The Construction of a Rotation Acquisition System using Arduino and Scada Supervisory Software

Adeilson Nascimento de Sousa; Laudileni Olenka; Jorge Luis Nepomuceno de Lima; Viviane Barrozo da Silva; Antonio Carlos Duarte Ricciotti; Ciro José Egoavil Montero; Petrus Luiz de Luna Pequeno; Daniela de Araújo Sampaio

doi:10.31686/ijier.vol9.iss11.3486

Authors

Adeilson Nascimento de Sousa Federal University of Rondônia
Laudileni Olenka Federal University of Rondônia https://orcid.org/0000-0001-8700-7819
Jorge Luis Nepomuceno de Lima Federal University of Rondônia https://orcid.org/0000-0002-5884-0876
Viviane Barrozo da Silva Federal University of Rondônia https://orcid.org/0000-0002-1948-1532
Antonio Carlos Duarte Ricciotti Federal University of Rondônia https://orcid.org/0000-0002-4986-6601
Ciro José Egoavil Montero Federal University of Rondônia https://orcid.org/0000-0001-7546-6727
Petrus Luiz de Luna Pequeno Federal University of Rondônia https://orcid.org/0000-0003-3109-3177
Daniela de Araújo Sampaio Federal University of Rondônia

DOI:

https://doi.org/10.31686/ijier.vol9.iss11.3486

Keywords:

Arduino,, Data acquisition, Circular Movement Uniform, Supervisory system

Abstract

This work presents the development and implementation of a System for Acquisition of Rotations composed of an open-source Arduino electronic prototyping platform and a Supervision and Data Acquisition System (SCADA). This system obtains instantaneous values for frequency, linear velocity, and angular velocity, and the graphical representation of said instantaneous values is in real-time. Thus, the proposed system is a mediator of learning for the teaching of Circular Movement Uniform, with theoretical/practical interaction essential in classes for understanding the content.

Downloads

Download data is not yet available.

Author Biographies

Adeilson Nascimento de Sousa, Federal University of Rondônia

Department of Physics
Laudileni Olenka, Federal University of Rondônia

Professor, Department of Physics
Jorge Luis Nepomuceno de Lima, Federal University of Rondônia

Professor, Department of Electrical Engineering
Viviane Barrozo da Silva, Federal University of Rondônia

Professor, Department of Electrical Engineering
Antonio Carlos Duarte Ricciotti, Federal University of Rondônia

Professor, Department of Electrical Engineering
Ciro José Egoavil Montero, Federal University of Rondônia

Professor, Department of Electrical Engineering
Petrus Luiz de Luna Pequeno, Federal University of Rondônia

Professor, Department of Civil Engineering
Daniela de Araújo Sampaio, Federal University of Rondônia

Professor, Department of Electrical Engineering

References

Araújo, M.S.T. & Abib, M.L.V.S. (2003). Experimental activities in physics teaching: different approaches, different purposes. Brazilian Journal of Physics Education, 25(2), 176 -194. DOI: https://doi.org/10.1590/S1806-11172003000200007

Brazil. (2006). Secretariat of Basic Education. National Curriculum Parameters: High School/Secretary of Basic Education – Brasília: MEC.

Brazil. (2013). National Curriculum Guidelines for Secondary Education. In: Brazil. Ministry of Education. General National Curriculum Guidelines for Basic Education. Secretariat of Basic Education. Curricula and Integral Education Board. Brasília: MEC, SEB, DICEI,144201.

Cassiolato, C. (2011). Supervision and Data Acquisition Systems. In https://www.instrumatic.com.br/artigo/sistemas-de-supervisao-e-aquisicao-de-dados. Accessed in August 29, 2021.

Coelho, M.S. (2010). Handout of supervisory systems. Technology course in automation and control of continuous industrial processes. Federal Institute of Education, Science and Technology of São Paulo Cubatão Campus. In http://professorcesarcosta.com.br/upload/imagens_upload/Apostila_%20Sistema%20Supervis

%C3%B3rio. pdf Accessed August 29, 2021. DOI: https://doi.org/10.1109/TFUZZ.2021.3100962

Gaspar, A. (2009). Science Experiments for Elementary Education. São Paulo: Attica

Gomes, V.K.L. (2011). Development of a luminous memorization game on the Arduino platform. Completion of course work. In http://tiagodemelo.info/monografias/2011/tcc-victor-gomes.pdf. Accessed August 15, 2021.

LCDS - Leão Consulting and Systems Development LTDA ME. Supervisory software for control, data acquisition, industrial automation, building and application development LAquis 4.1. In: https://www.lcds.com.br/laquis.asp. Accessed August 29, 2021

McRoberts, M. (2011). Basic Arduino. São Paulo: Novatec.

Oliveira Junior, C.C.T. (2019). Control and Monitoring of Loads with SCADABR and Arduino System. In:

https://www.researchgate.net/publication/332327976_CONTROLE_E_MONITORAMENTO_DE_ CARGAS_COM_SISTEMA_SCADABR_E_ARDUINO. Accessed August 15, 2021.

SCADABR. (2010). Software manual. In: http://paginapessoal.utfpr.edu.br/ofuchi/sistemas-embarcados-el68e/laboratorio-Finalcomunicacao/ManualScadaBR.pdf/view.Accessed August 29, 2021.

Six, P. W. M. (2015). SERIAL USART, Programmable. 8-bit AVR Microcontroller with 32K Bytes In-System Programmable Flash. In: http://ww1.microchip.com/downloads/en/DeviceDoc/Atmel-7810-Automotive-MicrocontrollersATmega328P_Datasheet.pdf. Acessado em 29 de agosto de 2021.

VYGOTSKY, Lev Semenovich. (1987). Pensamento e Linguagem. São Paulo: Martins Fontes.