Implementasi I/O Advantys STB NIP 2212 dalam Kontrol Pneumatik Valve Diskrit

Authors

  • M. Basyir Electrical Engineering Department, Politeknik Negeri Lhokseumawe, Lhokseumawe, Aceh, Indonesia Author
  • Arsy Febrina Dewi Electrical Engineering Department, Politeknik Negeri Lhokseumawe, Lhokseumawe, Aceh, Indonesia Author
  • Rian Andrian Electrical Engineering Department, Politeknik Negeri Lhokseumawe, Lhokseumawe, Aceh, Indonesia Author
  • Ibnu Khaldun Electrical Engineering Department, Politeknik Negeri Lhokseumawe, Lhokseumawe, Aceh, Indonesia Author
  • Yuli Mauliza Electrical Engineering Department, Politeknik Negeri Lhokseumawe, Lhokseumawe, Aceh, Indonesia Author

DOI:

https://doi.org/10.30811/litek.v22i1.56

Keywords:

Advantys Configuration, SCADA, STB NIP 2212, PLC Modicon TSX Premium, Pneumatik Valve

Abstract

Langkah penting dalam sistem instrumentasi industri berbasis SCADA adalah menggunakan perangkat STB NIP 2212 untuk menerapkan Konfigurasi Advantys dalam proses kontrol level. Tujuan dari studi ini adalah untuk mengatur sistem kontrol I/O dan melihat seberapa baik kinerjanya dengan menggunakan perangkat lunak Advantys Configuration untuk menghubungkannya ke jaringan TCP/IP dan PLC Modicon TSX Premium H5724M. Sistem ini dikonfigurasi dengan menghubungkan perangkat keras melalui kabel RJ45 dalam mode standar untuk memastikan komunikasi waktu nyata antara perangkat lunak dan perangkat keras. Hasil pengujian menunjukkan bahwa sistem berhasil mengontrol katup pneumatik secara otomatis berdasarkan data dari pemancar level. Ketika level cairan mencapai batas bawah, pompa diaktifkan dan katup menutup, sedangkan pada batas atas, pompa berhenti dan katup terbuka. Aktivasi lampu indikator pada output digital menunjukkan bahwa saluran berfungsi dengan baik. Hasil uji menunjukkan bahwa menambahkan Advantys STB NIP 2212 ke PLC Modicon TSX Premium H5724M membuat sistem kontrol industri berbasis SCADA bekerja lebih baik dan lebih akurat.

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References

Aslam, M. M., Tufail, A., Apong, R. A. A. H. M., De Silva, L. C., & Raza, M. T. (2024). Scrutinizing security in industrial control systems: An architectural vulnerabilities and communication network perspective. IEEE Access.

Ahakonye, L. A. C., Nwakanma, C. I., Lee, J. M., & Kim, D. S. (2023). Trees Bootstrap Aggregation for Detection and Characterization of IoT-SCADA Network Traffic. IEEE Transactions on Industrial Informatics, 20(4), 5217-5228.

Saheed, Y. K., Abdulganiyu, O. H., & Tchakoucht, T. A. (2023). A novel hybrid ensemble learning for anomaly detection in industrial sensor networks and SCADA systems for smart city infrastructures. Journal of King Saud University-Computer and Information Sciences, 35(5), 101532.

Mateoiu, A. M., Korodi, A., Stoianovici, A., & Tira, R. (2023). Supervisory Monitoring and Control Solution on Android Mobile Devices for the Water Industry 4.0. Sustainability, 15(22), 16022.

Gao, H., Zhang, Z., Ma, X. & Liu, C. Analysis of Measurement Accuracy and Reliability of Intelligent Instrumentation in Process Control. Applied Mathematics and Nonlinear Sciences, 2024, Sciendo, vol. 9 no. 1, https://doi.org/10.2478/amns-2024-1557.

Patil, V., Manjunath, D.T., Manjunath, D.T., Ph.D., S.M., & Ieee, F.F. (2023). Design, Development of a Diversified Implemention of a Supervisory Control And Data Acquisition based VLSI System (SCADA) framework Utilizing Microcontroller based Programmable Logic Controllers. Tuijin Jishu/Journal of Propulsion Technology.

Wang, H., Yang, Z., Zhang, Q., Sun, Q., & Lim, E. (2024). A digital twin platform integrating process parameter simulation solution for intelligent manufacturing. Electronics, 13(4), 802.

Ran, L., & Wu, Y. J. (2023). Development of Computer Intelligent Control System based on Modbus and web technology. Journal of Applied Data Sciences, 4(1), 15-21.

Koyasako, Y., Suzuki, T., Hatano, T., Shimada, T., & Yoshida, T. (2024). Demonstration of Industrial Ethernet Protocol Softwarization and Advanced Motion Control for Full Software-Defined Factory Network. IEEE Access.

Katulić, F., Sumina, D., Groš, S., & Erceg, I. (2023). Protecting modbus/TCP-based industrial automation and control systems using message authentication codes. IEEE access, 11, 47007-47023.

Găitan, N. C., Zagan, I., & Găitan, V. G. (2024). Proposed Modbus Extension Protocol and Real-Time Communication Timing Requirements for Distributed Embedded Systems. Technologies, 12(10), 187.

Sverko, M., Grbac, T. G., & Mikuc, M. (2022). Scada systems with focus on continuous manufacturing and steel industry: A survey on architectures, standards, challenges and industry 5.0. IEEE access, 10, 109395-109430.

Salhi, M. S., Kashoob, S., & Lachiri, Z. (2022). Progress in smart industrial control applied to renewable energy system. Energy Harvesting and Systems, 9(2), 123-132.

