摘要:
A memory cell arrangement includes a first memory cell string having a plurality of serially source-to-drain-coupled transistors, at least some of them being memory cells, a second memory cell string having a plurality of serially source-to-drain-coupled transistors, at least some of them being memory cells. A dielectric material is between and above the first memory cell string and the second memory cell string. A source/drain line groove is defined in the dielectric material. The source/drain line groove extends from a source/drain region of one transistor of the first memory cell string to a source/drain region of the second memory cell string. Electrically conductive filling material is disposed in the source/drain line groove. Dielectric filling material is disposed in the source/drain line groove between the source/drain regions.
摘要:
A memory cell arrangement includes a first memory cell string having a plurality of serially source-to-drain-coupled transistors, at least some of them being memory cells, a second memory cell string having a plurality of serially source-to-drain-coupled transistors, at least some of them being memory cells. A dielectric material is between and above the first memory cell string and the second memory cell string. A source/drain line groove is defined in the dielectric material. The source/drain line groove extends from a source/drain region of one transistor of the first memory cell string to a source/drain region of the second memory cell string. Electrically conductive filling material is disposed in the source/drain line groove. Dielectric filling material is disposed in the source/drain line groove between the source/drain regions.
摘要:
A memory system includes a plurality of resistive memory cell fields including at least a first resistive memory cell field and a second resistive memory cell field, the first resistive memory cell field formed with a plurality of resistive memory cells storing data at a first data storage speed, the second resistive memory cell field formed with a plurality of resistive memory cells storing data at a second data storage speed lower than the first data storage speed, and a controller controlling data transfer between the plurality of resistive memory cell fields.
摘要:
A semiconductor memory device includes a channel region, a gate electrode adjacent the channel region, and a charge-trapping layer between the channel region and the gate electrode. A voltage is applied between the gate electrode and the channel region to cause a first current of a first kind of charge carriers from the channel region to move into the charge-trapping layer and to cause a second current of a second kind of charge carriers from the gate electrode to move into the charge-trapping layer, until the value of the second current is at least half the amount of the first current value.
摘要:
The invention relates to integrated circuits, to a cell, to a cell arrangement, to a method for manufacturing an integrated circuit, to a method for manufacturing a cell, and to a memory module. In an embodiment of the invention, an integrated circuit is provided having a cell, the cell including a low-k dielectric layer, a first high-k dielectric layer disposed above the low-k dielectric layer, a charge trapping layer disposed above the first high-k dielectric layer, and a second high-k dielectric layer disposed above the charge trapping layer.
摘要:
A memory array includes first, second, third and forth memory cell strings. Each of the first, second, third, and fourth memory cell strings includes a number of serially-coupled memory cells, including a first memory cell and a last memory cell. A first interconnect is coupled to a first bit line and to each of the first, second, third and fourth memory cell strings. The first interconnect includes first, second, third and fourth string input select gates. Each input select gate has a first terminal coupled to the first bit line, and a second terminal coupled to one of the respective first, second, third or fourth memory cell strings.
摘要:
An array of charge-trapping multi-bit memory cells is arranged in a virtual-ground NAND architecture. The memory cells are erased by Fowler-Nordheim tunneling of electrons into the memory layers. The write operation is effected by hot hole injection. A write voltage is applied by a bitline to two NAND chains in series. The subsequent bitline on the side of the memory cell to be programmed is maintained on floating potential, whereas the bitline on the other side is set to an inhibit voltage, which is provided to inhibit a program disturb of an addressed memory cell which is not to be programmed. This virtual-ground NAND architecture of charge-trapping memory cells enables an increased storage density.
摘要:
A semiconductor memory having charge trapping memory cells, where the direction of current flow of each channel region of the memory transistors runs transversely with respect to the relevant word line, the bit lines are arranged on the top side of the word lines and in a manner electrically insulated from the latter, and electrically conductive local interconnects of source-drain regions are present, which are arranged in sections in interspaces between the word lines and in a manner electrically insulated from the latter and connected to the bit lines, wherein gate electrodes are arranged in trenches at least partly formed in the memory substrate.
摘要:
A semiconductor memory having charge trapping memory cells and fabrication method thereof. The direction of current flow of each channel region of the memory transistors runs transversely with respect to the relevant word line, the bit lines are arranged on the top side of the word lines and in a manner electrically insulated from the latter, and electrically conductive local interconnects of source-drain regions are present, which are arranged in sections in interspaces between the word lines and in a manner electrically insulated from the latter and connected to the bit lines, wherein gate electrodes are arranged in trenches at least partly formed in the memory substrate.
摘要:
A method is provided for fabricating stacked non-volatile memory cells. A semiconductor wafer is provided having a plurality of diffusion regions forming buried bit lines. A charge-trapping layer and a conductive layer are deposited on the surface of the semiconductor wafer. Using a mask layer on top of the conductive layer, contact holes are formed wherein an insulating layer is formed. An etch stop layer is deposited on the surface of the semiconductor wafer. Above the etch stop layer, a dielectric layer is deposited and is patterned so as to form contact holes. Subsequently, the contact holes are enlarged through the etch stop layer and the insulating layer to the buried bit lines.