The present invention provides an image sensor that includes a plurality of light-receiving elements and a charge output component. The plurality of light-receiving elements are disposed inside the image sensor in a matrix arrangement corresponding to respective pixels. The light-receiving elements
The present invention provides an image sensor that includes a plurality of light-receiving elements and a charge output component. The plurality of light-receiving elements are disposed inside the image sensor in a matrix arrangement corresponding to respective pixels. The light-receiving elements each includes a light-receiving surface at a front face and accumulates charge in accordance with light amounts received at the light-receiving surface. The charge output component outputs the charges accumulated at the plurality of light-receiving elements to outside the image sensor. The image sensor is configured to enable incidence of light on rear faces of the plurality of light-receiving elements. The plurality of light-receiving elements are capable of accumulating charges in accordance with light amounts received at the rear faces.
대표청구항▼
What is claimed is: 1. An image sensor comprising: a plurality of light-receiving elements disposed inside the image sensor in a matrix arrangement corresponding to respective pixels, the light-receiving elements each including a light-receiving surface at a front face and accumulating charge in ac
What is claimed is: 1. An image sensor comprising: a plurality of light-receiving elements disposed inside the image sensor in a matrix arrangement corresponding to respective pixels, the light-receiving elements each including a light-receiving surface at a front face and accumulating charge in accordance with light amounts received at the light-receiving surface; and a charge output component that outputs the charges accumulated at the plurality of light-receiving elements to outside the image sensor, wherein the image sensor is configured to enable incidence of light on rear faces of the plurality of light-receiving elements, and the plurality of light-receiving elements are capable of accumulating charges in accordance with light amounts received at the rear faces, and wherein the image sensor further comprises a first filter disposed at the front face side of the plurality of light-receiving elements, the first filter transmitting light of a predetermined wavelength and causing the light of the predetermined wavelength to be incident on at least some of the plurality of light-receiving elements; and a second filter disposed at the rear face side of the plurality of light-receiving elements, the second filter transmitting light of a wavelength different from the predetermined wavelength and causing the light of the wavelength different from the predetermined wavelength to be incident on at least some of the plurality of light-receiving elements. 2. The image sensor of claim 1, wherein the light-receiving elements are provided by layering a p-type well on an n-type semiconductor substrate, a layer thickness of the substrate being set to a thickness that enables transmission of the light of the wavelength different from the predetermined wavelength, and forming an n-type region at the p-type well. 3. The image sensor of claim 2, wherein a glass plate for reinforcement is provided at the rear face. 4. The image sensor of claim 1, wherein either the predetermined wavelength is a wavelength of visible light and the wavelength different from the predetermined wavelength is a wavelength of non-visible light, or the predetermined wavelength is a wavelength of non-visible light and the wavelength different from the predetermined wavelength is a wavelength of visible light. 5. The image sensor of claim 1, wherein the first filter and the second filter are configured such that positions of arragement of the light-receiving elements that are objects of incidence of the light of the predetermined wavelength mutually alternate with positions of arrangement of the light-receiving elements that are objects of incidence of the light of the wavelength diifferent from the predetermined wavelength. 6. The image sensor of claim 1, wherein the first filter and the second filter are configured such that the respective lights of the wavelengths that are objects of transmission are caused to be incident at all of the plurality of light-receiving elements. 7. A digital camera comprising: an image sensor; a front face incidence component; a rear face incidence component; and a control component, wherein the image sensor includes: a plurality of light-receiving elements disposed inside the image sensor in a matrix arrangement corresponding to respective pixels, the light-receiving elements each including a light-receiving surface at a front face and accumulating charge in accordance with light amounts received at the light-receiving surface; a charge output component that outputs the charges accumulated at the plurality of light-receiving elements to outside the image sensor; a first filter disposed at the front face side of the plurality of light-receiving elements, the first filter transmitting light of a predetermined wavelength and causing the light of the predetermined wavelength to be incident on at least some of the plurality of light-receiving elements; and a second filter disposed at a rear face side of the plurality of light-receiving elements, the second filter transmitting light of a wavelength different from the predetermined wavelength and causing the light of the wavelength different from the predetermined wavelength to be incident on at least some of the plurality of light-receiving elements, the image sensor is configured to enable incidence of light on rear faces of the plurality of light-receiving elements, the plurality of light-receiving elements of the image sensor are capable of accumulating charges in accordance with light amounts received at the rear faces, the front face incidence component allows the light of the predetermined wavelength to be incident on the front face of the image sensor, the rear face incidence component allows the light of the wavelength different from the predetermined wavelength to be incident on the rear face of the image sensor, and the control component controls so as to perform photography on the basis of the charges outputted from the image sensor. 8. The digital camera of claim 7, wherein the light-receiving elements are provided by layering a p-type well on an n-type semiconductor substrate, a layer thickness of the substrate being set to a thickness that enables transmission of the light of the wavelength different from the predetermined wavelength, and forming an n-type region at the p-type well. 9. The digital camera of claim 8, wherein a glass plate for reinforcement is provided at the rear face. 10. The digital camera of claim 7, wherein either the predetermined wavelength is a wavelength of visible light and the wavelength different from the predetermined wavelength is a wavelength of non-visible light, or the predetermined wavelength is a wavelength of non-visible light and the wavelength different from the predetermined wavelength is a wavelength of visible light. 11. The digital camera of claim 7, wherein the first filter and the second filter are configured such that positions of arrangement of the light-receiving elements that are objects of incidence of the light of the predetermined wavelength mutually alternate with positions of arrangement of the light-receiving elements that are objects of incidence of the light of the wavelength different from the predetermined wavelength. 12. The digital camera of claim 7, wherein the first filter and the second filter are configured such that the respective lights of the wavelengths that are objects of transmission are caused to be incident at all of the plurality of light-receiving elements. 13. The digital camera of claim 12, wherein the control component performs switching such that incidence of light due to the front face incidence component and incidence of light due to the rear face incidence component are successively alternated, and performs control so as to read out charges that are correspondingly accumulated at the image sensor synchronously with timings of the switching. 14. A digital camera comprising: an image sensor; a first filter; a second filter; a front face incidence component; a rear face incidence component; and a control component, wherein the image sensor includes: a plurality of light-receiving elements disposed inside the image sensor in a matrix arrangement corresponding to respective pixels, the light-receiving elements each including a light-receiving surface at a front face and accumulating charge in accordance with light amounts received at the light-receiving surface; and a charge output component that outputs the charges accumulated at the plurality of light-receiving elements to outside the image sensor, the image sensor is configured to enable incidence of light on rear faces of the plurality of light-receiving elements, the plurality of light-receiving elements of the image sensor are capable of accumulating charges in accordance with light amounts received at the rear faces, the first filter is provided in correspondence with the front face side of the plurality of light-receiving elements of the image sensor, transmits light of a predetermined wavelength and causes the light of the predetermined wavelength to be incident on at least some of the plurality of light-receiving elements, the second filter is provided in correspondence with the rear face side of the plurality of light-receiving elements of the image sensor, transmits light of a wavelength different from the predetermined wavelength and causes the light of the wavelength different from the predetermined wavelength to be incident on at least some of the plurality of light-receiving elements, the front face incidence component allows the light of the predetermined wavelength to be incident on the front face of the image sensor via the first filter, the rear face incidence component allows the light of the wavelength different from the predetermined wavelength to be incident on the rear face of the image sensor via the second filter, and the control component controls so as to perform photography on the basis of the charges outputted from the image sensor.
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이 특허에 인용된 특허 (3)
Gaalema Stephen D. (Carlsbad CA), Backside illuminated blocked impurity band infrared detector.
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