Tranceiver Multi Channels Untuk Kontrol Gerak dan Monitoring Kondisi Pada Robot Manual Mini Industri

Aad Hariyadi, Yani Ratnawati, Ridho Hendra Yoga Perdana


Robotic technology that is developing rapidly triggers robotics developers to improve their abilities, especially in the field of robot control and monitoring. Today, robots are indeed present in human life in various forms. One type of robot that is often developed by robotics developers is the Industrial Mini Manual Robot. An industrial mini manual robot is a transporter robot that is equipped with a gripper and is controlled manually by the user through a joystick controller both wired and wireless. The manual robot with cable joystick control is very inefficient in its use so research on wireless joysticks is carried out. However, the current wireless joystick still uses the single-channel method, thereby eliminating multitasking capabilities such as those of the wired joystick robot. In this research, the design of multichannel transceivers for control and monitoring so that the robot has the ability to multitasking and the movement of the robot is not disturbed by wires. Multichannel transceivers use different frequency channels to transmit data. The command data and monitoring data can be transmitted simultaneously. This multi-channel transceiver has an average pairing time of 23.59 ms, a range of 116 meters in each channel and large power consumption of 59 mA.


Control; NRF24L01; Remote; Robot Mini Industry, Transceiver Multi-channel


. H. Kagermann, W. Wahlster and J. Helbig, "Recommendations for implementing the strategic initiative INDUSTRIE 4.0 Final report of the Industrie 4.0 Working Group," acatech – National Academy of Science and Engineering, German, 2013.

. E. A. Lee, "Cyber Physical Systems: Design Challenges," International Symposium on Object/Component/Service-Oriented Real-Time Distribued Computing (ISORC), pp. 363-369, 2008.

. R. R. Tjandrawinata, "Industri 4.0: revolusi industri abad ini dan pengaruhnya pada bidang kesehatan dan bioteknologi," Jurnal Medicinus, vol. 29, no. 1, 2016.

."Epson Meluncurkan Robot Industri 6-axis Terbaru, Robot dengan Payload Tertinggi," PT. Epson Indonesia, 4 Oktober 2016. [Online]. Available: [Accessed 3 Juli 2018]

. A.Saefullah, D. Immaniar dan R. A. Juliansah, “Sistem Kontrol Robot Pemindah Barang Menggunakan Aplikasi Android Berbasis Arduino Uno,” vol.8, no.2,2015.

. A. H. Amrillah, H. Sunardi dan Zulkifli, “ Sistem Kendali Robot Pengintai Menggunakan Kontrol Komputer Berbasis Mikrokontroller Arduino,”Jurnal Informatika Global, vol.6, no. 1, 2015,

. T. A. S. Wibawa, Arifin.ST.MT dan A. Saleh.SST, “Rancang Bangun Robot Soccer Wireless Berbasis Mikrokontroller,” EEPIS Final Project, 2010.

. I. Tabroni dan M. Munir, “Prototype Forklift Omnidirectional Wheel And Robot Arm Based Microcontroller Atmega1284 And Joystick,” E-JPTE (Jurnal Elektronik Pendidikan Teknik Elektronika), vol. 6(6), pp. 24-32, 2017.

. Syahid dan M. Muqorrobin, “ Rancang Bangun Pengendalian Robot Beroda Berbasis Arduino Menggunakan Komunikasi Wireless,” JTET (Jurnal Teknik Eleketro Terapan),vol.3, no. 3, 2016.

. A. Jazmi, S. R. Akbar dan E. R. Widasari, “Implementasi Multi – Channel Pada Wireless Sensor Network,” Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer, vol. 2, 2017.

. B. Fajriansyah, M. Ichwan and R. Susana, "Evaluasi Karakteristik XBee Pro dan nRF24L01+ sebagai Transceiver Nirkabel," Jurnal ELKOMIKA, vol. 4, no. 1, p. 83, 2016.

. “Datasheet Arduino Mega 2560,” [Online]. Available: -24-ghz-long-distance-serial_11.html. [Diakses 20 Desember 2017].

. “Datasheet NRF24L01,” [Online]. Available: -24-ghz-long distance-serial_11.html. [Diakses 20 Desember 2017].

. S. Pradana, "Komunikasi Multi Channels NRF24101," 15 Juli 2017. [Online]. Available:



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