Yang, Y. S., Lee, S. H., Chen, W. C., Yang, C. S., Huang, Y. M., & Hou, T. W. (2022). Securing SCADA Energy Management System under DDos attacks using token verification approach. Applied Sciences, 12(1), 530.

Wali, A., & Alshehry, F. (2024). A Survey of Security Challenges in Cloud-Based SCADA Systems. Computers, 13(4), 97.

B, V. (2024). Remote temperature monitoring and control system using SCADA for large industrial environment. Journal of Electrical Engineering and Automation, 6(4), 280–288.

Shahzad, A., Kim, Y. G., & Elgamoudi, A. (2017, February). Secure IoT platform for industrial control systems. In 2017 International Conference on Platform Technology and Service (PlatCon) (pp. 1-6). IEEE.

B, V. (2024). Remote temperature monitoring and control system using SCADA for large industrial environment. Journal of Electrical Engineering and Automation, 6(4), 280–288. https://doi.org/10.36548/jeea.2024.4.001

Paunikar, S. S., & Vanalkar, A. (2023). Block chain scada quality control for in industrial automation. International Journal for Research in Applied Science and Engineering Technology, 11(1), 1171–1174. https://doi.org/10.22214/ijraset.2023.48705

Abdullah, Binnaser. (2022). IMPLEMENTING INTERNET PROTOCOL (IP) BASED SUPERVISORY CONTROL AND DATA ACQUISITION (SCADA) NETWORK SYSTEM. International Journal of Engineering Applied Sciences and Technology. 7. 214-217. 10.33564/IJEAST.2022.v07i07.033.

Chochtoula, D., Ilias, A., Stamatiou, Y. C., & Makris, C. (2022). Integrating elliptic curve cryptography with the Modbus TCP SCADA communication protocol. Future Internet, 14(8), 232.

Tidrea, A., Korodi, A., & Silea, I. (2023). Elliptic curve cryptography considerations for securing automation and SCADA systems. Sensors, 23(5), 2686.

de Brito, I. B., & de Sousa Jr, R. T. (2022). Development of an open-source testbed based on the modbus protocol for cybersecurity analysis of nuclear power plants. Applied Sciences, 12(15), 7942.

Herdiana, B., Setiawan, E. B., & Sartoyo, U. (2023). Tinjauan Komprehensif Evolusi, Aplikasi, dan Tren Masa Depan Programmable Logic Controllers (A Comprehensive Review of the Evolution, Applications, and Future Trends of Programmable Logic Controllers). Telekontran: Jurnal Ilmiah Telekomunikasi, Kendali dan Elektronika Terapan, 11(2), 173-193.

Sujitha, S., Kumar, V., Dechamma, V. S., Likitha, J., Prajwal, R. M., & Jayanth, R. (2023, March). Study of Interfacing PLC With HMI for Industrial Applications. In 2023 Second International Conference on Electronics and Renewable Systems (ICEARS) (pp. 343-346). IEEE.

Alsabbagh, W., & Langendörfer, P. (2023). Security of programmable logic controllers and related systems: Today and Tomorrow. IEEE Open Journal of the Industrial Electronics Society, 4, 659-693.

Tomar, B., Kumar, N., & Sreejeth, M. (2023). Real Time Automation and Ratio Control Using PLC & SCADA in Industry 4.0. Computer Systems Science & Engineering, 45(2).

Darandale, Prof & Abhishek, Kamble & Ganesh, Kavde & Mayur, Tutare. (2023). Multiprocess Control using PLC. International Journal for Research in Applied Science and Engineering Technology. 11. 1252-1258. 10.22214/ijraset.2023.53867.

Kadu, Anil & Bhosale, Shreyash & Pagare, Ashwini & Sable, Pravin & Kudtarkar, Raj & Bhilare, Abhishek. (2023). Development of Low-Cost Water Level Monitoring and Control using PID Controller. 524-528. 10.1109/ICIMIA60377.2023.10425968.

Dindorf, R. (2023). Measurement of pneumatic valve flow parameters on the test bench with interchangeable venturi tubes and their practical use. Sensors, 23(13), 6042.

Amin, M.S., Harahap, R., & Pelawi, Z. (2023). Rancang Bangun Sistem Kendali Dan Monitoring Pengolahan Air Limbah Berbasis PLC. JET (Journal of Electrical Technology).

Lazaridis, G., Drosou, A., Chatzimisios, P., & Tzovaras, D. (2023, November). Securing modbus tcp communications in i4. 0: A penetration testing approach using openplc and factory io. In 2023 IEEE Conference on Standards for Communications and Networking (CSCN) (pp. 265-270). IEEE.

Wang, N., Fan, X., Feng, F., Li, Y., Ye, H., & Liu, Y. (2024, May). An Industrial Communication System for PLC. In 2024 IEEE 4th International Conference on Electronic Technology, Communication and Information (ICETCI) (pp. 125-129). IEEE.

Pratama, B. Y., & Anisa, E. (2023). Analisis Implementasi Komunikasi Modbus TCP/IP dalam Penerapan Visualisasi Data Hasil Produksi pada Sistem Andon Line Production. Jurnal Asiimetrik: Jurnal Ilmiah Rekayasa & Inovasi, 43-52.

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Published

2025-03-15

Issue

Vol. 22 No. 1 (2025): Jurnal Litek, March 2025

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How to Cite

Implementasi I/O Advantys STB NIP 2212 dalam Kontrol Pneumatik Valve Diskrit. (2025). Jurnal Litek : Jurnal Listrik Telekomunikasi Elektronika, 22(1), 14-23. https://doi.org/10.30811/litek.v22i1.56