摘要:
A MOS type solid state imaging device having unit pixels, each having a photodiode a transfer transistor for transferring the signal of the photodiode to a floating node, an amplifier transistor for outputting the signal of the floating node to a vertical signal line, and a reset transistor for resetting the floating node. A gate voltage of the reset transistor is controlled by three values of a power source potential (for example 3V), a ground potential (0V), and a negative power source potential (for example −1V).
摘要:
There is provided a solid-state imaging device including: a plurality of aperture pixels configured to be used for capturing of an image; a plurality of first light-shielded pixels configured to be shielded from light for detection of an optical black level, a temperature dependence of a dark current in the first light-shielded pixels being larger than a temperature dependence of a dark current in the aperture pixels; and a plurality of second light-shielded pixels configured to be shielded from light for detection of an optical black level, a temperature dependence of a dark current in the second light-shielded pixels being smaller than a temperature dependence of a dark current in the aperture pixels.
摘要:
There is provided a solid-state imaging device including: a plurality of aperture pixels configured to be used for capturing of an image; a plurality of first light-shielded pixels configured to be shielded from light for detection of an optical black level, a temperature dependence of a dark current in the first light-shielded pixels being larger than a temperature dependence of a dark current in the aperture pixels; and a plurality of second light-shielded pixels configured to be shielded from light for detection of an optical black level, a temperature dependence of a dark current in the second light-shielded pixels being smaller than a temperature dependence of a dark current in the aperture pixels.
摘要:
A solid state imaging device able to make noise from a nonselected row small, able to suppress occurrence of vertical stripes in a bright scene, not requiring charging including a floating node capacity via a reset transistor, able to prevent an increase of a driver size of a drain line, and able to secure high speed operation and a camera system using this as the imaging device are provided.An MOS type solid state imaging device in which unit pixels 10 each having a photodiode 11, a transfer transistor 12 for transferring the signal of the photodiode 11 to a floating node N11, an amplifier transistor 13 for outputting the signal of the floating node N11 to a vertical signal line 22, and a reset transistor 14 for resetting the floating node N11 are arrayed in a matrix and in which a gate voltage of the reset transistor 14 is controlled by three values of a power source potential (for example 3V), a ground potential (0V), and a negative power source potential (for example −1V).
摘要:
A solid-state imaging device is provided. The solid-state imaging device includes an imaging region having a plurality of pixels arranged in a two-dimensional array, in which the imaging region includes an effective pixel and a black reference pixel; and a shape of a floating diffusion portion in the effective pixel is different from that of a floating diffusion portion in the black reference pixel.
摘要:
A MOS type solid state imaging device having unit pixels, each having a photodiode a transfer transistor for transferring the signal of the photodiode to a floating node, an amplifier transistor for outputting the signal of the floating node to a vertical signal line, and a reset transistor for resetting the floating node. A gate voltage of the reset transistor is controlled by three values of a power source potential (for example 3V), a ground potential (0V), and a negative power source potential (for example −1V).
摘要:
A solid state imaging device able to make noise from a nonselected row small, able to suppress occurrence of vertical stripes in a bright scene, not requiring charging including a floating node capacity via a reset transistor, able to prevent an increase of a driver size of a drain line, and able to secure high speed operation and a camera system using this as the imaging device are provided.An MOS type solid state imaging device in which unit pixels 10 each having a photodiode 11, a transfer transistor 12 for transferring the signal of the photodiode 11 to a floating node N11, an amplifier transistor 13 for outputting the signal of the floating node N11 to a vertical signal line 22, and a reset transistor 14 for resetting the floating node N11 are arrayed in a matrix and in which a gate voltage of the reset transistor 14 is controlled by three values of a power source potential (for example 3V), a ground potential (0V), and a negative power source potential (for example −1V).
摘要:
A solid-state imaging device is provided. The solid-state imaging device includes an imaging region having a plurality of pixels arranged in a two-dimensional array, in which the imaging region includes an effective pixel and a black reference pixel; and a shape of a floating diffusion portion in the effective pixel is different from that of a floating diffusion portion in the black reference pixel.
摘要:
A solid state imaging device able to make noise from a nonselected row small, able to suppress occurrence of vertical stripes in a bright scene, not requiring charging including a floating node capacity via a reset transistor, able to prevent an increase of a driver size of a drain line, and able to secure high speed operation and a camera system using this as the imaging device are provided.An MOS type solid state imaging device in which unit pixels 10 each having a photodiode 11, a transfer transistor 12 for transferring the signal of the photodiode 11 to a floating node N11, an amplifier transistor 13 for outputting the signal of the floating node N11 to a vertical signal line 22, and a reset transistor 14 for resetting the floating node N11 are arrayed in a matrix and in which a gate voltage of the reset transistor 14 is controlled by three values of a power source potential (for example 3V), a ground potential (0V), and a negative power source potential (for example −1V).