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Journal articles on the topic 'PLC AND SCADA'

Author: Grafiati
Published: 11 September 2023

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1

ABADI, SAROSA CASTRENA, NUR WISMA NUGRAHA, IRFAN AHMAD DHIMYATI, and ADE HASAN SUMARSO. "Penerapan Human Machine Interface Berbasis Augmented Reality pada Sistem SCADA Modular Production System." ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika 11, no. 2 (April 17, 2023): 285. http://dx.doi.org/10.26760/elkomika.v11i2.285.

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ABSTRAKPenerapan teknologi digital pada sistem SCADA dapat dilakukan dengan menampilkan user interface dengan metode Augmented Reality yaitu suatu teknologi yang menggabungkan suatu objek nyata dan objek virtual secara realtime. Penelitian ini bertujuan untuk mengimplementasikan HMI NodeRED dengan metode pengamatan Augmented Reality pada Sistem SCADA Modular Production Systems (MPS) bagian Testing dan Handling Station. Hasil pengujian menunjukkan sistem berhasil melakukan kontrol dan monitoring plant Testing dan Handling Station melalui Webview Augmented Reality. Nilai rata-rata waktu pengiriman data PLC ke PC pada Testing Station yaitu 109 ms dan rata-rata waktu yang pengiriman data PC ke PLC yaitu 106 ms. Sedangkan untuk Handling Station rata-rata waktu pengiriman data PLC ke PC yaitu 109 ms dan rata-rata waktu pengiriman data PC ke PLC yaitu 105 ms.Kata kunci: Augmented Reality, SCADA, NodeRED, PLC, MPS ABSTRACTThe Implementation of digital technology in the SCADA system can be done by displaying a user interface with the Augmented Reality method, which is a technology that combines a real object and a virtual object in real-time. This study aims to implement HMI NodeRED with the Augmented Reality observation method on the SCADA Modular Production Systems (MPS) for testing and handling stations. The test results showed that the system successfully controlled and monitored the Testing and Handling Station plants through the Augmented Reality Webview.The average value of the time of sending PLC data to PC at the Testing Station is 109 ms and the average time that PC data is sent to the PLC is 106 ms. While for the Handling Station, the average time for sending PLC data to PC is 109 ms and the average time for sending PC data to PLC is 105 ms.Keywords: Augmented Reality, SCADA, NodeRED, PLC, MPS
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2

Stojačić, Stefan. "POVEZANOST SISTEMA ZA UPRAVLJANJE U INDUSTRIJSKIM OKRUŽENJIMA." Zbornik radova Fakulteta tehničkih nauka u Novom Sadu 36, no. 05 (May 9, 2021): 958–61. http://dx.doi.org/10.24867/12ih02stojacic.

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U okviru ovog rada razmatra se uticaj povezanosti sistema za upravljanje (SCADA, PLC i DCS) na celokupne performanse upravljanog sistema. Data su osnove karakteristike SCADA, PLC i DCS i njihov međusobni uticaj na upravljanje.
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Mada, Ridwan. "Rancang Bangun Prototipe Sistem Monitoring Sinkronisasi Generator ke Jaringan PLN pada PLTM Berbasis SCADA." Jurnal Teknologi dan Rekayasa Manufaktur 5, no. 1 (May 15, 2023): 35–50. http://dx.doi.org/10.48182/jtrm.v5i1.123.

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Sistem pembangkit listrik pada umumnya terdiri dari peralatan untuk membangkitkan listrik, sistem kontrol dan sistem monitoring. Sistem monitoring terletak di control room yang lokasinya cukup jauh dari peralatan pembangkit, sehingga menggunakan SCADA (Supervisory Control and Data Acquisition) sebagai solusi untuk hal tersebut. Pada penelitian ini dilakukan pembuatan rancang bangun prototipe sistem monitoring sinkronisasi generator ke jaringan PLN pada PLTM (Pembangkit Listrik Tenaga Mini Hidro) berbasis SCADA. Sistem SCADA menyajikan data dalam bentuk grafik dan tulisan yang nilainya berupa data dari GPC-3 Hydro dan PLC. Protokol yang digunakan untuk komunikasi adalah modbus TCP/IP. Hasil dari pengujian yang telah dilakukan membuktikan bahwa sistem SCADA yang dibuat sudah mampu melakukan monitoring data RTU baik dari GPC-3 Hydro maupun PLC secara real time saat pembangkit sedang beroperasi. Indikatornya berupa kesesuaian nilai data antara SCADA dengan modbus yang terhubung pada GPC-3 Hydro dan PLC serta didukung kesesuaian nilai waktu yang terekam pada data tabel alarm dan grafik.
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Eprijusy, Mohammad Zulfi An-nizar, Ratna Ika Putri, and Muhammad Luqman. "Rancang Bangun Sistem SCADA Processing Station pada Factory Trainer di Laboratorium Mekatronika Program Studi Teknik Elektronika." Jurnal Elektronika dan Otomasi Industri 1, no. 1 (March 5, 2020): 29. http://dx.doi.org/10.33795/elkolind.v1i1.31.

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Perangkat otomasi menjadi kebutuhan mutlak bagi dunia industri saat ini. Pada dunia industri sistem otomasi biasanya terdiri dari perangkat kontroller, sistem Pengawasan/kontrol salah satunya berupa sistem SCADA (Supervisory Control And Data Acquisition), dan perangkat sensor/aktuator. Processing station pada factory trainer merupakan sebuah miniatur proses otomasi industri. Processing station pada factory trainer tidak memiliki sistem pengawasan sehingga diperlukan sebuah sistem SCADA yang mampu melakukan sistem pengawasan dan kontrol terhadap processing station pada factory trainer. Maka sistem SCADA processing station dirancang dengan menggunakan PLC type CP1E-N40 dan HMI type NB7W-TW00B keluaran Omron. Pada perancangan akan dibuat program pengendali dan pengawasan terhadap plant processing station. Diharapkan sistem SCADA dapat berkomunikasi dengan PLC yang mengontrol plant. Percobaan dapat diaplikasikan dengan menguji perbedaan interval waktu anta panel plant dengan panel HMI. Hasil yang didapatkan adalah terjadi perbedaan waktu antara 0,3 detik sampai 0,4 detik. Hal ini dikarenakan adanya proses transfering data dari HMI menuju kontroler. Kontroler menuju HMI yang dipengaruhi oleh baudrate dan kecepatan masing-masing CPU. Kata Kunci—HMI, SCADA, Factory Trainer, PLC, Interval Waktu
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Ta'ali, Ta'ali, and Fivia Eliza. "Sistem Monitoring dan Kontrol Motor AC Berbasis SCADA." JTEIN: Jurnal Teknik Elektro Indonesia 1, no. 1 (June 30, 2020): 15–20. http://dx.doi.org/10.24036/jtein.v1i1.11.

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The SCADA-based AC motor monitoring and control system is a three-phase induction motor monitoring and control system. Motor speed regulation feedback is obtained from the tacho generator which is connected to the pulleys. The SCADA program manages inverter and microcontroller communications so that the process of monitoring the speed of an induction motor is done through a computer. Induction motor speed regulation using VSD as an inverter functions to adjust the source frequency so that the motor speed can be adjusted. Communication between VSD, PLC and SCADA uses the MODBUS protocol to monitor the performance of the induction motor. The main equipment uses ATV12HU22M3 inverter and CQM1H PLC. The CX-Programmer and CIMON software function to manage and monitor in real time the system. The results of the induction motor settings can be adjusted with VSD speeds ranging from 0-50 Hz. PLC as master control and SCADA function as distance controller.
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6

GAYATHRI, S., S. NAVEEN KUMAR, and R. KARTHIK. "INDUSTRIAL AUTOMATION USING PLC AND SCADA." i-manager’s Journal on Instrumentation and Control Engineering 7, no. 4 (2019): 12. http://dx.doi.org/10.26634/jic.7.4.17450.

