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Abstract
Peningkatan industri makanan dan minuman juga berpengaruh pada penggunaan plastik menjadi semakin banyak. Penggunaan kemasan produk plastik yang berfungsi sebagai bahan pelindung atau melindungi produk dari pengaruh luar yang dapat mempercepat proses pembusukan makanan yang ada didalamnya. Pentingnya cetak label produksi dan tanggal kedaluwarsa produk yang menyatakan umur produk yang masih layak untuk dikonsumsi juga tak kalah penting nya. Kebutuhan mesin tersebut sangat diperlukan mengingat banyaknya kemasan produk yang harus diberikan penandaan. Sering terjadinya ketidakjelasan kode kedaluwarsa karena suhu pemanas yang tidak stabil pada saat mencetak. Hasil penelitian menunjukkan bahwa penerapan Cohen-Coon PID auto-tunning dengan parameter Pb sebesar 1,7239%, Ti sebesar 4,1930, dan Td sebesar 0,6779 memberikan kontrol pemanas yang efisien dan stabil, untuk memberikan kestabilan panas saat mencetak kode kedaluwarsa.
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Copyright (c) 2024 Mochamad Dhani Inwanul Farikh, Didik Sukoco, Mohammad Abu Jamii’in, Agus Khumaidi, Afif Zuhri Arfianto, Adianto
This work is licensed under a Creative Commons Attribution 4.0 International License.
References
- Syamsuddin, E., Makclin, M., & Calvinus, Y. (2020). Tool for Printing Expiry Date on Plastic Pack with Hot Stamping Method. TESLA: Journal of Electrical Engineering, 21(2), 156.
- Ariyanto, N. A., Qurohman, M. T., & Hendrawan, A. B. (2023). Learning Pneumatic System Control as a Support for Hydraulic and Pneumatic System Competencies at Smk Negeri 1
- Adiwerna. Journal of Engineering Community Service, 5(1), 9.
- Watiningsih, T., Sudaryanto, E., Herijanto, S., Elektro, T., Teknik, F., Purwokerto, W., Raya, J., Purwokerto, B. K., & Kunci, K. (2023). Packaging Technology Design and Labeling of Food Product Packaging in Kalisalak Village, Kedungbanteng District, Banyumas Regency.
- Sitorus, H. F., Harahap, R., Armansyah, & Yusniati. (2023). Design of PLC Based Smarthome Control System.
- Kurniawan, S. Y., Setiawan, A. B., & Dirgantara, W. (2022). Automatic Wheelchair Based on IoT (Internet Of Things) Using PID (Proportional Integral Derivative Controller) Method.
- Fredo Zakaria, B., Ary Murti, M., Surya Wibowo, A., & Elektro, T. (2020). Air Compressor Monitoring System Based on Internet of Things.
- Syakuro, F. A., & Adhitya, R. Y. (2022). Development of Electric Motor Propulsion Module with Pid-based Automatic Flow Rate Control (Cohen-Coon).
- Agiska, I. N., Budi, E. S., & Safitri, H. K. (2021). PI Control System Using PLC CP1H in Water Heater Miniplant Application.
- Faradisa, S., & Wanarti Rusimamto, P. (2020). Design of PID Controller with Cohen-Coon Tuning Method for Temperature Control in Labview 2014 Based Baby Incubator.
- Khalid, M., Fathoni, F., & Murtono, A. (2022). Implementation of PID Control for DC Motor Speed Regulation in Shallot Peeling Process.
- Gunawan, E. I., Ali, M., Nurohmah, H., Elektro, T., Ulum, D., Gus, J., & 29a, D. (2022). Optimization of Thermal Oil Heater Using PSO as Tunning PID Controller.
- Suharti, P. H., & Sa'diyah, K. (2019). Application of Cohen-Coon Method Tuning on pH Controller in Neutralization Tank, Sewage Treatment Unit. Exergy, 16(2), 35.
- Law Jyy Jinn, M., & Kok Hwa, Y. (2019). Implementation of Proportional, Integral and Derivative (Pid) Terms for Thermal Management Through Simulink and Arduino Platform.
- Adhimanata, Y., & A, S. D. (2024). Capacitor Bank Panel Design to Improve Industrial Power System Efficiency and Safety.
- Jami'in, M. A., Anam, K., Rulaningtyas, R., Mudjiono, U., Adianto, A., & Wee, H. M. (2020). Hierarchical linear and nonlinear adaptive learning model for system identification and prediction.
References
Syamsuddin, E., Makclin, M., & Calvinus, Y. (2020). Tool for Printing Expiry Date on Plastic Pack with Hot Stamping Method. TESLA: Journal of Electrical Engineering, 21(2), 156.
Ariyanto, N. A., Qurohman, M. T., & Hendrawan, A. B. (2023). Learning Pneumatic System Control as a Support for Hydraulic and Pneumatic System Competencies at Smk Negeri 1
Adiwerna. Journal of Engineering Community Service, 5(1), 9.
Watiningsih, T., Sudaryanto, E., Herijanto, S., Elektro, T., Teknik, F., Purwokerto, W., Raya, J., Purwokerto, B. K., & Kunci, K. (2023). Packaging Technology Design and Labeling of Food Product Packaging in Kalisalak Village, Kedungbanteng District, Banyumas Regency.
Sitorus, H. F., Harahap, R., Armansyah, & Yusniati. (2023). Design of PLC Based Smarthome Control System.
Kurniawan, S. Y., Setiawan, A. B., & Dirgantara, W. (2022). Automatic Wheelchair Based on IoT (Internet Of Things) Using PID (Proportional Integral Derivative Controller) Method.
Fredo Zakaria, B., Ary Murti, M., Surya Wibowo, A., & Elektro, T. (2020). Air Compressor Monitoring System Based on Internet of Things.
Syakuro, F. A., & Adhitya, R. Y. (2022). Development of Electric Motor Propulsion Module with Pid-based Automatic Flow Rate Control (Cohen-Coon).
Agiska, I. N., Budi, E. S., & Safitri, H. K. (2021). PI Control System Using PLC CP1H in Water Heater Miniplant Application.
Faradisa, S., & Wanarti Rusimamto, P. (2020). Design of PID Controller with Cohen-Coon Tuning Method for Temperature Control in Labview 2014 Based Baby Incubator.
Khalid, M., Fathoni, F., & Murtono, A. (2022). Implementation of PID Control for DC Motor Speed Regulation in Shallot Peeling Process.
Gunawan, E. I., Ali, M., Nurohmah, H., Elektro, T., Ulum, D., Gus, J., & 29a, D. (2022). Optimization of Thermal Oil Heater Using PSO as Tunning PID Controller.
Suharti, P. H., & Sa'diyah, K. (2019). Application of Cohen-Coon Method Tuning on pH Controller in Neutralization Tank, Sewage Treatment Unit. Exergy, 16(2), 35.
Law Jyy Jinn, M., & Kok Hwa, Y. (2019). Implementation of Proportional, Integral and Derivative (Pid) Terms for Thermal Management Through Simulink and Arduino Platform.
Adhimanata, Y., & A, S. D. (2024). Capacitor Bank Panel Design to Improve Industrial Power System Efficiency and Safety.
Jami'in, M. A., Anam, K., Rulaningtyas, R., Mudjiono, U., Adianto, A., & Wee, H. M. (2020). Hierarchical linear and nonlinear adaptive learning model for system identification and prediction.