Design of Photovoltaic Solar Panel Intelligent Tracking System based on 51 Single Chip Microcomputer

Kaicheng Liang; Luotao Yan; Weixin Wei; Liangjie Qiao; Hao Wang

doi:10.54097/693nm632

Authors

Kaicheng Liang
Luotao Yan
Weixin Wei
Liangjie Qiao
Hao Wang

DOI:

https://doi.org/10.54097/693nm632

Keywords:

Photovoltaic Solar Panels, 51 Single-chip Microcomputer, Photoresistor, Stepper Motor, Light Intensity Tracking

Abstract

With the continuous development of renewable energy, photovoltaic power generation as an important clean energy, has been widely concerned. At present, due to the fixed position of the photovoltaic generation version after installation, it cannot follow the sun to move, making the utilization efficiency of solar energy is low. In this paper, an intelligent tracking system for photovoltaic solar panels based on 51 microcontroller is designed. The system compares the light intensity in real time by installing photoresistors on the left and right sides of the solar panels to determine the best position and control the stepper motor to rotate in this direction, so as to effectively improve the utilization efficiency of solar energy.

Downloads

Download data is not yet available.

References

[1] WANG Yongbin. Design of Data collector and waveform generator based on PCF8591 Single chip [J]. Modern industrial economy and information technology, 2023, 13 (5): 105-107. The DOI: 10.16525 / j. carol carroll nki. 14-1362 / n. 2023. 05. 036.

[2] He Xiaoying. Sun light protection system based on single chip design [J]. Journal of electronics, 2023, 31 (3): 37 + 35-69 DOI: 10.16589 / j. carol carroll nki cn11-3571 / tn. 2023.03.014.

[3] Guo Hao, ZHAO Shuzhong. Stepper Motor Control Based on MCU [J]. Mechanical Engineering & Automation, 2018, (01): 169-170+173.