Jurnal Mutiara Elektromedik
Focus : Jurnal Mutiara Elektromedik yang memuat hasil penelitian tentang kajian keilmuan Teknologi Elektromedik Scope : Teknologi Elektromedik, Teknik Elektro, Teknologi Radiologi Pencitraan, Teknologi Instrumentasi, Fisika medis, Rekam Medis dan Sistem Informasi Kesehatan
Articles
143 Documents
<![CDATA[RANCANG BANGUN SIMULASI KONTROL LAMPU OPERASI DENGAN IR REMOTE DAN MANTION DETECTOR ]]>
<![CDATA[M. Jidan Khoir]]>;
<![CDATA[Fitria Priyulida]]>
<![CDATA[ JURNAL MUTIARA ELEKTROMEDIK Vol 3 No 1 (2019): Jurnal Mutiara Elektromedik ]]>
Publisher : <![CDATA[Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia ]]>
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<![CDATA[Operating lamp is a surgical instrument used for lighting during surgery in the operating room. The main function is to illuminate objects during surgery which are placed in the operating room and delivery room. This study aims to design an operating lamp control with an IR remote and a mention director to make it easier for users not to adjust the installation of operating lamps. all these systems are controlled by ATMega 328p. In this day and age more and more medical devices are very sophisticated so that it is easy and efficient in the use of and efficient in the use of electric current so that with the tone of this era the authors make a design and design simulation of operating lamp control with IR remote and mantion detector to save usage electric current and makes it easier for users to operate the operation lights by detecting motion sensors and remote IR so that the operating lights will only turn on when there are people on the operating table, so that the electric current used is far more efficient by using the Arduino Unu microcontroller, PIR sensor motion detector and IR Remote as the Remote controller Operating lights]]>
<![CDATA[ANALISA FAKTOR mA PADA PESAWAT X-RAY GENERAL MERK ALLENGERS TYPE 325 ]]>
<![CDATA[Yusalim Azis]]>;
<![CDATA[Samser Nababan]]>
<![CDATA[ JURNAL MUTIARA ELEKTROMEDIK Vol 3 No 1 (2019): Jurnal Mutiara Elektromedik ]]>
Publisher : <![CDATA[Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia ]]>
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<![CDATA[The analysis of the mA factor has been carried out on the X-Ray General aircraft brand Allengers type 325 which was carried out in the radiology laboratory of the Sari Mutiara Indonesia University. The problem is finding the mA accuracy by making a factor of 50 mA, 100 mA, 150 mA, 200 mA. The aim is to determine and analyze the level of accuracy of x-ray accuracy and film density.The research method used is quantitative research methods through measurement and data collection directly on the X-Ray General Allenger brand type 325, the results of the data obtained were analyzed descriptively using tables and graphs.Current accuracy (mA) measurements were carried out four times using variations of ma, including 50 mA, 100 mA, 150 mA, 200 mA, and using a voltage of 50 kV and a time of 0.25 S, and using FFD with a height of 100 cm. Good measurement results are using a capacity of 50 kV, 100 mA, 0.25 S on the X-Ray General aircraft brand Allengers type 325 which is in the radiology laboratory of Sari Mutiara Indonesia University. Key words: general x-rax, diagnostic]]>
<![CDATA[RANCANG BANGUN PENGONTROL SUHU BAYI NORMAL PADA INFANT WARMER SECARA OTOMATIS ]]>
<![CDATA[Laili Marwiyah]]>;
<![CDATA[Salomo Sijabat]]>
<![CDATA[ JURNAL MUTIARA ELEKTROMEDIK Vol 3 No 1 (2019): Jurnal Mutiara Elektromedik ]]>
Publisher : <![CDATA[Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia ]]>
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<![CDATA[Infant warmer is a device used to help maintain the warmth of a baby so that the newborn feels the temperature like in the mother's womb. In this infant warmer there are procedures and the main feature is temperature with the main aim to maintain the temperature for the baby to avoid hypothermia. The design of this tool aims to obtain the design of infant warmers using the DHT11 sensor as a temperature indicator displayed on the LCDThis research starts from the stages of gathering various sources, formulating potential problems, gathering information, designing tools, designing and conducting functional tests. This design uses a DHT11 sensor, LCD, heater and driver. After the design has been carried out, testing each series to determine whether the system works in accordance with the theory discussed If you have already done so, then design the infant warmer design using the DHT11 sensor as a temperature indicator with the display on the ATMega8535 microcontroller-based LCD already feasible to use]]>
<![CDATA[RANCANG BANGUN ALAT UKUR TINGGI BADAN OTOMATIS BERBASIS ANDROID ]]>
<![CDATA[Diva Perdana]]>;
<![CDATA[Fitria Priyulida]]>
<![CDATA[ JURNAL MUTIARA ELEKTROMEDIK Vol 3 No 1 (2019): Jurnal Mutiara Elektromedik ]]>
Publisher : <![CDATA[Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia ]]>
