Integrating imaging system with phototransistor having wide dynamic range
First Claim
1. A bipolar phototransistor pixel element disposed on a piece of semiconductor material of a first conductivity type comprising:
- a collector comprising a region of said semiconductor material;
a base comprising a doped region of a second conductivity type disposed within said collector region;
an emitter comprising a doped region of said first conductivity type disposed within said base region;
a first oxide layer disposed over said base;
a first electrically conductive material disposed over said first oxide layer to form a select node, wherein said base region, said first oxide layer and said first electrically conductive material form a capacitive element;
a second oxide layer disposed in an outer portion of an aperture above said emitter formed by said first oxide layer and said first electrically conductive material; and
and a second electrically conductive material disposed in an inner portion of said aperture to form a sense node.
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Accused Products
Abstract
A bipolar phototransistor comprises both an Integrating photosensor and a switching element. The base terminal of the bipolar phototransistor is utilized as the switch-control node for the pixel and its emitter is the output node of the integrating photosensor. A plurality of integrating photosensors may be placed in an array of rows and columns, wherein the bases of all bipolar phototransistors in a row are capacitively coupled together to a common row-select line, and the emitters of all bipolar phototransistors in a column are connected together to a column sense line. The input of a sense amplifier is connected to the sense line of each column of integrating photosensors. An integrating sense amplifier according to the present invention includes an amplifying element having an inverting input connected to the sense line. A capacitor, preferably a varactor, is also connected between the inverting input and output of the amplifying element. An exponential feedback element may be provided in the sense amplifiers for signal compression at high light levels. The outputs of the sense amplifiers are connected to sample/hold circuits. The rows of the array are selected one at a time and the outputs of the sample/hold circuits for each row are scanned out of the array while the pixel data for the next row are sampled.
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Citations
4 Claims
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1. A bipolar phototransistor pixel element disposed on a piece of semiconductor material of a first conductivity type comprising:
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a collector comprising a region of said semiconductor material;
a base comprising a doped region of a second conductivity type disposed within said collector region;an emitter comprising a doped region of said first conductivity type disposed within said base region; a first oxide layer disposed over said base; a first electrically conductive material disposed over said first oxide layer to form a select node, wherein said base region, said first oxide layer and said first electrically conductive material form a capacitive element; a second oxide layer disposed in an outer portion of an aperture above said emitter formed by said first oxide layer and said first electrically conductive material; and and a second electrically conductive material disposed in an inner portion of said aperture to form a sense node. - View Dependent Claims (2)
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3. A bipolar phototransistor pixel element disposed on a piece of n-type semiconductor material comprising:
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a collector comprising a region of said semiconductor material; a base comprising a p-type doped region disposed within said collector region; an emitter comprising an n-type doped region disposed within said base region; a first oxide layer disposed over said base; a first electrically conductive material disposed over said first oxide layer to form a select node, wherein said base region, said first oxide layer and said first electrically conductive material form a capacitive element; a second oxide layer disposed in an outer portion of an aperture above said emitter formed by said first oxide layer and said electrically conductive material; and and a second electrically conductive material disposed in an inner portion of said aperture to form a sense node. - View Dependent Claims (4)
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Specification