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| − | <br>The invention discloses a solar orientation sensor and | + | <br>The invention discloses a solar orientation sensor and a solar tracking device primarily based on a photocell Y-formed format, including a photo voltaic orientation sensor for solar orientation detection, the photo voltaic orientation sensor is linked with an acquisition system for signal acquisition, and the acquisition system is connected with a computer. Connected, [https://wiki.internzone.net/index.php?title=Benutzer:RetaFavela98929 iTagPro locator] characterized in that: the solar orientation sensor features a base, three photocells are evenly arranged on the bottom in a Y shape, and the projections of the three photocells on the bottom floor of the base form an included angle of 120° with each other, and the photo voltaic orientation sensor is organized on the cloud On the platform, the three photocells all have the same included angle with the working floor of the pan-tilt, the pan-tilt is related with the pan-tilt controller, and the pan-tilt controller is connected with the computer. The invention realizes the real-time and accurate tracking of the massive field of view of the sun with no calendar, and the tracking and alignment accuracy reaches above 0.1°, which enormously improves the conversion efficiency of solar power, and can be utilized in solar energy stations, communication energy provides of ships, and synthetic satellites.<br><br><br><br>There are broad application prospects within the positioning of battery panels. 本发明涉及一种基于光电池Y型布局大视场和高精度太阳跟踪装置,特别是涉及太阳能利用中的低成本大视场高精度跟踪对准装置。 The invention pertains to a Y-formed layout of photovoltaic cells and a large-discipline-of-view and excessive-precision solar tracking device, specifically to a low-price giant-discipline-of-view high-precision tracking and alignment machine in photo voltaic energy utilization. 开发利用太阳能,对于节约常规能源、保护环境、促进经济发展都有极为重要的意义,太阳跟踪装置能有效的提高太阳能的利用率,具有广泛的应用前景。<br><br><br><br>The development and utilization of solar power is of nice significance for saving standard vitality, defending the environment, and selling financial improvement. The solar tracking device can successfully enhance the utilization price of solar power and has broad application prospects. 太阳跟踪装置现阶段普遍采用的太阳方位传感器有四象限光电探测器、PSD和光敏电阻,四象限光电探测器和PSD成本很高,且视场小,光敏电阻虽然成本低视场大,但是跟踪复杂精度低。 为了满足低成本、大视场和高精度的要求,本发明设计研制了基于三块光电池Y型布局的太阳方位传感器及以其为核心的太阳跟踪装置。<br><br><br><br>The sun orientation sensors commonly utilized in solar tracking units at this stage embrace 4-quadrant photodetectors, [https://patrimoine.minesparis.psl.eu/Wiki/index.php/Utilisateur:Alisia7337 iTagPro locator] PSDs and photoresistors. Four-quadrant photodetectors and PSDs are costly and have a small subject of view. Complex precision is low. So as to fulfill the necessities of low price, large discipline of view and excessive precision, the present invention designs and develops a solar orientation sensor based mostly on a Y-formed format of three photocells and a sun tracking device based on it. 本发明所要解决的技术问题是提出供一种低成本、无需日历即能够大视场高精度地跟踪太阳的太阳跟踪装置。 The technical downside to be solved by the current invention is to supply a low-price solar-tracking device able to monitoring the sun with a big field of view and high precision with out a calendar.<br> |
Version actuelle datée du 29 novembre 2025 à 19:38
The invention discloses a solar orientation sensor and a solar tracking device primarily based on a photocell Y-formed format, including a photo voltaic orientation sensor for solar orientation detection, the photo voltaic orientation sensor is linked with an acquisition system for signal acquisition, and the acquisition system is connected with a computer. Connected, iTagPro locator characterized in that: the solar orientation sensor features a base, three photocells are evenly arranged on the bottom in a Y shape, and the projections of the three photocells on the bottom floor of the base form an included angle of 120° with each other, and the photo voltaic orientation sensor is organized on the cloud On the platform, the three photocells all have the same included angle with the working floor of the pan-tilt, the pan-tilt is related with the pan-tilt controller, and the pan-tilt controller is connected with the computer. The invention realizes the real-time and accurate tracking of the massive field of view of the sun with no calendar, and the tracking and alignment accuracy reaches above 0.1°, which enormously improves the conversion efficiency of solar power, and can be utilized in solar energy stations, communication energy provides of ships, and synthetic satellites.
There are broad application prospects within the positioning of battery panels. 本发明涉及一种基于光电池Y型布局大视场和高精度太阳跟踪装置,特别是涉及太阳能利用中的低成本大视场高精度跟踪对准装置。 The invention pertains to a Y-formed layout of photovoltaic cells and a large-discipline-of-view and excessive-precision solar tracking device, specifically to a low-price giant-discipline-of-view high-precision tracking and alignment machine in photo voltaic energy utilization. 开发利用太阳能,对于节约常规能源、保护环境、促进经济发展都有极为重要的意义,太阳跟踪装置能有效的提高太阳能的利用率,具有广泛的应用前景。
The development and utilization of solar power is of nice significance for saving standard vitality, defending the environment, and selling financial improvement. The solar tracking device can successfully enhance the utilization price of solar power and has broad application prospects. 太阳跟踪装置现阶段普遍采用的太阳方位传感器有四象限光电探测器、PSD和光敏电阻,四象限光电探测器和PSD成本很高,且视场小,光敏电阻虽然成本低视场大,但是跟踪复杂精度低。 为了满足低成本、大视场和高精度的要求,本发明设计研制了基于三块光电池Y型布局的太阳方位传感器及以其为核心的太阳跟踪装置。
The sun orientation sensors commonly utilized in solar tracking units at this stage embrace 4-quadrant photodetectors, iTagPro locator PSDs and photoresistors. Four-quadrant photodetectors and PSDs are costly and have a small subject of view. Complex precision is low. So as to fulfill the necessities of low price, large discipline of view and excessive precision, the present invention designs and develops a solar orientation sensor based mostly on a Y-formed format of three photocells and a sun tracking device based on it. 本发明所要解决的技术问题是提出供一种低成本、无需日历即能够大视场高精度地跟踪太阳的太阳跟踪装置。 The technical downside to be solved by the current invention is to supply a low-price solar-tracking device able to monitoring the sun with a big field of view and high precision with out a calendar.