Design and Implementation of Solar PV Operated E-Power Tiller

2023 3rd International Conference on Robotics, Electrical and Signal Processing Techniques (ICREST) Pub Date : 2023-01-07 DOI:10.1109/ICREST57604.2023.10070045

Abidur Rahman Sagor, Towfiq Mahmud Mridul, Md. Mosaraf Hosen Bhuiyan, Faisal Ahmad Mridha, Md. Rifat Hazari, M. Rahman

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Abstract

The purpose of the paper is to design a Solar PV Operated E-Power tiller for agriculture use. The design of an electrically driven Solar PV Operated E-Power tiller has three primary purposes, the first of which is to reduce the quantity of fuel used; the second of which is to maintain a pollution-free environment, and the third of which is to avoid a price increase. The results of this study will also help in the development of a prototype for a portable charging station, which will be put to use in order to keep the tractor's battery charged. In order to carry out this project, two brushless DC (BLDC) motors, each of which has 1.34 horsepower, were used. A lithium-ion battery served as the only source of power for the motors. In full running condition, the battery can provide backup for up to 5 hours. The speed of the shaft on the power tiller cultivator is 339.23 rpm. This system is equipped with the necessary brakes, steering controls, and controls for the pace at which the cultivator blades rotate. Both the structural design of this and the simulation of the system were done in MATLAB Simulink. Solidworks was used for the structural design. The system functioned without any issues, and the information that was gathered fell within the parameters of what was considered to be acceptable in relation to the standards that had been established.

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太阳能光伏驱动电动分蘖机的设计与实现

本文的目的是设计一种太阳能光伏驱动的农业用电动播种机。设计一款电动太阳能光伏驱动的电动舵机有三个主要目的，第一个目的是减少燃料的使用量;第二点是保持一个无污染的环境，第三点是避免价格上涨。这项研究的结果还将有助于开发便携式充电站的原型，该充电站将用于为拖拉机的电池充电。为了进行这个项目，使用了两台无刷直流(BLDC)电机，每台功率为1.34马力。锂离子电池是发动机的唯一动力来源。在完全运行状态下，电池可以提供长达5小时的备份。动力分蘖机轴的转速为339.23转/分。该系统配备了必要的制动器，转向控制，并控制在耕种叶片旋转的速度。在MATLAB Simulink中进行了系统的结构设计和仿真。结构设计采用Solidworks软件。该系统的运作没有任何问题，所收集的资料也在已确立的标准所认为可以接受的范围之内。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2023 3rd International Conference on Robotics, Electrical and Signal Processing Techniques (ICREST)

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