Image capture device, pixel, and method providing improved phase detection auto-focus performance

What is claimed is: 1. An image capture device, comprising: an imaging area comprising a plurality of color-filtered pixels arranged in Bayer pattern rows and Bayer pattern columns, wherein: each color-filtered pixel comprises a two-dimensional array of photodetectors; each photodetector in an array of photodetectors is electrically isolated from each other photodetector in the array of photodetectors; and a different microlens is disposed over each array of photodetectors; a pixel readout circuit comprising, for each color-filtered pixel: a shared readout circuit associated with the array of photodetectors for the color-filtered pixel; and a set of charge transfer transistors, each charge transfer transistor operable to connect a photodetector in the array of photodetectors to the shared readout circuit; and a processor configured to: operate the sets of charge transfer transistors for the color-filtered pixels in a first Bayer pattern row to detect a first phase difference in a first set of edges of an image; and operate the sets of charge transfer transistors for the color-filtered pixels in a second Bayer pattern row to detect a second phase difference in a second set of edges of the image, the first set of edges orthogonal to the second set of edges. 2. The image capture device of claim 1 wherein each shared readout circuit comprises a floating diffusion node. 3. The image capture device of claim 2 , wherein the processor is configured to operate a first set of charge transfer transistors for a first color-filtered pixel to simultaneously transfer charge from a pair of photodetectors of the first color-filtered pixel to a first floating diffusion node of the first color-filtered pixel, the pair of photodetectors selected from: a first pair of photodetectors in a first row; a second pair of photodetectors in a second row; a third pair of photodetectors in a first column; and a fourth pair of photodetectors in a second column. 4. The image capture device of claim 1 , further comprising: a lens, wherein the processor is configured to: identify an out-of-focus condition from at least one of the first phase difference or the second phase difference; and adjust a relationship between the plurality of color-filtered pixels and the lens. 5. The image capture device of claim 1 , wherein each color-filtered pixel comprises a color filter disposed between the microlens and the array of photodetectors for the color-filtered pixel. 6. The image capture device of claim 1 , wherein a peripheral portion of each microlens has a convex shape. 7. The image capture device of claim 1 , wherein: operating the sets of charge transfer transistors for the color-filtered pixels in the first Bayer pattern row to detect the first phase difference comprises configuring a first set of charge transfer transistors for a first pixel to sum charges of a first pair of photodetectors aligned along a first direction; operating the sets of charge transfer transistors for the color-filtered pixels in the second Bayer pattern row to detect the second phase difference comprises configuring a second set of charge transfer transistors for a second pixel to sum charges of a second pair of photodetectors aligned along a second direction. 8. An image capture device, comprising: an imaging area comprising a plurality of color-filtered pixels arranged in Bayer pattern rows and Bayer pattern columns, wherein: each color-filtered pixel comprises a two-dimensional array of photodetectors; each photodetector in an array of photodetectors is electrically isolated from each other photodetector in the array of photodetectors; and a different microlens is disposed over each array of photodetectors; a pixel readout circuit comprising, for each color-filtered pixel: a shared readout circuit associated with the array of photodetectors for the color-filtered pixel; and a set of charge transfer transistors, each charge transfer transistor operable to connect a photodetector in the array of photodetectors to the shared readout circuit; and a processor configured to: operate the sets of charge transfer transistors for the color-filtered pixels in a first Bayer pattern column to detect a first phase difference in a first set of edges of an image; and operate the sets of charge transfer transistors for the color-filtered pixels in a second Bayer pattern column to detect a second phase difference in a second set of edges of the image, the first set of edges orthogonal to the second set of edges. 9. The image capture device of claim 8 wherein each shared readout circuit comprises a floating diffusion node. 10. The image capture device of claim 9 , wherein the processor is configured to operate a first set of charge transfer transistors for a first color-filtered pixel to simultaneously transfer charge from a pair of photodetectors of the first color-filtered pixel to a first floating diffusion node of the first color-filtered pixel, the pair of photodetectors selected from: a first pair of photodetectors in a first row; a second pair of photodetectors in a second row; a third pair of photodetectors in a first column; and a fourth pair of photodetectors in a second column. 11. The image capture device of claim 8 , further comprising: a lens, wherein the processor is configured to: identify an out-of-focus condition from at least one of the first phase difference or the second phase difference; and adjust a relationship between the plurality of color-filtered pixels and the lens. 12. The image capture device of claim 8 , wherein each color-filtered pixel comprises a color filter disposed between the microlens and the array of photodetectors for the color-filtered pixel. 13. The image capture device of claim 8 , wherein a peripheral portion of each microlens has a convex shape. 14. The image capture device of claim 8 , wherein: operating the sets of charge transfer transistors for the color-filtered pixels in the first Bayer pattern column to detect the first phase difference comprises configuring a first set of charge transfer transistors for a first pixel to sum charges of a first pair of photodetectors aligned along a first direction; operating the sets of charge transfer transistors for the color-filtered pixels in the second Bayer pattern column to detect the second phase difference comprises configuring a second set of charge transfer transistors for a second pixel to sum charges of a second pair of photodetectors aligned along a second direction. 15. An image capture device, comprising: an imaging area comprising a plurality of color-filtered pixels arranged in Bayer pattern rows and Bayer pattern columns, wherein: each color-filtered pixel comprises a two-dimensional array of photodetectors; each photodetector in an array of photodetectors is electrically isolated from each other photodetector in the array of photodetectors; and a different microlens is disposed over each array of photodetectors; a pixel readout circuit comprising, for each color-filtered pixel: a shared readout circuit associated with the array of photodetectors for the color-filtered pixel; and a set of charge transfer transistors, each charge transfer transistor operable to connect a photodetector in the array of photodetectors to the shared readout circuit; and a processor configured to: operate the sets of charge transfer transistors for a first set of color-filtered pixels in a first Bayer pattern column to detect a first phase difference in a first set of edges of an image; operate the sets of charge transfer transisto