Methods and apparatus for measuring analytes using large scale FET arrays
First Claim
1. A chemical detection device, comprising:
- a substrate of a first semiconductor type; and
a chemical detection pixel including;
a chemically-sensitive field effect transistor formed in the substrate, the chemically-sensitive field effect transistor having a floating gate structure and a body terminal coupled to a body biasing voltage source line, wherein the chemically-sensitive field effect transistor has a threshold voltage over a range of approximately 0 to 2 Volts, and a corresponding chemical detection pixel output voltage is over a range of approximately 0.5 to 2.5 Volts;
a first switch consisting of a first field effect transistor formed in the substrate;
a second switch consisting of a second field effect transistor formed in the substrate, wherein a channel of the chemically-sensitive field effect transistor, a channel of the first field effect transistor and the second field effect transistor are each a same semiconductor type; and
a well of a second semiconductor type that is formed in the substrate, wherein the chemically-sensitive transistor, the first field effect transistor and the second field effect transistor are each formed in the well.
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Abstract
Methods and apparatus relating to very large scale FET arrays for analyte measurements. ChemFET (e.g., ISFET) arrays may be fabricated using conventional CMOS processing techniques based on improved FET pixel and array designs that increase measurement sensitivity and accuracy, and at the same time facilitate significantly small pixel sizes and dense arrays. Improved array control techniques provide for rapid data acquisition from large and dense arrays. Such arrays may be employed to detect a presence and/or concentration changes of various analyte types in a wide variety of chemical and/or biological processes. In one example, chemFET arrays facilitate DNA sequencing techniques based on monitoring changes in hydrogen ion concentration (pH), changes in other analyte concentration, and/or binding events associated with chemical processes relating to DNA synthesis.
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Citations
7 Claims
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1. A chemical detection device, comprising:
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a substrate of a first semiconductor type; and a chemical detection pixel including; a chemically-sensitive field effect transistor formed in the substrate, the chemically-sensitive field effect transistor having a floating gate structure and a body terminal coupled to a body biasing voltage source line, wherein the chemically-sensitive field effect transistor has a threshold voltage over a range of approximately 0 to 2 Volts, and a corresponding chemical detection pixel output voltage is over a range of approximately 0.5 to 2.5 Volts; a first switch consisting of a first field effect transistor formed in the substrate; a second switch consisting of a second field effect transistor formed in the substrate, wherein a channel of the chemically-sensitive field effect transistor, a channel of the first field effect transistor and the second field effect transistor are each a same semiconductor type; and a well of a second semiconductor type that is formed in the substrate, wherein the chemically-sensitive transistor, the first field effect transistor and the second field effect transistor are each formed in the well. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification