Memory device
First Claim
Patent Images
1. A memory cell comprising:
- a storage electrode comprising a material that has an electron affinity less than 2.6 eV to store charge;
an insulator adjacent to the storage electrode, wherein a barrier energy between the insulator and the storage electrode is less than approximately 3.3 eV; and
a control electrode separated from the storage electrode by an intergate dielectric.
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Accused Products
Abstract
A floating gate transistor has a reduced barrier energy at an interface with an adjacent gate insulator, allowing faster charge transfer across the gate insulator at lower voltages. Data is stored as charge on the floating gate. The data charge retention time on the floating gate is reduced. The data stored on the floating gate is dynamically refreshed. The floating gate transistor provides a dense and planar dynamic electrically alterable and programmable read only memory (DEAPROM) cell adapted for uses such as for a dynamic random access memory (DRAM) or a dynamically refreshed flash EEPROM memory. The floating gate transistor provides a high gain memory cell and low voltage operation.
171 Citations
61 Claims
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1. A memory cell comprising:
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a storage electrode comprising a material that has an electron affinity less than 2.6 eV to store charge; an insulator adjacent to the storage electrode, wherein a barrier energy between the insulator and the storage electrode is less than approximately 3.3 eV; and a control electrode separated from the storage electrode by an intergate dielectric. - View Dependent Claims (2, 3, 4, 5, 8, 9)
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6. A memory cell comprising:
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a storage electrode comprising a material that has an electron affinity less than 1.8 eV to store charge; an insulator adjacent to the storage electrode, wherein a barrier energy between the insulator and the storage electrode is less than approximately 0.9 eV; and a control electrode separated from the storage electrode by an intergate dielectric, wherein the insulator comprises a material that has a material composition that is selected to obtain an electron affinity greater than 0.9 eV.
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7. A memory cell comprising:
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a storage electrode comprising a material that has an electron affinity equal to or less than 2.7 eV to store charge; an insulator adjacent to the storage electrode, wherein a barrier energy between the insulator and the storage electrode is equal to or less than 1.7 eV; and a control electrode separated from the storage electrode by an intergate dielectric.
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10. A memory cell comprising:
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a storage electrode comprising a material that has an electron affinity less than 4.2 eV to store charge; an insulator adjacent to the storage electrode, wherein a barrier energy between the insulator and the storage electrode is less than approximately 2.0 eV; and a control electrode separated from the storage electrode by an intergate dielectric, further comprising; a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; and wherein; the storage electrode comprises polycrystalline or microcrystalline silicon carbide; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the insulator is between the storage electrode and the channel region, the insulator comprising a material that has an electron affinity larger than about 0.9 eV; and an area of a capacitor formed by the control electrode, the storage electrode, and the intergate dielectric is larger than an area of a capacitor formed by the storage electrode, the insulator, and the channel region.
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11. A transistor comprising:
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a source region; a drain region; a channel region between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 2.6 eV and a barrier energy between the floating gate and the insulator being less than approximately 3.3 eV; and a control electrode separated from the floating gate by an intergate dielectric. - View Dependent Claims (12, 13, 14, 17)
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15. A transistor comprising:
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a source region; a drain region; a channel region between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity equal to or less than 2.0 eV and a barrier energy between the floating gate and the insulator being less than approximately 1.1 eV; and a control electrode separated from the floating gate by an intergate dielectric, wherein the insulator comprises a material that has a material composition that is selected to obtain an electron affinity greater than 0.9 eV.
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16. A transistor comprising:
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a source region; a drain region; a channel region between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 4.2 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; and a control electrode separated from the floating gate by an intergate dielectric, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the insulator comprises a material that has an electron affinity greater than 0.9 eV; the floating gate comprises polycrystalline or microcrystalline silicon carbide; and an area of a capacitor formed by the control electrode, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region.
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18. A transistor comprising:
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a source region; a drain region; a channel region between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity equal to or less than 2.5 eV and a barrier energy between the floating gate and the insulator being equal to or less than 1.6 eV; a control electrode separated from the floating gate by an intergate dielectric.
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19. A transistor comprising:
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a source region; a drain region; a channel region between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity equal to or less than 3.7 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; a control electrode separated from the floating gate by an intergate dielectric, wherein; the insulator comprises a material that has an electron affinity greater than 0.9 eV; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; and an area of a capacitor formed by the control electrode, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region.
