Desain dan Realisasi Sistem Kontrol Kecepatan dan Ketinggian Motor Menggunakan Sensor Optocoupler dan Sensor Ultrasonik Berbasis Arduino untuk Aplikasi Pengaduk Otomatis

Jurnal Teori dan Aplikasi Fisika Pub Date : 2024-01-27 DOI:10.23960/jtaf.v12i1.2761

A. Rosadi, Posman Manurung, Yanti Yulianti, Roniyus Marjunus, Junaidi Junaidi

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Abstract

In this research, the design and realization of a control system for the height and speed of the motor has been designed and implemented. The system was made to adjust the mixer automatically based on Arduino. The working principle of this system was followed, firstly, the system is given an input of height in cm and the rotational speed in the form of rpm using a 4 × 4 keypad. Arduino used to adjust the ultrasonic sensor as an altitude reader and an optocoupler as a mixer rotary speed reader. The results of the calibration of the two sensors obtained data with a correlation coefficient are 0.991 and 0.970. The stability of the height system and the stirrer speed have good precision indicated by the coefficient of variations were 0.941% and 0.155%. The smaller the coefficient of variation, it is means the better the stability level of the tool. The system accuracy values for measuring the height and speed of the stirrer were 94.78% and 96.34%. So that the reading error of the two sensors are 5.22% and 3.66%. Thus the height control of system and the stirrer rotational speed have a fairly good quality.

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使用光耦合器传感器和基于 Arduino 的超声波传感器设计和实现用于自动搅拌器应用的电机速度和高度控制系统

在这项研究中，设计并实现了电机高度和速度控制系统。该系统以 Arduino 为基础，可自动调节搅拌器。该系统的工作原理如下：首先，使用 4 × 4 键盘输入以厘米为单位的高度和以每分钟转数为单位的转速。Arduino 用来调节作为高度读取器的超声波传感器和作为混合转速读取器的光耦合器。两个传感器的校准结果得到的数据相关系数分别为 0.991 和 0.970。高度系统和搅拌器转速的稳定性和精确性良好，变异系数分别为 0.941% 和 0.155%。变差系数越小，说明工具的稳定性越好。测量搅拌器高度和速度的系统精度值分别为 94.78% 和 96.34%。因此，两个传感器的读数误差分别为 5.22% 和 3.66%。因此，系统的高度控制和搅拌器转速的质量相当好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Jurnal Teori dan Aplikasi Fisika

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