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7

Indani, Wira, Andrean Wahyudi, Wiwin Styorini, and Yuli Triyani. "Rancang Bangun Sistem Monitoring Prototype Mesin Packaging Berbasis PLC." Journal of Applied Smart Electrical Network and Systems 3, no. 01 (June 30, 2022): 25–32. http://dx.doi.org/10.52158/jasens.v3i01.304.

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Meningkatnya kebutuhan akan informasi, pemantauan, dan pengendalian sistem monitoring terhadap peralatan, industri, otomotif, dan bahkan farmasi membuat teknologi monitoring secara real time dibutuhkan. Sistem Monitoring dirancang agar mesin produksi dapat dimonitor secara realtime, sehingga pengawasan suatu proses produksi menjadi effisien. Sistem ini memanfaatkan controller PLC (Programmable logic controller) sebagai pengatur dari sistem monitoring yang dikomunikasikan dengan Scada sebagai software untuk memproses data yang dihasilkan dapat ditampilkan melalui PC secara realtime. Implementasi dari Rancang Bangun Sistem Monitoring Prototype Mesin Packaging Berbasis PLC dapat menampilkan data dari waktu permesinan, dari Running time, Minor Stop Time dan Breakdown Time. Dimana klasifikasi waktu tersebut di buat secara otomatis sehingga dapat memudahkan para operator dalam mendata waktu permesinan dan memonitor kegiatan produksi me njadi lebih mudah dan terstruktur. Data dari PLC yang didapatkan akan ditransmisikan kepada Sercer OPC yang terhubung dengan SCADA Intouch Wonderware sebagai display untuk proyek akhir ini. Dari sepuluh kali pengambilan data, waktu running yang diterima dari PLC ke PC (Wonderware) dan sebaliknya dari PC (Wonderware) ke PLC sistem ini merespon dengan baik ketika fungsi dijalankan. Dimana terdapat perbedaan waktu atau delay sebesar 0,27s pada tombol ON dan 0,33s pada tombol OFF dengan penekanan dengan Software dan Hardware. Penekanan dengan software mendapatkan waktu tunda yang lebih besar dikarenakan melewati server dahulu untuk menghubungkan PLC ke PC (Wonderware). Kata kunci: PLC, Scada, Monitoring, Sistem, human error.
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Alfa Z Fikri, Mohammad, Muhammad Sakhalish Zayyan, Juan Edo Mikrado, Irrine B Sulistiawati, Aryuanto Soetedjo, I. Komang Somawirata, and Sotyohadi Sotyohadi. "Sistem SCADA pada miniatur Smart Home Bertenaga Surya." Jurnal FORTECH 3, no. 2 (September 23, 2022): 93–100. http://dx.doi.org/10.56795/fortech.v3i2.106.

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A smart home is a combination of technology and services in the home environment that aims to increase the efficiency, comfort and safety of its residents. This smart home is controlled by Outseal PLC which communicates locally using RS485 with Haiwell SCADA HMI. Apart from controlling and monitoring through the Haiwell SCADA HMI[1], you can do it via a smartphone by downloading the Haiwell Cloud app in the Playstore. When the light is turned on via the Haiwell Scada HMI or using a Smartphone, the buttons on the Haiwell Scada HMI and the smartphone will turn on. And there is a delay of about 5 seconds, due to the time it takes to send information to Outseal PLC. The main objective of this journal is to introduce children to smart home by making a miniature smart home using SCADA, Outseal PLC Arduino Mega and other components. In this paper we use SCADA, the RS 485 control protocol to create this miniature smart home. It used to be that if the user wanted to control equipment, he had to move near the wall and control the sacred. This method is inconvenient for the elderly and disabled. therefore created a smart home that can be controlled and controlled remotely This miniature smart home uses solar panels as an energy source so when there is a blackout, this miniature can still be used[2].
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Setiawan, Jan, Abdurahman Abdurahman, Sunardi Sunardi, Sugeng Sugeng, and Angga Muhamad Syukur. "DESIGN OF PLC BASED TEMPERATURE CONTROL SYSTEM FOR FOOD STABILITY TEST CHAMBER." Sebatik 26, no. 2 (December 21, 2022): 482–88. http://dx.doi.org/10.46984/sebatik.v26i2.1968.

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A stability test chamber simulates specific environmental conditions and tests a product or material in the manufacturing stage. The tested product or material is then analyzed about its shelf-life estimation related to the state and durability of the product for a certain period. The main parameter that must control accurately is temperature. Programmable Logic Controller (PLC) as an industrial computer control system has been widely used. In this paper, the temperature control system was designed based on PLC and supervisory control and data acquisition (SCADA). The PLC and SCADA would indirectly control the heater. The PLC was feeded from the temperature sensor for real-time temperature inside the test chamber. Received temperature value, compared to the temperature set point. The validation and verification of controlled temperature inside the chamber were also investigated. The system was designed on a miniaturized chamber using commercial PLC and SCADA, Stepper motor, slide regulator, heater, and the temperature sensor PT100. The temperature test point for validation and verification was performed at 35 °C, 45 °C, and 55 °C. The result showed that The PT100 successfully had an excellent response to the temperature test point. The correction value for temperature is as high as 0.6 °C with a deviation of 1 %.
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Fandidarma, Bayu, Ina Sunaryantiningsih, and Abdi Pratama. "Pengatur Suhu Ruangan Tertutup menggunakan PLC Schneider TWIDO COMPACT berbasis SCADA - WONDERWARE INTOUCH." ELECTRA : Electrical Engineering Articles 2, no. 2 (March 31, 2022): 01. http://dx.doi.org/10.25273/electra.v2i2.12246.

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<em><span lang="EN-US">Ditandai dengan munculnya PLC (Programmable Logic Controller) sebagai pengganti sistem kendali konvensional. Selanjutnya lahirlah sistem SCADA (</span><span lang="IN">Supervisory Control and Data Acqusition</span><span lang="EN-US">) yang memungkinkan manusia untuk mengendalikan dan memonitor kerja PLC secara real time dan remote dengan menggunakan protocol Modbus TCP/IP.</span><span lang="IN">Arsitektur dasar SCADA terdiri dari </span><span lang="EN-US">lima</span><span lang="IN"> komponen penting yaitu plant berupa mesin yang diamati, RTU (Remote Terminal Unit), MTU (Master Terminal Unit), HMI (Human Machine Interface), dan database server.</span><span lang="IN">Dalam penelitian SCADA yang dirancang, RTU menggunakan sebuah PLC Twido TWDLCAE40DRF untuk mengendalikan sebuah plant berupa </span><span lang="EN-US">modul Temperatur Controlled System – Leybold 734 12</span><span lang="IN"> yang dapat dikendalikan dengan pengendalian PID. Sedangkan MTU menggunakan PLC Modicon M340 BMX P4 2030. Kemudian HMI dirancang menggunakan perangkat lunak Wonderware Intouch 10.1 versi demo. HMI menampilkan proses pengendalian dan trend pengendalian. Data pengendalian kemudian dicatat pada suatu database.</span><span lang="EN-US"> Sistem SCADA ini berhasil memiliki fungsi untuk memantau dan mengendalikan plant lalu mencatat hasilnya pada sebuah database.</span></em>
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Gyatsho, Karma, Rinku Bhutia, Shyam Chhinal, Cherryla Tobden, Deepak Rasaily, and Aarfin Ashraf. "Scada Power Distribution Monitoring System using PLC." International Journal of Engineering Trends and Technology 33, no. 8 (March 25, 2016): 409–12. http://dx.doi.org/10.14445/22315381/ijett-v33p280.

