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All Journal Jurnal Sistim Informasi dan Teknologi
Muhammad Ridho Dewanto
Institut Teknologi Kalimantan
Computer Science & IT Decision Sciences, Operations Research & Management

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3 Phase Synchronous Motor Speed Control System Using PID Control Yun Tonce Kusuma Priyanto; Amalia Rizqi Utami; Muhammad Ridho Dewanto; Dwi Surya Santaki; Dian Wulandari
Jurnal Sistim Informasi dan Teknologi 2022, Vol. 4, No. 4
Publisher : Rektorat Universitas Putra Indonesia YPTK Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (632.873 KB) | DOI: 10.37034/jsisfotek.v4i4.149

Abstract

Synchronous motor is an alternating current (AC) motor that operates with the prime mover as the initial rotation of the rotor until the rotational speed is equal to the rotational speed of the imaginary poles on the stator. In its application a 3-phase synchronous motor needs to be set in advance so that the resulting speed is stable. In this big task of Electric Motor Control, a speed experiment was carried out on a 3-phase synchronous motor using Mathlab simulation with Siemens motor specifications, namely 50 Hz, 400 V with 16kVA power and 1500 RPM rotational speed using PID control to control the speed of a 3-phase synchronous motor so that it is more stable. From the calculations that have been carried out and the PID tuning that has been carried out, the results show that the PID control can control the motor so as to produce a more stable and efficient speed in the industry
Desain dan Simulasi Konverter Tiga Fasa AC – DC pada Pico Hydro Yun Tonce Kusuma Priyanto; Andre Amba Matarru; Muhammad Ridho Dewanto; Rizky Wahyudi
Jurnal Sistim Informasi dan Teknologi 2023, Vol. 5, No. 1
Publisher : SEULANGA SYSTEM PUBLISHER

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37034/jsisfotek.v5i1.194

Abstract

Pico hydropower plant is a generator engaged in the field of renewable energy, in general, the power system uses a 3-phase synchronous generator with AC voltage, in its development it can be used as a converter, by converting AC voltage to DC voltage. One of the uses of DC voltage is as so that it can be used as a battery charger or battery discharger. An AC-DC converter, also known as a rectifier, is a device for converting alternating current (AC) to direct current (DC). In general, many technologies in the industrial world utilize converters. In this paper, a simulation design of an AC-DC converter system will be made with a 230 Volt AC input with a DC voltage output. The manufacture of the converter is carried out with different gate values on the thyristors which are simulated using Simulink in MATLAB. The results of this study are in the form of analysis and mathematical calculations of the output of the AC-DC converter where from the simulation results that AC voltage can be converted to DC voltage with the working principle of the thyristor, thus the converter output results can be used in battery chargers and battery dischargers
Co-Authors Amalia Rizqi Utami Andre Amba Matarru Dian Wulandari Dwi Surya Santaki Rizky Wahyudi Yun Tonce Kusuma Priyanto