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Image sensor and electronic device including image sensor

專(zhuān)利號(hào)
US11178326B2
公開(kāi)日期
2021-11-16
申請(qǐng)人
SAMSUNG ELECTRONICS CO., LTD.(KR Suwon-si)
發(fā)明人
Yohwan Noh; Daekwan Kim; Chaesung Kim; Tae-Shick Wang
IPC分類(lèi)
H04N5/232; H04N5/225; H04N5/369; H04N9/04; H04N9/07; H01L27/146; G02B7/36
技術(shù)領(lǐng)域
pixel,lens,micro,sub,may,autofocus,image,array,mtf,idat
地域: Suwon-si

摘要

Provided is an image sensor including a pixel array including a plurality of pixels, and a micro lens array including a first micro lens of a first size provided in a first area of the pixel array and a second micro lens of a second size provided in a second area of the pixel array, the second size being different from the first size.

說(shuō)明書(shū)

CROSS-REFERENCE TO THE RELATED APPLICATION

This application claims priority from Korean Patent Application No. 10-2019-0073066 filed on Jun. 19, 2019, in the Korean Intellectual Property Office, the disclosure of which is incorporated herein by reference in its entirety.

BACKGROUND 1. Field

Example embodiments of the present disclosure relate to an electronic device, and more particularly, to an image sensor and an electronic device including the image sensor.

2. Description of the Related Art

An image sensor included in a smartphone, a tablet personal computer (PC), or a digital camera obtains image information about an external object by converting a light reflected from the external object into an electrical signal. An autofocus (AF) may be performed to improve the quality of image of the external object. For faster autofocus, an image sensor that supports a phase detection autofocus (PDAF) may be used.

The image sensor that supports the PDAF may receive an incident light for each angle. The autofocus performance may be higher when angles of incident lights received are clearly separated. However, angles of incident lights may not be separated depending on locations of pixels of the image sensor. In particular, angles of lights incident onto pixels present in a peripheral portion (or an outer portion) of the image sensor may not be separated. As such, the autofocus performance of the peripheral portion of the image sensor may be lower than the autofocus performance of a central portion (or an inner portion) of the image sensor.

SUMMARY

權(quán)利要求

1
What is claimed is:1. An image sensor comprising:a pixel array comprising a plurality of pixels; anda micro lens array comprising a first micro lens of a first size provided in a first area of the pixel array and a second micro lens of a second size provided in a second area of the pixel array, the second size being different from the first size,wherein the plurality of pixels of the pixel array are divided into a first pixel group configured to receive a first light transmitted through the first micro lens and a second pixel group configured to receive a second light transmitted through the second micro lens,wherein a number of pixels in the first pixel group is greater than a number of pixels in the second pixel group,wherein the micro lens array is configured to receive the first light and the second light through a module lens configured to receive an external light, andwherein a first modulation transfer function (MTF) of the module lens corresponding to the first area is lower than a second MTF of the module lens corresponding to the second area.2. The image sensor of claim 1, wherein the first size of the first micro lens is larger than the second size of the second micro lens.3. The image sensor of claim 1, wherein a focal distance of the first micro lens is different from a focal distance of the second micro lens.4. The image sensor of claim 3, wherein a curvature of the first micro lens is different from a curvature of the second micro lens.5. The image sensor of claim 1, further comprising:a coating layer disposed on a surface of the first micro lens and formed of a material having a refractive index different from a refractive index of the first micro lens.6. The image sensor of claim 1, wherein the first micro lens is configured to receive the first light incident at a first angle and a third light incident at a second angle, andwherein the plurality of pixels of the pixel array comprise:a first pixel configured to generate a first electrical signal based on the first light transmitted through the first micro lens; anda second pixel configured to generate a second electrical signal based on the third light transmitted through the first micro lens.7. The image sensor of claim 6 further comprising a processor configured to calculate a disparity by comparing first image data based on the first electrical signal and second image data based on the second electrical signal, and configured to perform an autofocus based on the calculated disparity.8. The image sensor of claim 1, wherein each of the plurality of pixels comprises two photoelectric conversion elements.9. An image sensor comprising:a micro lens array comprising a first micro lens having a first diameter and a second micro lens having a second diameter that is different from the first diameter; anda sub-pixel array comprising a first sub-pixel group configured to convert a first light signal transmitted through the first micro lens into a first electrical signal and a second sub-pixel group configured to convert a second light signal transmitted through the second micro lens into a second electrical signal,wherein the micro lens array is configured to receive the first light signal and the second light signal through a module lens configured to receive an external light,wherein the first micro lens is provided in a first area of the image sensor and the second micro lens is disposed in a second area of the image sensor, andwherein a first modulation transfer function (MTF) of the module lens corresponding to the first area is lower than a second MTF of the module lens corresponding to the second area.10. The image sensor of claim 9, wherein a number of sub-pixels in the first sub-pixel group is greater than a number of sub-pixels in the second sub-pixel group.11. The image sensor of claim 10, wherein the first diameter of the first micro lens is larger than the second diameter of the second micro lens.12. The image sensor of claim 9, further comprising:a splitter configured to distribute the first light signal transmitted through the first micro lens to one of sub-pixels of the first sub-pixel group.13. An electronic device comprising:a module lens configured to receive a first light incident at a first angle that is refracted from an external object and a second light incident at a second angle that is refracted from the external object;an image sensor configured to generate first image data corresponding to the external object based on the first light transmitted through the module lens and to generate second image data corresponding to the external object based on the second light transmitted through the module lens; andan image signal processor configured to generate a control signal to adjust a location of the module lens based on the first image data and the second image data,wherein the image sensor comprises micro lenses of different sizes configured to receive the first light and the second light, andwherein an f-number of the micro lenses is identical to an f-number of the module lens.14. The electronic device of claim 13, wherein the image sensor further comprises a pixel array comprising a first pixel and a second pixel,wherein the first pixel is configured to generate a first electrical signal corresponding to the first image data based on the first light transmitted through a first micro lens of the micro lenses, andwherein the second pixel is configured to generate a second electrical signal corresponding to the second image data based on the second light transmitted through the first micro lens.15. The electronic device of claim 13, wherein the image sensor further comprises a pixel array comprising a first pixel and a second pixel,wherein the first pixel comprises a first photoelectric conversion element and a second photoelectric conversion element,wherein the first photoelectric conversion element is configured to generate a first electrical signal corresponding to the first image data based on the first light transmitted through a first micro lens of the micro lenses, andwherein the second photoelectric conversion element is configured to generate a second electrical signal corresponding to the second image data based on the second light transmitted through the first micro lens.16. The electronic device of claim 13, wherein the image signal processor is configured to calculate a disparity corresponding to the external object based on the first image data and the second image data, and to generate the control signal based on the calculated disparity.
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