Active-pixel image sensing device with linear mode voltage to current conversion
First Claim
1. A method for converting an output voltage from an active pixel in a solid-state image sensing device into a current comprising the steps of:
- providing a bias voltage for biasing a linear mode current controlling device into a linear mode;
shifting the output voltage level on an input to a voltage shifting device to a higher voltage;
periodically clamping an input to a buffer device to a predetermined clamp voltage;
coupling said higher voltage to the buffer device;
generating an output signal from said buffer device for controlling said linear mode current controlling device; and
generating a current signal flowing through said linear mode current controlling device which is indicative of the output voltage from the active pixel.
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Abstract
An image sensing device comprising active pixels is disclosed, each pixel having a charge accumulation region for collecting charges generated by a photosensitive element such as a photodiode. A linear voltage to current converter, current mirrors, and a differential amplifier generate an output signal and minimize fixed pattern noise and improve the signal to noise ratio. Image quality is improved by reducing pixel blooming and image smearing through an improved method for resetting the pixels with a bias voltage reference which is less than Vdd. Active circuitry and physical device layout reduce the effects of IR voltage drops along the bus lines in a massive pixel array.
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Citations
22 Claims
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1. A method for converting an output voltage from an active pixel in a solid-state image sensing device into a current comprising the steps of:
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providing a bias voltage for biasing a linear mode current controlling device into a linear mode;
shifting the output voltage level on an input to a voltage shifting device to a higher voltage;
periodically clamping an input to a buffer device to a predetermined clamp voltage;
coupling said higher voltage to the buffer device;
generating an output signal from said buffer device for controlling said linear mode current controlling device; and
generating a current signal flowing through said linear mode current controlling device which is indicative of the output voltage from the active pixel. - View Dependent Claims (2, 3, 4, 5, 6, 7)
storing a first current in a first current mirror circuit, said first current provided from said predetermined clamp voltage;
storing a second current in a second current mirror circuit, said second current provided from said active pixel receiving ambient light; and
providing a difference signal in response to an output of the first current mirror circuit and an output of the second current mirror circuit.
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6. The method as recited in claim 5 where providing a difference signal between an output of the first current mirror circuit and the output of the second current mirror circuit further comprises the steps of:
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providing the first current signal from the first current mirror through a signal output bus into a current based differential circuit; and
providing the second current signal from the second current mirror through a reference output bus into the current based differential circuit.
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7. The method as recited in claim 1 further comprising the steps of:
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storing a first current in a first current mirror circuit, said first current storing a first current in a first current mirror circuit, said first current provided from said predetermined clamp voltage;
storing a difference current in a second current mirror circuit while activating said first current mirror circuit, said difference current provided from the difference between said active pixel receiving ambient light and said first current; and
reading out said difference current.
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8. A method for converting an output voltage from an active pixel in a solid-state image sensing device into a current comprising the steps of:
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providing a bias voltage for biasing a linear mode current controlling device into a linear mode;
shifting the output voltage level from an input of a voltage shifting device to a higher voltage onto an input of a buffer device;
generating an output signal from said buffer device for controlling said linear mode current controlling device; and
generating a current signal flowing through said linear mode current controlling device which is indicative of the output voltage from the active pixel. - View Dependent Claims (9, 10, 11, 12, 13, 14)
storing a first current in a first current mirror circuit, said first current provided from said active pixel receiving ambient light;
storing a second current in a second current mirror circuit, said second current provided from said active pixel shielded from ambient light; and
providing a difference signal in response to an output of the first current mirror circuit and an output of the second current mirror circuit.
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13. The method as recited in claim 12 where providing a difference signal between an output of the first current mirror circuit and the output of the second current mirror circuit further comprising the steps of:
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providing the first current signal from the first current mirror through a signal output bus into a current based differential circuit; and
providing the second current signal from the second current mirror through a reference output bus into the current based differential circuit.
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14. The method as recited in claim 8 further comprising the steps of:
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storing a first current in a first current mirror circuit, said first current provided from said predetermined clamp voltage;
storing a difference current in a second current mirror circuit while activating said first current mirror circuit, said difference current provided from the difference between said active pixel receiving ambient light and said first current; and
reading out said difference current.
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15. A solid-state imaging device comprising:
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a plurality of active pixels arranged in rows and columns, each pixel producing an output voltage;
a level shifter connected one row at a time to the output from the active pixel;
a coupling device connected to output of said level shifter;
a buffer having an input and an output connected to said coupling device;
a clamp connected to the input of the buffer;
a linear mode current controlling device connected to the output of the buffer; and
a current source which provides bias current to said linear mode current device. - View Dependent Claims (16, 17, 18)
a bias device connected to a column output bus; and
an input to the level shifter connected to the output bus where the pixel output voltage is connected to the column output bus between the bias device and the input to the level shifter.
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17. The solid-state imaging device as recited in claim 15 further comprising:
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a bus providing a voltage source to one row at a time; and
means for maintaining a biasing voltage across the linear mode current controlling device in the presence of a voltage drop along the bus.
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18. The solid-state imaging device as recited in claim 15 wherein each of said linear mode current controlling device, buffer, and level shifter is a CMOS transistor.
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19. A solid-state imaging device comprising:
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a plurality of active pixels arranged in rows and columns, each pixel producing an output voltage;
a level shifter connected one row at a time to the output from the active pixel;
a buffer connected to output of said level shifter and having an output;
a linear mode current controlling device connected to said output of the buffer; and
a current source which provides bias current to said linear mode current device. - View Dependent Claims (20, 21, 22)
a bias device connected to a column output bus; and
an input to the level shifter connected to the output bus where the pixel output voltage is connected to the column output bus between the bias device and the input to the level shifter.
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21. The solid-state imaging device as recited in claim 19 further comprising:
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a bus providing a voltage source to one row at a time; and
means for maintaining a biasing voltage across the linear mode current controlling device in the presence of a voltage drop along the bus.
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22. The solid-state imaging device as recited in claim 19 wherein each of said linear mode current controlling device, buffer, and level shifter is a CMOS transistor.
Specification