The System of Motor Vehicle Engine Racing Limit Control System Based on Oil Condition Level Based on ATmega328 Microcontroller

Dwi Rahmat Hidayat

Department of Physics, University of Udayana at Bali, Indonesia.

Anak Agung Ngurah Gunawan *

Department of Physics, University of Udayana at Bali, Indonesia.

Putu Suardana

Department of Physics, University of Udayana at Bali, Indonesia.

*Author to whom correspondence should be addressed.


Research has been carried out for the manufacture of a motor vehicle engine speed limit controller based on the level of oil condition based on the ATMega328 microcontroller. The method used is to read the pressure at different temperatures and certain rotations, if the pressure is too low then the program will determine that the oil condition is bad or it is time to change it, when the oil or lubricant has been determined that the condition is bad then the indicator light will light up. and the maximum engine speed limit will be cut to 6000 rpm so that the engine will not be able to be used for rotations above 6000 rpm. Cutting the engine speed limit has the aim of preventing the engine from being forced to work at too high a speed when the oil is in bad condition so that the engine components will last longer, besides that the indicator also serves as a reminder that it is time for the vehicle to need an oil change.

Keywords: Mikrokontroler ATMega328, oil, motor vehicle engine

How to Cite

Hidayat, D. R., Gunawan, A. A. N., & Suardana, P. (2022). The System of Motor Vehicle Engine Racing Limit Control System Based on Oil Condition Level Based on ATmega328 Microcontroller. Journal of Engineering Research and Reports, 23(9), 13–20.


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Herwangi Y, Sabri I, Kustiwan I. The role and pattern of motorcycle use in low-income communities in Yogyakarta urban area. J Urban Reg Plan. 2015;26(3):166-76.

Arnoldi D. Selection of lubricating oil / motor vehicle oil. Austenite [journal]. 2009;1(2):26-30.

Diatniti W, Supriyanto A, Pauzi GA. Analysis of lubricating oil quality decline in motor vehicles based on viscosity value, color and amount of impurities. J Theor Appl Phys. 2015;3(2):171-8.

Arisandi M, Darmanto, Priangkoso T. Analysis of the effect of lubricant base ingredients against lubricant viscosity and fuel consumption. Momentum [journal]. 2012;8(1):56-61.

Mirayanti NKR, Gunawan AAN, Sutapa IG. Ngurah. Humidity Monitoring System for Oyster Mushroom Cultivation Room by Web Based AVR Atmega328P-PU, Advances in Applied Physics. 2018;6(1): 9-13.

Ichwan M, Husada MG, Rasyid AMI. Development of control system prototypes electrical equipment on the android platform. J Inform. 2014;4(1):13-25.

Khaery M, Gunawan AAN, Paramarta IBA. Water flow control system by online based on ATmega328P microcontroller. Contemp Eng Sci. 2020;13(1):303-14.

Artawan MD, Gunawan AAN, Sumadiyasa M. (SMS) Based ATmega328 Microcontroller and SIM800L Modules as on/off Control Electronic Equipments, Advances in Applied Physics. 2018;6(1):19-24.

Akbar B, Alfian. Water temperature Controller Using DS18B20 Sensor Based on ATMega328 (Arduino uno) microcontroller module. Final Project, D-III Physics Study Program. Sumatra: Faculty of Mathematics and Natural Sciences, University of the North; 2017.

Kunthi MR, Gunawan AAN, Ratini N. Making Monitoring Device of Infusion Liquid Using Proximity Photodiode as a Sensor Based on ATMega328 (Arduino uno) microcontroller module. Contemp Eng Sci. 2020;13(1):315-23.

Hanan, Gunawan, A.A.N., Sumadiyasa, M. Water Level Detect Syst Based Ultrason Sens HC-SR04 and ESP8266-12 Modules with Telegram and Buzzer Communication Media, Instrumentation Mesure Metrologie. 2019;18(3):305-9.

Suarsana KB, Gunawan AAN, Ratini N. LPG Leakage Control Using SMS through SIM800L with MQ-2 Sensor and Stepper Motor Based on ATMega328 microcontroller module (Arduino uno), Advances in Applied Physics. 2018;6(1): 15-8.

Hendarto D, Taufik FI. Implementation of 4-20 mA signal as a variable regulator frequency drive (VFD) sensor based RTD PT100. J Electr Eng Sci. 2015;2(1):1-7.

Ahmad F. Design of Air Pressure Measuring Instruments Using the MPX5700 Gauge Sensor Based on the ATMega328 (Arduino uno) microcontroller module. Final Project Report II, D-III. Metrology and instrumentation study program, FMIPA. Sumatra: University of the North; 2018.

Journal M. Asrul, Sahidin, S. Ala Med, S. Automatic Hand Washing Machine Using Proximity Sensor and Mini Dfplayer Based on ATMega328 (Arduino uno) microcontroller module. 2021;1(1):2775-5274.

Turang DAO. Development of control and saving relay systems mobile based lamp usage. Semnasive [journal]. 2015;1(1): 75-85.

Andawiyah R; 2021 [cited Nov 13, 2021].


Maryani Y. Calibration and validation of sensors as CO2 gas measuring instruments produced in the photocatalysis process of active detergent compounds. J Chem Eng Viol. 2011;7(2): 102-44.