Patent application number | Description | Published |
20080213959 | Non-volatile memory (NVM) retention improvement utilizing protective electrical shield - An electrical shield is provided in a non-volatile memory (NVM) cell structure to protect the cell's floating gate from any influence resulting from charge redistribution in the vicinity of the floating gate during a programming operation. The shield may be created from the second polysilicon layer or other conductive material covering the floating gate. The shield may be grounded. Alternately, it may be connected to the cell's control gate electrode resulting in better coupling between the floating gate and the control gate. It is not necessary that the shield cover the floating gate completely, the necessary protective effect is achieved if the coupling to the dielectric layers surrounding the floating gate is reduced. | 09-04-2008 |
20090144035 | Black box model for large signal transient integrated circuit simulation - A modified “black box” integrated circuit simulation model is provided that is based only upon on the external steady-state and transient characteristics of a device under test (DUT). The method utilizes probe pulses as well as steady-state I-V and C-V look-up tables. In contrast to conventional black box simulation models, which support only steady-state and small signal frequency analysis, the disclosed method also supports large signal transient analysis. | 06-04-2009 |
20090296493 | MID-SIZE NVM CELL AND ARRAY UTILIZING GATED DIODE FOR LOW CURRENT PROGRAMMING - A method of operating a non-volatile memory (NVM) cell structure that utilizes gated diode is provided. The cell architecture, utilizing about 4-10 um2 per bit, includes gated diodes that are used to program the cells while consuming low programming current. The cell architecture also allows a large number of cells to be programmed at the same time, thereby reducing the effective programming time per bit. Erase and read mode bias conditions are also provided. | 12-03-2009 |
20100157682 | METHOD OF ENHANCING CHARGE STORAGE IN AN E2PROM CELL - A method is provided for enhancing charge storage in an E | 06-24-2010 |
20110007570 | METHOD OF READING AN NVM CELL THAT UTILIZES A GATED DIODE - A method of reading an NVM cell structure formed on a deep well of N-type semiconductor material, wherein the NVM cell structure includes a PMOS transistor formed in an N-type well, the PMOS transistor including spaced-apart p-type source and drain region defining an n-type cannel region therebetween, an NMOS transistor formed in a P-type well that is adjacent to the N-type well, the NMOS transistor including spaced-apart n-type source and drain regions defining a p-type channel region therebetween, a conductive floating gate that includes a first section that extends over the n-type channel region of the PMOS transistor and is separated therefrom by intervening dielectric material and a second section that extends over the p-type channel region and is separated therefrom by intervening dielectric material, and a conductive control gate formed over at least a portion of the second section of the floating gate and is separated therefrom by intervening dielectric material, the method comprising: biasing the deep N-type well at a preselected read voltage; holding the source region of the PMOS transistor at the read voltage; holding the drain of the PMOS transistor at ground; and holding the control gate at ground for a preselected read time. | 01-13-2011 |
20110007574 | METHOD OF ERASING AN NVM CELL THAT UTILIZES A GATED DIODE - A method of erasing an NVM cell structure formed on a deep well of N-type semiconductor material, wherein the NVM cell structure includes a PMOS transistor formed in an N-type well, the PMOS transistor including spaced-apart p-type source and drain regions defining an n-type channel region therebetween, an NMOS transistor formed in a P-type well that is adjacent to the N-type well, the NMOS transistor including spaced-apart n-type source and rain regions defining a p-type channel region therebetween, a conductive floating gate that includes a first section that extends over the n-type channel region of the PMOS transistor and is separated therefrom by intervening dielectric material and a second section that extends over the p-type channel region and is separated therefrom by intervening dielectric material, and a conductive control gate formed over at least a portion of the second section of the floating gate and separated therefrom by intervening dielectric material, the erasing method comprising: biasing the deep N-type well at a selected erase voltage; holding the source and drain regions of the PMOS transistor at the erase voltage or floating; and holding the control gate at ground for a preselected erase time. | 01-13-2011 |
20110147820 | Non-Volatile Memory Cell Having a Heating Element and a Substrate-Based Control Gate - The number of times that a non-volatile memory (NVM) can be programmed and erased is substantially increased by utilizing a localized heating element that anneals the oxide that is damaged by tunneling charge carriers when the NVM is programmed and erased. The program and erase voltages are also reduced when heat from the heating element is applied prior to programming and erasing. | 06-23-2011 |
20110233670 | METHOD OF FORMING A REGION OF GRADED DOPING CONCENTRATION IN A SEMICONDUCTOR DEVICE AND RELATED APPARATUS - A method for forming a doped region of a semiconductor device includes masking a portion of a substrate with a mask. The mask is configured to create a graded doping profile within the doped region. The method also includes performing an implant using the mask to create doped areas and undoped areas in the substrate. The method further includes diffusing the doped areas to create the graded doping profile in the doped region. The mask could include a first region having openings distributed throughout a photo-resist material, where the openings vary in size and spacing. The mask could also include a second region having blocks of photo-resist material distributed throughout an open region, where the photo-resist blocks vary in size and spacing. Diffusing the doped areas could include applying a high temperature anneal to smooth the doped and undoped areas to produce a linearly graded doping profile. | 09-29-2011 |
20120060587 | Gas Detector that Utilizes an Electric Field to Assist in the Collection and Removal of Gas Molecules - A semiconductor-based gas detector enhances the collection of gas molecules and also provides a self-contained means for removing collected gas molecules by utilizing one or more electric fields to transport the gas molecules to and away from a metallic material that has a high permeability to the gas molecules. | 03-15-2012 |
20120230118 | NON-VOLATILE MEMORY CELL HAVING A HEATING ELEMENT AND A SUBSTRATE-BASED CONTROL GATE - The number of times that a non-volatile memory (NVM) can be programmed and erased is substantially increased by utilizing a localized heating element that anneals the oxide that is damaged by tunneling charge carriers when the NVM is programmed and erased. The program and erase voltages are also reduced when heat from the heating element is applied prior to programming and erasing. | 09-13-2012 |