| Patent application number | Description | Published |
|---|
| 20080305593 | MEMORY STRUCTURE AND METHOD OF MAKING THE SAME - A memory structure disclosed in the present invention features a control gate and floating gates being positioned in recessed trenches. A method of fabricating the memory structure includes the steps of first providing a substrate having a first recessed trench. Then, a first gate dielectric layer is formed on the first recessed trench. A first conductive layer is formed on the first gate dielectric layer. After that, the first conductive layer is etched to form a spacer which functions as a floating gate on a sidewall of the first recessed trench. A second recessed trench is formed in a bottom of the first recessed trench. An inter-gate dielectric layer is formed on a surface of the spacer, a sidewall and a bottom of the second recessed trench. A second conductive layer formed to fill up the first and the second recessed trench. | 12-11-2008 |
| 20080315284 | Flash memory structure and method of making the same - A flash memory cell includes a substrate, a T-shaped control gate disposed above the substrate, a floating gate embedded in a lower recess of the T-shaped control gate, a dielectric layer between the T-shaped control gate and the floating gate; a cap layer above the T-shaped control gate, a control gate oxide between the T-shaped control gate and the substrate, a floating gate oxide between the floating gate and the substrate, a liner covering the cap layer and the floating gate, and a source/drain region adjacent to the floating gate. The floating gate has a vertical wall surface that is coplanar with one side of the dielectric layer. | 12-25-2008 |
| 20090011557 | METHOD FOR MANUFACTURING A FLASH MEMORY - A method for manufacturing a flash memory includes providing a substrate with a sacrificial oxide layer, a sacrificial poly-Si layer, a hard mask layer and a trench exposing part of the substrate and filled with an oxide layer, later depositing a oxide layer conformally on the sacrificial oxide layer and the oxide layer, and afterwards removing the oxide layer on the sacrificial oxide layer and on the top of the oxide layer and the sacrificial oxide layer to form a spacer as a STI oxide spacer. | 01-08-2009 |
| 20090014773 | TWO BIT MEMORY STRUCTURE AND METHOD OF MAKING THE SAME - A method for fabricating the memory structure includes: providing a substrate having a pad, forming an opening in the pad, forming a first spacer on a sidewall of the opening, filling the opening with a sacrificial layer, removing the first spacer and exposing a portion of the substrate, removing the exposed substrate to define a first trench and a second trench, removing the sacrificial layer to expose a surface of the substrate to function as a channel region, forming a first dielectric layer on a surface of the first trench, a surface of the second trench and a surface of the channel region, filling the first trench and the second trench with a first conductive layer, forming a second dielectric layer on a surface of the first conductive layer and the surface of the channel region, filling the opening with a second conductive layer, and removing the pad. | 01-15-2009 |
| 20090032858 | LAYOUT AND STRUCTURE OF MEMORY - A flash memory is provided. The flash memory features of having the select gate transistors to include two different channel structures, which are a recessed channel structure and a horizontal channel. Because of the design of the recessed channel structure, the space between the gate conductor lines, which are for interconnecting the select gates of the select gate transistors arranged on the same column, can be shortened. Therefore, the integration of the flash memory can be increased; and the process window of the STI process can be increased as well. In addition, at least one depletion-mode select gate transistor is at one side of the memory cell string. The select gate transistor of the depletion-mode is always turned on. | 02-05-2009 |
| 20090032860 | PROGRAMMABLE MEMORY, PROGRAMMABLE MEMORY CELL AND THE MANUFACTURING METHOD THEREOF - A programmable memory structure includes a substrate, an active area, a common-source and a common-drain respectively disposed on each side of the active area, a first and a second source contact electrically connected to the common-source, a first and a second drain contact electrically connected to the common-drain, and between the first and the second source contact and the first and the second drain contact a plurality of programmable memory cells including a first and a second dielectric layer respectively encapsulating a first and a second floating gate. | 02-05-2009 |
| 20090040823 | FLASH MEMORY - A flash memory is provided. A sawtooth gate conductor line, which interconnects the select gates of the select gate transistors arranged on the same column is provided. The sawtooth gate conductor line, which is disposed on both distal ends of a memory cell string, increases the integration of the flash memory. The sawtooth gate conductor line results in select gate transistors having different select gate lengths and produces at least one depletion-mode select transistor at one side of the memory cell string. The select gate transistor of the depletion-mode is always turned on. | 02-12-2009 |
| 20090087544 | METHOD OF FABRICATING A MEMORY CELL - The memory cell of the present invention has two independent storage regions embedded into two opposite sidewalls of the control gate respectively. In this way, the data storage can be more reliable. Other features of the present invention are that the thickness of the dielectric layers is different, and the two independent storage regions are formed on opposite bottom sides of the opening by the etching process and form a shape like a spacer. The advantage of the aforementioned method is that the fabricating process is simplified and the difficulty of self-alignment is reduced. | 04-02-2009 |
| 20090087975 | METHOD FOR MANUFACTURING A MEMORY - A method for manufacturing a memory includes first providing a substrate with a horizontally adjacent control gate region and floating gate region which includes a sacrificial layer and sacrificial sidewalls, removing the sacrificial layer and sacrificial sidewalls to expose the substrate, forming dielectric sidewalls adjacent to the control gate region, forming a floating gate dielectric layer on the exposed substrate and forming a floating gate layer adjacent to the dielectric sidewalls and on the floating gate dielectric layer. | 04-02-2009 |
| 20100279499 | METHOD FOR MANUFACTURING A MEMORY - A method for manufacturing a memory includes first providing a substrate with a horizontally adjacent control gate region and floating gate region which includes a sacrificial layer and sacrificial sidewalls, removing the sacrificial layer and sacrificial sidewalls to expose the substrate, forming dielectric sidewalls adjacent to the control gate region, forming a floating gate dielectric layer on the exposed substrate and forming a floating gate layer adjacent to the dielectric sidewalls and on the floating gate dielectric layer. | 11-04-2010 |
