Patent application number | Description | Published |
20120061637 | 3-D STRUCTURED NONVOLATILE MEMORY ARRAY AND METHOD FOR FABRICATING THE SAME - The present invention relates to a field of nonvolatile memory technology in ULSI circuits manufacturing technology and discloses a 3D-structured resistive-switching memory array and a method for fabricating the same. The 3D-structured resistive-switching memory array according to the invention includes a substrate and a stack structure of bottom electrodes/isolation dielectric layers, deep trenches are etched in the stack structure of the bottom electrodes/the isolation dielectric layers; a resistive-switching material layer and a top electrode layer are deposited on sidewalls of the deep trenches, wherein the top electrodes and the bottom electrodes are crossed over each other on the sidewalls of the deep trenches with the resistive-switching material being interposed at cross-over points, each of the cross-over points forms one resistive-switching memory cell, and all of the resistive-switching memory cells form the 3D-structured resistive-switching memory array, and the 3D resistive-switching memory in the array are isolated by the isolation dielectric layers. According to the invention, the storage density of a resistive-switching memory can be improved, the process can be simplified, and the cost of the process can be reduced. | 03-15-2012 |
20120099381 | EMBEDDED NON-VOLATILE MEMORY CELL, OPERATION METHOD AND MEMORY ARRAY THEREOF - The present invention discloses an embedded non-volatile memory cell, an operation method and a memory array thereof. The method includes using a gate of a selection transistor as a floating gate of a memory, and using a source electrode and a drain electrode of the selection transistor as a source electrode and a drain electrode of the memory; and then changing a threshold of the device by varying the electrode voltages, thereby realizing a storage and change of information. The invention has advantages of a small area, a low operating voltage, high operating speed and high reliability. | 04-26-2012 |
20120113726 | FLASH MEMORY AND FABRICATION METHOD AND OPERATION METHOD FOR THE SAME - The present invention discloses a flash memory and the fabrication method and the operation method for the same. The flash memory comprises two memory cells of vertical channels, wherein a lightly-doped N type (or P type) silicon is used as a substrate; a P+ region (or an N+ region) is provided on each of the both ends of the silicon surface, and two channel regions perpendicular to the surface are provided therebetween; an N+ region (or a P+ region) shared by two channels is provided over the channels; a tunneling oxide layer, a polysilicon floating gate, a block oxide layer and a polysilicon control gate are provided sequentially on the outer sides of each channel from inside to outside; and the polysilicon floating gate and the polysilicon control gate are isolated from the P+ region by a sidewall oxide layer. The whole device is a two-bit TFET type flash memory with vertical channels which has better compatibility with prior-art standard CMOS process. As compared with a conventional MOSFET-based flash memory, the flash memory according to the present invention possesses various advantages such as high programming efficiency, low power consumption, effective inhibition of punch-through effect, and high density, etc. | 05-10-2012 |
20120188821 | METHOD FOR ACHIEVING FOUR-BIT STORAGE USING FLASH MEMORY HAVING SPLITTING TRENCH GATE - The present invention discloses a method for achieving four-bit storage by using a flash memory having a splitting trench gate. The flash memory with the splitting trench gate is disclosed in a Chinese patent No. 200710105964.2. At one side that each of two trenches is contacted with a channel, a programming for electrons is achieved by using a channel hot electron injection method; and at the other side that each of the two trenches is contacted with a source or a drain, a programming for electrons is achieved by using an FN injection method, so that a function of a four-bit storage of the device is achieved by changing a programming mode. Thus, a performance of the device is improved while a storage density is greatly increased. | 07-26-2012 |
20120241712 | Resistive-Switching Memory and Fabrication Method Thereof - The present invention discloses a resistive-switching memory and the fabrication method thereof. The resistive-switching memory comprises a substrate, a top electrode, a bottom electrode, and a resistive-switching material interposed between the top and bottom electrodes, wherein the central portion of the bottom electrode protrudes upwards to form a peak shape, and the top electrode is in a plate shape. The peak structure of the bottom electrode reduces power consumption of the device. The fabrication method thereof comprises forming peak structures on the surface of the substrate by means of corrosion, and then growing bottom electrodes thereon to form bottom electrodes having peak shapes, and depositing resistive-switching material and top electrodes. The entire fabrication process is simple, and high integration degree of the device can be achieved. | 09-27-2012 |
