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All Journal Jurnal MESIL (Mesin Elektro Sipil) Jurnal Teknologi Komputer dan Informatika Scientica: Jurnal Ilmiah Sains dan Teknologi Jurnal Cakrawala Akademika
Muhamad Hilmansyah Susanta
Politeknik Pajajaran ICB Bandung
Religion Agriculture, Biological Sciences & Forestry Humanities Civil Engineering, Building, Construction & Architecture Computer Science & IT Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Electrical & Electronics Engineering Engineering Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Mechanical Engineering Social Sciences Other

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PROTOTYPE PENGGUNAAN EMPAT SENSOR ULTRASONIK PADA PALANG PARKIR OTOMATIS BERBASIS ARDUINO UNO Susanta, Muhamad Hilmansyah
Scientica: Jurnal Ilmiah Sains dan Teknologi Vol. 2 No. 10 (2024): Scientica: Jurnal Ilmiah Sains dan Teknologi
Publisher : Komunitas Menulis dan Meneliti (Kolibi)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.572349/scientica.v2i10.2641

Abstract

Perkembangan sistem otomasi terus meningkat. Beberapa pekerjaan yang biasanya dilakukan manusia mulai tergerus oleh penggunaan sistem otomasi. Pengunaan mikrokontroler arduino uno dalam sistem otomasi banyak digunakan. Salah satunya pada pembuatan palang parkir otomatis. Sensor ultrasonik digunakan untuk mendeteksi adanya kendaraan dan motor servo berfungsi untuk membuka palang pintu parkir. Pada pembuatan alat ini mengunakan 4 sensor ultrasonik dan dua motor servo. Dua sensor ultrasonik dan satu motor servo di pasang pada arah masuk area parkir, sedangkan yang lainya pada arah keluar area parkir.
PENGUKURAN TEGANGAN DAN ARUS LISTRIK MENGUNAKAN SENSOR INA 219 BERBASIS ARDUINO UNO Susanta, Muhamad Hilmansyah
Scientica: Jurnal Ilmiah Sains dan Teknologi Vol. 3 No. 1 (2024): Scientica: Jurnal Ilmiah Sains dan Teknologi
Publisher : Komunitas Menulis dan Meneliti (Kolibi)

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

Abstract

Pengukuran Nilai tegangan dan arus listrik yang dihasilkan oleh sumber listrik perlu di tampilkan. Nilai yang dihasilkan oleh sumber listrik dapat di pantau guna pengambilan tindakan akan adanya perubahan nilai Tegangan dan arus Listrik. Pengukuran Nilai tegangan dan arus listrik biasanya menggunakan AVO Meter. Pada pembuatan alat ini menggunakan Mikrokontroler Arduino Uno sebagai pengolah data dan sensor INA 219 Sebagai sensor Tegangan dan Arus Listrik. Nilai dan tegangan yang dihasilkan oleh sumber listrik di tampilkan pada LCD 16 x 2..
LAMPU TIDUR OTOMATIS MENGGUNAKAN SENSOR LDR BERBASIS ARDUINO UNO Susanta, Muhamad Hilmansyah
Jurnal Teknologi Komputer dan Informatika Vol 3 No 1 (2024): Jurnal Teknologi Komputer dan Informatika (TEKOMIN)
Publisher : LPPM Politeknik Pajajaran ICB Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59820/tekomin.v3i1.238

Abstract

The use of switches to turn on and turn off the electricity of lights is commonly used in everyday life. It is used in several installations covering rooms including garden lights, room lights, terrace lights and warehouse lights. Night lights are used to help sleep more soundly. The light intensity produced by night lights is very dim so it does not disturb you when sleeping. In making this tool, the lights automatically turn on and off the sleeping lights so that the user does not need to press the on and off switch to turn them on and off. Some of the equipment includes an LDR sensor as input which is used to detect the presence of light, a relay which is used as an output to disconnect and connect the PLN electricity supply, an Arduino Uno microcontroller which functions as an input and output data processor.
Prototype Alat Pengukur Jarak Aman kendaraan  Menggunakan Sensor Ultrasonik dan Layar LCD Berbasis Arduino Uno Muhamad Hilmansyah Susanta
Jurnal Cakrawala Akademika Vol. 1 No. 6 (2025): Edisi April
Publisher : PT. Pustaka Cendekia Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70182/JCA.v1i6.4

