| Patent application number | Description | Published |
|---|
| 20090194671 | IMAGE SENSOR REFLECTOR - An array of pixels is formed using a substrate, where each pixel has a substrate having an incident side for receiving incident light, a photosensitive region formed in the substrate, and a reflector having a complex-shaped surface. The reflector is formed in a portion of the substrate that is opposed to the incident side such that light incident on the complex-shaped surface of the reflector is reflected towards the photosensitive region. | 08-06-2009 |
| 20090200585 | BACKSIDE ILLUMINATED IMAGING SENSOR WITH BACKSIDE P+ DOPED LAYER - A backside illuminated imaging sensor includes a semiconductor layer having a P-type region. A frontside and backside P | 08-13-2009 |
| 20090200590 | IMAGE SENSOR WITH LOW ELECTRICAL CROSS-TALK - An array of pixels is formed using a substrate, where each pixel has a substrate having a backside and a frontside that includes metalization layers, a photodiode formed in the substrate, frontside P-wells formed using frontside processing that are adjacent to the photosensitive region, and an N-type region formed in the substrate below the photodiode. The N-type region is formed in a region of the substrate below the photodiode and is formed at least in part in a region of the substrate that is deeper than the depth of the frontside P-wells. | 08-13-2009 |
| 20090200624 | Circuit and photo sensor overlap for backside illumination image sensor - A backside illuminated (“BSI”) imaging sensor pixel includes a photodiode region and pixel circuitry. The photodiode region is disposed within a semiconductor die for accumulating an image charge in response to light incident upon a backside of the BSI imaging sensor pixel. The pixel circuitry includes transistor pixel circuitry disposed within the semiconductor die between a frontside of the semiconductor die and the photodiode region. At least a portion of the pixel circuitry overlaps the photodiode region. | 08-13-2009 |
| 20090236498 | VARIABLE TRANSFER GATE OXIDE THICKNESS FOR IMAGE SENSOR - A light sensor cell includes a photosensitive element, a floating diffusion region, and a gate oxide disposed between the photosensitive element and the floating diffusion region. The gate oxide has a non-uniform thickness, with a greater thickness near the photosensitive element and a lesser thickness near the floating diffusion region. A transfer gate is disposed on the gate oxide. The transfer gate has a non-uniform threshold voltage, with a greater threshold voltage near the photosensitive element and a lesser threshold voltage near the floating diffusion region. | 09-24-2009 |
| 20090267070 | Multilayer image sensor structure for reducing crosstalk - An image sensor pixel includes a substrate, an epitaxial layer, and a light collection region. The substrate is doped to have a first conductivity type. The epitaxial layer is disposed over the substrate and doped to have a second conductivity type opposite of the first conductivity type. The light collection region is disposed within the epitaxial layer for collecting photo-generated charge carriers. The light collection region is doped to have the first conductivity type as well. | 10-29-2009 |
| 20090294811 | IMAGE SENSOR WITH BACKSIDE PASSIVATION AND METAL LAYER - An image sensor includes a semiconductor layer that low-pass filters light of different wavelengths. For example, the semiconductor layer proportionately absorbs photons of shorter wavelengths and proportionately passes more photons of longer wavelengths such that the longer wavelength photons often pass through without being absorbed. An imaging pixel having a photodiode is formed on a front surface of the semiconductor layer, where the photodiode is an N | 12-03-2009 |
| 20090295953 | IMAGE SENSOR WITH FOCUSING INTERCONNECTION - An image sensor includes a photosensitive region formed in a substrate of an integrated circuit. The substrate has a first layer of metal formed over the surface of the substrate so the first layer of metal defines a first aperture that has a first aperture width through with the incident light passes before illuminating the photosensitive region. The first aperture width is equal to or less than the width of the photosensitive region below the first aperture. The substrate also has a second layer of metal formed over the first layer of metal. The second aperture has a second aperture width that is wider than the first aperture width. The first and second apertures focus the incident light onto the photosensitive region. | 12-03-2009 |
| 20090302409 | IMAGE SENSOR WITH MULTIPLE THICKNESS ANTI-RELFECTIVE COATING LAYERS - An image sensor includes a substrate having a surface at which incident light is received. A pixel array is formed over and within the substrate. The pixel array includes a first and a second pixel arranged to receive light of different colors. The first pixel includes a photosensitive region formed in the substrate and has a first anti-reflective coating (ARC) layer formed over the photosensitive region. The first ARC layer has a first thickness that produces destructive interference above the first ARC layer in response to the incident light. The second pixel includes a photosensitive region formed in the substrate, and a second ARC layer formed over the photosensitive region that produces destructive interference above the second ARC layer in response to the incident light. | 12-10-2009 |
| 20100117123 | IMAGE SENSOR PIXEL HAVING A LATERAL DOPING PROFILE FORMED WITH INDIUM DOPING - An active pixel using a transfer gate that has a polysilicon gate doped with indium. The pixel includes a photosensitive element formed in a semiconductor substrate and an n-type floating node formed in the semiconductor substrate. An n-channel transfer transistor having a transfer gate is formed between the floating node and the photosensitive element. The pixel substrate has a laterally doping gradient doped with an indium dopant. | 05-13-2010 |
| 20100314667 | CMOS PIXEL WITH DUAL-ELEMENT TRANSFER GATE - Embodiments of a pixel that includes a photosensitive region, a floating diffusion region, and a transistor transfer gate disposed between the photosensitive region and the floating diffusion region. The transfer gate includes first and second transfer gate elements, the first transfer gate element having a different doping than the second transfer gate element. By controlling the doping of the first and second transfer gate elements a transfer gate can be provided with a greater threshold voltage near the photosensitive region and a lesser threshold voltage near the floating diffusion region. Other embodiments, including process embodiments, are disclosed and claimed. | 12-16-2010 |
| 20110032405 | IMAGE SENSOR WITH TRANSFER GATE HAVING MULTIPLE CHANNEL SUB-REGIONS - An image sensor pixel includes a photosensitive element, a floating diffusion region and a transfer transistor channel region. The transfer transistor channel region is disposed between the photosensitive region and the floating diffusion region. The transfer transistor channel region includes a first channel sub-region having a first doping concentration and a second channel sub-region having a second doping concentration that is different from the first doping concentration. | 02-10-2011 |
| 20110101481 | Photodetector Array Having Array of Discrete Electron Repulsive Elements - Photodetector arrays, image sensors, and other apparatus are disclosed. In one aspect, an apparatus may include a surface to receive light, a plurality of photosensitive regions disposed within a substrate, and a material coupled between the surface and the plurality of photosensitive regions. The material may receive the light. At least some of the light may free electrons in the material. The apparatus may also include a plurality of discrete electron repulsive elements. The discrete electron repulsive elements may be coupled between the surface and the material. Each of the discrete electron repulsive elements may correspond to a different photosensitive region. Each of the discrete electron repulsive elements may repel electrons in the material toward a corresponding photosensitive region. Other apparatus are also disclosed, as are methods of use, methods of fabrication, and systems incorporating such apparatus. | 05-05-2011 |
| 20110108938 | IMAGE SENSOR HAVING WAVEGUIDES FORMED IN COLOR FILTERS - An image sensor having an array of pixels disposed in a substrate. Each pixel includes a photosensitive element, a color filter, and waveguide walls. The waveguide walls are disposed in the color filter and surround portions of the color filter to form waveguides through the color filter. The refractive index of the waveguide walls is less than the refractive index of the color filter. The image sensor may be back side illuminated (BSI) or front side illuminated (FSI). In some embodiments, metal walls may be coupled to the waveguide walls. | 05-12-2011 |
