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A photoelectric conversion device comprises a semiconductor substrate and a multilayer wiring structure, wherein the multilayer wiring structure includes a first wiring layer which serves as a top wiring layer in an effective region and contains aluminum as a principal component, a first insulation

A photoelectric conversion device comprises a semiconductor substrate and a multilayer wiring structure, wherein the multilayer wiring structure includes a first wiring layer which serves as a top wiring layer in an effective region and contains aluminum as a principal component, a first insulation film arranged in the effective region and an light-shielded region so as to cover the first wiring layer, and a second wiring layer which serves as a top wiring layer arranged on the first insulation film in the light-shielded region and contains aluminum as a principal component, and wherein the first insulation film has, in the effective region, a first portion which is positioned above the photoelectric conversion unit, and the first portion functions as at least a part of an interlayer lens.

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1. A photoelectric conversion device having an effective region in which a photoelectric conversion unit is not shielded against light, and a light-shielded region including a driving circuit, the device comprising: a semiconductor substrate in which the photoelectric conversion unit in the effectiv

1. A photoelectric conversion device having an effective region in which a photoelectric conversion unit is not shielded against light, and a light-shielded region including a driving circuit, the device comprising: a semiconductor substrate in which the photoelectric conversion unit in the effective region and the driving circuit are arranged; anda multilayer wiring structure, which is arranged on the semiconductor substrate and includes: an interlayer insulation film arranged in the effective region and the light-shielded region, wherein the interlayer insulation film extends from the effective region into the light-shielded region,a first wiring layer arranged on the interlayer insulation film, wherein the first wiring layer serves as a top wiring layer in the effective region and includes aluminum as a principal component,a first insulation film arranged in the effective region and the light-shielded region so as to cover the first wiring layer and the interlayer insulation film, wherein the first insulation film extends from the effective region into the light-shielded region, anda second wiring layer, which serves as a top wiring layer arranged on the first insulation film in the light-shielded region and which includes aluminum as a principal component,wherein the first insulation film includes, in the effective region, a first portion that is positioned above the photoelectric conversion unit and that functions as at least a part of an interlayer lens. 2. The photoelectric conversion device according to claim 1, wherein the light-shielded region includes a photoelectric conversion unit and the second wiring layer shields the photoelectric conversion unit in the light-shielded region against light. 3. The photoelectric conversion device according to claim 1, wherein the device is incorporated in an image sensing system that includes: an optical system which forms an image on an image sensing plane of the photoelectric conversion device; anda signal processing unit, which processes the signal output from the photoelectric conversion device, and generates image data. 4. The photoelectric conversion device according to claim 1, wherein a number of layers of the multilayer wiring structure in the effective region is smaller than a number of layers of the multilayer wiring structure in the light-shielding region by one. 5. The photoelectric conversion device according to claim 1, wherein the light-shielding region includes a photoelectric conversion unit that is shielded shield against light. 6. The photoelectric conversion device according to claim 1, wherein the interlayer insulation film has a flat upper surface in the effective region, and the first wiring layer is arranged on the flat upper surface. 7. The photoelectric conversion device according to claim 1, wherein the first insulation film includes, in the effective region, a second portion a top face of which is closer to a surface of the semiconductor substrate than a top face in the light-shielded region, andthe first portion has a convex shape along a direction away from the surface of the semiconductor substrate, thereby functioning as at least a part of the interlayer lens. 8. The photoelectric conversion device according to claim 6, wherein a top face of the first portion of the first insulation film is closer to the surface of the semiconductor substrate than a top face of the first insulation film in the light-shielded region. 9. The photoelectric conversion device according to claim 1, wherein the multilayer wiring structure includes a passivation film is arranged in the effective region so as to cover at least the first portion, which is positioned above the photoelectric conversion unit in the effective region, of the first insulation film, and is arranged in the light-shielded region so as to cover the second wiring layer,the passivation film including a third portion positioned above the photoelectric conversion unit in the effective region, andthe first portion and the third portion function as the interlayer lens. 10. The photoelectric conversion device according to claim 9, wherein a surface of the third portion has a convex shape along a direction away from the surface of the semiconductor substrate, such that the first portion and the third portion function as the interlayer lens. 11. The photoelectric conversion device according to claim 1, further comprising: a color filter arranged above the interlayer lens; anda planarized layer arranged between the color filter and the interlayer lens,wherein the multilayer wiring structure includes a first antireflection film arranged between the planarized layer and the interlayer lens. 12. The photoelectric conversion device according to claim 11, wherein the interlayer lens is formed of silicon nitride, andthe first antireflection film is formed of silicon oxynitride. 13. The photoelectric conversion device according to claim 11, wherein the multilayer wiring structure includes: a third wiring layer, which is arranged beneath the first wiring layer and includes aluminum as a principal component, wherein the interlayer insulation film is arranged so as to cover the third wiring layer and to insulate the first wiring layer and the third wiring layer from each other, anda second antireflection film arranged between the first insulation film and the interlayer insulation film. 14. The photoelectric device according to claim 13, wherein the first insulation film is formed of silicon nitride,the second antireflection film is formed of silicon oxynitride, andthe second insulation film is formed of silicon oxide.