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20. A memory device comprising:
a plurality of memory cells, wherein each memory cell includes a transistor comprising; a source region; a drain region; a channel region between the source and drain regions; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 2.0 eV and a barrier energy between the floating gate and the insulator being equal to or less than 1.1 eV; and a control gate located adjacent to the floating gate and separated therefrom by an intergate dielectric. - View Dependent Claims (21, 22, 23, 25, 26)
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24. A memory device comprising:
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a plurality of memory cells, wherein each memory cell includes a transistor comprising; a source region; a drain region; a channel region between the source and drain regions; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 4.2 eV and a baffler energy between the floating gate and the insulator being less than approximately 2.0 eV; and a control gate located adjacent to the floating gate and separated therefrom by an intergate dielectric, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the insulator comprises a material that has an electron affinity greater than 0.9 eV; the floating gate comprises polycrystalline or microcrystalline silicon carbide; and an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region of each transistor.
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27. A memory device comprising:
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a plurality of memory cells, wherein each memory cell includes a transistor comprising; a source region; a drain region; a channel region between the source and drain regions; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 2.7 eV and a barrier energy between the floating gate and the insulator being equal to or less than 1.8 eV; and a control gate located adjacent to the floating gate and separated therefrom by an intergate dielectric, further comprising; a row decoder; a column decoder; a command and control circuit; a voltage control circuit; and wherein the memory cells are arranged in an array.
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28. A transistor comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; an insulator comprising a material that has an electron affinity greater than 0.9 eV; a floating gate separated from the channel region by the insulator, the floating gate comprising a material that has an electron affinity less than 2.5 eV and a barrier energy between the floating gate and the insulator being less than approximately 1.6 eV; and a control gate separated from the floating gate by an intergate dielectric.
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29. A transistor comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; an insulator comprising a material that has an electron affinity greater than 0.9 eV; a floating gate separated from the channel region by the insulator, the floating gate comprising a material that has an electron affinity less than 3.8 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; and a control gate separated from the floating gate by an intergate dielectric, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the insulator comprises amorphous silicon carbide; the floating gate comprises polycrystalline or microcrystalline silicon carbide; and an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region.
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30. A transistor comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 2.6 eV and a barrier energy between the floating gate and the insulator being less than approximately 3.3 eV; and a control gate separated from the floating gate by an intergate dielectric.
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31. A transistor comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 4.2 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; and a control gate separated from the floating gate by an intergate dielectric, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the insulator comprises a material that has an electron affinity greater than 0.9 eV; the floating gate comprises polycrystalline or microcrystalline silicon carbide; an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region.
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32. A transistor comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 2.6 eV and a barrier energy between the floating gate and the insulator being less than approximately 3.3 eV; a control gate separated from the floating gate by an intergate dielectric; and wherein an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region.
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33. A transistor comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 4.2 eV and a baffler energy between the floating gate and the insulator being less than approximately 2.0 eV; a control gate separated from the floating gate by an intergate dielectric; and wherein an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the floating gate comprises polycrystalline or microcrystalline silicon carbide; the insulator comprises a material that has an electron affinity greater than 0.9 eV.
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34. A transistor comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; an insulator comprising a material that has an electron affinity greater than 0.9 eV; a floating gate separated from the channel region by the insulator, the floating gate comprising a material that has an electron affinity less than 2.6 eV and a baffler energy between the floating gate and the insulator being less than approximately 3.3 eV; a control gate separated from the floating gate by an intergate dielectric; and an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region.
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35. A transistor comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; an insulator comprising a material that has an electron affinity greater than 0.9 eV; a floating gate separated from the channel region by the insulator, the floating gate comprising a material that has an electron affinity less than 4.2 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; a control gate separated from the floating gate by an intergate dielectric; and an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the insulator comprises amorphous silicon carbide; and the floating gate comprises polycrystalline or microcrystalline silicon carbide.
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36. A transistor comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 2.6 eV and a barrier energy between the floating gate and the insulator being less than approximately 3.3 eV; and a control gate separated from the floating gate by an intergate dielectric.
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37. A transistor comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 4.2 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; and a control gate separated from the floating gate by an intergate dielectric, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the floating gate comprises polycrystalline or microcrystalline silicon carbide; the insulator comprises a material that has an electron affinity greater than 0.9 eV; and an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region.
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38. A transistor comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 3.8 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; a control gate separated from the floating gate by an intergate dielectric; and wherein an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region. - View Dependent Claims (39)
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40. A memory cell comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; an insulator comprising a material that has an electron affinity greater than 0.9 eV; a floating gate separated from the channel region by the insulator, the floating gate comprising a material that has an electron affinity less than 2.7 eV and a barrier energy between the floating gate and the insulator being less than approximately 1.8 eV; and a control gate separated from the floating gate by an intergate dielectric.