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<![CDATA[Design and construction of an Android-based automatic height measurement tool has been carried out. This research was made due to the demand for sophisticated medical support equipment with all the capabilities it has that continues to develop so that effective and efficient medical support equipment can be produced. This tool is designed with the aim of providing information about the measurement data of height and weight to users. Measurement results data will be sent to Android in the form of messages to be stored using the android database system storage.This research method uses qualitative methods, namely: study literature and literature and conduct experiments on the circuit design made, then test the function of the tool with a meter to determine the accuracy of the work of this tool. This tool is made by utilizing the sharp ir sensor as conversion then will sent via GSM SIM 800L, and the data is displayed via the application and SMS on the patient's AndroidThe test results show that the distance obtained is the conversion result taken from the travel time of infrared rays when they emit light and receive reflected objects. seen the percentage error value for each measurement, which allows the sensor to read errors and possible interference from the compiler program. As long as the% error does not exceed 3%, the module design for automatic height measuring instruments can be used properly]]>
<![CDATA[RANCANG BANGUN SISTEM LIFE TIME PROSES PENYINARAN PADA ALAT TERAPI INFRA MERAH ]]>
<![CDATA[Aldrin Waoma]]>;
<![CDATA[Yulizham Yulizham]]>
<![CDATA[ JURNAL MUTIARA ELEKTROMEDIK Vol 3 No 1 (2019): Jurnal Mutiara Elektromedik ]]>
Publisher : <![CDATA[Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia ]]>
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<![CDATA[The current Infrared therapy device is still operated manually and there is no data on the length of the system's irradiation time. Lack of manufacturer's Infrared devices when used by physiotherapists do not know the exact time produced by Infrared light. This can pose a risk of neglect in monitoring the length of time the patient is exposed to the radiation. To overcome these problems, an infrared therapy device is designed which is equipped with a timer / timer system based on the ATMega8535 microcontroller. With this timing / timer system, we can find out the age of the infrared lamp (life time) according to the amount of usage needed so that the lamp replacement can be estimated according to the total usage of the IR lamp. With this system, on the other hand it is very useful for physiotherapy operators where physiotherapy operators can find out the time of use / irradiation of Infrared therapy devices to patients. So it can help patients who need infrared therapy without fear of side effects due to time that is not in accordance with the required therapy process.]]>
<![CDATA[ANALISA KONTROL KV SELEKTOR PADA PESAWAT RONTGEN MERK MEDONICA ]]>
<![CDATA[Wilson Siallagan]]>;
<![CDATA[Samser Nababan]]>
<![CDATA[ JURNAL MUTIARA ELEKTROMEDIK Vol 3 No 1 (2019): Jurnal Mutiara Elektromedik ]]>
Publisher : <![CDATA[Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia ]]>
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<![CDATA[The Problems About KV Selector Control Analysis on X-Ray Medonica Brands are to find out how the influence of KV on X-Ray planes on Image Quality in KV measurements varies at 50KV, 60KV, and 70KV with 100 mA, and 0.20 s (20 mAs), on FFD 100 cm to the same object that was done in the Radiology Room of the Medan Adventist Hospital.Writing this scientific paper using qualitative descriptive research methods by measuring, collecting data directly on the Medonica brand X-ray machine and comparing the results of good photo films to diagnose patients.Exposure is carried out using a focal height to film (FFD) of 100 cm, 100 mA, 0.20 s. By using a KV variation, the field area is adjusted to the collimator lamp as a good indicator of the irradiation field.From the results that will be obtained later will be obtained a comparison between the 3 (three) CV parameters tested and will get good imaging results and will then be continued in the diagnosis of patients.]]>
<![CDATA[ANALISA PEMELIHARAAN PATIENT MONITOR di UPTD PUSKESMAS TELUK DALAM ]]>
<![CDATA[Ratahati Gaurifa]]>;
<![CDATA[Siti Rahmah]]>
<![CDATA[ JURNAL MUTIARA ELEKTROMEDIK Vol 4 No 1 (2020): Jurnal Mutiara Elektromedik ]]>
Publisher : <![CDATA[Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia ]]>
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<![CDATA["Analysis of Patient Monitor Maintenance at the UPTD public healty center Teluk dalam".Continuous health services need to be supported by equipment that is always ready to use and can function properly. This requires public healty center management to be able to manage and maintain medical equipment effectively and efficiently. This study aims to determine the implementation of patient monitor maintenance at the UPTD public healty center Teluk dalam. This research is a descriptive study with a quantitative survey method. The instrument used is to collect data. The results of this study indicate the aspects of natural resource input, processes, and outputs. The results of this study indicate that in practice, it cannot run properly, caused by limited technicians, lack of training, and maintenance SOP are not in accordance with procedures. It is recommended that the public healty center management pay more attention to the equipment maintenance system (input, process, and output) in order to avoid the problem of equipment damage and to work optimally.]]>
