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J-Innovation
Published by Politeknik Aceh
ISSN : 23382082     EISSN : 28085620     DOI : https://doi.org/10.55600/jipa
Core Subject : Science, Engineering,
Computer Science & IT Control & Systems Engineering Electrical & Electronics Engineering Engineering Industrial & Manufacturing Engineering
Journal contains information about Mechatronics, Electronics Engineering, and Software Engineering. The Journal J-Innovation is a journal that is published twice a year, in June and December. Focus and Scope: 1. Robotics 2. Electrical and electronic 3. Energy convertion 4. Sensor technology 5. Control system 6. Manufacture 7. Software computer 8. Information and technology multimedia 9. Other relevant multidisciplinary science
Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro
Articles 116 Documents
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MAXIMUM POWER POINT TRACKING PADA IRADIASI DAN SUHU BERFLUKTUASI BERBASIS FUZZY TYPE-2 Naafilah Widya Mulya; Novie Ayub Windarko; Rachma Prilian Eviningsih
J-Innovation Vol. 10 No. 2 (2021): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (494.296 KB) | DOI: 10.55600/jipa.v10i2.112

Abstract

The potential of solar energy in Indonesia can be utilized as renewable energy and become one of the main alternative energy sources for power generation. The characteristics of solar panels will change depending on radiation levels and temperatures causing the power output of solar panels to fluctuate and become unstable. To reduce oscillations in output power, a study is needed to maximize the output power on solar panels, namely by using the Maximum Power Point Tracking (MPPT) method by using DC - DC circuits in the form of Cuk Converters using fuzzy type 2 controls to get optimal power values on the output. Test results using MATLAB / SIMULINK showed that in model 1 when irradian conditions 1000W / m2 with a temperature of 25 oC using Fuzzy Type 1 the accuracy obtained is 97.5% and using Fuzzy Type 2 the accuracy obtained is 100.2%. In model 2 when irradian conditions 1000 W / m2 with a temperature condition of 40oC using Fuzzy Type 1 the accuracy obtained is 94.3% and using Fuzzy Type 2 the accuracy obtained is 93.1%.
Rancang Bangun Alat Monitoring Nutrisi Kebun Hidroponik Rouhillah; Inzar Salfikar; Javid Hamar
J-Innovation Vol. 10 No. 2 (2021): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (451.223 KB) | DOI: 10.55600/jipa.v10i2.114

Abstract

Hydroponics is a way of farming that does not use soil as a planting medium, but its uses water that contains nutrients. In the growth of hydroponic plants, it can be affected by various factors, one of them is the delay in adding hydroponic water nutrients. This research aims to create a system monitoring nutrient levels and water availability in reservoir. Then, the microcontroller processes the data and sends the data with the help of NodeMcu ESP8266 to Firebase. The data in Firebase will be forwarded to Android using the MIT App Inventor software with Internet of Thing (IoT) technology. In this research, the hydroponic plants used are lettuce which has a nutritional value of around 560 - 840 in units of parts per million (ppm). As a result of testing, the sensor is not able to measure nutrient levels reaching 850 ppm and the xkc-y25 sensor can detect water in a full or reduced reservoir, all of these sensors data are measured in real time, and can be monitored via android.
RANCANG BANGUN MESIN ABSENSI TANPA MENYENTUH DENGAN RFID Rizki Faulianur; Inzar Salfikar
J-Innovation Vol. 11 No. 1 (2022): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (528.008 KB) | DOI: 10.55600/jipa.v11i1.122

Abstract

In education, attendance is very important for lecturers and students. Currently, attendance used in universities still uses signatures or fingerprints so that there is direct contact with certain objects. But in the current pandemic. students and lecturers are required to keep their distance and avoid physical contact with shared objects because they can spread the virus quickly. This Attendance machine is offered to limit direct contact and inhibit the spread of the coronavirus by using Radio Frequency Identification (RFID) as a method of controlling Raspberry pi. RFID will generate a unique code that is used as user data which will then be stored with Raspberry pi and then stored in the database. RFID can read the reader within a range of 3 cm. From the test results, this machine is able to recognize 3 users who detect and process data quickly
Rancang Bangun Pot Pintar Berbasis IoT Artdhita Fajar Pratiwi; Galih Mustiko Aji; Arif Sumardiono; Purwiyanto; Sari Widya Utami
J-Innovation Vol. 11 No. 1 (2022): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (423.244 KB) | DOI: 10.55600/jipa.v11i1.126

