Patent application number | Description | Published |
20110018037 | SOLID-STATE IMAGING DEVICE AND METHOD OF MANUFACTURING SOLID-STATE IMAGING DEVICE - Provided is a solid-state imaging device including: a photodiode which converts an optical signal to signal charges; a transfer gate which transfers the signal charges from the photodiode; an impurity diffusion layer to which the signal charges are transferred by the transfer gate; and a MOS transistor of which a gate is connected to the impurity diffusion layer. The impurity diffusion layer has a first conduction type semiconductor layer and a second conduction type semiconductor layer which is formed in the first conduction type semiconductor layer and under an end portion of the transfer gate. | 01-27-2011 |
20110241089 | SOLID-STATE IMAGING DEVICE, METHOD OF MANUFACTURING SOLID-STATE IMAGING DEVICE, AND ELECTRONIC APPARATUS - Disclosed herein is a solid-state imaging device including: a semiconductor region of a second conductivity type which is formed on a face side of a semiconductor substrate; a photoelectric conversion element which has an impurity region of a first conductivity type and which is operable to generate electric charge according to the amount of incident light and to accumulate the electric charge in the inside thereof; an electric-charge holding region which has an impurity region of the first conductivity type and in which the electric charge generated through photoelectric conversion by the photoelectric conversion element is held until read out; an intermediate transfer path through which only the electric charge generated by the photoelectric conversion element during an exposure period and being in excess of a predetermined electric charge amount is transferred into the electric-charge holding region; and an impurity layer. | 10-06-2011 |
20110242390 | SOLID-STATE IMAGING DEVICE AND ELECTRONIC INSTRUMENT - Disclosed herein is a solid-state imaging device including, a first semiconductor region of the first conduction type, a photoelectric conversion part having a second semiconductor region of the second conduction type formed in the region separated by the isolation dielectric region of the first semiconductor region, pixel transistors formed in the first semiconductor region, a floating diffusion region of the second conduction type which is formed in the region separated by the isolation dielectric region of the first semiconductor region, and an electrode formed on the first semiconductor region existing between the floating diffusion region and the isolation dielectric region and is given a prescribed bias voltage. | 10-06-2011 |
20120223405 | SOLID-STATE IMAGING DEVICE - A solid-state imaging device includes a substrate, a photoelectric conversion section, a first impurity layer having a carrier polarity of a second conductivity type, a charge-to-voltage converting section, an amplifying section, and a second impurity layer having a carrier polarity of the second conductivity type. The second impurity layer is disposed in a region between the photoelectric conversion section and the amplifying section. The second impurity concentration of the second P-type impurity layer is made higher than the first impurity concentration of the first impurity layer. | 09-06-2012 |
20130009224 | SOLID-STATE IMAGING DEVICE, ELECTRONIC DEVICE, AND MANUFACTURING METHOD FOR SOLID-STATE IMAGING DEVICE - In a manufacturing method for a solid-state imaging device, a photoelectric conversion portion including a first impurity layer whose carrier polarity is a first conductivity type is formed within a substrate, a second impurity layer, whose carrier polarity is a second conductivity type opposite to the first conductivity type, is formed on a surface of the first impurity layer so as to be in contact with the surface located on one surface side of the substrate, a third impurity layer, whose carrier polarity is the first conductivity type, is formed on the second impurity layer so as to be in contact therewith, a gate electrode is formed above the third impurity layer so as to cover the third impurity layer, and an impurity region portion, whose carrier polarity is the first conductivity type, is formed within the substrate so as to be connected to the third impurity layer. | 01-10-2013 |
20140117429 | SOLID-STATE IMAGING DEVICE - A solid-state imaging device includes a substrate, a photoelectric conversion section, a first impurity layer having a carrier polarity of a second conductivity type, a charge-to-voltage converting section, an amplifying section, and a second impurity layer having a carrier polarity of the second conductivity type. The second impurity layer is disposed in a region between the photoelectric conversion section and the amplifying section. The second impurity concentration of the second P-type impurity layer is made higher than the first impurity concentration of the first impurity layer. | 05-01-2014 |
20150115336 | SOLID-STATE IMAGING DEVICE AND ELECTRONIC INSTRUMENT - Disclosed herein is a solid-state imaging device including, a first semiconductor region of the first conduction type, a photoelectric conversion part having a second semiconductor region of the second conduction type formed in the region separated by the isolation dielectric region of the first semiconductor region, pixel transistors formed in the first semiconductor region, a floating diffusion region of the second conduction type which is formed in the region separated by the isolation dielectric region of the first semiconductor region, and an electrode formed on the first semiconductor region existing between the floating diffusion region and the isolation dielectric region and is given a prescribed bias voltage. | 04-30-2015 |
20150325617 | SOLID-STATE IMAGING DEVICE - A solid-state imaging device includes a substrate, a photoelectric conversion section, a first impurity layer having a carrier polarity of a second conductivity type, a charge-to-voltage converting section, an amplifying section, and a second impurity layer having a carrier polarity of the second conductivity type. The second impurity layer is disposed in a region between the photoelectric conversion section and the amplifying section. The second impurity concentration of the second P-type impurity layer is made higher than the first impurity concentration of the first impurity layer. | 11-12-2015 |