Cyberyoushi is a technology-based enterprise focusing on the R&D and manufacturing of infrared surveillance cameras. In 1998, CyberView gathered the R&D capabilities of the United States, Mainland China, and Taiwan, and successfully developed the second-generation array integration technology LED Array in its research laboratory in Dallas, Texas, to solve the defects of traditional infrared LEDs. In 2003, the second generation array light source was introduced from the United States to China for domestic production.
The second-generation array integration technology can achieve better night vision monitoring effects than traditional LEDs. Under this technology, seeing objects clearly depends on two factors. The first is the brightness of infrared light; the second is the coordination of infrared light brightness and the best sensing section of the camera. However, in actual operation, when the second-generation array-type infrared light source uses a lens to reduce the light transmission angle in order to match the angle of the camera lens, many light-emitting points deviate from the center of the lens, causing eccentricity and resulting in low light transmission efficiency. good. In addition, the cost of the second-generation array infrared light source has remained high for a long time, making it difficult to completely replace traditional infrared LED lights with short service life but low price.
In 2009, cyber infrared night vision technology made another breakthrough. Dot matrix infrared technology successfully overcomes the problems of excessive heat and insufficient brightness of the first generation traditional infrared LED and the second generation array infrared lamp. The latest third-generation light source developed by Cyber ??uses the latest dot matrix infrared technology, replacing the multiple lamp mode with a single lamp and is small in size. In addition, Cyber's packaging technology controls the light attenuation of the new infrared lamp within 10% within 18 months. The electro-optical conversion efficiency is more than 50% higher than the ternary chips used in the first and second generations, reducing power consumption. , the service life is more than 5 times that of laser infrared and traditional infrared. Cyberneng produces hemispherical (180°) illuminators, with variable luminous angles that can match the viewing angles of lenses with different focal lengths. Today, the third-generation technology has undergone testing experiments for more than a year and was officially put into use in 2010.