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引用次数: 0
摘要
作为一种取之不尽、用之不竭、无污染的未来能源,太阳能正在不断发展,以满足世界日益增长的能源需求。在这个项目中,太阳能电池板是可移动的,可以根据太阳的方向吸收不同方向的能量,最大限度地利用太阳能光伏系统产生的能量。四个光相关电阻(ldr),一个电压传感器和一组湿度和温度传感器作为输入。同时,两个伺服电机输出分别放置在水平轴和垂直轴上,通过将光伏板朝向不同的太阳方向来最大限度地吸收能量。Arduino Mega2560被用作控制输入的微控制器,以确保输出按要求运行。除了伺服电机外,该项目的另一个重要特点包括系统的监控单元,该单元由LCD显示器和Microsoft Excel Data Streamer组成。
Dual-axis Solar Energy Tracking and Monitoring System with Arduino as a Microcontroller
As an inexhaustible and non-polluting energy source of the future, solar energy is improving to meet the world's ever-increasing energy demands. In this project, the solar panel is made movable to absorb energy in different directions based on the direction of the sun to maximize the amount of energy generated by solar photovoltaic system. Four Light Dependent Resistors (LDRs), a voltage sensor and a set of humidity and temperature sensor are acting as inputs. Meanwhile, two servo motor outputs are placed in the horizontal and vertical axes to maximize power absorption by orienting the PV panel towards the varying sun directions. The Arduino Mega2560 was used as the microcontroller that controls the inputs to make sure the outputs are operating as required. Apart from the servo motors, another important feature of the project includes the monitoring unit for the system which comprises of the LCD display and Microsoft Excel Data Streamer.
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