20120243313 | SEMICONDUCTOR MEMORY ARRAY AND METHOD FOR PROGRAMMING THE SAME - The invention provides a flash memory array structure and a method for programming the same, which relates to a technical field of nonvolatile memories in ultra large scale integrated circuit fabrication technology. The flash memory array of the present invention includes memory cells, word lines and bit lines connected to the memory cells, wherein the word lines connected to control gates of the memory cells and the bit lines connected to drain terminals of the memory cells are not perpendicular to each other but cross each other at an angle; the control gates of two memory cells adjacent to each other along the channel direction between every two bit lines are controlled by two word lines, respectively, drain terminals thereof are controlled by two bit lines, respectively, and source terminals thereof are shared. The present invention also provides a method for programming the flash memory array structure, which can realize a programming with low power consumption. | 09-27-2012 |
20120261740 | FLASH MEMORY AND METHOD FOR FABRICATING THE SAME - The present invention discloses a flash memory and a method for fabricating the same, and relates to the technical field of the semiconductor memory. The flash memory includes a buried oxygen layer on which a source terminal, a channel, and a drain terminal are disposed, wherein the channel is between the source terminal and the drain terminal, and a tunneling oxide layer, a polysilicon floating gate, a blocking oxide layer, and a polysilicon control gate are sequentially disposed on the channel, and a thin silicon nitride layer is disposed between the source terminal and the channel. The method includes: 1) performing a shallow trench isolation on a SOI silicon substrate to form an active region; 2) sequentially forming a tunneling oxide layer and a first polysilicon layer on the SOI silicon substrate to form a polysilicon floating gate, and forming a blocking oxide layer and a second polysilicon layer to form a polysilicon control gate; 3) etching the resultant structure to form a gate stack structure; 4) forming a drain terminal at one side of the gate stack structure, etching the silicon film at the other side of the gate stack structure, growing a thin silicon nitride layer, and then refilling the hole structure with silicon material, to form a source terminal. The method has the advantages of high programming efficiency, low power consumption, effectively preventing source-drain punchthrough effect. | 10-18-2012 |
20130069031 | MULTILEVEL RESISTIVE MEMORY HAVING LARGE STORAGE CAPACITY - The present invention discloses a multilevel resistive memory having large storage capacity, which belongs to a field of a fabrication technology of a resistive memory. The resistive memory includes an top electrode and a bottom electrode, and a combination of a plurality of switching layers and defective layers interposed between the top electrode and the bottom electrode, wherein, the top electrode and the bottom electrode are respectively contacted with a switching layer (a film such as Ta | 03-21-2013 |
20130099300 | Floating Gate Structure of Flash Memory Device and Method for Fabricating the Same - The present invention discloses a floating gate structure of a flash memory device and a method for fabricating the same, which relates to a nonvolatile memory in a manufacturing technology of an ultra-large-scaled integrated circuit. In the invention, by modifying a manufacturing of a floating gate in the a standard process for the flash memory, that is, by adding three steps of deposition, two steps of etching and one step of CMP, an I-shaped floating gate is formed. In addition to these steps, all the other steps are the same as those of the standard process for the flash memory process. By the invention, a coupling ratio may be improved effectively and a crosstalk between adjacent devices may be lowered, without adding additional photomasks and barely increasing a process complexity, which are very important to improve programming speed and reliability. | 04-25-2013 |
20130217199 | METHOD FOR FABRICATING RESISTIVE MEMORY DEVICE - The present invention discloses a method for fabricating a resistive memory, including: fabricating a bottom electrode over a substrate; partially oxidizing a metal of the bottom electrode through dry-oxygen oxidation or wet-oxygen oxidation to form a metal oxide with a thickness of 3 nm to 50 nm as a resistive material layer; finally fabricating a top electrode over the resistive material layer. The present invention omits a step of depositing a resistive material layer in a conventional method, so as to greatly reduce the process complexity. Meanwhile, a self alignment between the resistive material layer and the bottom electrode can be realized. A full isolation between devices may be ensured so as to obviate the parasite effects occurred in the conventional process methods. Meanwhile, the actual area and designed area of the device are ensured to be consistent. | 08-22-2013 |
