Prototype of Vehicle Condition Monitoring System for the Adev 01 Monalisa Electric Car

Muhammad Damar Wibisono, Alfian Ma’arif

Abstract


The monitoring system used in electric cars is a vehicle condition display where the vehicle has a main drive in the form of a BLDC hub motor and a PSMS type controller. The aim of this research is to measure the temperature of the controller using a temperature sensor (DS18b20), measure battery voltage using a series of resistors, current sensor using ACS712. The input used is the sensor input which is used to detect a condition or physical change which is required in the system output. Arduino Uno R3 hardware is used to receive, manage and provide electrical signals. A user interface or user interface device is needed so that the operation of the system can be known. In this experiment, a Nextion LCD was used as a user interface. The reading tests that have been carried out produce quite varied responses, but are still within normal limits. This shows that the tests carried out have been successfully carried out well. As a result, the tool created can display data accurately, with the display data being displayed at all times as long as the power supply receives power input. The ADEV 01 Monalisa electric car vehicle condition monitoring system prototype was designed and made with smart technology which can later be developed properly and can be used to produce good and precise displays. By experimenting with the vehicle in a stationary condition, the average difference produced in the battery voltage data shows a difference of 0.284 V, in the current data using the instrument it shows a difference of 0.622 mA, in the controller temperature data it shows a difference of 1.24 ℃, with the experiment in the condition of the vehicle in speed conditions low, the average difference produced in the battery voltage data shows a difference of 0.245 V, in the current data for the instrument it shows a difference of 0.183 mA, in the controller temperature data it shows a difference of 0.074 ℃, with experimental conditions of the vehicle in high speed conditions the average difference produced in The battery voltage data shows a difference of 0.083 V, the instrument current data shows a difference of 0.79 mA, the controller temperature data shows a difference of 1.192 ℃.

Keywords


BLDC Motor; PSMS; ArduinoUnoR3; Nextion; Controller

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References


M. M. Uddin, A. Al Mahmud and N. Islam, "Design & Implementation of a Microcontroller Based Automatic Power Factor Rectification System for Different Loads," 2019 1st International Conference on Advances in Science, Engineering and Robotics Technology (ICASERT), pp. 1-6, 2019.

P. Wen, G. Tao, D. E. Spearot, and S. R. Phillpot, “Molecular dynamics simulation of the shock response of materials: A tutorial,” Journal of Applied Physics, vol. 131, no. 5, 2022.

M. S. MOHAMMED and S. USTUN ERCAN, "Safety Based Smart Parking Guidance System Using GSM and Zigbee," 2019 3rd International Symposium on Multidisciplinary Studies and Innovative Technologies (ISMSIT), Ankara, Turkey, 2019, pp. 1-5, 2019.

S. Maulana and S. G. Herawan, “Portable waste bank for plastic bottles by weight and bottle categories,” In IOP Conference Series: Earth and Environmental Science, vol. 998, no. 1, p. 012026, 2022.

V. Scotti, et al., “The data processor system of EUSO-SPB1,” Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 916, pp. 94-101, 2019.

K. Asadi et al. “An integrated UGV-UAV system for construction site data collection,” Automation in Construction, vol. 112, p. 103068, 2020.

I. González and A. J. Calderón, “Integration of open source hardware Arduino platform in automation systems applied to Smart Grids/Micro-Grids,” Sustainable Energy Technologies and Assessments, vol. 36, p. 100557, 2019.

R. Saha, S. Biswas, S. Sarmah, S. Karmakar, and P. Das, “A working prototype using DS18B20 temperature sensor and arduino for health monitoring,” SN Computer Science, vol. 2, 1, p. 33, 2021.

O. Andrei, S. Ungureanu, A. Miron and A. C. Cziker, "IoT power monitoring device using Wi-fi and Arduino," 2021 9th International Conference on Modern Power Systems (MPS), pp. 1-6, 2021.

M. N. Hasan, M. Nafea, N. Nayan, and M. S. Mohamed Ali, “Thermoelectric generator: materials and applications in wearable health monitoring sensors and internet of things devices,” Advanced Materials Technologies, vol. 7, no. 5, p. 2101203, 2022.

G. Cheng and Y. Yan, “Sociodemographic, health-related, and social predictors of subjective well-being among Chinese oldest-old: a national community-based cohort study,” BMC geriatrics, vol. 21, pp. 1-13, 2021.

M. R. Foysal, R. A. Hossain, M. M. Islam, S. Sharmin and N. N. Moon, "IoT Based Temperature Control System of Home by using an Android Device," 2021 1st International Conference on Emerging Smart Technologies and Applications (eSmarTA), pp. 1-8, 2021.

J. A. Sanguesa, V. Torres-Sanz, P. Garrido, F. J. Martinez, and J. M. Marquez-Barja, “A review on electric vehicles: Technologies and challenges,” Smart Cities, vol. 4, no. 1, pp. 372-404, 2021.

S. Cossul, F. Rettore Andreis, M. A. Favretto, A. de Castro Antonio Jr, and J. L. B. Marques, “Portable microcontroller‐based electrostimulation system for nerve conduction studies,” IET Science, Measurement & Technology, vol. 14, no. 6, pp. 695-703, 2020.

S. AlRuwais, R. AlQahtani, N. AlHajri, B. AlHashim, A. Bashar and L. AlZubaidi, "S-LIGHT: Smart LED Lamppost using PWM-based Adaptive Light Controller," 2021 10th IEEE International Conference on Communication Systems and Network Technologies (CSNT), pp. 325-331, 2021.

R. Santhosh, M. V. Siddharthan, Sailakshmi and S. Yadav, "Protection and Control of 3 Phase Induction Motors in Industrial Plants with Smart Remote Monitoring and Control on a Centralized System," 2022 6th International Conference on Trends in Electronics and Informatics (ICOEI), pp. 317-326, 2022.

M. Rokonuzzaman et al., “Iot-enabled high efficiency smart solar charge controller with maximum power point tracking—Design, hardware implementation and performance testing,” Electronics, vol. 9, no. 8, p. 1267, 2020.

K. Nooringsih, and R. Susanti, “Implementation of smart city concept for sustainable development in Semarang old town area,” In IOP Conference Series: Earth and Environmental Science, vol. 1082, no. 1, p. 012034, 2022.

A. Choudhary, S. Jamwal, D. Goyal, R. K. Dang, and S. Sehgal, “Condition monitoring of induction motor using internet of things (IoT),” In Recent Advances in Mechanical Engineering: Select Proceedings of NCAME 2019, pp. 353-365, 2020.

L. Chen, J. Zhang and Y. Wang, "Wireless Car Control System Based on ARDUINO UNO R3," 2018 2nd IEEE Advanced Information Management,Communicates,Electronic and Automation Control Conference (IMCEC), pp. 1783-1787, 2018.




DOI: https://doi.org/10.31763/simple.v6i1.98

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Copyright (c) 2024 Muhammad Damar Wibisono, Alfian Ma’arif

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Signal and Image Processing Letters
ISSN Online: 2714-6677 | Print: 2714-6669
Published by Association for Scientific Computing Electrical and Engineering (ASCEE)
Website : https://simple.ascee.org/index.php/simple/
Email 1 : simple@ascee.org
Email 2 : azhari@ascee.org


 

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