Solar steady persistence lighting system and excitation method thereof

Abstract

A solar steady persistence lighting system comprises a solar cell system (1), an IC (integrated circuit) controller (2), a photosensitive control element (3) and electroluminescent devices (4). One or more electroluminescent devices (4) are arranged around or inside every steady persistence light emitter (5) and connected and mounted with the IC controller (2) through a line, and the IC controller (2) is connected and mounted with the solar cell system (1) and the photosensitive control element (3) respectively through lines. An excitation method of the solar steady persistence lighting system is characterized in that the IC controller receives a signal of a photosensitive element when the photosensitive element which is under the control of the IC controller senses that the ambient light illumination is smaller than a set illuminance value, the IC controller controls the electroluminescent device to start working, the electroluminescent device stops emitting light for set stop time after emitting light for set light-emitting time, and the above process is recycled. The IC controller controls the electroluminescent device to completely stop working when the photosensitive element senses that the ambient light illumination is larger than the set illuminance value. According to the solar steady persistence lighting system and the excitation method thereof, the uncontrollable luminance of the steady persistence light emitters can be artificially controlled, and the luminance of a product can be designed as needed.

Description

technical field [0001] The invention relates to a long afterglow light emitting system with solar energy, in particular to a long afterglow light emitting system with solar energy and an excitation method thereof. Background technique [0002] Long afterglow material is a light-storage photoluminescent material. When it is excited by light for a certain period of time and at a certain intensity, it will continue to emit light after the excitation stops. The process of its continuous luminous intensity gradually decreasing from high to low called afterglow. Its luminescence curve is a superposition of a negative exponential function and a hyperbolic function. After the excitation is stopped, the shorter the time, the higher the brightness, and the longer the time, the lower the brightness. [0003] Solar energy refers to the use of sunlight for power generation (or heating) to provide energy. Among them, solar power generation, which has been widely used at present, uses pho...

AI Technical Summary

Problems solved by technology

At present, the area of ​​solar cells is 110W/m2, and the power of a 10cm*10cm solar panel is only 1.1W. In addition, due to the influence of climate (weather) and the limitation of geographical location, ordinary solar light-emitting devices are generally difficult Ensure that the light device continues to emit relatively strong ...

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