Implementation the LM35 Sensor AS Control Room Temperature using IC ATMega 8535

Muchdar D. Patabo; Samsu Tuwongkesong; Nikita Sajangbati

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Reseach Article

Implementation the LM35 Sensor AS Control Room Temperature using IC ATMega 8535

by Muchdar D. Patabo, Samsu Tuwongkesong, Nikita Sajangbati

International Journal of Computer Applications

Foundation of Computer Science (FCS), NY, USA

Volume 175 - Number 27

Year of Publication: 2020

Authors: Muchdar D. Patabo, Samsu Tuwongkesong, Nikita Sajangbati

10.5120/ijca2020920799

Muchdar D. Patabo, Samsu Tuwongkesong, Nikita Sajangbati . Implementation the LM35 Sensor AS Control Room Temperature using IC ATMega 8535. International Journal of Computer Applications. 175, 27 ( Oct 2020), 28-35. DOI=10.5120/ijca2020920799

@article{ 10.5120/ijca2020920799,

author = { Muchdar D. Patabo, Samsu Tuwongkesong, Nikita Sajangbati },

title = { Implementation the LM35 Sensor AS Control Room Temperature using IC ATMega 8535 },

journal = { International Journal of Computer Applications },

issue_date = { Oct 2020 },

volume = { 175 },

number = { 27 },

month = { Oct },

year = { 2020 },

issn = { 0975-8887 },

pages = { 28-35 },

numpages = {9},

url = { https://ijcaonline.org/archives/volume175/number27/31624-2020920799/ },

doi = { 10.5120/ijca2020920799 },

publisher = {Foundation of Computer Science (FCS), NY, USA},

address = {New York, USA}

}

%0 Journal Article

%1 2024-02-07T00:39:40.355825+05:30

%A Muchdar D. Patabo

%A Samsu Tuwongkesong

%A Nikita Sajangbati

%T Implementation the LM35 Sensor AS Control Room Temperature using IC ATMega 8535

%J International Journal of Computer Applications

%@ 0975-8887

%V 175

%N 27

%P 28-35

%D 2020

%I Foundation of Computer Science (FCS), NY, USA

Abstract

One of the electronic technologies that have been developed in this research is to create a room temperature control prototype by implementing the LM35 sensor as a temperature controller, using the ATMega 8535 IC which is a microcontroller as a data control center, and using the C language with CodeVison AVR software, adjusting the display on the LCD, translating the analog signal from the LM35 sensor as temperature control and control the room so that the temperature remains stable. The results obtained with room temperature control on the prototype can be seen on the LCD, if the controlled room temperature is greater than 25°C, the input received from the LM35 sensor will be processed by the ATMega 8535 microcontroller then it will activate fan1 to blow cool air that is entered in the room and fan2 to remove hot air from inside the room. But if the temperature display on the LCD is lower than 260°C, fan1 and fan2 will not be activated (Off).

References

Abdul Kadir, 2013, A Practical Guide to Studying Microcontroller Applications and Its Programming Using Arduino, Andi Yogyakarta.
Singgih Adhi Nugroho, 2013, Room Temperature Detector with AT89S51 Microcontroller-Based Manual Control Button, Seruni - National Seminar on Informatics and Computer Science FTI UNSA.
Aryandhi, Mozart Wilson, 2013, Application of Fuzzy Inference for Automatic Room Temperature Control in Air Conditioners (AC), Proceedings of FMIPA, Pattimura University 2013 - ISBN: 978-602-97522-0-5, Yudha Dwi Talakua FMIPA Pattimura University, Ambon.
Erwin Fadhila, Hendi H. Rachmat, 2014, Microcontroller Based Temperature Control in Egg Incubators, Reka Elkomika Journal 2337-439X October 2014, Electrical Engineering, Bandung National Institute of Technology.
Dias Prihatmoko, 2016, Design and implementation of room temperature controllers based on Arduino Uno microcontrollers, Jurnal Simetris Vol 7 No. 1 April 2016 ISSN: 2252-4983, Faculty of science and technology, Islamic University Nahdlatul Ulama Jepara.
Syahwil, M., 2013, Easy Guide to Simulation and Practice of Arduino Microcontroller. Yogyakarta: Publisher ANDI.

Index Terms

Computer Science

Information Sciences

Keywords

Driver Relay Fan LCD