<![CDATA[ANALISA KALIBRASI ALAT ELECTROCARDIOGRAPH MENGGUNAKAN ELECTROCARDIOGRAPH SIMULATOR (PHANTOM ECG) ]]>
<![CDATA[Martina Murniawati Gulo]]>;
<![CDATA[Yulizham Yulizham]]>
<![CDATA[ JURNAL MUTIARA ELEKTROMEDIK Vol 4 No 1 (2020): Jurnal Mutiara Elektromedik ]]>
Publisher : <![CDATA[Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia ]]>
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<![CDATA[An electrocardiograph is a device that can display a signal graphic showing the process of the heartbeat. From these signals it can be seen whether a person's heart rate is normal or not. The method used in this research is quantitative observation. Which aims to analyze the calibration of the Electrocardiograph (ECG) device using a simulator (Phantom ECG). And also aims to determine the results of the data obtained after observing the workflow of the tool. From the results of electrocardiograph testing at the Health Facility Security Center (BPFK) Medan, the results were obtained. Electrocardiograph testing at the paper speed set point 25 mm / sec 10 mm / mv obtained results of 25.18 +- 0.37 because it is within a tolerance value of +- 5%. At the paper speed set point of 50 mm / sec, 10 mm / sec, the result is 50.16 +- 0.37 because it is within a tolerance value of +- 5%. At the sensitivity setting point of 5 mm / mv, 25 mm / sec, the result is 5.24 +- 0.37 because it is within a tolerance value of +- 5%. At the sensitivity setting point of 10 mm / mv, 25 mm / sec, the result is 10.22 +- 0.37 because it is within a tolerance value of +- 5%. And at the sensitivity setting point of 20 mm / mv, 25 mm / sec, the result is 20.26 +- 0.36 because it is within a tolerance value of +- 5%.]]>
<![CDATA[ALUR KERJA ECG pada PASIEN MONITOR ]]>
<![CDATA[Hery Setiawan Gulo]]>;
<![CDATA[Siti Rahmah]]>
<![CDATA[ JURNAL MUTIARA ELEKTROMEDIK Vol 4 No 1 (2020): Jurnal Mutiara Elektromedik ]]>
Publisher : <![CDATA[Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia ]]>
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<![CDATA[An electocardiogram (ECG) is one of the parameters in the patient monitor tool that is used to monitor the patient's physiological condition in the form of blood pressure, temperature, respiration, SpO2 and the shape of the heart pulse continuously. This study aims to determine the workflow of the ECG in monitor patients and to determine changes in the ECG waveform when the lead position is changed.This research was conducted at the USM-I Integrated Laboratory. The research method used was descriptive by observation. Which aims to find out how the ECG workflow on the patient monitor and to find out the changes in the ECG waveform when the lead position is changed.This research was conducted using the PM5000 patient monitor. The results of this study indicate that the electrical potential originating from the heart is detected on the surface of the body through electrodes and jelly, both of which are connected to the device via a patient cable in the form of a color coded lead on each lead, after amplifying then the electric pulse will be displayed on the display in the form wave. when installing the lead on the patient must be in accordance with the position and position according to the procedure, because it greatly affects the resulting wave.]]>
<![CDATA[RANCANG BANGUN AUTOCLAVE MENGGUNAKAN SENSOR SUHU DS18B20 DENGAN KONTROL RELAY BERBASIS ARDUINO ]]>
<![CDATA[Zainal Arifin]]>;
<![CDATA[Rizal Thalib]]>
<![CDATA[ JURNAL MUTIARA ELEKTROMEDIK Vol 4 No 1 (2020): Jurnal Mutiara Elektromedik ]]>
Publisher : <![CDATA[Prodi Teknik Elektromedik Universitas Sari Mutiara Indonesia ]]>
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<![CDATA[The purpose of this final project is to design an Autoclave using a DS18B20 Temperature Sensor with Arduino Uno-based Relay Control. This autoclave uses a DS18B20 temperature sensor which functions to measure the temperature inside the tool. The usage is enough by setting the required temperature and timer, the temperature and timer that are set can be seen on the LCD display. The design method used in making the Autoclave design uses a DS18B20 Temperature Sensor with Arduino Uno-based Relay Control as a whole through 4 stages: (1) Selection of the components needed in the manufacturing process; (2) Component Installation; (3) Program Charging on Arduino; (4) Testing Tools and Drawing Conclusions. The performance test results show that the medical equipment will be sterile at 121 C for 10 – 15 minutes. If the temperature does not reach 121 C and the time is less than 10 minutes, then medical equipment cannot be said to be sterile. This sterilization test uses autoclave tape paper as an indicator. If the paper turns a faint brown color, it can be concluded that the medical equipment is not sterile, and if the paper changes color to blackish brown then the medical equipment is declared sterile. The advantage of this tool is that when the temperature reaches the setting, the buzzer will sound, and if the timer is set to run out or the sterilization process is complete, the buzzer will sound again.]]>
