RANCANG BANGUN ALAT PENCAMPURAN CAT AIR 3 WARNA DASAR BERBASIS MIKROKONTROLER

Haji Wijaya; Sulaiman Sulaiman; Muhammad Ariandi; Rahmat Novrianda Dasmen

doi:10.31869/rtj.v8i2.6694

RANCANG BANGUN ALAT PENCAMPURAN CAT AIR 3 WARNA DASAR BERBASIS MIKROKONTROLER

Haji Wijaya, Sulaiman Sulaiman, Muhammad Ariandi, Rahmat Novrianda Dasmen

Sari

Research and development in the paint industry continue to evolve along with market demands for innovative and high-quality paint products. This study focuses on the development of an automated microcontroller-based paint mixing device to enhance the efficiency and quality of products in the paint industry. The process of mixing basic paint materials, such as pigments, binders, and solvents, is often carried out manually, which is prone to inaccuracy and takes more time. The application of microcontrollers in paint mixing offers a more precise and automated solution, allowing better control over mixing consistency and parameters. Test results show that this device can produce accurate color mixing using the TCS3200 color sensor to detect RGB variations, as well as an ultrasonic sensor to detect the presence of objects during the mixing process. Mixing various primary colors demonstrated consistent results, with mixing times varying depending on the complexity of the mixture.Keywords: Automatic paint mixing, microcontroller, TCS3200 color sensor, ultrasonic sensor, production efficiency, color consistency, paint industry, automation, RGB, and basic material mixingResearch and development in the paint industry continue to evolve along with market demands for innovative and high-quality paint products. This study focuses on the development of an automated microcontroller-based paint mixing device to enhance the efficiency and quality of products in the paint industry. The process of mixing basic paint materials, such as pigments, binders, and solvents, is often carried out manually, which is prone to inaccuracy and takes more time. The application of microcontrollers in paint mixing offers a more precise and automated solution, allowing better control over mixing consistency and parameters. Test results show that this device can produce accurate color mixing using the TCS3200 color sensor to detect RGB variations, as well as an ultrasonic sensor to detect the presence of objects during the mixing process. Mixing various primary colors demonstrated consistent results, with mixing times varying depending on the complexity of the mixture. Keywords: Automatic paint mixing, microcontroller, TCS3200 color sensor, ultrasonic sensor, production efficiency, color consistency, paint industry, automation, RGB, and basic material mixing

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Referensi

Abdurrahman, A., & Sari, I. N. (2021). Desain sistem otomatis untuk pencampuran warna menggunakan mikrokontroler. Jurnal Teknologi dan Rekayasa, 10(2), 123-135.

Affendi, Yusuf. 2019. Disain Warna, Susunan dan Fungsinya. Bandung:

Proyek Pengemb. Ilmu dan Teknologi ITB Bandung

Budi, S. H., & Kurniawan, R. (2022). Pengembangan perangkat mikrokontroler untuk aplikasi pencampuran warna dalam industri kreatif. Jurnal Inovasi Teknik, 15(1), 45-56.

Cahya, W., & Susanto, A. (2020). Implementasi mikrokontroler dalam sistem pencampuran warna otomatis. Jurnal Elektronika dan Sistem Kontrol, 9(3), 201-210.

Christanto Danny. 2020. Panduan Praktikum Dasar Mikrokontroller Keluarga MCS-51 Menggunakan DT-51 Minimum System Ver 3.0 dan DT-51 Trainer Board. Surabaya: Innovative Electronics.

Dewi, R. S., & Hadi, S. (2023). Sistem otomatis berbasis mikrokontroler untuk aplikasi pencampuran warna dalam proyek DIY. Jurnal Teknik dan Perangkat Lunak, 12(4), 298-307.

Eka, M. F., & Lestari, D. (2021). Perancangan sistem pencampuran warna dengan kontrol mikrokontroler untuk aplikasi industri. Jurnal Inovasi Teknologi, 11(2), 87-96.

Fahmi, A., & Hidayat, T. (2022). Pembuatan sistem berbasis mikrokontroler untuk efisiensi dalam pencampuran warna. Jurnal Teknik Industri, 14(1), 65-74.

Gani, A., & Kusnadi, Y. (2020). Kontrol mikrokontroler pada sistem pencampuran warna untuk aplikasi percetakan. Jurnal Teknologi dan Rekayasa, 8(4), 150-161.

Hendrik, T., & Kusuma, P. (2021). Pengembangan teknologi mikrokontroler untuk pencampuran warna dalam proses produksi. Jurnal Sistem dan Teknologi, 13(3), 102-112.

Intan, S., & Zulkarnain, M. (2022). Rancang bangun sistem kontrol warna berbasis mikrokontroler untuk aplikasi kreatif. Jurnal Rekayasa dan Teknologi, 16(1), 77-86.

Jaya, M., & Purnama, Y. (2020). Implementasi mikrokontroler dalam sistem otomatis untuk aplikasi pencampuran warna. Jurnal Teknik dan Sistem, 9(2), 89-98.

Kirana, N., & Rizal, D. (2023). Desain sistem berbasis mikrokontroler untuk pencampuran warna dalam skala industri. Jurnal Teknologi dan Inovasi, 14(3), 215-224.

Lia, F., & Wahyudi, A. (2021). Sistem otomatis untuk pengaturan pencampuran warna dengan mikrokontroler. Jurnal Elektronika dan Komputer, 11(2), 133-144.

Marlina, E., & Surya, B. (2022). Rancang bangun perangkat mikrokontroler untuk aplikasi pencampuran warna di sektor kreatif. Jurnal Teknik dan Aplikasi, 15(4), 195-204.

Nadia, H., & Widodo, S. (2020). Pembuatan sistem kontrol berbasis mikrokontroler untuk efisiensi pencampuran warna. Jurnal Inovasi Teknik, 12(1), 56-65.

Oka, P., & Sutrisno, L. (2023). Pengembangan teknologi mikrokontroler untuk aplikasi pencampuran warna secara otomatis. Jurnal Sistem dan Rekayasa, 17(2), 143-153.

Putra Eko Agfianto. 2021. Belajar Mikrokontroler AT89S51/51/52/55 (Teori dan Aplikasi). Yogyakarta : Gava Media.

Setiawan Sulhan. 2020 Mudah dan Menyenangkan Belajar Mikrokontroler.

Yogyakarta : Andi.

Sudjadi. 2019. Teori dan Aplikasi Mikrokontroler AT89C51. Yogyakarta : Graha Ilmu.

Suhata, ST. 2020. Aplikasi Mikrokontroler sebagai Pengendali Peralatan Elektronik. Jakarta: Elex Media Komputindo.

Sunaryo Joko. 2021. Alat pengoplos Cat Berbasis Personal Komputer. Semarang: Universitas Negeri Semarang.

Tokheim, Roger. 2022. Prinsip-Prinsip Digital Elektronika. Jakarta : Erlangga.

DOI: https://doi.org/10.31869/rtj.v8i2.6694