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Sreedhar, P. Silpa, P. Aiswarya, and J. Kathirvelan. "Automated turn pike using PLC and SCADA." IOP Conference Series: Materials Science and Engineering 263 (November 2017): 052051. http://dx.doi.org/10.1088/1757-899x/263/5/052051.

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13

Yun, Dong-Hyun. "Implementation of C# Program in Manufacturing Execution System Using Programmable Logic Controller for Education of Smart Factory." Korea Industrial Technology Convergence Society 27, no. 2 (June 30, 2022): 37–48. http://dx.doi.org/10.29279/jitr.2022.27.2.37.

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In this study, C# codes were implemented in a manufacturing execution system using a programmable logic controller for education of a smart factory. In the existing environment of an aviation campus, when MES education for a smart factory was conducted, HMI or SCADA programs were used as PLC-only software, and the trainees were limited to PLC specialized skills; therefore, MES specialists were nurtured. However, when implementing an OPC server and MS-SQL in PLC equipment by strengthening a smart factory system environment, notably, the control/monitoring function of an MES could be implemented using C# programs without using HMI or SCADA programs as PLC dedicated SW. It is expected that it will be of great help in finding employment by nurturing the MES manpower required in the industrial field, not limited to PLC specialized skills, as it provides trainees with a basic and functional understanding of the MES and C# program education.
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Magar, Khadka Vikram Thapa, Aviral Kandel, Deepak Neupane, and Dipak Rijal. "Priority Based Switching of Loads Using PLC and SCADA." International Journal of Scientific & Engineering Research 12, no. 4 (April 25, 2021): 1279–83. http://dx.doi.org/10.14299/ijser.2021.04.06.

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PLC is a medium between electrical systems and personal computers for SCADA to take input and output bits. SCADA and PLC communication systems make it possible to integrate protection control and monitor electrical parameters together for maximum benefit. The idea is to provide continuous power supply to the load, based on the priority by switching the loads. In case any one of the sources is absent i.e., source 1, source 2 and source 3, then automatically the least priority load cuts-off and first priority load gets supply continuously.
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Hartanto, Kenny Jesse. "Optimized Process Control for Operation, Energy, Management, and Maintenance in Boiler Plant Using SCADA." ACMIT Proceedings 3, no. 1 (March 18, 2019): 127–35. http://dx.doi.org/10.33555/acmit.v3i1.35.

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The purpose of this study is to design the SCADA to monitor and control the boiler operation using PLC, and to analyze the efficiency of the boiler. This paper outlines the various stages in the operation of the boiler conversions manually operated, towards the boiler operates in full. Boiler is very important part in industry and it require inspection and monitoring process continuously with a specific time interval. Earlier days this inspection and monitoring process is done with human workers. By done with human workers, there are possibilities of errors with human workers while measuring parameter values in boiler operation process. So it is needed a reliable monitoring system is required to avoid these errors and maximize profit. The automation can be easily done by using Programmable Logic Controller (PLC) and SCADA, by constant monitoring using SCADA that already connected to the PLC using communication cable. In this paper the design and automated development of some techniques used for boiler automation. Boiler automation includes the monitoring of water level, pressure and temperature using different sensors .
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Bagus Dwi Cahyono and Irwanto Irwanto. "PLC Outseal Training for PVTE Students at Sultan Ageng Tirtayasa University." Mattawang: Jurnal Pengabdian Masyarakat 4, no. 1 (March 30, 2023): 61–65. http://dx.doi.org/10.35877/454ri.mattawang1541.

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Programmable Logic Controller is a device that can be programmed according to the needs of industrial processes. This activity is a service activity for lecturers of the PVTE Study Program at Sultan Ageng Tirtayasa University which is expected to be able to improve student skills in terms of becoming provisions in the world of work. This PLC Outseal Training activity is carried out face-to-face for 8 hours in the FKIP educational room at Sultan Ageng Tirtayasa University. The training method uses a practical based method. Includes material: Introduction to HMI and SCADA; Advanced PLC programming with Outseal PLC hardware; and PLC connection with upper layer. The evaluation results showed that students seemed interested and did not experience any problems when practicing PLC. Abstrak Programmable Logic Controller merupakan suatu perangkat yang mampu diprogram sesuai kebutuhan proses industri. Kegiatan ini sebagai kegiatan pengabdian dosen Prodi PVTE Universitas sultan ageng tirtayasa yang diharapkan mampu meningkatkan keterampilan mahasiswa dalam hal menjadi bekal dalam dunia kerja. Kegiatan Pelatihan PLC Outseal ini dengan dilakukan secara tatap muka selama 8 jam di ruang edutaria FKIP Universitas sultan ageng tirtayasa. Adapun metode pelatihan ini menggunakan metode practical based methode. Meliputi materi: Pengenalan HMI dan SCADA; Programing lanjut PLC dengan hardware Outseal PLC; dan Koneksi PLC dengan upper layer. Hasil evaluasi menunjukkan bahwa mahasiswa terlihat tertarik dan tidk mengalami kendaa saat praktik PLC.
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T, Raj Kumar, Pranav A, Venkatesan G, Shanthosh S, and Arjun D.K. "Automatic Food Processor." Bulletin of Scientific Research 2, no. 1 (May 30, 2020): 65–69. http://dx.doi.org/10.34256/bsr20110.

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In the current scenario the advent of automation technology is limited to industrial use only. This proposed system of Automatic food processor based on PLC and SCADA software is designed to cook food automatically as required by the user. This PLC based automated system is already pre-programmed to do the operations and the output is obtained. An HMI interface is available to the user to select the quantity and give their preferences. A water level sensor is placed in the tank which monitors the water level present. The ingredients necessary are added with the help of a linear stepper motor and solenoid valves. PLC is used to control the working of the whole system and SCADA is one of the emerging technologies which is used for complete monitoring.
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Maulana, Alam, Mohammad Dahlan, and Budi Cahyo Wibowo. "PERANCANGAN SISTEM KONTROL AHU (AIR HANDLING UNIT) PT DJARUM KUDUS BERBASIS SCADA." Jurnal Elektro Kontrol (ELKON) 3, no. 1 (July 25, 2023): 39–46. http://dx.doi.org/10.24176/elkon.v3i1.9618.

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AHU (Air Handling Unit) adalah suatu peralatan atau mesin yang dapat mengubah suhu udara panas menjadi dingin sesuai dengan standar, untuk beberapa ruang yang luas dan terpisah-pisah. Tujuan dari tugas akhir ini adalah pembuatan sistem monitoring dan controlling AHU menggunakan PLC CP1H berbasis SCADA CX-Supervisor, dengan penyimpanan data hasil monitoring menggunakan Microsoft Access. Sistem kendali yang digunakan adalah sistem kendali tertutup. Metode yang digunakan dimulai dari studi kasus, studi pustaka, pembuatan hardware, pembuatan software, pengujian, pengambilan data dan analisa. Sistem ini menggunakan PLC Omron CP1H-XA sebagai sintem kendali yang dapat dikontrol dari 2 lokasi. Lokasi pertama menggunakan HMI (Human Machine Interface). Lokasi kedua menggunakan Komputer yang sudah diisi software CX-Supervisor. Hasil dari penelitian ini adalah sistem AHU (Air Handling Unit) menggunakan PLC (Programmable Logic Controller) berbasis SCADA.
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SARTIKA, ERWANI MERRY, RUDI SARJONO, and REINALDO STEVEN RESTIANTO. "Simulasi Sistem Otomasi Load Shedding menggunakan Prediksi Beban." ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika 7, no. 1 (January 24, 2019): 180. http://dx.doi.org/10.26760/elkomika.v7i1.180.

