Solid-state image sensors
First Claim
1. A solid-state image sensor, comprising:
- a pixel on a semiconductor substrate;
a photoelectric converter provided in the pixel to convert incident light to an electric signal; and
a microlens situated above the photoelectric converter,wherein the microlens has a plan profile in which a direct distance from a center of the microlens to a lens edge differs with different respective angles, in the plan profile, from the center to the lens edge;
the microlens having a bottom portion, where the bottom portion comprises a first base region and a second base region not including the first base region, the first base region being situated at locations near the lens edge, from which the direct distance is relatively long; and
a vertical height of the first base region from an upper surface of the photoelectric converter is less than a vertical height of the second base region from the upper surface of the photoelectric converter.
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Abstract
Solid-state image sensors are disclosed that include one or more pixels formed on a semiconductor substrate. Each pixel includes a photoelectric converter to convert light to an electric signal, and a microlens above the photoelectric converter. The microlens has a plan profile in which the direct distance from a center to a lens edge is variable. The microlens has first base regions and second base regions not including the first base regions. The first base regions are provided near n positions (n being a natural number) of the lens edge from which the direct distance is relatively long. The vertical height of the first base regions from an upper surface of the photoelectric converter is less than the vertical height of the second base regions from the upper surface of the photoelectric converter.
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Citations
9 Claims
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1. A solid-state image sensor, comprising:
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a pixel on a semiconductor substrate; a photoelectric converter provided in the pixel to convert incident light to an electric signal; and a microlens situated above the photoelectric converter, wherein the microlens has a plan profile in which a direct distance from a center of the microlens to a lens edge differs with different respective angles, in the plan profile, from the center to the lens edge; the microlens having a bottom portion, where the bottom portion comprises a first base region and a second base region not including the first base region, the first base region being situated at locations near the lens edge, from which the direct distance is relatively long; and a vertical height of the first base region from an upper surface of the photoelectric converter is less than a vertical height of the second base region from the upper surface of the photoelectric converter. - View Dependent Claims (2, 3)
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4. A solid-state image sensor, comprising:
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a pixel formed on a semiconductor substrate; a photoelectric converter provided in the pixel to convert incident light to an electric signal; a planarizing layer situated above the photoelectric converter; and a microlens situated on the planarizing layer, wherein the microlens has a square-shaped plan profile with rounded corners, and wherein a direct distance from a center of the microlens to an edge of the microlens differs with different respective angles, in the plan profile, from the center to the lens edge; the planarizing layer has a first region and a second region not including the first region, the first region being provided at respective locations near the four corners, from which the direct distance is relatively long in the plan profile of the microlens as vertically projected on the planarizing layer; and a thickness of the planarizing layer is greater in the second region toward a microlens side than in the first region. - View Dependent Claims (5, 6)
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7. A solid-state image sensor, comprising:
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a pixel situated on a semiconductor substrate; a photoelectric converter provided in said pixel to convert incident light to an electric signal; a planarizing layer situated above the photoelectric converter; and a microlens situated on the planarizing layer, wherein the microlens has a plan profile in which a direct distance from a center of the microlens to a lens edge differs with different respective angles, in the plan profile, from the center to the lens edge, in said planarizing layer, a second lens is provided parallel to the photoelectric converter, with an optical axis of the second lens being aligned with an optical axis of the microlens, the second lens has a plan profile in which a direct distance from a center of the second lens to a lens edge differs with different respective angles, in the plan profile, from the center to the lens edge, the second lens being made of a member having a greater refractive index than the planarizing layer, and the plan profile being a square with rounded corners, the second lens has a first region and a second region not including the first region, wherein the first region is located near the lens edge from which the direct distance is relatively long, and the second lens is sloped so as to become progressively thinner from the second region to the first region. - View Dependent Claims (8)
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9. A solid-state image sensor, comprising:
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a pixel formed on a semiconductor substrate; a photoelectric converter provided in the pixel to convert incident light to an electric signal; a planarizing layer situated above the photoelectric converter; and a microlens situated on the planarizing layer, wherein the microlens has a plan profile in which a direct distance from a center of the microlens to an edge of the microlens differs with different respective angles, in the plan profile, from the center to the lens edge; the planarizing layer has a first region and a second region not including the first region, the first region being provided at respective locations on the edge, from which the direct distance is relatively long in the plan profile of the microlens as vertically projected on the planarizing layer; and a thickness of the planarizing layer is greater in the second region toward a microlens side than in the first region and continuously decreases from the second region toward the first region.
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Specification