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Submitted
Apr 6, 2023
Published
Aug 22, 2023
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Abstract

In the industrial world, we have definitely met with induction motors, both 1-phase and 3-phase
voltage sources. Induction motors are widely used today, because they have simple construction, are
inexpensive, relatively light, have high efficiency and are easy to maintain compared to DC motors.
However, in terms of adjusting the speed and torque of this motor is not an easy problem, with the
development of technology, this can be overcome by using an inverter. The inverter used is a Variable
Speed Drive (VSD) Inverter type. This inverter can convert and regulate 3 phase voltage sources
between 0 – 60 Hz depending on the specifications of the inverter used. In this study the ladder
diagram program was designed using TIA Portal V15.1 on a Programable Logic Controller (PLC)
which is used to control the speed of a 3 phase induction motor through the Human Machine Interface
(HMI) which is connected to the inverter. The controlled frequency is 0 – 50 Hz and the resulting
rotation is 0 – 1400 rpm. The greater the frequency data that is set, the speed of the induction motor
will be faster.

Keywords

Human Machine Interface Induction Motor Inverter PLC TIA Portal Variable Speed Drive

Article Details

References

  1. [1] Evalina Noorly, Azis H. Abdul,
  2. Zulfikar, " Pengaturan Kecepatan
  3. Putaran Motor Induksi 3 Fasa
  4. Menggunakan Programmable logic
  5. controller, " dalam Journal of Electrical
  6. Technology, 2th ed, Vol. 3, Sumatera
  7. Utara, 2018, pp 73.
  8. [2] Syaprudin dan Darwin, "MODUL
  9. LATIH PENGATURAN MOTOR
  10. INDUKSI 3 FASA DENGAN VFD
  11. BERBASIS PLC," dalam Prosiding
  12. Seminar Nasional Teknik Elektro,
  13. Vol.4, Ed. Jakarta, 2019, pp. 360.
  14. [3] Anthony Zuriman, S.T., M.T, “STUDI
  15. PENGARUH PERUBAHAN
  16. FREKUENSI SUMBER TERHADAP
  17. FAKTOR DAYA MOTOR INDUKSI
  18. 3-FASA,” dalam Jurnal Teknik Elektro
  19. ITP, Vol.2, No.2, Ed. Padang, Juli 2013.
  20. [4] Hartono, B. P., & Nurcahyo, E. (2017).
  21. “Analisis Hemat Energi Pada Inverter
  22. Sebagai Pengatur Kecepatan Motor
  23. Induksi 3 Fasa,” Elektrika: Jurnal
  24. Teknik Elektro, 1(1), 8-16.
  25. [5] ANTHONY, Zuriman. “Perancangan
  26. kapasitor jalan untuk mengoperasikan
  27. motor induksi 3-fasa pada sistem tenaga
  28. 1-fasa,” Jurnal Teknik Elektro, 2008,
  29. 8.1: 46-51.
  30. [6] Setiawan, A. E., Odinanto, T., &
  31. Muharom, S. (2016, October).
  32. RANCANG BANGUN INVERTER 3
  33. FASA SEBAGAI PENGENDALI
  34. KECEPATAN MOTOR INDUKSI 3
  35. FASA 1/2HP 0.37 KW
  36. MENGGUNAKAN METODE SPWM
  37. BERBASIS ARM
  38. MIKROKONTROLER (STM32F4). In
  39. Prosiding Seminar Nasional Sains dan
  40. Teknologi Terapan (pp. 17-24).
  41. [7] PURBOLAKSONO, A. A., Nansur, A.
  42. R., Prabowo, G., & Setiaji, O. (2009).
  43. Perencanaan dan Pembuatan Modul
  44. Inverter 3 Phase Sebagai Suplai Motor
  45. Induksi Pada Pengembangan Modul
  46. Praktikum Pengemudi Listrik (Sub Judul
  47. Software). eepis final project.
  48. [8] Haryanto, H. (2011). Pembuatan Modul
  49. Inverter sebagai Kendali Kecepatan
  50. Putaran Motor Induksi. Rekayasa, 4(1),
  51. 9-20.
  52. [9] Admin_AlfStudio. “Human Machine
  53. Interface adalah.”
  54. https://www.teknikelektro.com/2021/09/
  55. human-machine-interface-adalah.html, .
  56. Diakses pada 17 Januari 2023 pukul
  57. 10.23 Wib.