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ABSTRAKSimulator penggunaan energi listrik sangat membantu dalam perencanaan pasokan listrik secara terus menerus atau perlu pemadaman bila terjadi gangguan. Agar kinerja pembangkit dapat kembali normal, bertahap, dan terencana akibat mengalami gangguan, maka digunakan metoda Load Shedding. Sistem otomasi dibutuhkan untuk merealisasikan metoda Load Shedding, dan melalui simulator dapat mengurangi resiko terhadap kerusakan bila langsung diimplementasikan. PLC digunakan untuk memprediksi beban saat load shedding, sedangkan SCADA digunakan untuk menampilkan prioritas dan status beban. Load shedding 1 adalah tindakan pelepasan beban bila pada salah satu genset mengalami gangguan, sedangkan Load shedding 2 bila pada kedua genset mengalami gangguan. Simulasi sistem load shedding 1 dan 2 berhasil dilakukan pelepasan beban secara otomatis. Setelah pelepasan beban, kapasitas beban yang ditanggung genset sesuai dengan prediksi dari PLC. Terdapat perbedaan hasil antara daya yang diprediksi secara perhitungan dan daya terukur, kemungkinan disebabkan beban masih belum steady saat data diambil.Kata kunci: Otomasi, Simulator, Sistem Load shedding, SCADA, PLC ABSTRACTSimulator of the use of electrical energy is very helpful in planning electricity supply continuously or needs to be suppressed if a disturbance occurs. In order for the generator performance to return to normal, gradual, and planned due to interference, the Load Shedding method is used. Automation systems are needed to realize the Load Shedding method, and through simulators can reduce the risk of damage if implemented immediately. PLC was used to predict load during load shedding, while SCADA was used to display priority and load status. Load shedding 1 was a load release action if one of the generator sets was disrupted, while Load shedding 2 if in both gensets were disrupted. Load system simulation of shedding 1 and 2 was successfully released by load automatically. After the load was released, the load capacity borne by the generator was in accordance with the predictions of the PLC., the load capacity borne by the generator was in accordance with the predictions of the PLC. There was a difference in results between the predicted power and measured power, possibly because the load was stillnot steady when the data was taken. Keywords: Automation, Simulator, Load Shedding System, SCADA, PLC
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Waluyo, Waluyo, Andre Widura, and Wahyu Agung Purbandoko. "Energy-Saving in Air Conditioners Using PLC Control and the SCADA Monitoring System." ECTI Transactions on Electrical Engineering, Electronics, and Communications 20, no. 1 (February 18, 2022): 22–31. http://dx.doi.org/10.37936/ectieec.2022201.246095.

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The promotion of energy-saving air conditioners (ACs) continues to increase. Therefore, this research proposes the implementation of automatic control and monitoring for AC fan evaporator and compressor speeds using a programmable logic controller (PLC) along with supervisory control and data acquisition (SCADA). The proposed system uses a room-temperature sensor, connected to the PLC and programmed with a ladder diagram. It is connected to a SCADA installed computer for monitoring and data logging. The testing involves three methods: conventional, manual, and automatic PLC-based. Over a four-week period, the conventional method consumed 193.6 kW⋅h, 198.7 kW⋅h, and 206.6 kW⋅h in energy, while the manual method consumed 160.5 kW⋅h, 160.1 kW⋅h, and 161.9 kW⋅h, and the automatic method 150.8 kW⋅h, 152.6 kW⋅h, and 154.8 kW⋅h using the trapezoidal composite rule, Simpson's composite rule, and ordinary methods, respectively. The main research contribution is the provision of an energy-saving system for air conditioners over a long duration using PLC. The PLC-based automatic-to-manual energy savings equate to 6.0%, 5.8%, and 4.4%; whereas 22.0%, 24.0%, and 25.0% for the PLC-based automatic-to-conventional method. Therefore, the PLC-based automatic control is deemed appropriate for electrical energy-saving.
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Wahyudi, Erik, Hikmatul Amri, and Irwan Syarif. "SISTEM PENGEPAKAN DENGAN METODE SORTASI PENGATURAN KECEPATAN KONVEYOR BERDASARKAN UKURAN KEMASAN MENGGUNAKAN OUTSEAL PLC NANO V.4 DAN HAIWELL SCADA." Patria Artha Technological Journal 4, no. 2 (October 31, 2020): 101–8. http://dx.doi.org/10.33857/patj.v4i2.356.

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The production process which is designed is a packaging system for the initial storage of products to be filled in the packaging, in this study a conveyor is designed that can sort objects using a proximity sensor and adjust the speed based on the size of the packaging using pulse width modulation (PWM), and can fill the packaging based on the size of the packaging. The product. Automatic control of packing using Outseal PLC Nano.V.4, the system can be controlled and monitored using Haiwell SCADA software on a PC. Outseal PLC nano V.4 test results can operate based on program commands that have been designed. The use of PWM Outseal PLC Nano V.4 on a 12 volt DC motor as a speed controller works in accordance with the duty cycle and PWM scale values given with an efficiency value of 86,56 % at at a PWM value of 900 and 86,23 % at a PWM value of 1023. HMI system made using Haiwell SCADA to control and monitor a successful packing system. Outseal PLC Nano V.4 can operate optimally with the SCADA system. The overall system test results of all sensor components, product packaging and HMI variables are 100 % successful, with an average processing time of packing size M for 11.62 seconds and size L for 14.58 seconds.
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Chambel, Abhishek Kumar, and Er Bharti Sood. "Optimization of Solar Energy Production using PLC and SCADA." International Journal of Trend in Scientific Research and Development Volume-3, Issue-1 (December 31, 2018): 9–14. http://dx.doi.org/10.31142/ijtsrd18912.

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Astutik, Rini Puji, Denny Irawan, Eka Putra Prastya, and Alief Hidayah. "PELATIHAN OUTSEAL- HAIWELL FOR PLC AND SCADA di SMKN 1 SINGOSARI, MALANG." DedikasiMU : Journal of Community Service 5, no. 2 (June 5, 2023): 192. http://dx.doi.org/10.30587/dedikasimu.v5i2.5498.

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Sistem Otomatisasi Industri berkembang sangat pesat dan hampir semua industri menggunakan sistem otomatisasi. Hal ini memacu sekolah untuk mengembangkan diri sehingga dapat terus menguasai teknologi otomatisasi terbaru meskipun terkadang dunia industri lebih cepat berkembang dari pada dunia sekolah. Hal ini berkaitan dengan ketersediaan perangkat terkini yang terkadang sulit untuk dapat dipenuhi dikarenakan keterbatasan pendanaan dari sekolah itu sendiri. Perangkat Outseal-Haiwell merupakan salah satu perangkat PLC dan SCADA yang dapat menunjang sistem otomatisasi industri dan dirancang dengan material komponen yang sederhana yaitu menggunakan Arduino Uno sebagai PLC dan PC atau laptop sebagai SCADA dengan software Outseal-Haiwell. Dengan diselenggarakan pelatihan Outseal-Haiwell untuk PLC dan SCADA di SMKN 1 Singosari, Malang memacu semua siswa beserta guru untuk mempelajari sistem otomatisasi ini. Terdapat beberapa studi kasus yang disajikan untuk menambah kemampuan dalam penguasaan materi sehingga semua peserta dapat lebih memahami cara kerja dari sistem otomatisasi industri dengan cara yang sederhana. Dari hasil respon yang diberikan oleh peserta menunjukkan bahwa mereka sangat antusias dalam mengikuti pelatihan. Selain itu pengujian penguasaan materi diberikan ke peserta untuk mengetahui tingkat penguasaan materi dan hasilnya menunjukkan adanya peningkatan yang signifikan setelah pelatihan dibandingkan sebelumnya.
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Syahrizal, Endi, and Hikmatul Amri. "Analisa Rancang Bangun Sistem SCADA Pengontrolan Kelistrikan AC dan PC Laboratorium Pemrograman Gedung Elektro." INOVTEK - Seri Elektro 1, no. 1 (January 7, 2020): 21. http://dx.doi.org/10.35314/ise.v1i1.1171.