Abstract

This study aims to create a smart pot that can automatically maintain indoor ornamental plants. This research begins with designing a pot model in a 3-dimensional image and fabricating using a 3D printer. The pot consists of 3 parts, namely the lower part for storage of the controller, the middle part as a place for nutrient water, and the upper part as a planting medium. Smart pots are equipped with sensors to support plant growth such as temperature and humidity sensors, soil moisture sensors, and water level sensors for plant nutritional needs. This system can be monitored and controlled remotely using an android smartphone if it is connected to Wi-Fi. The android application is made using MIT App Inventor which is connected to the firebase database so that it can be monitored via the internet remotely. Sensor data is sent in real-time and stored in the firebase database in the cloud. The test results show that the sensors in the pot are able to respond in real-time during the process of maintaining ornamental plants. The android application created can display indicators and the status of the plant microenvironment in more detail than the display on hardware.
Rancang Bangun Sistem Terapi Infrared Otomatis Untuk Terapi Far-Infrared Pada Spinal Cord Eko Arianto; Bernardinus Sri Widodo
J-Innovation Vol. 11 No. 1 (2022): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (302.573 KB) | DOI: 10.55600/jipa.v11i1.127

Abstract

Infrared therapy is a therapy that is mostly done by utilizing the effects of heat generated on the human body, especially on the surface of the skin that is directly exposed. There are several types of infrared but the most commonly used for therapy is far-infrared (FIR). The dose of infrared therapy varies with a range of 10-45 minutes and is carried out several times a week. In Indonesia, most infrared therapy uses a portable infrared lamp. In infrared therapy, there are several things that must be done, such as keeping the infrared lamp distance from the patient's body, maintaining therapy time, and adjust position to the location that needs therapy. There are three parameters that must always be monitored and controlled: distance, time, and position. To adjust these three parameters with a fairly long duration of therapy, it is quite tiring for the therapist or people who help the therapy. With these problems, an automatic infrared therapy system will be very helpful. The design of the automatic infrared therapy system can help solve existing problems such as being able to control the timer, distance, and position of infrared therapy. The infrared therapy system that has been successfully created can work well. The proximity sensor works accurately, the motion mechanism and the timer also work well. Keywords: automatic infrared therapy, automatic therapy, infrared therapy, FIR therapy
Disain dan Implementasi Inverter Satu Fasa Dengan Output Sinusoidal Menggunakan Metode Modulasi SPWM effendi effendi; Intan Nurul Fajri
J-Innovation Vol. 11 No. 1 (2022): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (695.405 KB) | DOI: 10.55600/jipa.v11i1.129

Abstract

Single-phase inverter with sinusoidal output in this research was arranged by using Arduino Uno that aim as pulse wave generator, where the ON and OFF pulse times are obtained by using the SPWM (Sinusoidal Pulse Width Modulation) modulation method. This modulation compare a sinusoidal reference wave that has frequency 50 Hz with a carrier wave in form of triangular with a frequency of 2 KHz. To get the time of each pulse, formerly a simulation is carried out using a computer (PSIM Program), furthermore by using the programming language on Arduino this pulse wave is used to trigger the H-Bridge circuit which is composed of components in the form of MOSFETs by using with help four TLP 250 circuits. The output wave from the H-Bridge circuit futhermore connected to a filter circuit that consist of inductor and capacitor components to get the output in the form of a sinusoidal wave at a resistive load of 44 Ohms.
Traffic Light Portable Menggunakan Rf Wireless dengan Sumber Energi Solar Cell Rouhillah; Rachmad Ikhsan
J-Innovation Vol. 11 No. 1 (2022): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (397.827 KB) | DOI: 10.55600/jipa.v11i1.130

