| Patent application number | Description | Published |
|---|
| 20100323470 | BACKSIDE ILLUMINATED IMAGE SENSOR HAVING DEEP LIGHT REFLECTIVE TRENCHES - An array of pixels is formed using a semiconductor layer having a frontside and a backside through which incident light is received. Each pixel typically includes a photosensitive region formed in the semiconductor layer and a trench formed adjacent to the photosensitive region. The trench causes the incident light to be directed away from the trench and towards the photosensitive region. | 12-23-2010 |
| 20110068429 | IMAGE SENSOR WITH CONTACT DUMMY PIXELS - An image sensor array includes a substrate layer, a metal layer, an epitaxial layer, a plurality of imaging pixels, and a contact dummy pixel. The metal layer is disposed above the substrate layer. The epitaxial layer is disposed between the substrate layer and the metal layer. The imaging pixels are disposed within the epitaxial layer and each include a photosensitive element for collecting an image signal. The contact dummy pixel is dispose within the epitaxial layer and includes an electrical conducting path through the epitaxial layer. The electrical conducting path couples to the metal layer above the epitaxial layer. | 03-24-2011 |
| 20110085067 | MULTILAYER IMAGE SENSOR PIXEL STRUCTURE FOR REDUCING CROSSTALK - An image sensor pixel includes a substrate, a first epitaxial layer, a collector layer, a second epitaxial layer and a light collection region. The substrate is doped to have a first conductivity type. The first epitaxial layer is disposed over the substrate and doped to have the first conductivity type as well. The collector layer is selectively disposed over at least a portion of the first epitaxial layer and doped to have a second conductivity type. The second epitaxial layer is disposed over the collector layer and doped to have the first conductivity type. The light collection region collects photo-generated charge carriers and is disposed within the second epitaxial layer. The light collection region is also doped to have the second conductivity type. | 04-14-2011 |
| 20110089517 | CMOS IMAGE SENSOR WITH HEAT MANAGEMENT STRUCTURES - An image sensor includes a device wafer substrate of a device wafer, a device layer of the device wafer, and optionally a heat control structure and/or a heat sink. The device layer is disposed on a frontside of the device wafer substrate and includes a plurality of photosensitive elements disposed within a pixel array region and peripheral circuitry disposed within a peripheral circuits region. The photosensitive elements are sensitive to light incident on a backside of the device wafer substrate. The heat control structure is disposed within the device wafer substrate and thermally isolates the pixel array region from the peripheral circuits region to reduce heat transfer between the peripheral circuits region and the pixel array region. The heat sink conducts heat away from the device layer. | 04-21-2011 |
| 20110140221 | IMAGE SENSOR HAVING CURVED MICRO-MIRRORS OVER THE SENSING PHOTODIODE AND METHOD FOR FABRICATING - The invention involves the integration of curved micro-mirrors over a photodiode active area (collection area) in a CMOS image sensor (CIS) process. The curved micro-mirrors reflect light that has passed through the collection area back into the photo diode. The curved micro-mirrors are best implemented in a backside illuminated device (BSI). | 06-16-2011 |
| 20110217807 | Image sensor array with conformal color filters - An image sensor pixel includes a photo-sensor region, a microlens, a first color filter layer, and a second color filter layer. The photo-sensor region is disposed within a semiconductor die. The microlens is disposed on the semiconductor die in optical alignment with the photo-sensor region. The first color filter layer is disposed between the photo-sensor region and the microlens. The second color filter layer is disposed on an opposite side of the microlens as the first color filter layer. | 09-08-2011 |
| 20120018620 | BACKSIDE ILLUMINATED IMAGING SENSOR WITH VERTICAL PIXEL SENSOR - A backside illuminated imaging sensor includes a vertical stacked sensor that reduces cross talk by using different silicon layers to form photodiodes at separate levels within a stack (or separate stacks) to detect different colors. Blue light-, green light-, and red light-detection silicon layers are formed, with the blue light detection layer positioned closest to the backside of the sensor and the red light detection layer positioned farthest from the backside of the sensor. An anti-reflective coating (ARC) layer can be inserted in between the red and green light detection layers to reduce the optical cross talk captured by the red light detection layer. Amorphous polysilicon can be used to form the red light detection layer to boost the efficiency of detecting red light. | 01-26-2012 |
| 20120019695 | IMAGE SENSOR HAVING DARK SIDEWALLS BETWEEN COLOR FILTERS TO REDUCE OPTICAL CROSSTALK - An apparatus and technique for fabricating an image sensor including the dark sidewall films disposed between adjacent color filters. The image sensor further includes an array of photosensitive elements disposed in a substrate layer, a color filter array (“CFA”) including CFA elements having at least two different colors disposed on a light incident side of the substrate layer, and an array of microlenses disposed over the CFA. Each microlens is aligned to direct light incident on the light incident side of the image sensor through a corresponding CFA element to a corresponding photosensitive element. The dark sidewall films are disposed on sides of the CFA elements and separate adjacent ones of the CFA elements having different colors. | 01-26-2012 |