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Penelitian ini merupakan pengujian terhadap pengontrolan kelistrikan laboratorium Gedung Elektro. Dengan adanya pengujian ini peneliti dapat melihat perbandingan antara pengontoran kelistrikan tidak menggunakan SCADA mempunyai kekurangan dalam pegawasan di mana dengan menggunakan SCADA bisa dikontrol melalui laptop. Penelitian ini menggunakan PLC Mitsubishi FX2N-48MR dan relay double pole double throw digunakan sebagai alat pengontrolan kelistrikan secara real time. Tujuan penelitian ini adalah untuk mengoptimalkan kelistrikan di laboratorium di mana apabila tidak menggunakan sistem SCADA ketika pada saat jam perkuliahan sering terjadi AC dan PC tidak dimatikan oleh mahasiswa/i. Oleh karena itu dengan adanya sistem SCADA tidak ada lagi AC dan PC yang tidak dimatikan lagi, selain itu sistem SCADA bisa menurukan pemakaian energi listrik yang sangat baik digunakan di ruangan perkuliahan. SCADA dikontrol melalui laptop dengan beban yang begitu besar. Sebelum menggunakan SCADA pemakaiannya tinggi dengan nilai Rp 183,564 sedangkan menggunakan SCADA pemakaian listrik menurun dengan nilai Rp 93,375. Hasil penelitian bahwa pengontrolan dengan sistem SCADA menurunkan biaya pemakaian sebesar 50,87 %.
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Akbar, Muhammad Ramzil, Sayed Munazzar, Yuliadi Amran, and M. Nasir. "Aplikasi Vijeo Citect Menggunakan PLC TWDLCAA24DRF Berbasis SCADA." Jurnal Litek : Jurnal Listrik Telekomunikasi Elektronika 17, no. 1 (March 28, 2020): 23. http://dx.doi.org/10.30811/litek.v17i1.1689.

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Sistem kontrol dan monitoring, seperti untuk mengontrol tekanan, temperatur, kelembaban, viskositas, dan operasi peralatan, adalah hal yang sangat penting dan harus ada pada suatu industri proses. Sistem ini memberikan kemudahan dan keamanan dalam pengoperasian industri tersebut. Penerapan sistem kontrol dan monitoring yang baik dapat berdampak pada performansi proses industri yang bagus, mempertinggi laju dan kualitas produksi, dan menurunkan biaya produksi. Salah satu sistem kontrol yaitu software Vijeo Citect/SCADA. Pada penelitian ini, dilakukan pengujian terhadap penggunaan software Vijeo Citect SCADA sebagai sistem kontrol dan monitoring pada level air otomatis. Hasil observasi yang diperoleh dengan menggunakan sofware ini adalah sistem kontrol beroperasi otomatis dan tampilan hasil monitoring adalah real time. Sistem bekerja sesuai dengan ledder diagram dan diatur pada rung analog. Jika tegangan yang diperoleh 1,25 V maka rung ledder 500 bit, apabila tegangan dinaikkan 2,5 V maka rung ledder 1.000 bit, jika tegangan 3,75 V maka rung ledder menjadi 1.500 bit, dan akhir tegangan sampai 5 V diperoleh total dari keseluruhan rung analognya 2.000 bit.
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Hiray, Anuj, Omkar Chinchkar, Parth Butte, and Mrs Vaneela Pyla. "PLC and SCADA Based Sewage Water Treatment Plant." IJIREEICE 5, no. 5 (May 15, 2017): 38–41. http://dx.doi.org/10.17148/ijireeice.2017.5507.

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Rafeeq, Mohammed, and Asif Afzal. "Automation of ac system employing plc and Scada." Advances in Modelling and Analysis C 73, no. 1 (March 30, 2018): 8–16. http://dx.doi.org/10.18280/ama_c.730102.

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Yilmaz, Ercan Nurcan, and Mehmet Karayel. "PLC Based SCADA for Micro Hydroelectric Power Plants." International Journal of Electrical Energy 4, no. 1 (2016): 67–70. http://dx.doi.org/10.18178/ijoee.4.1.67-70.

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abilash, D. Ajay, P. Kayalvizhi, R. Rakesh, and S. Balamurugan. "Automation in Biomethanation Plant Using PLC and SCADA." International Journal of Bio-Science and Bio-Technology 8, no. 2 (April 30, 2016): 171–80. http://dx.doi.org/10.14257/ijbsbt.2016.8.2.16.

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Sudewanto, Suhardhika Sih. "Radiolink Microwave Sebagai Infrastruktur Telekomunikasi Sistem SCADA." KILAT 9, no. 1 (April 25, 2020): 36–42. http://dx.doi.org/10.33322/kilat.v9i1.767.

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Expansion of the electrical network and substation makes a demand of the telecommunication channel for SCADA system is high. Telecommunication infrastructure which operates based on Power Line Carrier (PLC) can not provide adequate supply. Therefore, It needs new media to fulfill the demands of the telecommunication channel for SCADA System. Selection methods will be done by comparing technical and non-technical aspects of various telecommunication media that operates in the PLN network. One of suitable media is microwave radiolink. With high capacity and bandwidth, microwave radiolink can be the backbone of SCADA System
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31

Zhao, Li Ming, and Bing Zhang. "Large Scale Motor Group Integrative Management and Control Network System Based on PLC-SCADA under Complex Environment." Applied Mechanics and Materials 742 (March 2015): 698–707. http://dx.doi.org/10.4028/www.scientific.net/amm.742.698.

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Using advantages of PLC, SCADA, inverter, bus and internet in industrial production, in order to cope with the characteristics of large number of motor, complex sequential logical, high drive control demanding and distributed in different territory, it designs a configuration monitoring system for motor group integrative management and control network system, which uses PPI protocol and USS protocol and fieldbus technology, configuration monitoring technology and network technology, etc. It can realize the effective management of large number of motor driving and control. Due to its function quite similar, S7-200 and S7-300 and MM440 in the paper can be replaced by other kinds of PLC and inverter on the market. So the control scheme proposed by this paper is more practical and universal. Application in textile printing and dyeing institutions multi-cell motor driving, it shows that the designed system can drive and control the motor group with high efficiency and reliable.Keyword:largenumberofmotor;motorgroupnetwork;driveandcontrol;inverter;PLC-SCADA.
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Cedeño Rogger, Andrade. "Módulo didáctico para controlar nivel y caudal de agua, mediante sistema SCADA, PLC y algoritmo PID." Revista de Investigaciones en Energía, Medio Ambiente y Tecnología: RIEMAT ISSN: 2588-0721 4, no. 2 (January 10, 2020): 50. http://dx.doi.org/10.33936/riemat.v4i2.2196.