Abstract

The Solar Cell Portable Traffic Light is fabricated in order to assist and facilitate the traffic during road work to avoid traffic jam and accident. It’a developed with microcontroller as the main controller, LED as the light (signal lamp), a pair of poles to wireless communication and solar panel and battery for the power source. The poles height is 3 meters, which can rovide the maximum distance about 100 meters in open are which yield comfort and safety for road users during road work.
Sistem Pemantauan Hasil Tampung Nira Kelapa Berbasis IoT (Internet of Things) Daru Quthni Firdaus; Ali Rizal Chaidir; Wahyu Muldayani; Guido Dias Kalandro; Dodi Setiabudi
J-Innovation Vol. 11 No. 1 (2022): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (288.32 KB) | DOI: 10.55600/jipa.v11i1.133

Abstract

An IoT-based monitoring system is a system that can monitor the situation by utilizing an internet connection. This system can be applied to simplify a production process, for example monitoring the results of the storage of coconut sap. Nira is a liquid from coconut flowers which has a sugar content ranging from 7.5 to 20%. The way to get sap is to climb a coconut tree and put the container on top, then wait for the container to fill up with sap. The monitoring process can be simplified by utilizing IoT technology. There is a sensor installed in the container, namely a water level float sensor which functions as a sensor to monitor the results of the storage of sap. The sensor provides information to the user via the eps8266 electronic board and LoRa module. Information can be read by users through the telegram application. The results of the test show that the water level float sensor can detect coconut sap that has filled the container. The use of the LoRa SX1278 module is effective in plantation areas. The signal capture power is good even though it is placed on a coconut tree where there are several obstacles that block around the module.
Rancang Bangun Mesin Pengering Kulit Pohon Kina Menggunakan Kontrol Pid Berbasis Mikrokontroler Guido Dias Kalandro; Dodi Setiabudi; Ali Rizal Chaidir
J-Innovation Vol. 11 No. 2 (2022): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55600/jipa.v11i2.132

Abstract

Kina in plants there are several kinds of plant parts that can be taken advantage but in this case, the author will discuss the special problems of cinchona bark between 0.5 meters and 0.5 meters from the bottom and top of the plant kina. Because the bark of cinchona was the producers took to be resold to the pharmaceutical industry. During this time many of the manufacturers of leather kina kina dry the skin by way menjemuran directly in the sun. In this process the skin needs time producers such as 5-6 days if no disruption of nature such as rain, clouds, etc.. For example, if there is rain then the drying process can take up to 2 weeks up to maximum water levels dropped to 60% - 55%. With the above problems the writer needs to design a device where the temperature can be controlled and not influenced by disruption of natural factors.
Analisis Tingkat Penyebaran Suhu Inkubator Bayi Dengan Sensor DS18B20 Eko Arianto; Agus Siswoyo
J-Innovation Vol. 11 No. 2 (2022): Jurnal J-Innovation
Publisher : Politeknik Aceh

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55600/jipa.v11i2.144

Abstract

A baby incubator is a special device used by newborns that is used to keep the baby's temperature warm. The temperature in the baby incubator can be adjusted according to the baby's needs. Babies who need the most incubators are babies born prematurely and babies born with low weight. A good baby incubator is one that can maintain the required temperature stably and evenly throughout the room. In this study, we will focus on observing the temperature distribution in the baby incubator. Tests in this study will use a lab-scale baby incubator. The baby incubator will be set at 32℃ then the DS18B20 temperature sensors will be placed on four sides in the baby incubator room. Then measurements will be made for 30 minutes and timed data is taken every 2 minutes. The baby incubator temperature analyzer prototype was successfully made and tested in comparison with several other temperature sensors, the result is that the DS18B20 is stable and can indeed be a good choice of temperature sensor. The results of testing the level of heat distribution in the baby incubator, there is an uneven temperature at each sensor point with a difference of 0.15 ~ 0.29℃. When compared to the Krisbow Environment meter, the Environment measurement results tend to be lower. The results of this analysis indicate that there is an uneven distribution of heat in the incubator <0.30℃. It is necessary to do a more detailed analysis on each incubator temperature setting, namely at a temperature of 32~37℃ in another study.

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