| CPC H04N 23/55 (2023.01) [G02B 3/08 (2013.01); G02B 5/1814 (2013.01); G02B 5/1895 (2013.01); G02B 13/005 (2013.01)] | 12 Claims |
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1. A camera apparatus, comprising a photosensitive chip, a first lens mechanism, a second lens mechanism, and a light filter, wherein the first lens mechanism is arranged between the photosensitive chip and the second lens mechanism, the second lens mechanism comprises a diffractive-refractive lens and a refractive index compensation layer, the refractive index compensation layer is overlapped with the diffractive-refractive lens, the diffractive-refractive lens and the first lens mechanism are arranged in sequence in a direction of projecting light to the photosensitive chip, the light filter is located between the photosensitive chip and the first lens mechanism, ambient light passing through the second lens mechanism can be refracted and diffracted by the diffractive-refractive lens, and the refracted and diffracted ambient light can be projected onto the photosensitive chip sequentially passing through the first lens mechanism and the light filter;
wherein a thickness of the refractive index compensation layer is greater than 0.005 mm and less than 0.06 mm;
wherein a center thickness of the diffractive-refractive lens is greater than 0.2 mm and less than 0.6 mm, and an edge thickness of the diffractive-refractive lens is greater than 0.1 mm and less than 0.5 mm; wherein the center thickness of the diffractive-refractive lens is greater than the edge thickness of the diffractive-refractive lens;
wherein the diffractive-refractive lens comprises a plurality of diffraction protrusions arranged concentrically, and a distance between tips of two of the adjacent diffraction protrusions decreases in a radial direction away from a center of the diffraction protrusions;
wherein the diffractive-refractive lens further comprises a basement layer, and the diffraction protrusions are arranged on the basement layer; wherein a surface of the basement layer facing a same direction as the diffraction protrusions is a first surface, and the first surface is a spherical surface;
wherein a surface of the basement layer where roots of the diffraction protrusions are located is a third surface, and distances between the spherical surface and the third surface comprise the center thickness and the edge thickness of the diffractive-refractive lens.
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