Wireless Communication on PLC Using Access Point TP-Link TL-WN722N

Rendi Priyatna, Asep Andang, Firmansyah Maulana Sugiartana Nursuwars

Abstract


Technological developments are a requirement for more practical system operation. One example is in data transmission. Wireless data communication is currently very popular. In today's revolution 4.0, of course, the use of cables in data transmission media is rarely used, but not every device supports wireless data communication. One of them is the PLC (Programable Logic Controller). As for additional extensions for PLCs to communicate wirelessly, they are sold separately and, of course, the price is quite expensive. Therefore, a solution for PLCs to communicate wirelessly using the TL-WN722N access point is widely available on the market. Measurements are made with the concept of point to point by looking at the results of modbus scans using Modscan32 on a PC server. The results show that the optimal maximum distance is 80 meters, with an average data transmission time of 1 second.


Keywords


Access Point; Modscan32; PLC; Wireless

Full Text:

PDF

References


. Hiron N, Andang A, Setiawan H.2016. Batch Processing Method in Machine to Machine Wireless Communication as Smart and Intelligent System. Int J Futur Comput Commun. (5(3):163–6).

. Jadmiko SW, Suharno DN, Nugraha SK.2020. Aplikasi Internet of Things ( IoT ) untuk Pemantauan Simulator Plant Berbasis PLC – Web Server. (:28–33).

. Priyatna R, Nursuwars FMS, Andang A, Elektro T, Teknik F, Siliwangi U, et al.2021. MODEL SISTEM OTOMATIS WATER TREATMENT. (02(02):12–8).

. Hiron N, Andang A.2017. Wireless communication with batching method based on Xbee-PRO S2B module for sensing of wind speed. Proceeding - 2016 2nd Int Conf Sci Inf Technol ICSITech 2016 Inf Sci Green Soc Environ. (:250–3).

. Mukti ASM, Primananda R, Amron K.2017. Analisis Pemakaian Energi Pada Sensor Node Dengan Protokol Komunikasi Zigbee Menggunakan Solar Cell. J Pengemb Teknol Inf dan Ilmu Komput Univ Brawijaya. (2(8):2614–9).

. Syarief S.2017. RANCANG BANGUN MONITORING SISTEM PENERANGAN PADA PROTOTYPE GEDUNG DUA LANTAI UNTUK PENGHEMATAN ENERGI BERBASIS WIRELESS SENSOR NETWORK ( WSN ). (16(2):157–68).

. Dwiyaniti M, Nitisasmita KM, Pendahuluan I. Prototype Sistem Otomasi Berbasis PLC dan SCADA Network Client Server dengan Multi Protokol Komunikasi.

. Mekatronika T, Indorama PE, Mega A, Praktikum K.2018. BERBIAYA RENDAH BERBASIS ARDUINO MEGA. (3(2)).

. Modbus DAN, Plc S, Berbasis TM.2020. Prosiding 4. (:79–84).

. Simanullang.2017. Sistem PID Pengendali Level Ketinggian Air Berbasis Modbus / TCP - LCU dan Industrial Field Control Node - RTU. Irons,Industrial Reasearch Work Natl Semin Negri Bandung. (:1–9).

. Hariyawan MY, Gunawan A, Putra EH.2015. Implementasi Wireless Sensor Network untuk Pendeteksi Dini Kebakaran Hutan. (5:1–10).

. Hasanul Fahmi.2018. Analisis Qos (Quality of Service) Pengukuran Delay, Jitter, Packet Lost Dan Throughput Untuk Mendapatkan Kualitas Kerja Radio Streaming Yang Baik. J Teknol Inf dan Komun. (7(2):98–105).




DOI: https://doi.org/10.18196/jet.v5i1.12260

Refbacks

  • There are currently no refbacks.


Copyright (c) 2021 Journal of Electrical Technology UMY


 

Office Address:

Journal of Electrical Technology UMY

Department of Electrical Engineering, Universitas Muhammadiyah Yogyakarta

Jl. Brawijaya, Kasihan, Bantul, Daerah Istimewa Yogyakarta

Phone/Fax: +62274-387656/ +62274-387646,

E-mail: jet@umy.university

Creative Commons License
Journal of Electrical Technology UMY is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License. situs slot gacor server kamboja slot