HISAP TERHADAP ALAT SUCTION PUMP Iqbal Eka Riansyah; Hotromasari Dabukke
JURNAL MUTIARA ELEKTROMEDIK Vol. 5 No. 2 (2021): 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.v5i2.3362

Abstract

Research on the effect of suction power on the YB-DX23B smaf suction pump has been carried out.The method used in this research is quantitative experiment by measuring, testing and collecting data directly on the suction pump. The measuring instrument used is Vacum Gauge Meter. By using water as an object to replace blood and with a predetermined 10 second timer set, set the volume to adjust the volume of water you want and set the regulator to adjust how much suction power is needed.This research was conducted at the Electronics Laboratory of Sari Mutiara University- Indonesia. The results of this research are when the regulator is set at parameter -100 mmHg, the output on the vacuum gauge meter becomes -10 cmHg and the liquid is inhaled as much as 700 ml, when the regulator is set at parameter -200 mmHg, the output on the vacuum gauge meter becomes -20 cmHg and the liquid is inhaled as much as 1000 ml, when the regulator is set at the parameter -300 mmHg, the output on the vacuum gauge meter becomes -30cmHg and the liquid sucked is 1300 ml, and the regulator is set to the parameter -400 mmHg and the output on the vacuum gauge meter becomes -40 cmHg and the liquid is inhaled as much as 1500 ml.Measurements using a vacum gauge on the suction pump according to the settings set by the user. The greater the vacuum power, the faster the process of suctioning thevolume of liquid in.
RANCANG BANGUN INFANT WARMER BERBASIS MIKROKONTROLER ATMEGA8535 Salomo Sijabat; Hotromasari Dabukke; Adiansyah Adiansyah
Jurnal Online Keperawatan Indonesia Vol 3 No 1 (2020): JURNAL ONLINE KEPERAWATAN INDONESIA
Publisher : UNIVERSITAS SARI MUTIARA INDONESIA

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Abstract

Infant warmer adalah alat yang digunakan untuk menjaga suhu bayi agar tetap stabil, yaitu bayi yang baru lahir premature atau pengobatan pasca beroprasi dengan cara memanfaatkan elemen kering atau heater yang diletakan diatas bayi dengan jarak ±50cm diatas bayi dengan suhu yang diatur antara 35ºC-37ºC, Tombol setting suhu di box system akan dipermudah dengan adanya Liquid Cracter Digital (LCD) ukuran 16 x 2 sebagai penampil suhu ruangan dan suhu yang ditentukan, yang bekerja sesuai perintah Mikrokontroler Automatic Voltage Regulator (AVR) ATmega8535. LCD berfungsi untuk menampilkan angka suhu yang diukut oleh sensor LM 35, sedangkan AVR berfungsi untuk menstabilkan tegangan pada level 5V Terdapat pengaman yaitu sensor LM35 sebagai penjaga stabilitas suhu disekitar bayi. Infant warmer memiliki temperature ± 0,3ºC pada 34ºC, 36ºC, 39ºC hanya tampilan, dan Akurasi alat Tinggi, rendah <0,5%. [3]
ANALISIS KALIBRASI SUHU DAN KEBISINGAN PADA INKUBATOR PERAWATAN MENGGUNAKAN METODE ECRI Zulfahmi Zulfahmi; Hotromasari Dabukke
JURNAL MUTIARA ELEKTROMEDIK Vol. 2 No. 1 (2018): Jurnal Mutiara Elektromedik
Publisher : Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia

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Abstract

Incubator is a very important tool in hospitals, especially for premature babies. Because this tool is very related to the safety and survival of the baby, periodic calibration is needed. The purpose of this research is to find out the calibration techniques and the calculation of uncertainty of the data resulting from temperature and noise measurements. The incubator calibration activity refers to the ECRI method 415-20010301-01. As the determination of the threshold value or test passing value is +- 1C for temperature and <-65 dBA for noise. The results obtained from the calibration and calculation are 31.89 +- 0.48 C for temperature and 44.7 +- 7.2 dBA for noise. From these results it was stated that the CHS-i1000 incubator was declared suitable for use.
ANALISIS KALIBRASI SUHU PADA INFANT WARMER MENGGUNAKAN METODE ECRI 415-200010301-01 Iwan Ara Rizki; Hotromasari Dabukke
JURNAL MUTIARA ELEKTROMEDIK Vol. 3 No. 1 (2019): Jurnal Mutiara Elektromedik
Publisher : Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia

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Abstract

Infant warmer is an electromedic device which is used to provide comfort and warmth in a newborn, where the baby needs a temperature that is in accordance with the temperature in the mother’s womb,which is between 34 C - 37 C. Infant warmer calibration activities refer to the ECRI method 415-20010301. As the treshold value or the value of passing the test is +- 2 C for temperature. The results obtained from calibration are 31,89+- 0,51 C for temperature. From these results it was stated that the GIGANTE infant warmer was declared to be suitable for use.
ANALISA PEMELIHARAAN KOREKTIF TERHADAP INFUS PUMP MINDRAY BENEFUSION VP5 Khairil Abdillah; Hotromasari Dabukke; Fazri Maulana; Greace Seselia Br Tarigan
JURNAL MUTIARA ELEKTROMEDIK Vol. 5 No. 1 (2021): 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.v5i1.4500