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In this project, design and construction of an educational module has been carry out, allowing understand in a practical way, the concepts related to: control system, instrumentation, actuator, programmable logic controller, SCADA system and control algorithm. Module’s principal components are main tank, reserve tank, piping system, fittings, differential pressure transducer, turbine flowmeter, rotameter, control valve, solenoid valves, servovalve, centrifugal pump, PLC and a personal computer (PC). With this, automatic flow and water level control were achieve, through the implementation of a PID control algorithm. In the end, operation tests have been perform, generating changes in set point, and generating disturbances, to observe the response of the process and assess the control system. Keywords — control system, instrumentation, flow control, level control, PLC, SCADA, PID controller
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Indra, Indra, Abraham Akbar K, Taufik H, Sila Wardono, and Murie Dwiyaniti. "Performansi Pengendalian Kecepatan Motor Induksi berbasis PLC-PID-SCADA." ELECTRICES 2, no. 2 (October 2, 2020): 62–70. http://dx.doi.org/10.32722/ees.v2i2.3066.

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Pembelajaran tentang pengendalian kecepatan putar motor induksi tiga fasa merupakan salah satu mata pelajaran wajib di Jurusan Teknik Elektro. Banyak industri yang menggunakan motor induksi ini karena konstruksinya yang sederhana dan perawatannya mudah. Namun untuk mengendalikan motor induksi pada kecepatan putar konstan cukup sulit karena membutuhkan pengaturan frekuensi. Pada penelitian ini dibuat modul kecepatan motor induksi berbasis PLC-PID-SCADA untuk memudahkan mahasiswa dalam memahami proses pengendalian kecepatan putar motor induksi. Kontroler PID pada PLC memberikan sinyal ke penggerak kecepatan variabel (VSD) untuk mengubah data tegangan menjadi frekuensi. Kinerja atau karakteristik sistem ini dapat dipantau melalui SCADA. Mahasiswa dapat dengan leluasa mengatur input atau Setpoint dalam modul pembelajaran ini dan mengubah parameter PID untuk mendapatkan performa terbaik.Performansi terbaik dihasilkan dengan menggunakan parameter pengendali Kp = 20 dan Ti = 1, yaitu tidak ada overshoot, settling time 2,2 detik, dan waktu tunda 0,1 detik.
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Khairuddin, Muhammad, Zakiyah Amalia, Edi Sulistyo Budi, Adelia Dwi Puspitasari, Alfiandi Aulia Rahmadani, and Firman Bagus Prasetyo. "Implementasi sistem SCADA dengan metode kontrol PID pada motor DC penggerak conveyor belt." JURNAL ELTEK 20, no. 2 (October 28, 2022): 41. http://dx.doi.org/10.33795/eltek.v20i2.353.

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Sistem SCADA (Supervisory Control and Data Acquisition) merupakan teknologi komputer yang banyak digunakan pada sistem kendali di dunia industri saat ini. Pada penelitian ini sistem SCADA digunakan pada plant motor penggerak konveyor karena plant tersebut sangat banyak digunakan di industri, hampir semua jenis industri menggunakan konveyor untuk memindahkan barang dari satu tempat ketempat lainnya. Implementasi kontrol yang digunakan pada penelitian ini adalah metode kontrol PID (Proportional Integral Derivative) yang akan mengoreksi error secara otomatis dari pengukuran variabel input sensor kecepatan dengan menggunakan rotary encoder sehingga kecepatan putaran motor DC bisa sesuai dengan nilai setpoint yang ditentukan melalui sistem SCADA. Kontroler utama pada sistem ini adalah PLC (Programmable Logic Controller) Siemens S7-1200 yang berperan sebagai RTU (Remote Terminal Unit) pada sistem SCADA. Nilai parameter PID yang ditentukan pada sistem SCADA adalah Kp = 0,25, Ti = 0,8 dan Td= 0,08. Berdasarkan hasil pengujian, sistem SCADA bisa mengendalikan plant dengan baik dengan nilai error steady state sebesar 1,1% - 3,4% baik saat conveyor belt bekerja dengan beban maupun tanpa beban. Dengan sistem SCADA, monitoring sistem bisa dilakukan dari jarak jauh tanpa harus datang langsung ke lokasi tempat plant berada sehingga lebih memudahkan proses monitoring dan kontrol plant di dunia industri. ABSTRACT The SCADA (Supervisory Control and Data Acquisition) system is a computer technology that is widely used in control systems in today's industrial world. In this study, the SCADA system was used in a motor conveyor driving because the plant is very widely used in industry, almost all types of industry use conveyors to move goods from one place to another. The control implementation used in this study is the PID (Proportional Integral Derivative) control method which will correct errors of the speed sensor input variable using a rotary encoder so that the DC motor rotation speed match the setpoint value determined through the SCADA system. The main controller in this system is the Siemens S7-1200 PLC (Programmable Logic Controller) which acts as the RTU (Remote Terminal Unit) on the SCADA system. The PID parameter values determined in the SCADA system are Kp = 0.25, Ti = 0.8 and Td = 0.08. Based on the test results, the SCADA system can control the plant well with a steady state error value of 1.1% - 3.4% both when the conveyor belt is working with or without load. With the SCADA system, monitoring the system can be done remotely without having to come directly to the location where the plant is located, making it easier for the process of monitoring and controlling plants in the industrial world.
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Popescu, Vasile Florin, Victor Gânsac, Olivia Comşa, Marius Pârvu, and Sorin Pistol. "Supervisory Control and Data Acquisition (SCADA) Traffic Simulation for Controlling Industrial Processes and Infrastructures." Land Forces Academy Review 27, no. 4 (December 1, 2022): 423–40. http://dx.doi.org/10.2478/raft-2022-0051.

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Abstract Supervisory Control and Data Acquisition (SCADA) systems have become critical for companies to save a lot of time and money and connectivity more important than ever in the era of Industry 4.0. That’s why organizations are looking for integrated platforms that can simulate industrial traffic between different locations around the globe. The present work succeeded in simulating data and information traffic through SCADA systems, within the SAFEPIC – 19 project, carried out in different scenarios using SCADA controller simulators (“PLC ladder controller” emulators and communication using Modbus/TCP protocols), “Reconnaissance” attack simulators by scanning addresses and ports to discover vulnerable ports, “Command injection” attack simulators, “Denial of Service” attack simulators.
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36

Esha S Kumar, Pooja S, Sivapriya M, Sowndhariya A, and Alice Linsie A. "Metro Water Distribution System and Leakage Detection." Bulletin of Scientific Research 2, no. 1 (May 30, 2020): 60–64. http://dx.doi.org/10.34256/bsr2019.

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In the current scenario there is an increasing growth in the residential areas which in turn leads to larger population. Nowadays there has been a huge water scarcity problem across, there arises the need for adequate water distribution to all the areas and prevention of water leakage as well. This proposed system of water distribution and leakage detection system based on PLC and SCADA software is designed to allocate water as per requirement depending on the number of members residing in an area. This PLC based automated system using Embedded controller is already pre-programmed to do the operations and results are shown in ladder diagram using Pico soft software. A threshold is set for each area and the water is distributed from the main storage tank to other subsequent tanks. The water supplied is measured with the help of flow sensors and solenoid valves are used for automatic opening and closing of valves. PLC is used to control the distribution of water and SCADA is one of the emerging technologies which is used for complete monitoring.
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Tükez, Enes Talha, and Adnan KAYA. "SCADA System for Next-Generation Smart Factory Environments." ICONTECH INTERNATIONAL JOURNAL 6, no. 1 (March 20, 2022): 48–52. http://dx.doi.org/10.46291/icontechvol6iss1pp48-52.

