Patent ID: 8542304
Filing Date: 2013-09-24
Classification: H01L,H04N

Abstract:
1. A solid state imaging device comprising: a first pixel portion including a photoelectric conversion element; a second pixel portion which is arranged in a row direction with respect to the first pixel portion, the second pixel portion including a photoelectric conversion element; a first transfer transistor configured to transfer a first charge photoelectrically converted by the first pixel portion; a second transfer transistor configured to transfer a second charge photoelectrically converted by the second pixel portion; a first accumulation portion which is interposed between the first pixel portion and the second pixel portion, the first accumulation portion accumulating the first charge transferred by the first transfer transistor; a second accumulation portion which is interposed between the first pixel portion and the second pixel portion, the second accumulation portion accumulating the second charge transferred by the second transfer transistor; an element isolation region which is interposed between the first accumulation portion and the second accumulation portion, the element isolation region electrically isolating the first accumulation portion from the second accumulation portion; a first amplifier transistor configured to amplify a voltage generated in accordance with the first charge accumulated in the first accumulation portion; a first signal line configured to output a signal voltage amplified by the first amplifier transistor; a second amplifier transistor configured to amplify a voltage generated in accordance with the second charge accumulated in the second accumulation portion; a second signal line configured to output a signal voltage amplified by the second amplifier transistor; a third pixel portion which is arranged in a same column in a column direction perpendicular to the row direction with respect to the first pixel portion, the third pixel portion including a photoelectric conversion element; a third transfer transistor configured to transfer a third charge photoelectrically converted by the third pixel portion; a third accumulation portion which is arranged adjacent to the third pixel portion, the third accumulation portion accumulating the third charge transferred by the third transfer transistor; and a third amplifier transistor configured to amplify a voltage generated in accordance with the third charge accumulated in the third accumulation portion, wherein the first signal line outputs a signal voltage amplified by the third amplifier transistor, the first pixel portion includes a first pixel, a second pixel, a third pixel, and a fourth pixel which are arrayed sequentially in the column direction and include photoelectric conversion elements, respectively, the first pixel, the second pixel, the third pixel, the fourth pixel, the first transfer transistor, the first accumulation portion, and the first amplifier transistor form a first unit cell, the second pixel portion includes a fifth pixel, a sixth pixel, a seventh pixel, and an eighth pixel which are arrayed sequentially in the column direction and include photoelectric conversion elements, respectively, the fifth pixel, the sixth pixel, the seventh pixel, the eighth pixel, the second transfer transistor, the second accumulation portion, and the second amplifier transistor form a second unit cell, the first unit cell and the second unit cell are arranged in the row direction to be adjacent to each other, and the second unit cell is shifted from the first unit cell by two pixels in the column direction, the first pixel included in the first pixel portion and the sixth pixel included in the second pixel portion are arranged on the same row, in a readout operation, charges photoelectrically converted by the first pixel and the sixth pixel are transferred to the first accumulation portion and the second accumulation portion in a first horizontal synchronizing period, respectively, and the charges transferred to the first accumulation portion and the second accumulation portion are output from the first signal line and the second signal line in a second horizontal synchronizing period, respectively.