Abstract

Research has been done on the infusion pump. As for the purpose of this study is to determine the problem of repairing the infusion pump. Corrective maintenance is maintenance action taken to overcome damage or congestion that occurs repeatedl, then take corrective action on teh tool. An infusion pump is a medical device that is used to provide additional electrolytes in the form of a liquid that is injected into the patient’s body in a certain amount through a vein. The display of the infusion pump device does not turn on due ti the disconnection of the flexible cable connector between the LCD and the device’s mother board. During operation a red high sound alarm appears for 10 seconds. When checking the infus pump., it was found that the infusion hose was loose for the patient user, in other checks, the infusion pump clamp was found to be broken. The research is that the infusion pump has been functioning properly after checking and repairing. Maintenance of the infusion pump must be routine and scheduled to prevent damage so that the life of the tool is long. Testing and calibration of the infusion pump, especially on the parameters of the infusion pump, it is mandatory to carry out routine checks on the infusion pump.
ANALISIS PEMANTAUAN INFUS PERISTALTIK BERBASIS SENSOR TCRT 5000 Dabukke, Hotromasari; Rajagukguk, Desy Lustiyani Rajagukguk Lustiyani; Sijabat, Salomo; Adiansyah, Adiansyah
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Publisher : RELE (Rekayasa Elektrikal dan Energi) : Jurnal Teknik Elektro

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30596/rele.v6i2.16530

Abstract

Abstrak— Penelitian ini bertujuan untuk menganalisis keakuratan TCRT5000 sebagai sensor berdasarkan pembacaan sistem pada pompa infus. Peralatan ini terdiri dari sensor TCRT5000, rangkaian komparator, rangkaian menstabil, motor stepper, driver motor L298N, dan mikrokontroler ATmega328. Sensor TCRT 5000 membaca tetesan cairan infus yang diberikan, kemudian diperkuat oleh rangkaian komparator dan menstabil, setelah itu pembacaan laju aliran dan volume sisa dihasilkan oleh mikrokontroler ATmega328. Selanjutnya data ini dikirim melalui nirkabel HC-11. Metode penelitian dilakukan dengan menghitung laju aliran menggunakan alat Infuse Device Analyzer dengan menunjukkan nilai error, dan nilai error dihitung pada sistem pada dosis 30 ml/jam dan nilai error terendah pada setting 100ml/jam. Hasil penelitian diperoleh data bahwa data laju alir IDA mempunyai kecepatan dengan sensor laju alir 80 ml/jam dengan rata-rata penurunan sebesar 14,20 dengan error sebesar 1,5% dengan laju error sebesar 0,2 tetes/menit dengan minimum kecepatan 0,42 tetes/menit dengan besarnya 0,16 tetes/menit. Untuk perancangan pompa infus menggunakan sensor TCRT 5000 dengan nilai error yang sangat kecil terdapat pada 100 ml/jam dengan rata-rata drop sebesar 16,22 dengan error sebesar 1,2% dengan error rate sebesar 0,3 tetes/menit dengan kecepatan minimal sebesar 0,41 tetes /menit dengan besarnya 0,15 tetes/menit. Berdasarkan hasil penelitian dapat diartikan bahwa nilai error tidak melebihi batas toleransi kalibrasi. Keakuratan data yang diperoleh lebih tinggi jika dibandingkan dengan menggunakan sensor fotodiode inframerah. Dari pengolahan data, laju aliran IDA mempunyai error sebesar 2,2%. nilai pada waktu alir 30 ml/jam, 1,15% pada waktu alir 60 ml/jam, dan 0,58% pada waktu alir 100 ml/jam sehingga alat ini dapat digunakan untuk meningkatkan keakuratan alat dan dapat menghindari kesalahan dalam pemberian infus pada pasien.
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.  
Co-Authors Abdillah, Khairil Abid Jaya Harefa Adiansyah Adiansyah Adiansyah Adiansyah, Adiansyah Adiansyah*, Adiansyah Agusniat Zendrato Ahmad Rizki Ananda Hasibuan Alfonso Butarbutar Arief H Siregar Aritonang, Fitler Aulia, Putri Berkat Panjaitan Berkat Panjaitan Edison Halawa Elva Dewsita Ermi Girsang Fazri Maulana Fitler Aritonang Franedya Argarini Saragih Gaol, Midun Andrike Lumban Greace Seselia Br Tarigan HALAWA, TOMI SAPUTRA Harahap, Gunawan Fahri Harefa, Abid Jaya Harold Situmorang, Harold Heribertus Salman Jei Laia Hestina Hestina Iqbal Eka Riansyah ISTARA , FAJAR Iwan Ara Rizki Jekki Artafik Manik Josua Sianturi Juli Yanti Simanullang Khairil Abdillah Khairil Abdillah Khairuna Irma Lasiyah, Nani M . Rendi Wardana M Mukmin Mhd Aldi Primasyukra Mukhlis, Alfi Mutiara Ananda Putri Nababan, Todo Manaek Naibaho, Yosari Pratama Naomi Hutabarat Nasution, Muhammad Ananda Rifky Primasyukra, Mhd Aldi Primasyukra, Mhd. Aldi Primasyukra, Mhd.Aldi Priyudlida, Fitria Priyulida, F Priyulida, Fitria Putri, Mutiara Ananda Rajagukguk, Desy Lustiyani Rajagukguk, Desy Lustiyani Rajagukguk Lustiyani Salomo Sijabat Salomo Sijabat Sijabat, S Sijabat, Salomo Siregar, Adlin Khairi Siregar, Saut Dohot Sitorus, Tenberry Sixnawan Suharthaman Nazara Sri Ayu Tugi Astuti Sri Ulina Syahru Romadhon Ulina, Sri Vivi Purwandari Wahyudi, Dody Wardana, Chandra Wina Arni Lahagu Yosari Pratama Naibaho Zalukhu, Yaman Anto ZENDRATO, JOFAN RESTU JUA PUTRA Zuhairiah Nasution, Zuhairiah Zulfahmi Zulfahmi