Patent application number | Description | Published |
20080283727 | Solid-state imaging device and imaging apparatus - There is provided a solid-state imaging device, including: a semiconductor substrate having a plurality of pixels, each having a photoelectric conversion portion, formed therein; and a laminated film formed on said semiconductor substrate; wherein said laminated film includes a hydrogen desorbing film for desorbing hydrogen, and a hydrogen blocking-off film disposed so as to overlie said hydrogen desorbing film. | 11-20-2008 |
20090072275 | SOLID-STATE IMAGING DEVICE AND METHOD FOR MANUFACTURING THEREOF AS WELL AS DRIVING METHOD OF SOLID-STATE IMAGING DEVICE - A solid-state imaging device with a structure such that an electrode for reading a signal charge is provided on one side of a light-receiving sensor portion constituting a pixel; a predetermined voltage signal V is applied to a light-shielding film formed to cover an image pickup area except the light-receiving sensor portion; a second-conductivity-type semiconductor area is formed in the center on the surface of a first-conductivity-type semiconductor area constituting a photo-electric conversion area of the light-receiving sensor portion; and areas containing a lower impurity concentration than that of the second-conductivity-type semiconductor area is formed on the surface of the first-conductivity-type semiconductor area at the end on the side of the electrode and at the opposite end on the side of a pixel-separation area. | 03-19-2009 |
20090072336 | Solid-state imaging device and method for manufacturing thereof as well as driving method of solid-state imaging device - A solid-state imaging device having an electrode for reading a signal charge is provided on one side of a light-receiving sensor portion constituting a pixel; a predetermined voltage signal applied to a light-shielding film formed to cover an image pickup area except the light-receiving sensor portion; a second-conductivity-type semiconductor area formed in the center on the surface of a first-conductivity-type semiconductor area constituting a photo-electric conversion area of the light-receiving sensor portion; and areas containing a lower impurity concentration than that of the second-conductivity-type semiconductor area formed on the surface of the first-conductivity-type semiconductor area at the end on the side of the electrode and at the opposite end on the side of a pixel-separation area. | 03-19-2009 |
20090075418 | SOLID-STATE IMAGING DEVICE AND METHOD FOR MANUFACTURING THEREOF AS WELL AS DRIVING METHOD OF SOLID-STATE IMAGING DEVICE - A solid-state imaging device with a structure such that an electrode for reading a signal charge is provided on one side of a light-receiving sensor portion constituting a pixel; a predetermined voltage signal V is applied to a light-shielding film formed to cover an image pickup area except the light-receiving sensor portion; a second-conductivity-type semiconductor area is formed in the center on the surface of a first-conductivity-type semiconductor area constituting a photo-electric conversion area of the light-receiving sensor portion; and areas containing a lower impurity concentration than that of the second-conductivity-type semiconductor area is formed on the surface of the first-conductivity-type semiconductor area at the end on the side of the electrode and at the opposite end on the side of a pixel-separation area. | 03-19-2009 |
20090078976 | SOLID-STATE IMAGING DEVICE AND METHOD FOR MANUFACTURING THEREOF AS WELL AS DRIVING METHOD OF SOLID-STATE IMAGING DEVICE - A solid-state imaging device with a structure such that an electrode for reading a signal charge is provided on one side of a light-receiving sensor portion constituting a pixel; a predetermined voltage signal V is applied to a light-shielding film formed to cover an image pickup area except the light-receiving sensor portion; a second-conductivity-type semiconductor area is formed in the center on the surface of a first-conductivity-type semiconductor area constituting a photo-electric conversion area of the light-receiving sensor portion; and areas containing a lower impurity concentration than that of the second-conductivity-type semiconductor area is formed on the surface of the first-conductivity-type semiconductor area at the end on the side of the electrode and at the opposite end on the side of a pixel-separation area. | 03-26-2009 |
20090078977 | SOLID-STATE IMAGING DEVICE AND METHOD FOR MANUFACTURING THEREOF AS WELL AS DRIVING METHOD OF SOLID-STATE IMAGING DEVICE - A solid-state imaging device with a structure such that an electrode for reading a signal charge is provided on one side of a light-receiving sensor portion constituting a pixel; a predetermined voltage signal V is applied to a light-shielding film formed to cover an image pickup area except the light-receiving sensor portion; a second-conductivity-type semiconductor area is formed in the center on the surface of a first-conductivity-type semiconductor area constituting a photo-electric conversion area of the light-receiving sensor portion; and areas containing a lower impurity concentration than that of the second-conductivity-type semiconductor area is formed on the surface of the first-conductivity-type semiconductor area at the end on the side of the electrode and at the opposite end on the side of a pixel-separation area. | 03-26-2009 |
20090278031 | Solid-state imaging device and imaging apparatus - There is provided a solid-state imaging device, including: a semiconductor substrate having a plurality of pixels, each having a photoelectric conversion portion, formed therein; and a laminated film formed on said semiconductor substrate; wherein said laminated film includes a hydrogen desorbing film for desorbing hydrogen, and a hydrogen blocking-off film disposed so as to overlie said hydrogen desorbing film. | 11-12-2009 |
20100078744 | SOLID-STATE IMAGING DEVICE, METHOD OF MANUFACTURING THE SAME, AND ELECTRONIC APPARATUS - A solid-state imaging device includes light-sensing sections serving as pixels, and waveguides each including a core layer and a cladding layer, the waveguides each being disposed at a position corresponding to one of the light-sensing sections. A cross-sectional structure of the waveguide taken in the horizontal direction of an imaging plane is different from a cross-sectional structure of the waveguide taken in the vertical direction of the imaging plane. | 04-01-2010 |
20110298024 | SOLID-STATE IMAGING DEVICE AND METHOD FOR MANUFACTURING THEREOF AS WELL AS DRIVING METHOD OF SOLID-STATE IMAGING DEVICE - A solid-state imaging device with a structure such that an electrode for reading a signal charge is provided on one side of a light-receiving sensor portion constituting a pixel; a predetermined voltage signal V is applied to a light-shielding film formed to cover an image pickup area except the light-receiving sensor portion; a second-conductivity-type semiconductor area is formed in the center on the surface of a first-conductivity-type semiconductor area constituting a photo-electric conversion area of the light-receiving sensor portion; and areas containing a lower impurity concentration than that of the second-conductivity-type semiconductor area is formed on the surface of the first-conductivity-type semiconductor area at the end on the side of the electrode and at the opposite end on the side of a pixel-separation area. | 12-08-2011 |