Bending and rolling service providers in Subang Regency are still minimal, based on observation data in five workshops, there is only one workshop that provides bending and rolling services, in addition, in the manufacture of the bending roll machine, it is necessary to have an electrical installation as the power that drives the drive system and analysis of the calculation of the drive system as planning to determine and install the drive system to be used. This final project is a qualitative descriptive study with the stage of data collection, wiring diagrams and calculations, installation, testing, and analysis.  The results of the study can be concluded that: (1) the electrical installation uses two main components including a 1 phase 1.5 HP electric motor and a 15 A cam starter 3, (2) the analysis of the calculation of the drive system includes the calculation of the power of the motor drive with the results: driving torque = 269 , 66 Nm, Driven torque = 210.66 Nm, calculation of the final rotation ratio of the roller with the results: the final rotation ratio n3 = 39.94 rpm, chain calculation ratio with chain speed results: v = 0.15 m / s, the amount of chain workload = 88 kg, comparison of theoretical calculations with technical calculations (measured tests) which include electric motors: (1400 rpm): (1403 rpm) difference = 3 rpm, speed reducer = (46.6 rpm): (59.93 rpm) difference = 13.33 rpm, main shaft sprocket = (39.94 rpm):(32, 83) difference = 7.11 rpm.

I. N. Bagia and I. M. Parsa, MOTOR-MOTOR LISTRIK, 1st ed., no. March. Kupang: CV Rasi Terbit, 2018.

A. Mustakim, “Rancang Alat/Mesin Pengerol Pipa,” Universitas Negeri Yogyakarta, 2012.

P. Paridawati, “ANALISIS KOPLING SEPEDA MOTOR DENGAN MENGGUNAKAN,” J. Ilm. Tek. Mesin Unisma “45” Bekasi, vol. 1, no. 2, pp. 77–85, 2013.

S. Suwidyanto and S. Suhariyanto, “PERHITUNGAN SISTEM TRANSMISI MESIN ROLL PELENGKUNG PIPA GALVANIS BERDIAMETER 1 1/4 INCH,” J. Mhs. Manufaktur, vol. 3, no. 1, 2015.

R. Rezani, I. Mutaqim, and S. Sutaryat, “Rancang bangun mesin pengupas kulit lada menggunakan,” J. Din. Vokasional Tek. Mesin, vol. 5, no. April, pp. 188–194, 2020.

A. Wang, H. Xue, S. Saud, Y. Yang, and Y. Wei, “Improvement of springback prediction accuracy for Z-section profiles in four-roll bending process considering neutral layer shift,” J. Manuf. Process., vol. 48, no. May, pp. 218–227, 2019.

H. Zhang and J. Wu, “ScienceDirect ScienceDirect ScienceDirect Study Study on on geometric geometric parameters parameters affecting affecting longitudinal longitudinal bending bending performance performance for of Tailor rolled blank for U-channel of Tailor rolled blank,” Procedia Manuf., vol. 50, no. 2019, pp. 187–191, 2020.

D. R. Novandra, T. Tiyasmihadi, and F. Hamzah, “Rancang Bangun Roll Bending Machine With Hydraulic Assist,” Conf. Des. Manuf. Its Apl., vol. 1, no. 1, pp. 168–174, 2017.

Z. Pater, J. Tomczak, and T. Bulzak, “Problems of forming stepped axles and shafts in a 3-roller skew rolling mill,” J. Mater. Res. Technol., vol. 9, no. 5, pp. 10434–10446, 2020.

P. Albertelli and M. Strano, “Tube bending machine modelling for assessing the energy savings of electric drives technology,” J. Clean. Prod., vol. 154, pp. 83–93, 2017.

S. Suwankomonkul, A. Khantachawana, and C. Changsiripun, “Comparison of cold-hardening bending and direct electric resistance heat treatment on the mechanical properties and transformation temperature of NiTi archwire: An in vitro study,” Int. Orthod., vol. 18, no. 1, pp. 147–153, 2020.