Abstract

Car head-on collisions, or accidents in which a vehicle hits the back of another vehicle, one of the causes is due to the lack of a safe distance. The distance that is too close to the vehicle in front makes the reaction time very short, making the collision difficult to avoid. Based on the problems above, a tool was created to monitor the safe distance between vehicles. So that the distance of the vehicle can be seen on the LCD screen. Some components include using ultrasonic sensors, Arduino Uno microcontrollers and 16 x 2 LCD screens. Ultrasonic sensors function as vehicle distance meters and LCD screens function to display the distance values ​​read by the ultrasonic sensor. Arduino Uno microcontrollers function as data processors both from ultrasonic sensors and to 16x2 LCD screens.
Pengukuran Efisiensi Panel Surya Type Polycrystalline Berbasis Teknologi Internet of Things (IoT): Pengukuran Efisiensi Panel Surya Type Polycrystalline Berbasis Teknologi Internet Of Things (IoT) Susanta, M H; sururi; Darmawan, E
Jurnal MESIL (Mesin Elektro Sipil) Vol. 6 No. 1 (2025): Jurnal MESIL (Mesin Elektro Sipil)
Publisher : Cered Indonesia Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53695/jm.v6i1.1232

Abstract

IoT technology is widely used in various sectors such as Manufacturing, Health, Security and Transportation. In this study, IoT technology is used to measure the efficiency produced by solar panels. Efficiency is a comparison of the power produced to the capacity of the solar panel. The efficiency value of solar panels is influenced by the intensity of sunlight. The greater the efficiency value, the better. Some components include the ESP 32 Microcontroller, 20WP Solar Panel, Ina 219 Sensor and 20 Watt Resistor. The Ina 219 sensor reads the power produced by the solar panel which is connected to a 20 Watt resistor. The reading results are processed by the ESP 32 microcontroller and transmitted via the internet network to be stored in the Online application. So that the power data produced is stored automatically. Data collection was carried out for 7 days from 10:00 to 15:00. Based on the measurement results, the highest power produced by the solar panel occurred at 11:00 every day. The highest efficiency value occurred on the 3rd day at 5.97%. Meanwhile, the lowest efficiency value occurred on the 5th day at 3.73%.
RANCANG BANGUN TOPI TUNA NETRA DENGAN 3 AKSES KONTROL SENSOR ULTRASOUND BERBASIS ARDUINO UNO Susanta, Muhamad Hilmansyah; Sujana, Nana
Jurnal Teknologi Komputer dan Informatika Vol 2 No 2 (2024): Jurnal Teknologi Komputer dan Informatika (TEKOMIN)
Publisher : LPPM Politeknik Pajajaran ICB Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59820/tekomin.v2i2.179

Abstract

Advances in science and technology are very helpful in human work. One of them is technological advances in the field of control systems. The use of microcontrollers really helps humans in carrying out their activities in daily life. One of its uses is in making tools to assist the blind in carrying out their activities. The blind hat with 3 Arduino-based ultrasound accesses is a tool for detecting distance with a range of 3 accesses, namely front, right side and left side. The components used in this tool include the Arduino Uno microcontroller, HC-SR 04 Ultrasound Sensor and DF Player and speakers. The Arduino Uno microcontroller is used as a data processor for both sensor input and actuator output. The use of the HC-SR04 Ultrasound sensor is used as a sensor for detecting obstacle distances. Meanwhile, the DF Player and Speaker are used as actuators. If the obstacle distance of the HC-SR04 sensor is under 40CM, the speaker will emit a sound according to the detected location so that the obstacle distance of an object can be detected by the blind from 3 access controls, namely the front, right side and left side.
ALAT PENGUKURAN KELENGKUNGAN TULANG BELAKANG MANUSIA BERBASIS ARDUINO UNO. Susanta, Muhamad Hilmansyah
Jurnal Teknologi Komputer dan Informatika Vol 2 No 1 (2023): Jurnal Teknologi Komputer dan Informatika (TEKOMIN)
Publisher : LPPM Politeknik Pajajaran ICB Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59820/tekomin.v2i1.168

Abstract

Scoliosis is a spinal abnormality in the form of a lateral curvature which can be in the form of C or S. Scoliometer is a tool used in the examination of spinal abnormalities using the forward-bending method. Scoliosis can be detected in children at puberty (growth). Making tools in the title of this Final Project as a substitute for an electronic-based Scoliometer. This tool uses the MPU 6050 sensor as a Tilt sensor, Arduino Uno R3 Microcontrol as a data processor and the output of this tool in the form of an LCD screen as a sensor value and 3 LED lights (yellow, blue and red) as a result of inspection of tools in 3 categories, namely Normal, Intermediate and High Probability There is a difference in the slope between the tool and the tilt module (oblique object). Testing that is% error testing, at 10 at 1%, testing at 20 at 2%, testing at 30 at 3.3%, testing at 40 at 0.75%, testing at 50 at 1.2%, testing at 60 at 1.6% and testing at 70 is 1.1%.
Co-Authors Darmawan, E Sujana, Nana Sururi