Article thumbnail

PURWARUPA SISTEM PENGENDALIAN DAN PEMANTAUAN KECEPATAN PUTAR MOTOR DC BERBASIS LABVIEW MENGGUNAKAN BOARD ARDUINO DEUMILANOVE SEBAGAI AKUISISI DATA

By , WAHYU SARI ASMARA DEWI and , R. Sumiharto, S.Si., M.Kom

Abstract

A prototype of monitoring and controlling system of motor DC rotary speed based on LabVIEW using Arduino Deuminalove board as the data acquisition has been made. This prototype is designed to facilitate the control of motor DC rotary speed which is displayed on LabVIEW. The system consists of optocoupler speed sensor H21A3, motor shield for Arduino, a set of power supply, Arduino Deumilanove board, and LabVIEW. The design of monitoring and controlling system of motor DC rotary speed uses an optocoupler, a speed sensor H21A3, an Arduino Deumilanove, series of communication devices using USB cable, and software program. The software program using LabVIEW programming and Arduino IDE as the velocity controller. The data processing result will be displayed on LabVIEW. The system of monitoring and controlling motor DC rotary speed is implemented using Arduino Deumilanove and LabVIEW. Optocoupler sensor, which is placed on the edge of rotary encoder disk, used to detect the quantity of the rotation. The data gained from the sensor will be the input on the digital pin 2 Arduino which later will be monitored and controlled by sending the data via pin 6 PWM on the motor shield for Arduino to actuate motor DC. Motor shield for Arduino is used to regulate the speed/velocity of the motor DC so as to adjust the set point. Set point which sent from LabVIEW has value 1000 RPM until 3300RPM. The result from optocoupler sensor are used to monitoring motor DC rotary speed has an accuracy rate of 83.75%. Error value for the reading speed of the motor DC is 15%

Topics: ETD
Publisher: [Yogyakarta] : Universitas Gadjah Mada
Year: 2013
OAI identifier: oai:generic.eprints.org:121362/core8303
Download PDF:
Sorry, we are unable to provide the full text but you may find it at the following location(s):
  • https://repository.ugm.ac.id/1... (external link)

  • To submit an update or takedown request for this paper, please submit an Update/Correction/Removal Request.

    Suggested articles