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41. A memory cell comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; an insulator comprising a material that has an electron affinity greater than 0.9 eV; a floating gate separated from the channel region by the insulator, the floating gate comprising a material that has an electron affinity less than 3.8 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; and a control gate separated from the floating gate by an intergate dielectric, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the insulator comprises amorphous silicon carbide; the floating gate comprises polycrystalline or microcrystalline silicon carbide; and an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region.
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42. A memory cell comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 2.6 eV and a barrier energy between the floating gate and the insulator being less than approximately 3.3 eV; and a control gate separated from the floating gate by an intergate dielectric.
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43. A memory cell comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 4.2 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; and a control gate separated from the floating gate by an intergate dielectric, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the floating gate comprises polycrystalline or microcrystalline silicon carbide; the insulator comprises a material that has an electron affinity greater than 0.9 eV; and an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region.
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44. A memory cell comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 2.6 eV and a barrier energy between the floating gate and the insulator being less than approximately 3.3 eV; a control gate separated from the floating gate by an intergate dielectric; and wherein an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region.
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45. A memory cell comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 4.2 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; a control gate separated from the floating gate by an intergate dielectric; and wherein an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the insulator comprises a material that has an electron affinity greater than 0.9 eV; and the floating gate comprises polycrystalline or microcrystalline silicon carbide.
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46. A memory cell comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 2.5 eV and a barrier energy between the floating gate and the insulator being less than approximately 1.6 eV; and a control gate separated from the floating gate by an intergate dielectric.
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47. A memory cell comprising:
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a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 3.8 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; and a control gate separated from the floating gate by an intergate dielectric, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the insulator comprises a material that has an electron affinity greater than 0.9 eV; the floating gate comprises polycrystalline or microcrystalline silicon carbide; and an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region.
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48. A memory device comprising:
a plurality of memory cells, each memory cell comprising; a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; an insulator comprising a material that has an electron affinity greater than 0.9 eV; a floating gate separated from the channel region by the insulator, the floating gate comprising a material that has an electron affinity less than 1.8 eV and a barrier energy between the floating gate and the insulator being less than approximately 0.9 eV; and a control gate separated from the floating gate by an intergate dielectric.
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49. A memory device comprising:
a plurality of memory cells, each memory cell comprising; a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; an insulator comprising a material that has an electron affinity greater than 0.9 eV; a floating gate separated from the channel region by the insulator, the floating gate comprising a material that has an electron affinity less than 3.8 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; and a control gate separated from the floating gate by an intergate dielectric, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the insulator comprises amorphous silicon carbide; the floating gate comprises polycrystalline or microcrystalline silicon carbide; an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region; and the memory device further comprises; a row decoder; a column decoder; a command and control circuit; a voltage control circuit; and wherein the memory cells are arranged in an array.
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50. A memory device comprising:
a plurality of memory cells, each memory cell comprising; a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 2.6 eV and a barrier energy between the floating gate and the insulator being less than approximately 3.3 eV; and a control gate separated from the floating gate by an intergate dielectric.
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51. A memory device comprising:
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a plurality of memory cells, each memory cell comprising; a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 4.2 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; and a control gate separated from the floating gate by an intergate dielectric, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the insulator comprises a material that has an electron affinity greater than 0.9 eV; the floating gate comprises polycrystalline or microcrystalline silicon carbide; an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region; and the memory device further comprises; a row decoder; a column decoder; a command and control circuit; a voltage control circuit; and wherein the memory cells are arranged in an array.
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52. A memory device comprising:
a plurality of memory cells, each memory cell comprising; a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 2.5 eV and a barrier energy between the floating gate and the insulator being less than approximately 1.5 eV; and a control gate separated from the floating gate by an intergate dielectric.
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53. A memory device comprising:
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a plurality of memory cells, each memory cell comprising; a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 3.8 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; and a control gate separated from the floating gate by an intergate dielectric, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the floating gate comprises polycrystalline or microcrystalline silicon carbide; the insulator comprises a material that has an electron affinity greater than 0.9 eV; an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region; and the memory device further comprises; a row decoder; a column decoder; a command and control circuit; a voltage control circuit; and wherein the memory cells are arranged in an array.
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54. A memory device comprising:
a plurality of memory cells, each memory cell comprising; a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 2.6 eV and a barrier energy between the floating gate and the insulator being less than approximately 3.3 eV; a control gate separated from the floating gate by an intergate dielectric; and wherein an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region.
