scholarly journals Simulasi Pengoperasian Motor Pompa Air Berbasis Programmable Logic Control

2020 ◽  
Vol 1 (2) ◽  
pp. 78
Author(s):  
Elvy Sahnur Nasution ◽  
Muhammad Fitra Zambak ◽  
Suhendra Suhendra ◽  
Arnawan Hasibuan
Keyword(s):  
Operating Time ◽  
Automated System ◽  
Clean Water ◽  
Programmable Logic ◽  
Water Pump ◽  
Operation System ◽  
Logic Control ◽  
Programmable Logic Control ◽  
Motor Operation ◽  
Systems Simulation

Maintain the availability of clean water in a multy-storey building make the water pump motor oprate continuously which can cause motor damage quickly, because there is no replacement system change of operation of the clean water pump motor conventional outomatic control. PLC (Programmable Logic Control) type Schneider Smart Relay Zelio Logic can be an opration to overcome clean water pump motor operation system to replace convensional automated system in to PLCbased automated systems. Simulation of the operational of a clean water pump motor in a multi-storey build use PLC software type Schneider Zelio Soft2 type SR2B121BD operate 3 clean water pump motors alternately between the source pump motor and the transfer pump motor, measurement of operating time transfer pump motor 1 with transfer pump motor 2 and the design of the alaram system trip to avoid damage to the motor using alarm rirens. Operating of PLC-based outomatic water pump motor very helpful oprator to operate the clean water pump motorized, where the operation of a clean water pump motor can be changed trought software as needed.

scholarly journals RANCANG BANGUN ALAT PENGATURAN ARAH PUTAR MOTOR DC POWER WINDOWS BERBASIS PLC PANASONIC MENGGUNAKAN HUMAN MACHINE INTERFACE (HMI)

2017 ◽  
Vol 19 (2) ◽  
pp. 10
Author(s):  
Tafki Aunika Fariz Alfitri ◽  
Iman Setiono
Keyword(s):  
New York ◽  
Human Life ◽  
Programmable Logic Controller ◽  
Human Machine Interface ◽  
Programmable Logic ◽  
Operation System ◽  
Logic Control ◽  
Programmable Logic Control ◽  
Dc Power ◽  
Machine Interface

Tafki Aunika Fariz Alfitri, Iman Setiono, in this paper explain that at this time human life has become more advanced especially in the field of science and technology, all people compete to create technology that is useful and easy for humans. At present the equipment in general has used a remote monitoring and operation system. This system usually uses a microcontroller or PLC as a control. In an effort to facilitate human work, in this case I tried to make a design setting the direction of rotation of the DC power windows. This DC power windows motor is usually used in the car to move the windshield up and down. This Windows power DC motor uses a power supply of 12 volt DC and the output is between 0-5 Volt. This design uses Panasonic PLC as its main control. By using the relay as a reverse rotation setting and forward DC power windows, the motor will automatically move in reverse and forward. The input of a 24 Volt DC panasonic PLC originating from the adapter. The design of this tool can later be applied to a glass in the car by using the Panasonic PLC as its control and other component components needed in the design of the rotary direction arrangement. In the operation by way of toch screen using a human machine interface as a contruction tool to drive the DC power window to spin in reverse or forward Keywords: Panasonic Programmable Logic Controller (PLC), Relay, Human Machine Interface (HMI).ReferencesAndrik, Rizki. Kontrol Arah dan Kecepatan Motor DC Menggunakan Android. http://library.um.ac.id. (diakses pada 20 Juni 2017, pukul 20.15)Utomo, Joko. Rancang Bangun Pengendali Dan Monitoring Motor DC Menggunakan Komputer Berbasis Mikrokontroller. http://digilib.unila.ac.id. (diakses pada 16 Juni 2017, pukul 19.30).Hart, Daniel W. 2011. Power Electronics. Singapore: Mc Graw Hill.Raharjo, dkk. 2005. Teori Dasar Elektronika dan Mengenal Komponen Elektronika. Departemen  Pendidikan Nasional : JakartaGὂnen, Turan. 1988. Modern Power Sistem Analisis. Amerika Serikat: CRC PressKusuma, Arya. Pengertian Programmable Logic Control (PLC) dan Jenis-Jenis PLC.   kusumawarya.blogspot.co.id. (diakses pada 29 Mei 2017, pukul 19.30)Abenk. Prinsip kerja PLC. http://www.insinyoer.com/prinsip-kerja-plc programmable-logic-controller/. (diakses pada 30 Mei 2017, pukul 07.00)Herman, Stephen. 2005. Understanding Motor Controls. New York : delmar cengage learningApyanti, Riska. PWM. http://riskaapyanti.blogspot.co.id.(diakses pada 2 Juni 2017, pukul 09.30)Kho, Dickson. Pengertian Relay dan Fungsinya. www.teknikelektronika.com. (diakses pada 30 Mei 2017, pukul 09.15)Sukamdani, Yunus . Motor DC Power Window. www.yunusarisumpurworejo powerwindow.blogspot.co.id. (diakses pada 26 Mei 2017, pukul 20.15)Rudy. HMI. http://xbrey.blogspot.co.id. (diakses pada 1 Juni 2017, pukul  20.00)