20140017870 | Method for Inhibiting Programming Disturbance of Flash Memory - Disclosed herein is a method for inhibiting a programming disturbance of a flash memory, which relates to a technical field of a non-volatile memory in ultra-large-scale integrated circuit fabrication technologies. In the present invention, an dopant gradient of a PN junction between a substrate and a drain is reduced by adding a step of performing an angled ion implantation of donor dopants into a standard process for a flash memory, so that an electric field of the PN junction between the substrate and the drain is reduced, and consequently the programming disturbance is inhibited. Meanwhile, a dopant gradient of the PN junction between a channel and the drain is maintained, so that an electric field of the PN junction between the channel and the drain, which is necessary for programming, is maintained, and thus the programming efficiency and the programming speed can be ensured. The programming disturbance can be effectively inhibited without increasing numbers of masks used for photolithography according to the invention, thus the present invention is significantly advantageous to the improvement of the flash memory reliability. | 01-16-2014 |
20140145139 | TRANSPARENT FLEXIBLE RESISTIVE MEMORY AND FABRICATION METHOD THEREOF - The present invention discloses a transparent flexible resistive memory and a fabrication method thereof. The transparent flexible resistive memory includes a transparent flexible substrate, a memory unit with a MIM capacitor structure over the substrate, wherein a bottom electrode and a top electrode of the memory unit are transparent and flexible, and an intermediate resistive layer is a transparent flexible film of poly(p-xylylene). Poly(p-xylylene) has excellent resistive characteristics. In the device, the substrate, the electrodes and the intermediate resistive layer are all formed of transparent flexible material so that a completely transparent flexible resistive memory which can be used in a transparent flexible electronic system is obtained. | 05-29-2014 |
20140268988 | RESISTIVE MEMORY CELL - The present invention discloses a resistive memory cell, including a unipolar type RRAM and a MOS transistor as a selection transistor serially connected to the unipolar type RRAM, wherein the MOS transistor is fabricated over a partial depletion SOI substrate and provides a large current for program and erase of the RRAM by using an intrinsic floating effect of the SOI substrate. The present invention utilizes a floating effect of a SOI device, in which under the same width/length ratio, a MOS transistor over a SOI substrate can provide larger source/drain current than a MOS transistor over a bulk silicon, so that the area occupied by the selection transistor is reduced, which is advantageous to the integration of the RRAM array. | 09-18-2014 |
20140306173 | RESISTIVE MEMORY AND METHOD FOR FABRICATING THE SAME - A resistive memory having a leakage inhibiting characteristic and a method for fabricating the same, which can suppress a sneak current in a large scaled crossing array of a RRAM. A memory cell forming the resistive memory comprises a lower electrode, a first semiconductor-type oxide layer, a resistive material layer, a second semiconductor-type oxide layer and an upper electrode which are sequentially stacked. Each of the semiconductor-type oxide layers may be a semiconductor-type metal oxide or a semiconductor-type non-metal oxide. The sneak current may be effectively reduced by means of a Schottky barrier formed between the semiconductor-type oxide layer and the metal electrode, the fabrication process is easy to be implemented, and a high device integration degree can be achieved. | 10-16-2014 |
20150021539 | RESISTIVE MEMORY WITH SMALL ELECTRODE AND METHOD FOR FABRICATING THE SAME - Systems and methods are disclosed involving a resistive memory with a small electrode, relating to the field of semiconductor resistive memory in ULSI. An illustrative resistive memory may include an Al electrode layer, a SiO | 01-22-2015 |
20150041750 | Resistive Memory Device and Method for Fabricating the Same - An embodiment of the present invention provides a resistive memory device and a method for fabricating the same. The resistive memory device includes a substrate and a plurality of memory cells spaced with each other over the substrate, each memory cell including a lower electrode, a resistive layer and an upper electrode, wherein the lower electrode is disposed over the substrate, the resistive layer is disposed over the lower electrode and the upper electrode is disposed over the resistive layer, and the resistive layer includes a resistive material portion and at least one doped resistive portion doped with an element for adjusting a resistance state. In the resistive memory device and the method for fabricating the same according to the present invention, since the resistive layer is not formed of single resistive material, during a set operation of the resistive memory device, a plurality of stable resistance states are produced according to various applied voltages, so that a storage density of the resistive memory device is increased without increasing a volume of the resistive memory device. | 02-12-2015 |