Pengatur Kecepatan Prototipe Mesin Solenoid 4 Induktor Menggunakan Metode Kontrol Frekuensi
Abstract
The development of electric vehicles is in rapid progress, especially in terms of the main engine drive. The use of solenoid can be applied as an alternative driving electric vehicles instead of a dc motor as the main driver. In this paper, the prototype solenoid machine is applied by using 4 inductors controlled by an Arduino microcontroller and the solenoid driver based on application of Mosfet L298N. The prototype runs successfully. Based on the experimental results, the greater the frequency value applies to the driver, the faster the solenoid moves. The acceleration occures due to the electromagnetic field which is getting stronger and the field is proportional to the frequency value, so the solenoid movement is faster.
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J. Du, X. Meng, J. Li, X. Wu, Z. Song, and M. Ouyang, Insights into the Characteristics of Technologies and Industrialization for Plug-In Electric Cars in China, ENERGY, pp. 1 32, 2018.
N. Ding, K. Prasad, and T. T. Lie, The electric vehicle : a review, vol. 9, no. 1, pp. 49 66, 2017.
S. Zainal et al., Evaluating the Potential of Solenoid Motion System for Electric Vehicle Challenging the Conventional Usage of Electric Motor, no. PECon 08, pp. 726 730, 2008.
H. Kang, J. Park, J. Cho, J. Kim, and J. Oh, A New Method for Maintaining Constant Dither Amplitude in Low Frequency PWM, AECE, vol. 17, no. 1, pp. 89 94, 2017.
Ž. Šitum, T. Žili, and M. Essert, High Speed Solenoid Valves in Pneumatic Servo Applications, IEEE, 2007.
A. Rahman, M. Rahman, and H. Karim, The Theory of the Development of an Electromagnetic Engine for Automotive Use, Symbiosis, 2017.
M. M. Akhtar, S. K. Tripathy, E. P. Kumar, S. Biswal, S. Kumar, and H. S. Dash, Solenoid Engine, IJSDR, vol. 2, no. 4, pp. 297 301, 2017.
A. Mannur, R. Patil, S. Padalkar, and K. Prem, Electromagnetic Engine with an Objective of Lowering Pollution, IARJSET, vol. 4, no. 6, pp. 32 35, 2017.
S. Zainal, A. Syed, and K. Bahrin, Design and Development of a New Electromagnetic Prime Mover Using Solenoid Technology - Solenoid Powered Engine Mathematical Derivations (Inductance Variation), IEEE, pp. 277 281, 2014.
S. Zainal, A. Syed, and K. Bahrin, Design and Development of a New Electromagnetic Prime Mover Using Solenoid Technology - Solenoid Powered Engine Model Simulation (Torque Vs. Speed Characteristic) Syed, IEEE, pp. 255 259, 2014.
A. K. A. N. Y. Vijay Kumar, Anurag, Abhishek Rocky, Ashutosh Kumar, ORIGINAL RESEARCH PAPAER - SOLENOID ENGINE, PARIPEX - INDIAN J. Res., vol. 6, no. 7, pp. 33 35, 2017.
J. Rithula, J. Jeyashruthi, and Y. Anandhi, Electric Vehicle with Zero-fuel Electromagnetic Automobile Engine, Int. J. Eng. Res. Technol., vol. 6, no. 4, pp. 483 486, 2013.
DOI: http://dx.doi.org/10.26623/elektrika.v13i2.4258
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