PERANCANGAN DAN ANALISA AUTOMATIC TRANSFER SWITCH (ATS) MENGGUNAKAN PROGRAMMABLE LOGIC CONTROL (PLC) OMRON CPM1A

2018 ◽  
Vol 3 (3) ◽  
Author(s):  
Nurul Chairunnisa
Keyword(s):  
Programmable Logic ◽  
Logic Control ◽  
Programmable Logic Control

Automatic Transfer Switch (ATS) adalah suatu rangkaian yang mampu memindahkan beban dari sumber listrik utama ke sumber listrik cadangan. Apabila kemudian PLN kembali normal selanjutnya ATS bertugas untuk mengembalikan jalurnya dengan memindahkan switch kembali ke sisi utama. Suplai daya utama dari PLN tidak selamanya berkesinambungan, suatu saat pasti terjadi pemadaman yang dapat disebabkan oleh perawatan secara berkala atau pun gangguan pada pembangkit di sistem distribusi dan sistem transmisi. Maka untuk mengatasi hal tersebut diperlukan back up daya yang berupa generator. Kendala dalam menggunakan generator ini adalah ketika suplai daya dari PLN terputus operator akan membutuhkan waktu yang lama dalam menghidupkan generator, inilah mengapa kita membutuhkan alat bantu otomatis untuk mempermudah operator yakni ATS. Alat yang dibuat ini dilengkapi dengan Programmable logic control (PLC), PLC ini merupakan sistem kontrol utama untuk alat yang akan dibuat sebagai kontrol otomatis sehingga memudahkan dalam pembuatan, instalasi, dan perawatan.Kata kunci : ATS, PLC, Generator

scholarly journals Cable Car Speed Control Using Programmable Logic Control Based on Fuzzy Logic

2020 ◽  
Vol 2 (3) ◽  
pp. 125-129
Author(s):  
Santi Triwijaya ◽  
Arief Darmawan ◽  
Andri Pradipta ◽  
Dara Aulia Feriando
Keyword(s):  
Fuzzy Logic ◽  
Wind Speed ◽  
Maximum Load ◽  
Dc Motor ◽  
Programmable Logic ◽  
Logic Control ◽  
Programmable Logic Control ◽  
Wind Speed Maximum ◽  
Safety And Reliability ◽  
Load Weight

A cable car is a hanging car that runs by cable. Cable car carrier controlled by DC motor. The cable car can be a solution to accommodate the mobilization of agricultural commodities in areas that are difficult to access while still paying attention to safety and reliability. In this research, the speed of a cable car would be automatically controlled with Programmable Logic Control (PLC). PLC functions as a cable car operation controller by considering 3 parameters, namely: wind speed, maximum load weight, and distance (meters). The speed of the cable car is controlled by the PLC using fuzzy logic. Cable car speed is based on parameters of wind speed, load weight and distance. From the results obtained, the PLC has worked well in regulating the speed of the cable car and if any parameter exceeds the PLC limit, it can turn off the cable car.

Energy Analysis and Compressor Performance of Refrigerator System Using Programmable Logic Control (PLC)

2014 ◽  
Vol 554 ◽  
pp. 469-473
Author(s):  
Nasution Henry ◽  
W.G. Munan ◽  
Abdul Aziz Azhar ◽  
Kasni Sumeru ◽  
Abdul Latiff Zulkarnain
Keyword(s):  
Energy Consumption ◽  
Energy Input ◽  
Energy Analysis ◽  
Coefficient Of Performance ◽  
Control Law ◽  
Programmable Logic ◽  
Test Results ◽  
Logic Control ◽  
Programmable Logic Control ◽  
Compressor Performance

This project present an experimental test results on energy consumption of a refrigerator compressor triggered by using thermostat and programmable logic control (PLC). The PLC modulates the speeds of the compressor according to refrigeration load using inverter based on control law written in the PLC memory. The temperature setting for both thermostat and PLC were varied at-8 °C and-10 °C respectively. At-8°C the results indicate PLC consumed 4.45 to 6.79% less energy compared to thermostat setting. While at-10°C, the saving made through PLC is in the range of 6.43 to 12.88%. The fluctuation of freezer compartment is better when PLC controlled. As the energy input to compressor is lower due to the slower speed, this enhanced the coefficient of performance (COP).

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