Pengembangan Modul Komunikasi LO-RA 433MHZ Untuk Sistem Telemetri Berbasis Industrial Data Acquisition

Wijaya, Ranu (2025) Pengembangan Modul Komunikasi LO-RA 433MHZ Untuk Sistem Telemetri Berbasis Industrial Data Acquisition. Other thesis, Institut Teknologi Sepuluh Nopember.

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Abstract

Pengembangan teknologi komunikasi harus diimplementasikan dalam mendorong efisiensi sistem industri. Salah satu pendekatan yang menjanjikan adalah penggunaan modulasi UHF (Ultra High Frequency) untuk sistem komunikasi jarak jauh antara sensors dan industrial controller. Penelitian ini bertujuan untuk merancang dan mengimplementasikan modul komunikasi UHF yang dapat diintegrasikan dengan temperature transmitter konvensional dan Siemens industrial controller untuk memungkinkan pengukuran dan pemantauan jarak jauh yang efektif. Implementasi modul komunikasi UHF dilakukan dengan mempertimbangkan aspek keandalan, throughput data, dan latency yang kritis untuk aplikasi industri. Pengujian dan evaluasi dilakukan untuk mengetahui kinerja modul komunikasi termasuk variasi nilai ukur dan pengujian jarak antar sistem. Hasil dari penelitian ini menghasilkan modul komunikasi dengan jarak pengetesan maksimum 330m point to point dan dengan nilai latency 97ms dan hasil perbandingan pengukuran dengan pengukuran kabel, dengan hasil pengukuran wireless lebih stabil dengan akurasi 97.6% pada jarak 15 meter tanpa terpengaruh penurunan tegangan sinyal pada kabel. Dengan adanya modul transmitter dan receiver UHF yang dirancang, diharapkan dapat meningkatkan kinerja sistem pengukuran, mengurangi downtime kalibrasi terhadap voltage drop sistem wired, dan mendukung pengambilan keputusan yang tepat waktu dalam operasi industri yang kompleks.
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The development of communication technology is crucial in enhancing the efficiency of industrial systems. One promising approach is the utilization of UHF (Ultra High Frequency) for facilitating long-distance communication between sensors and Siemens industrial controller. This research aims to design and implement UHF communication modules that can be integrated with conventional temperature transmitter and Siemens industrial controller to enable effective remote monitoring and measurement. The implementation of UHF communication modules considers critical aspects such as reliability, data throughput, and latency for industrial applications. Testing and evaluation are conducted to validate the performance of the communication modules in various operational conditions, including harsh industrial environments. The results of this research produced a communication module with a maximum tested range of 330 meters point-to-point with 97ms latency. The comparison between measurements using cables and wireless measurements showed that the wireless measurements were more stable, achieving an accuracy of 97.6% at a distance of 15 meters, without being affected by signal voltage drops typically observed in cables.. With specially designed UHF transmitter and receiver modules, it is anticipated that the performance of measurement systems will be enhanced, downtime from caaslibrating to compensate wired system voltage drop reduced , and timely decision-making supported in complex industrial operations

Item Type:	Thesis (Other)
Uncontrolled Keywords:	UHF, Sensors, Controller Industry, Transmitter, Receiver
Subjects:	T Technology > TJ Mechanical engineering and machinery > TJ222 Supervisory control systems. T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5102.9 Signal processing. T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5105 Data Transmission Systems T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK6564 Radio transmitter-receivers T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5102.5 Modulation (Electronics), Demodulation (Electronics)
Divisions:	Faculty of Vocational > Instrumentation Engineering
Depositing User:	Ranu Wijaya
Date Deposited:	31 Jul 2025 02:56
Last Modified:	31 Jul 2025 02:56
URI:	http://repository.its.ac.id/id/eprint/123363

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