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Today, in factories, production is spread into a wide area and became complicated. Complicated production requires a better monitoring and control system to improve efficiency. For this purpose, SCADA systems are used. SCADA systems allow industries to monitor, control and access to real-time data and data logging. Nowadays, all large-scale industries have SCADA systems. The cost of the SCADA system makes it unreachable for small and medium-size industries but a SCADA system that is designed by using C# programming language would be cheaper and could perform the same. In this study, a SCADA system has been developed to monitor and control the smart model factory system in AFSUAM. SCADA interface is created by using C# programming language and the communication between PLC and the SCADA is set by using Mitsubishi MX Component tool. With the developed SCADA system, the process of a product entering the factory as raw material, going through several processes and becoming a product from the supply chain to the distributor has been modeled on a sample marble factory model, and a graphical user interface has been created considering the purposes such as real-time monitoring, controlling, data logging and preventing errors in the context of this model.
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Oktaviani, Thasya, Salahuddin Ali, and Rusli Taher. "Perancangan Prototype Cuci Mobil Otomatis Berbasis PLC Dan SCADA." Jurnal Litek : Jurnal Listrik Telekomunikasi Elektronika 16, no. 2 (September 1, 2019): 42. http://dx.doi.org/10.30811/litek.v16i2.1206.

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39

Saraswathi, K. "Controlling of PLC for Grain Storage Systems Using SCADA." International Journal of Advanced engineering, Management and Science 3, no. 6 (2017): 696–702. http://dx.doi.org/10.24001/ijaems.3.6.13.

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Roseline, J. Femila, G. V. Siva Leela, and K. R. S. Pravallika. "Automation Control of Metro Traction Using Plc and Scada." Journal of Physics: Conference Series 1362 (November 2019): 012079. http://dx.doi.org/10.1088/1742-6596/1362/1/012079.

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41

Lin, Jian. "PLC-Based Automatic Plating Line Design." Advanced Materials Research 562-564 (August 2012): 725–28. http://dx.doi.org/10.4028/www.scientific.net/amr.562-564.725.

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In the vehicle engine's part, piston ring is a important part, which working environment is hard. It’s surface need to be enhanced so that to gain highly wear resistance and anti-corrosion properties. But in the piston ring manufacturing process, how to improve the working environment is a real urgent problem. This article present a design for SCADA(Supervisory Control and Data Acquisition) system using for automatic electroplating line, which use industrial PC , PLC and other components, connected by industrial network. Some detail technology are introduced.
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Madeleine, Madeleine, Imam Halimi, and Septina Indrayani. "Kinerja Pemantauan Proses Mesin Sortir Bungkus Permen Melalui Scada - Image Processing." ELECTRICES 2, no. 2 (June 2, 2021): 71–77. http://dx.doi.org/10.32722/ees.v2i2.3190.

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Pada perkembangan proses produksi di era revolusi industri 4.0 ini, kecepatan, ketepatan, konsistensi, dan ketelitian sangat dibutuhkan. Oleh karena itu dibutuhkan sebuah sistem yang dapat mengawasi, mengontrol, dan mengakuisisi data-data yang dibutuhkan dari suatu proses produksi, sistem ini disebut SCADA. Pada artikel ini, dibuat pemrograman SCADA dengan software Vijeo Citect untuk memantau dan mengontrol mesin sortir bungkus permen berbasis image processing. Mesin sortir berbasis image processing ini berfungsi untuk menyortir benda kerja sesuai dengan warna dan bentuk. Alat ini dilengkapi dengan modul ESP 32 Cam untuk membaca benda kerja biru dan hijau. selain itu, mesin ini juga dilengkapi solenoid ejector sebagai pendorong benda kerja dari penampungan ke tempat penyimpanan hasil sortir. Pengujian untuk mengetahui pengaruh input dan output proses dan kinerja serta fungsi SCADA sebagai sebuah sistem pemntauan dan pengendali proses mesin sortir telah dilakukan. Hasilnya SCADA dapat berfungsi dengan baik untuk memantau dan mengontrol proses mesin sortir permen. Hal ini dibuktikan dengan terhubungnya semua peralatan SCADA, PLC outseal, dan hardware mesin sortir.
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Zaquinaula, Freddy Patricio Ajila, Christian Sánchez-Acosta, Juan Carlos Pacheco-Reinoso, and Arisdorgan Diéguez Almaguer. "Automatización De Una Sala De Ordeño Para El Control De Compuertas, Dosificación De Alimento Y Medición De Leche, Caso De Estudio: Espoch-Ecuador." European Scientific Journal, ESJ 14, no. 30 (October 31, 2018): 419. http://dx.doi.org/10.19044/esj.2018.v14n30p419.

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This paper focuses on the development of an automatic system for a milking room in the Tunshi Experimental Center of the Polytechnic Superior School of Chimborazo, Ecuador. This research uses a theoretical, empirical and statistical methods, and it was carried out using the SCADA system. The proposal was integrated by three subsystems that fulfill specific functions. These functions are: gate control system, feed dosage control system, and milk measurement system. These subsystems use a Programmable Logic Controller (PLC) that is responsible for communicating with devices such as sensors, electrovalves, and pneumatic actuators. The PLC communicates through a process control server (PCS) using a Control Software developed in LabVIEW, which is responsible for the monitoring and controlling the SCADA System. This is done in order to propose a viable option in a bid to increase the competitiveness of the livestock sector.
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Behera, C., S. M. Patil, S. K. Mishra, G. H. K. Reddy, and A. K. Goswami. "Control and analysis of crucial parameters for an automatic boiler unit in a chemical industry." International Journal of Engineering, Science and Technology 14, no. 3 (August 30, 2022): 94–103. http://dx.doi.org/10.4314/ijest.v14i3.11s.

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A boiler plays a significant role in a processing industry, particularly in chemical industry. It requires proper adoption of control techniques for supplying accurate temperature, pressure, steam, and water flow to produce chemicals. An uncontrolled boiler can shut down the whole process. Therefore it requires a continuous monitoring system for avoiding such shutdown. In the past few decades, relay logic, embedded or process card systems were used for controlling the boiler system. In the conventional system, the controlling scheme was also complex for troubleshooting because process cards are used only once. In order to overcome this type of problem Supervisory Control and Data Acquisition (SCADA) and Programmable Logic Controller (PLC) system helps to collect data and information about the flow of boiler from various sensors. In this paper, SCADA and PLC assist in controlling crucial parameters using Proportional Integral Derivative (PID) control. PID controller used in this paper is programmed according to the boiler operation's need, and the data can be stored and analyzed using the SCADA system. The results in this paper help the industrial personnel for boiler automation, allowing the plant operator to observe the crucial parameters for increasing boiler efficiency and reducing the financial losses.
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Azizah, Nurlaila, and Dian Pratiwi. "Implementasi Web-Scada Untuk Me-Monitor Besaran Listrik Di Gedung Elektro Kampus 1 Politeknik Negeri Ujung Pandang." Jurnal Teknologi Elekterika 3, no. 1 (May 30, 2019): 7. http://dx.doi.org/10.31963/elekterika.v3i1.1546.

