Imaging device for phase difference detection

摘要

An imaging device includes phase difference detection pixels. The imaging device receives an image formed by an optical system and includes a plurality of pixels that are two-dimensionally arranged. Each of the plurality of pixels include a micro lens; a photoelectric conversion unit positioned below the micro lens; and an optical aperture disposed between the micro lens and the photoelectric conversion unit and that is eccentric with respect to an optical axis of the micro lens, wherein the plurality of pixels of the imaging device output a signal for obtaining phase difference. The imaging device performs phase difference detection on the entire surface of a captured image without addition of pixels.

主权项

1. An imaging device comprising:
an imaging lens having an optical axis; and a plurality of pixels arranged in a two-dimensional array having rows of pixels aligned in vertical and horizontal directions; wherein each pixel comprises:
a micro lens having an optical axis; anda photodiode behind the micro lens; wherein the plurality of pixels comprise phase difference pixels, and each phase difference pixel further comprises an aperture mask defining a light restricting portion that prevents light from the micro lens reaching the photodiode and a single light passing portion that admits light from the micro lens to the photodiode; wherein the light passing portion of the aperture mask of each phase difference pixel has a center which is offset in an offset direction from the optical axis of the micro lens; wherein the phase difference pixels comprise outer phase difference pixels spaced from the optical axis of the imaging lens, the offset direction of the light passing portion of the aperture mask of each outer phase difference pixel is in a direction along a circumference of a circle centered on the imaging lens optical axis and in a direction that is not orthogonal to the vertical and horizontal directions of the array; wherein the outer phase difference pixels are divided into a plurality of outer regions, wherein the offset direction of the light passing portion of the aperture mask of each outer phase difference pixel in one outer region of the plurality of outer regions is the same for each outer phase difference pixel in the one outer region, the offset direction of the light passing portion of the aperture mask of each outer phase difference pixel in each outer region of the plurality of outer regions is different, and the offset directions comprise two conversely slanting offset directions and one vertical or horizontal offset direction; and wherein the plurality of outer regions comprise a top left region, a bottom right region, a top right region, a bottom left region, and two side regions, wherein the offset direction in the top left region and the bottom right region slant top right to bottom left and the offset direction in the top right region and bottom left region slant top left to bottom right, and wherein the offset direction in the two side regions is vertical.