Abstract: An image sensor includes a horizontal shift register electrically connected to a pixel array for receiving charge packets from the pixel array. A non-destructive sense node is connected to an output of the horizontal shift register. A charge directing switch is electrically connected to the non-destructive sense node. The charge directing switch includes two outputs. A charge multiplying horizontal shift register is electrically connected to one output of the charge directing switch. A discharging element is connected to the other output of the charge directing switch.

Abstract: An image sensor that includes a plurality of pixels disposed on a substrate, each pixel includes at least one photosensitive region that collects charges in response to incident light; a charge-to-voltage conversion node for sensing the charge from the at least one photosensitive region and convening the charge to a voltage; an amplifier transistor having a source connected to an output node, having a gate connected to the charge-to-voltage conversion node and having a drain connected to at least a portion of a power supply node; and a reset transistor connecting the output node and the charge-to-voltage conversion node.

Abstract: A method for reading out an image signal includes providing at least two photosensitive regions and providing at least two transfer gates respectively associated with each photosensitive region. The method also includes providing a common charge-to-voltage conversion region electrically connected to the transfer gates and providing a reset mechanism that resets the common charge-to-voltage conversion region. After transferring charge from at least one of the photo-sensitive regions, all the transfer gates are disabled at a first time. The method further includes enabling at least one transfer gate at a subsequent second time and transferring charge from at least one of the photosensitive regions at a subsequent third time while the at least one transfer gate from the second time remains enabled.

Abstract: An image sensor includes a horizontal shift register electrically connected to a pixel array for receiving charge packets from the pixel array. A non-destructive sense node is connected to an output of the horizontal shift register. A charge directing switch is electrically connected to the non-destructive sense node. The charge directing switch includes two outputs. A charge multiplying horizontal shift register is electrically connected to one output of the charge directing switch. A discharging element is connected to the other output of the charge directing switch.

Abstract: An image sensor includes a horizontal shift register electrically connected to a pixel array for receiving charge packets from the pixel array. A non-destructive sense node is connected to an output of the horizontal shift register. A charge directing switch is electrically connected to the non-destructive sense node. The charge directing switch includes two outputs. A charge multiplying horizontal shift register is electrically connected to one output of the charge directing switch. A discharging element is connected to the other output of the charge directing switch.

Abstract: An image sensor includes a horizontal shift register electrically connected to a pixel array for receiving charge packets from the pixel array. A non-destructive sense node is connected to an output of the horizontal shift register. A charge directing switch is electrically connected to the non-destructive sense node. The charge directing switch includes two outputs. A charge multiplying horizontal shift register is electrically connected to one output of the charge directing switch. A discharging element is connected to the other output of the charge directing switch.

Abstract: An image sensor includes an electronic shutter layer that is used to drain charge away from the photosensitive regions during an electronic shutter operation. A current sensing component and a selector component are electrically connected to a contact to the electronic shutter layer in the image sensor. The current sensing component senses a current level in the electronic shutter layer and changes a state of an alert signal when the current level equals or exceeds a threshold current level. The selector component receives the alert signal from the current sensing component and a shutter signal from an electronic shutter pulse driver component. Depending on the state of the alert signal, the selector component either transmits, or does not transmit, the shutter signal to the electronic shutter layer. An electronic shutter operation is performed when the electronic shutter layer receives the shutter signal.

Abstract: Charge packets are transferred from a pixel array in an image sensor to a horizontal shift register. Each charge packet is shifted to a non-destructive sense node. Each charge packet is non-destructively sensed and a signal representative of a number of charge carriers in the charge packet is produced. Respective charge packets are directed to a charge multiplying output channel when the signal representative of the number of charge carriers in each charge packet indicates the charge packet will not saturate the charge multiplying horizontal shift register. Respective charge packets are directed to a charge bypass output channel or an amplifier when the signal representative of the number of charge carriers in each charge packet indicates the charge packet will saturate the charge multiplying horizontal shift register.

Abstract: An image sensor includes multiple output channels, a non-destructive charge sensing output channel having an associated gain value of G1 and a charge multiplying output channel having an associated gain value G3. The image sensor can also include a charge bypass output channel having an associated gain value G2. For each charge packet, a pixel signal produced by either the charge sensing output channel, the charge multiplying output channel or the charge bypass output channel is selected. If the pixel signal produced by the charge sensing output channel is selected, a gain factor (G3/G1) is applied to each pixel signal selected from the charge bypass output channel. If the pixel signal produced by the charge bypass output channel is selected, a gain factor (G3/G2) is applied to each pixel signal selected from the charge bypass output channel. The pixel signals are combined to produce an image.

Abstract: An image sensor includes a horizontal shift register electrically connected to a pixel array for receiving charge packets from the pixel array. A non-destructive sense node is connected to an output of the horizontal shift register. A charge directing switch is electrically connected to the non-destructive sense node. The charge directing switch includes two outputs. A charge multiplying horizontal shift register is electrically connected to one output of the charge directing switch. A bypass horizontal shift register or an amplifier can be connected to the other output of the charge directing switch.