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Tujuan tugas akhir ini adalah memodifikasi suatu peralatan yang sudah terpasang dengan menambahkan penyimpanan data hasil pengukuran besaran listrik secara real time yang dapat diakses melalui jaringan web untuk menggantikan system pengukuran secara manual dan konvensional agar dapat mempermudah operator dalam membuat keputusan-keputusan terkait pada gedung Teknik Elektro Politeknik Negeri Ujung Pandang. System pendukung yang dibuat memanfaatkan Power Logic Schneider PM-5350 yang terintegrasi dengan komunikasi data melalui Ethernet yang selanjutnya ditampilkan dalam bentuk visualisasi yang mudah dipahami oleh pengguna. Metode yang digunakan pada tugas akhir ini, menggunakan metode rancang bangun yang terdiri dari beberapa tahap, yaitu : (1)identifikasi kebutuhan, (2)Konsep Rancangan, (3)Pembuatan, dan (4)Pengujian. Monitoring besaran listrik di Gedung Elektro Kampus 1 Politeknik Negeri Ujung Pandang terdiri dari: (1)Power Meter berfungsi untuk membaca data besaran listrik yang terhubung dengan PLC, yang mana (2) PLC bertugas membaca hasil pembacaan besaran listrik dari PM-5350, dengan menggunakan komunikasi data melalui Ethernet. PLC yang saling terhubungan dengan Personal Computer, (3) aplikasi integraXor bertugas membuat visualisasi SCADA yang juga saling terintegrasi dengan (4) aplikasi So Machine sebagai virtual komunikasi PLC dengan Personal Computer. Pada visualisasi di HMI-GXU3512 ditampilkan hasil pembacaan besaran listrik yang telah dibuat, di aplikasi Integraxor. Sedangkan, untuk mengakses SCADA yang telah dibuat via web, yaitu dengan memanfaatkan fitur bawaan dari aplikasi Integraxor. Hasil penelitian menunjukkan bahwa hasil monitoring besaran listrik melalui web tidak terlihat jauh berbeda dengan hasil monitoring pada power meter. Hasil visualisasi SCADA akan menampilkan data besaran listrik, yaitu Arus disetiap phasa, Tegangan line to line, Tegangan line to netral, Daya Aktif, Daya Reaktif, Daya Semu dan Faktor daya. Selain itu, pada visualisasi dapat juga dilihat kecenderungan data yang ada terhadap waktu dalam bentuk Grafik dan Tabel.
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46

Azizah, Nurlaila, and Dian Pratiwi. "IMPLEMENTASI WEB-SCADA UNTUK ME-MONITOR BESARAN LISTRIK DI GEDUNG ELEKTRO KAMPUS 1 POLITEKNIK NEGERI UJUNG PANDANG." Jurnal Teknologi Elekterika 16, no. 1 (May 30, 2019): 7. http://dx.doi.org/10.31963/elekterika.v16i1.1546.

Full text
Abstract:
Tujuan tugas akhir ini adalah memodifikasi suatu peralatan yang sudah terpasang dengan menambahkan penyimpanan data hasil pengukuran besaran listrik secara real time yang dapat diakses melalui jaringan web untuk menggantikan system pengukuran secara manual dan konvensional agar dapat mempermudah operator dalam membuat keputusan-keputusan terkait pada gedung Teknik Elektro Politeknik Negeri Ujung Pandang. System pendukung yang dibuat memanfaatkan Power Logic Schneider PM-5350 yang terintegrasi dengan komunikasi data melalui Ethernet yang selanjutnya ditampilkan dalam bentuk visualisasi yang mudah dipahami oleh pengguna. Metode yang digunakan pada tugas akhir ini, menggunakan metode rancang bangun yang terdiri dari beberapa tahap, yaitu : (1)identifikasi kebutuhan, (2)Konsep Rancangan, (3)Pembuatan, dan (4)Pengujian. Monitoring besaran listrik di Gedung Elektro Kampus 1 Politeknik Negeri Ujung Pandang terdiri dari: (1)Power Meter berfungsi untuk membaca data besaran listrik yang terhubung dengan PLC, yang mana (2) PLC bertugas membaca hasil pembacaan besaran listrik dari PM-5350, dengan menggunakan komunikasi data melalui Ethernet. PLC yang saling terhubungan dengan Personal Computer, (3) aplikasi integraXor bertugas membuat visualisasi SCADA yang juga saling terintegrasi dengan (4) aplikasi So Machine sebagai virtual komunikasi PLC dengan Personal Computer. Pada visualisasi di HMI-GXU3512 ditampilkan hasil pembacaan besaran listrik yang telah dibuat, di aplikasi Integraxor. Sedangkan, untuk mengakses SCADA yang telah dibuat via web, yaitu dengan memanfaatkan fitur bawaan dari aplikasi Integraxor. Hasil penelitian menunjukkan bahwa hasil monitoring besaran listrik melalui web tidak terlihat jauh berbeda dengan hasil monitoring pada power meter. Hasil visualisasi SCADA akan menampilkan data besaran listrik, yaitu Arus disetiap phasa, Tegangan line to line, Tegangan line to netral, Daya Aktif, Daya Reaktif, Daya Semu dan Faktor daya. Selain itu, pada visualisasi dapat juga dilihat kecenderungan data yang ada terhadap waktu dalam bentuk Grafik dan Tabel.
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47

Wong, Kiing Ing, and Teck Ung Siaw. "PLC and SCADA Laboratory Experiments for a Final Year Instrumentation Course." International Journal of Information and Education Technology 5, no. 11 (2015): 865–68. http://dx.doi.org/10.7763/ijiet.2015.v5.628.

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48

Mohammed Wasel, Noraldeen B., and Maan M. Abdulwahid. "Implementation method for Wireless Signal Transfer Using Wincc and Smart Server in SCADA system." Informatica : Journal of Applied Machines Electrical Electronics Computer Science and Communication Systems 01, no. 01 (December 1, 2020): 70–76. http://dx.doi.org/10.47812/ijamecs2010110.

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The Utilization of SCADA with PLC system has gained wide interest by several researchers. Currently, in the field of workstation and factories, which require performing the remote access connection or in the situation that regular access cannot be performed. The aim of such accessing is to perform data transfer between different equipment and stations. As a result, this paper presents and demonstrate the methodologies for handling the wireless based signal transfer for SCADA based application. Such configuration would be carried out based on the use of Wincc software and by using and creating a smart server for handling the issue of connecting HMI screen with SCADA component. The steps for performing the basic configuration has been clarified in detail in this work.
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49

Reinoso, Jonathan. "Actualización del sistema SCADA y de control para los reactores MQ5 y MQ6 de la planta de Pinturas Condor, Sherwin Williams Ecuador." MASKAY 5, no. 1 (December 1, 2015): 29. http://dx.doi.org/10.24133/maskay.v5i1.123.

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El presente documento describe la actualización del sistema SCADA para los reactores MQ5 y MQ6 de la planta de Pinturas Condor mediante el software Intouch y la actualización del sistema de control del reactor MQ5 implementado en un controlador lógico programable (PLC) de marca SCHNEIDER, además de la arquitectura de control realizada en el proyecto. El sistema SCADA y de control de los reactores permiten la visualización y control de los datos y variables más relevantes durante las diferentes fases de producción de resinas en los reactores MQ5 y MQ6.
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50

Aziz Abdullah, Binnaser. "IMPLEMENTING INTERNET PROTOCOL (IP) BASED SUPERVISORY CONTROL AND DATA ACQUISITION (SCADA) NETWORK SYSTEM." International Journal of Engineering Applied Sciences and Technology 7, no. 7 (November 1, 2022): 214–17. http://dx.doi.org/10.33564/ijeast.2022.v07i07.033.

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SCADA (supervisory control and data acquisition) is a system that monitors and control industrial, infrastructure, or facility- based processes. Scada systems integrate data acquisition systems with data transmission systems and graphical software in order to provide a centrally located "monitor and control" system for numerous process inputs and outputs. The sensors and metering devices are connected to field control devices. These control devices take real-world physical input signals from the sensors and, convert the signals to digital data and make decisions based on programmed logic or commands from the system operators. The control devices are connected control room environments where the hmi software systems are used by system operators to interact withthe control devices. IP SCADA is a plug and play feature in the IDP 600 terminal series that allow common SACDA devices such as remote terminal units (RTU) and PLC to be connected to SCADA networks using the IsatData Pro satellite service. IP SCADA is well suited for SCADA devices that are located in remote sites where other communication services are unavailable, unreliable or cost prohibitive and for sites that have low data usage requirements. IP-based SCADA Network systems provides many benefits like Unlimited locations for servers and clients, Service takeover and remote support, Data saving & Global Coverage.
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