Cable Car Speed Control Using Programmable Logic Control Based on Fuzzy Logic

Triwijaya, Santi; Darmawan, Arief; Pradipta, Andri; Feriando, Dara Aulia

doi:10.35882/jeeemi.v2i3.7

Cited by 3 publications

(3 citation statements)

References 6 publications

(8 reference statements)

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“…PLCs are digital computers designed for industrial automation, capable of executing control functions based on programmed logic. They offer real-time monitoring, control, and data processing capabilities, making them ideal for motor protection applications (Prasetyo et al 2024(Prasetyo et al , n.d., 2021Triwijaya et al, 2020).…”

Section: Programmable Logic Controller (Plc)mentioning

confidence: 99%

Implementation of a Three Phase Motor Protection System Using PLC and HMI

Prasetyo,

Triyono,

Kusumo H

et al. 2024

Int. J. Multidiscipline. Approach. Res. Sci.

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Three-phase electric motors are essential components in industrial production processes, playing a crucial role as the driving force for almost all industrial machinery. These motors are susceptible to various electrical disturbances, such as overcurrent caused by overloads or short circuits. Common issues that frequently occur with three-phase motors include high starting currents, overcurrent, and short circuits. To mitigate the losses caused by these disturbances, an effective protection system is necessary. This study analyzes the implementation of a protection system using Programmable Logic Controller (PLC) and Human Machine Interface (HMI) to control and monitor the protection mechanisms for electric motors. The proposed protection system aims to safeguard the motors from disturbances such as high starting currents, overcurrent, and short circuits. By leveraging the real-time monitoring and control capabilities of PLCs and the user-friendly interface of HMIs, the system can accurately detect and respond to abnormal conditions, thereby minimizing the risk of damage to critical three-phase motors. The development of this protection system ensures the reliability and longevity of three-phase motors in industrial applications, reducing downtime and enhancing overall operational efficiency.

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Section: Programmable Logic Controller (Plc)mentioning

confidence: 99%

Implementation of a Three Phase Motor Protection System Using PLC and HMI

Prasetyo,

Triyono,

Kusumo H

et al. 2024

Int. J. Multidiscipline. Approach. Res. Sci.

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“…Baterai adalah sumber daya penting untuk memberi daya pada banyak jenis perangkat elektronik seperti ponsel, laptop, kamera, dan perangkat medis (2)(3)(4)(5). Selain itu, baterai juga menjadi komponen penting pada kendaraan listrik yang semakin popular (6,7). BMS memiliki beberapa fungsi utama yang sangat penting, seperti mengatur pengisian dan pengosongan baterai sesuai spesifikasi pabrikan, memantau kondisi baterai, melindungi baterai dari kondisi buruk seperti overcharging atau overdischarging, serta memberikan manfaat informasi tentang kinerja baterai seperti sisa kapasitas dan perkiraan masa pakai.…”

Section: Abstrakunclassified

Battery Management Optimization Considers The State Of Charge Using The Coulomb Counting Method

Triwijaya¹,

Pradipta²

2023

JOGE

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The Battery Management System (BMS) is important because more and more electronic devices and vehicles use batteries as a power source. Without BMS, battery charging can become unstable, resulting in overcharging and reducing battery life. Therefore, BMS is becoming increasingly important as part of the development of safer and more efficient technologies, resulting in more reliable and safer electronic devices and vehicles. The Coulomb Counting method is used to determine the state of charge of the battery at the beginning and end of charging. The coulomb counting method is very accurate for determining the state of charge because it calculates the incoming and outgoing electric charge from the read current value. The voltage from source to load uses a buck converter to step down the voltage from 27.3V source to 25.5V load voltage. The Coulomb Counting (CC) method is used to estimate the SOC of the battery being monitored. The CC method is accurate for estimating the SOC value during charging and discharging but cannot determine the initial SOC value. The results of the current test have an accuracy of 96.03% and the voltage test has an accuracy of 99.22%.

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“…Nilai sudut theta diberikan sebagai sinyal gerbang untuk motor BLDC. Kontroler umpan balik terhubung langsung ke inverter untuk menemukan kesalahan yang langsung diberikan sebagai input ke motor BLDC untuk mendapatkan kecepatan output yang diinginkan [3]. Dalam penelitian yang lain membahas terkait pemantauan hasil pengaturan kecepatan yang dilakuakn secara online dengan memanfaatkan teknologi internet of think (IoT) [4].…”

Section: Pendahuluanunclassified

Kontrol Kecepatan Motor BLDC dengan PID - Firefly

Triwijaya¹,

Prasetyo

Wati

2021

Media Komunikasi Teknologi

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Conventional DC motors often experience problems that require regular maintenance. The use of conventional DC motors can be replaced with Brushless DC (BLDC) motors. This BLDC motor has good efficiency and durability. Increasing the ability of BLDC motors can be done by speed regulation using the Proportional-Integral-Derivative (PID) method combined with Firefly Algorithm. Testing this method uses matlab 2014a. The firefly algorithm can obtain parameter values of Kp, Ki, and Kd which are then used as PID input. Because of inaccuracies in determining the value of a constant in PID and can cause the length of time to reach the desired speed. BLDC motor speed regulation with the PID method combined with firefly algorithm can make the BLDC motor reach synchronous faster.

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Cable Car Speed Control Using Programmable Logic Control Based on Fuzzy Logic

Cited by 3 publications

References 6 publications

Implementation of a Three Phase Motor Protection System Using PLC and HMI

Implementation of a Three Phase Motor Protection System Using PLC and HMI

Battery Management Optimization Considers The State Of Charge Using The Coulomb Counting Method

Kontrol Kecepatan Motor BLDC dengan PID - Firefly

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