Abstract: A method for producing an image sensor includes providing a horizontal shift register electrically connected to a pixel array for receiving charge packets from the pixel array. A non-destructive sense node is provided that is connected to an output of the horizontal shift register. A charge directing switch is provided that is electrically connected to the non-destructive sense node. The charge directing switch includes first and second outputs. A charge multiplying horizontal shift register is provided that is electrically connected to the first output of the charge directing switch. A bypass horizontal shift register or an amplifier is provided that is connected to the second output of the charge directing switch.

Abstract: An image sensor includes a horizontal shift register electrically connected to a pixel array for receiving charge packets from the pixel array. A non-destructive sense node is connected to an output of the horizontal shift register. A charge directing switch is electrically connected to the non-destructive sense node. The charge directing switch includes two outputs. A charge multiplying horizontal shift register is electrically connected to one output of the charge directing switch. A bypass horizontal shift register or an amplifier can be connected to the other output of the charge directing switch.

Abstract: An image sensor includes an electronic shutter layer that is used to drain charge away from the photosensitive regions during an electronic shutter operation. A current reference component is electrically connected to a contact to the electronic shutter layer. The current reference component produces a signal having a level that is constant as a load current varies from zero to a threshold current level. A scaler component is electrically connected between the current reference component and an electronic shutter pulse driver component. The scaler component transmits the signal to the electronic shutter pulse driver component when the load current does not exceed the threshold current level. When the load current exceeds the threshold current level, the scaler component scales the level of the signal to a different level and transmits the scaled signal to the electronic shutter pulse driver component.

Abstract: An image sensor includes an electronic shutter layer that drains charge away from the photosensitive regions during an electronic shutter operation. A signal is applied to the electronic shutter layer through a contact. Prior to performing an electronic shutter operation, a determination is made as to whether or not a current level in the electronic shutter layer substantially equals or exceeds a threshold current level. If the current level in the electronic shutter layer substantially equals or exceeds the threshold current level, the electronic shutter operation is not performed. The electronic shutter operation is performed if the current level in the electronic shutter layer does not substantially equal or exceed the threshold current level.

Abstract: An image sensor includes an electronic shutter layer that is used to drain charge during an electronic shutter operation. A timing generator is electrically connected to a selector component. The selector component is electrically connected to an electronic shutter pulse driver component. The electronic shutter pulse driver component is electrically connected to a current sensing component. The current sensing component is electrically connected to the electronic shutter layer through a contact. The current sensing component senses a current level in the electronic shutter layer and changes a state of an alert signal when the current level equals or exceeds a threshold current level. Depending on the state of an alert signal, the selector component either transmits, or does not transmit, the drive pulse signal to the electronic shutter pulse driver component. An electronic shutter operation is performed when the electronic shutter pulse driver component receives the drive pulse signal.

Abstract: A method for reading out an image signal, the method comprising: providing at least two photosensitive regions; providing at least two transfer gates respectively associated with each photosensitive region; providing a common charge-to-voltage conversion region electrically connected to the transfer gates; providing a reset mechanism that resets the common charge-to-voltage conversion region; after transferring charge from at least one of the photo-sensitive regions, disabling all transfer gates at a first time; enabling at least one transfer gate at a subsequent second time; and transferring charge from at least one of the photosensitive regions at a subsequent third time while the at least one transfer gate from the second time remains enabled.

Abstract: An image sensor includes a pixel array having photoactive pixels and dark reference pixels. The photoactive pixels can be configured in a sub-array within the pixel array. Well contacts are only placed along opposing sides or edges of the sub-array of photoactive pixels or along opposing sides or edges of the pixel array.

Abstract: An image sensor includes a plurality of pixels overlaid with a color filter pattern of at least two colors having the same color on every other pixel in one direction; three or more charge-coupled devices oriented parallel to the every other pixel color filter repeat pattern; a charge sensing amplifier at the output of at least two of the charge couple devices; each charge-coupled device having a first and a second gate; a CCD-to-CCD transfer gate connecting adjacent charge-coupled devices with the first gate being on one side of the CCD-to-CCD transfer gate and the second gate being on the opposite side of the CCD-to-CCD transfer gate; all CCD-to-CCD transfer gates are electrically connected together; all first gates are electrically connected; and all second gates are electrically connected.

Abstract: An image sensor includes a plurality of pixels overlaid with a color filter pattern of at least two colors having the same color on every other pixel in one direction; three or more charge-coupled devices oriented parallel to the every other pixel color filter repeat pattern; a charge sensing amplifier at the output of at least two of the charge couple devices; each charge-coupled device having a first and a second gate; a CCD-to-CCD transfer gate connecting adjacent charge-coupled devices with the first gate being on one side of the CCD-to-CCD transfer gate and the second gate being on the opposite side of the CCD-to-CCD transfer gate; all CCD-to-CCD transfer gates are electrically connected together; all first gates are electrically connected; and all second gates are electrically connected.

Abstract: An image sensor includes an electronic shutter layer that is used to drain charge away from the photosensitive regions during an electronic shutter operation. A current sensing component and a selector component are electrically connected to a contact to the electronic shutter layer in the image sensor. The current sensing component senses a current level in the electronic shutter layer and changes a state of an alert signal when the current level equals or exceeds a threshold current level. The selector component receives the alert signal from the current sensing component and a shutter signal from an electronic shutter pulse driver component. Depending on the state of the alert signal, the selector component either transmits, or does not transmit, the shutter signal to the electronic shutter layer. An electronic shutter operation is performed when the electronic shutter layer receives the shutter signal.