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55. A memory device comprising:
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a plurality of memory cells, each memory cell comprising; a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 4.2 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV; a control gate separated from the floating gate by an intergate dielectric; and wherein an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the floating gate comprises polycrystalline or microcrystalline silicon carbide; the insulator comprises a material that has an electron affinity greater than 0.9 eV; and the memory device further comprises; a row decoder; a column decoder; a command and control circuit; a voltage control circuit; and wherein the memory cells are arranged in an array.
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56. A memory cell comprising:
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a storage electrode to store charge, the storage electrode comprising a material that has an electron affinity less than 2.0 eV; an insulator adjacent to the storage electrode, wherein a barrier energy between the insulator and the storage electrode is less than approximately 1.1 eV; and a control electrode separated from the storage electrode by an intergate dielectric.
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57. A memory cell comprising:
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a storage electrode to store charge, the storage electrode comprising a material that has an electron affinity equal to or less than 3.8 eV; an insulator adjacent to the storage electrode, wherein a barrier energy between the insulator and the storage electrode is less than approximately 3.3 eV; and a control electrode separated from the storage electrode by an intergate dielectric, further comprising; a source region in a substrate; a drain region in the substrate; a channel region in the substrate between the source region and the drain region; and wherein the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; wherein the insulator is between the storage electrode and the channel region, the insulator comprising a material that has an electron affinity greater than 0.9 eV; and wherein an area of a capacitor formed by the control electrode, the storage electrode, and the intergate dielectric is larger than an area of a capacitor formed by the storage electrode, the insulator, and the channel region.
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58. A memory device comprising:
a plurality of memory cells, wherein each memory cell includes a transistor comprising; a source region; a drain region; a channel region between the source and drain regions; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 2.6 eV and a barrier energy between the floating gate and the insulator being less than approximately 3.3 eV; and a control gate separated from the floating gate by an intergate dielectric.
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59. A memory device comprising:
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a plurality of memory cells, wherein each memory cell includes a transistor comprising; a source region; a drain region; a channel region between the source and drain regions; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 4.2 eV and a barrier energy between the floating gate and the insulator being less than approximately 3.3 eV; and a control gate separated from the floating gate by an intergate dielectric, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the floating gate comprises polycrystalline or microcrystalline silicon carbide; the insulator comprises a material that has an electron affinity greater than 0.9 eV; an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region; and the memory device further comprises; a row decoder; a column decoder; a command and control circuit; a voltage control circuit; and wherein the memory cells are arranged in an array.
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60. A memory device comprising:
a plurality of memory cells, wherein each memory cell includes a transistor comprising; a source region; a drain region; a channel region between the source and drain regions; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 2.6 eV and a barrier energy between the floating gate and the insulator being less than approximately 3.3 eV, the floating gate being capacitively separated from the channel region to provide transconductance gain; and a control gate separated from the floating gate by an intergate dielectric.
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61. A memory device comprising:
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a plurality of memory cells, wherein each memory cell includes a transistor comprising; a source region; a drain region; a channel region between the source and drain regions; a floating gate separated from the channel region by an insulator, the floating gate comprising a material that has an electron affinity less than 4.2 eV and a barrier energy between the floating gate and the insulator being less than approximately 2.0 eV, the floating gate being capacitively separated from the channel region to provide transconductance gain; and a control gate separated from the floating gate by an intergate dielectric, wherein; the intergate dielectric has a permittivity that is higher than a permittivity of silicon dioxide; the floating gate comprises polycrystalline or microcrystalline silicon carbide; the insulator comprises a material that has an electron affinity larger than about 0.9 eV; an area of a capacitor formed by the control gate, the floating gate, and the intergate dielectric is larger than an area of a capacitor formed by the floating gate, the insulator, and the channel region; and the memory device further comprises; a row decoder; a column decoder; a command and control circuit; a voltage control circuit; and wherein the memory cells are arranged in an array.
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Specification
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Current AssigneeMicron Technology, Inc.
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Original AssigneeMicron Technology, Inc.
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InventorsForbes, Leonard, Geusic, Joseph E.
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Primary Examiner(s)Parker; Kenneth
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Assistant Examiner(s)Warren; Matthew E.
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Application NumberUS10/461,593Publication NumberTime in Patent Office1,490 DaysField of Search257/321, 257/407, 257/410, 257/77, 257314-316, 257/E27.102, 257/E27.103, 257/E29.3, 365/185.18, 365/185.28US Class Current257/315CPC Class CodesH01L 29/40114 the electrodes comprising a...H01L 29/66825 with a floating gate H01L29...H10B 12/05 Making the transistorH10B 12/30 DRAM devices comprising one...
