Claims
- 1. A nonvolatile memory cell, comprising:
an insulator formed on a source and a drain, wherein the insulator is separates the source and the drain from a floating gate; and a composite formed on the floating gate and interposed between the floating gate and a control gate, wherein the composite includes a first layer of silicon dioxide having a first impurity level that is less than a second impurity level associated with a second layer of silicon dioxide and the composite includes one or more additional layers interposed between the first and second silicon dioxide layers.
- 2. The nonvolatile memory cell of claim 1, wherein the one or more additional layers include at least one layer of silicon nitride.
- 3. The nonvolatile memory cell of claim 1, wherein the first and second silicon dioxide layers act as insulators between the control gate and the floating gate, and the one or more additional layers act as dialectics.
- 4. A nonvolatile memory cell, comprising:
an insulator separating a source and a drain from a floating gate; a composite separating the floating gate from a control gate; and wherein the composite includes two silicon dioxide layers with a layer of silicon nitride separating the two silicon dioxide layers.
- 5. The nonvolatile memory cell of claim 4, wherein the composite includes a first layer of undoped polysilicon.
- 6. The nonvolatile memory cell of claim 5, wherein the composite is organized on the floating gate with the first layer, one of the two silicon dioxide layers, the layer of silicon nitride, and the remaining silicon dioxide layer.
- 7. A memory device, comprising:
a plurality of memory cells; a read circuit coupled to the plurality of memory cells for reading data from at least one of the memory cells; addressing circuitry coupled to the plurality of memory cells for accessing at least one of the memory cells; and wherein at least one of the memory cells includes:
a substrate with a source and drain formed thereon; an insulator separating the source and drain from a floating gate; and a composite separating the floating gate from a control gate, wherein the composite includes at least two additional insulating layers of silicon dioxide, and a layer of silicon nitride separating each of the at least two additional layers of silicon dioxide.
- 8. The memory device of claim 7, wherein the composite includes a first layer of undoped polysilicon followed by one of the at least two additional insulating layers followed by the layer of silicon nitride and followed by a remaining one of the at least two additional insulating layers.
- 9. The memory device of claim 8, wherein a first one of the at least two additional insulating layers has fewer impurities that a second one of the at least two additional insulating layers.
- 10. A memory device, comprising:
a plurality of memory cells; a read circuit coupled to the plurality of memory cells for reading data from at least one of the memory cells; addressing circuitry coupled to the plurality of memory cells for accessing at least one of the memory cells; and wherein at least one of the memory cells includes: a floating gate; a control gate; and a composite interposed between the floating gate and the control gate, the floating gate includes two or more insulating layers acting as insulators between the control gate and the floating gate, and the composite includes one or more additional layers acting as dialectics and interposed between each of the insulating layers.
- 11. The memory device of claim 10, wherein the two or more insulating layers have different levels of impurities.
- 12. The memory device of claim 10, wherein the two or more insulating layers are silicon dioxide and the one or more additional layers are silicon nitride or silicon rich nitride.
- 13. A system, comprising:
a memory device having at least one memory cell, wherein the at least one memory cell includes a composite separating a floating gate and a control gate, the composite include a first layer of silicon dioxide, a second layer of silicon nitride, and a third layer of silicon dioxide; and a processor operable to access the memory device.
- 14. The system of claim 13, wherein the composite includes a fourth layer of silicon rich nitride.
- 15. The system of claim 13, wherein the composite includes a fourth layer of amorphous silicon, amorphous polysilicon, or undoped polysilicon.
- 16. A system, comprising:
a memory device having at least one memory cell, wherein the at least one memory cell includes a composite separating a floating gate and a control gate, the composite includes two or more insulating layers and one or more additional layers acting as dialectics; and a processor in communication with the memory device.
- 17. The system of claim 16, wherein the composite is formed on the floating gate and organized with a first insulating layer of the two or more insulating layers followed by the one or more additional layers followed by a second of the two or more insulating layers.
- 18. The system of claim 16, wherein the composite includes a first layer of amorphous silicon, amorphous polysilicon, or undoped polysilicon formed on the floating gate.
- 20. A composite separating a floating gate from a control gate, comprising:
a first insulating layer of silicon dioxide; a first dialectic enabled layer of silicon nitride; and a second insulating layer of silicon dioxide, wherein the second insulating layer is higher in impurities than the first insulating layer.
- 21. The composite of claim 20 further comprising, a second dialectic enabled layer of silicon rich nitride.
- 22. The composite of claim 20 further comprising, a layer of undoped polysilicon or amorphous silicon.
- 23. A composite separating a floating fate from a control gate, comprising:
a first silicon dioxide layer; a first silicon nitride layer; and a second silicon dioxide layer.
- 24. The composite of claim 23 further comprising a thin second layer of silicon rich nitride formed on the first silicon nitride layer.
- 25. The composite of claim 23, wherein the first silicon dioxide layer is formed on an amorphous polysilicon layer.
- 26. A composite separating a floating gate from a control gate, comprising:
an undoped polysilicon layer formed on the floating gate; a first insulating layer formed on the undoped polysilicon layer; a first dialectic enabled layer formed on the first insulating layer; and a second insulating layer formed on the first dialectic enabled layer.
- 27. The composite of claim 26, wherein the first and second insulating layers are silicon dioxide of varying levels of impurities from one another.
- 28. The composite of claim 26, wherein the first dialectic enabled layer is silicon nitride and includes a thin additional layer of silicon rich nitride formed thereon.
Parent Case Info
[0001] This application is a Continuation of U.S. Application No. 10/060,532, filed Jan. 30, 2002, which is a Divisional of U.S. Application No. 09/233,313, filed Jan. 19, 1999, now U.S. Pat. No. 6,368,919 both of which are incorporated herein by reference.
Divisions (1)
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Number |
Date |
Country |
Parent |
09233313 |
Jan 1999 |
US |
Child |
10060532 |
Jan 2002 |
US |
Continuations (1)
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Number |
Date |
Country |
Parent |
10060532 |
Jan 2002 |
US |
Child |
10369786 |
Feb 2003 |
US |