Agustia, Fenny Dwi and Drs. Hari Arief Dharmawan, M.Eng., Ph.D and Dewi Anggraeni, S.Si., M.SI (2024) Pengembangan Modul Mikrokontroler Untuk Remote Lab Dengan Menggunakan Board Arduino Mega 2560 Pro Mini Ch340 Dan Modul Esp-01. Sarjana thesis, Universitas Brawijaya.
Abstract
Dalam era digital, kebutuhan akan Remote Lab menjadi sangat penting, baik untuk praktikum maupun pembelajaran. Dengan berkembangnya teknologi, praktikum saat ini dapat dilakukan secara jarak jauh. Remote Lab memungkinkan percobaan secara jarak jauh dapat dilakukan melalui internet. Pada saat ini, modul mikrokontroler yang digunakan di Laboratorium Remote Lab belum menggunakan Arduino Mega 2560 Pro Mini CH340. Oleh karena itu, dalam penelitian ini mengembangkan modul mikrokontroler Arduino Mega 2560 Pro Mini CH340 dan modul ESP-01. Perancangan dimulai dengan menentukan pin yang akan dihubungkan dengan modul Remote Lab, pembuatan skematik rangkaian, desain PCB, serta pembuatan program pengujian. Melalui penelitian ini, didapatkan hasil bahwa melalui aplikasi Remote Lab, motor DC dapat diatur dari kecepatan rendah ke tinggi secara bertahap, motor stepper dapat berputar searah jarum jam selama 3 putaran penuh berulang kali, pembacaan tegangan dari power supply sebesar 0,95V dan 3,83V serta pengukuran suhu ruangan Laboratorium Remote Lab dari sensor LM35 sebesar 28,30 C terbaca dan tampil di serial monitor. Selain itu, melalui platform Blynk, LED dapat dikendalikan, status push button dapat dipantau, dan nilai potensiometer dapat dibaca secara real-time. Berdasarkan hasil yang didapatkan, bisa disimpulkan bahwa modul mikrokontroler Arduino Mega 2560 Pro Mini CH340 dan modul ESP-01 telah bekerja dengan baik dan terhubung dengan benar dengan Remote Lab.
English Abstract
In the digital era, the need for Remote Labs has become crucial for both practical work and learning. With the advancement of technology, practical sessions can now be conducted remotely. Remote Labs enable remote experiments to be performed over the internet. Currently, the microcontroller module used in the Remote Lab does not utilize the Arduino Mega 2560 Pro Mini CH340. Therefore, this research focuses on developing an Arduino Mega 2560 Pro Mini CH340 microcontroller module and an ESP-01 module. The design process began with determining the pins to be connected to the Remote Lab module, creating the circuit schematic, designing the PCB, and developing the test program. The results of this research showed that, through the Remote Lab application, the DC motor can be controlled from low to high speed gradually, the stepper motor can rotate clockwise for 3 full turns repeatedly, the voltage readings from the power supply were 0.95V and 3.83V, and the room temperature of the Remote Lab as measured by the LM35 sensor was 28.30 C, which was displayed on the serial monitor. Additionally, through the Blynk platform, LEDs can be controlled, the status of push buttons can be monitored, and the potentiometer values can be read in real-time. Based on the results obtained, it can be concluded that the Arduino Mega 2560 Pro Mini CH340 microcontroller module and the ESP-01 module have functioned well and are correctly connected to the Remote Lab.
| Item Type: | Thesis (Sarjana) |
|---|---|
| Identification Number: | 0524090198 |
| Uncontrolled Keywords: | Remote Lab, Arduino Mega 2560 Pro Mini, ESP-01, Internet of Things (IoT). |
| Divisions: | Fakultas Matematika dan Ilmu Pengetahuan Alam > Instrumentasi Fisika |
| Depositing User: | Unnamed user with username nova |
| Date Deposited: | 21 Aug 2024 06:26 |
| Last Modified: | 21 Aug 2024 06:26 |
| URI: | http://repository.ub.ac.id/id/eprint/223629 |
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