Patent application number | Description | Published |
20080198670 | Reduced power programming of non-volatile cells - Methods for minimizing current consumption in a memory array during programming of non-volatile memory cells, such as NROM cells, in the array include: programming a cell without having a direct current flowing from a positive supply to ground through the array, programming a plurality of cells with programming pulses without discharging a global bit line carrying a programming voltage between programming pulses, and programming a cell with transient currents. | 08-21-2008 |
20090032862 | Non-volatile memory cell and non-volatile memory device using said cell - A non-volatile electrically erasable programmable read only memory (EEPROM) capable of storing two bit of information having a non-conducting charge trapping dielectric, such as silicon nitride, sandwiched between two silicon dioxide layers acting as electrical insulators is disclosed. The invention includes a method of programming, reading and erasing the two bit EEPROM device. The non-conducting dielectric layer functions as an electrical charge trapping medium. A conducting gate layer is placed over the upper silicon dioxide layer. A left and a right bit are stored in physically different areas of the charge trapping layer, near left and right regions of the memory cell, respectively. Each bit of the memory device is programmed in the conventional manner, using hot electron programming, by applying programming voltages to the gate and to either the left or the right region while the other region is grounded. Hot electrons are accelerated sufficiently to be injected into the region of the trapping dielectric layer near where the programming voltages were applied to. The device, however, is read in the opposite direction from which it was written, meaning voltages are applied to the gate and to either the right or the left region while the other region is grounded. Two bits are able to be programmed and read due to a combination of relatively low gate voltages with reading in the reverse direction. This greatly reduces the potential across the trapped charge region. This permits much shorter programming times by amplifying the effect of the charge trapped in the localized trapping region associated with each of the bits. In addition, both bits of the memory cell can be individually erased by applying suitable erase voltages to the gate and either left or right regions so as to cause electrons to be removed from the corresponding charge trapping region of the nitride layer. | 02-05-2009 |
20090129166 | METHOD, CIRCUIT AND SYSTEM FOR SENSING A CELL IN A NON-VOLATILE MEMORY ARRAY - Disclosed is a method, circuit and system for evaluating the status of a data storage area in a non-volatile memory cell within a non-volatile memory cell array. According to some embodiments of the present invention, leakage current in at least one other cell in proximity with the cell being evaluated is suppressed. Leakage current suppression may be achieved by applying a suppression voltage to the word of the cell(s) whose leakage current(s) are to be suppressed. | 05-21-2009 |
20090231915 | Reading array cell with matched reference cell - A method for reading a bit of a memory cell in a non-volatile memory (NVM) cell array, the method comprising providing a memory cell comprising a bit to be read and at least one other bit not to be read, and reading the bit to be read with respect to a multi-bit reference cell, the reference cell comprising a first bit at a first non-ground programmed state and a second bit at a second non-ground programmed state. Compared with the prior art, the present invention may enable achieving an improved sensing accuracy together with improved read disturb immunity. | 09-17-2009 |
20090323423 | METHODS, CIRCUITS AND SYSTEMS FOR READING NON-VOLATILE MEMORY CELLS - The present invention includes methods, circuits and systems for reading non-volatile memory (“NVM”) cells, including multi-level NVM cells. According to some embodiments of the present invention, there may be provided a NVM cell threshold voltage detection circuit adapted to detect an approximate threshold voltage associated with a charge storage region of a NVM cell, where the NVM cell may be a single or a multi-charge storage region cell. A decoder circuit may be adapted to decode and/or indicate the logical state of a NVM cell charge storage region by mapping or converting a detected approximate threshold voltage of the charge storage region into a logical state value. | 12-31-2009 |
20130223144 | ACCESSING AN NROM ARRAY - A method includes minimizing current leaking through a virtual ground pipe during access of NROM memory cells. The minimizing includes operating two neighboring memory cells generally together, which includes connecting an operation voltage to a shared local bit line of the two neighboring memory cells and connecting the external local bit lines of two neighboring memory cells to a receiving unit, such as a ground supply or two sense amplifiers. Also included is an array performing the method. | 08-29-2013 |
20150340098 | METHODS, CIRCUITS, DEVICES AND SYSTEMS FOR SENSING AN NVM CELL - Disclosed is a non-volatile memory (NVM) device including an array of NVM cells segmented into at least a first sector and a second sector and at least one sensing circuit to sense a state of a target NVM cell in the first sector using a reference current of the second sector received from at least a dynamic reference cell. | 11-26-2015 |