SIDENSE CORP. Patent applications |
Patent application number | Title | Published |
20140146625 | REDUNDANCY SYSTEM FOR NON-VOLATILE MEMORY - A redundancy scheme for Non-Volatile Memories (NVM) is described. This redundancy scheme provides means for using defective cells in non-volatile memories to increase yield. The algorithm is based on inverting the program data for data being programmed to a cell grouping when a defective cell is detected in the cell grouping. Defective cells are biased to either “1” or “0” logic states, which are effectively preset to store its biased logic state. A data bit to be stored in a defective cell having a logic state that is complementary to the biased logic state of the cell results in the program data being inverted and programmed. An inversion status bit is programmed to indicate the inverted status of the programmed data. During read out, the inversion status bit causes the stored data to be re-inverted into its original program data states. | 05-29-2014 |
20130308365 | CIRCUIT AND METHOD FOR REDUCING WRITE DISTURB IN A NON-VOLATILE MEMORY DEVICE - An active precharge circuit for a non-volatile memory array which minimizes write disturb to non-selected memory cells during programming is disclosed. In a programming cycle, all bitlines are pre-charged to a program inhibit voltage level and held at the program inhibit voltage level with current or voltage sources coupled to each of the bitlines in a precharge operation and a following programming operation. In the programming operation, a bitline connected to a memory cell to be programmed is driven to a programming level, such as VSS, while the active precharge circuit is enabled to enable programming thereof. Because the other non-selected bitlines are held at the program inhibit voltage level, they will not be inadvertently programmed when the programming voltage is supplied by the word line. | 11-21-2013 |
20130308364 | POWER UP DETECTION SYSTEM FOR A MEMORY DEVICE - A power up detection method for a memory device and a memory device are disclosed. In a first phase, a test word is read from a read-only memory (ROM) row of a memory array of the memory device, and the test word is compared to predetermined ROM row data. If the test word matches the predetermined ROM row data, a second phase may be performed. In the second phase, first user data is read from a user-programmed row of the memory array at a first time. Second user data is read from the user-programmed row of the memory array at a second time different from the first time. The first user data is compared to the second user data. Successful power up of the memory device is determined when the first user data matches the second user data. | 11-21-2013 |
20130128679 | REDUNDANCY SYSTEM FOR NON-VOLATILE MEMORY - A redundancy scheme for Non-Volatile Memories (NVM) is described. This redundancy scheme provides means for using defective cells in non-volatile memories to increase yield. The algorithm is based on inverting the program data for data being programmed to a cell grouping when a defective cell is detected in the cell grouping. Defective cells are biased to either “1” or “0” logic states, which are effectively preset to store its biased logic state. A data bit to be stored in a defective cell having a logic state that is complementary to the biased logic state of the cell results in the program data being inverted and programmed. An inversion status bit is programmed to indicate the inverted status of the programmed data. During read out, the inversion status bit causes the stored data to be re-inverted into its original program data states. | 05-23-2013 |
20120211841 | OTP MEMORY CELL HAVING LOW CURRENT LEAKAGE - A one time programmable memory cell having twin wells to improve dielectric breakdown while minimizing current leakage. The memory cell is manufactured using a standard CMOS process used for core and I/O (input/output) circuitry. A two transistor memory cell having an access transistor and an anti-fuse device, or a single transistor memory cell | 08-23-2012 |
20120182782 | METHODS FOR TESTING UNPROGRAMMED OTP MEMORY - Methods for testing unprogrammed single transistor and two transistor anti-fuse memory cells include testing for connections of the cells to a bitline by comparing a voltage characteristic of a bitline connected to the cell under test to a reference bitline having a predetermined voltage characteristic. Some methods can use test cells having an access transistor identically configured to the access transistor of a normal memory cell, but omitting the anti-fuse device found in the normal memory cell, for testing the presence of a connection of the normal memory cell to the bitline. Such a test cell can be used in a further test for determining the level of capacitive coupling of the wordline voltage to the bitlines relative to that of a normal memory cell under test. | 07-19-2012 |
20120081942 | TEST CELLS FOR AN UNPROGRAMMED OTP MEMORY ARRAY - Test cells are included in a one-time programmable (OTP) memory array for detecting semiconductor fabrication misalignment, which can result in a potentially defective memory array. The test cells are fabricated at the same time as the normal OTP cells, except they are smaller in size along one dimension in order to detect mask misalignment along that dimension. Any fabricated test cell which cannot be programmed indicates a level of fabrication mask misalignment has occurred and the OTP memory array should not be used. | 04-05-2012 |
20110317804 | PROGRAM VERIFY METHOD FOR OTP MEMORIES - A method for executing a program verify operation in a non-volatile memory. A data register having master and slave latching circuits is used for concurrently storing two different words of data. In a program operation, the master latch stores program data which is used for programming selected memory cells. In a program verify operation, the data programmed to the memory cells are read out and stored in the slave latches. In each data register stage, the logic states of both latches are compared to each other, and a status signal corresponding to a program pass condition is generated if opposite logic states are stored in both latches. The master latch in each stage is inverted if programming was successful, in order to prevent re-programming of that bit of data. | 12-29-2011 |
20110312169 | ANTI-FUSE MEMORY CELL - An anti-fuse memory cell having a variable thickness gate dielectric. The variable thickness dielectric has a thick portion and a thin portion, where the thin portion has at least one dimension less than a minimum feature size of a process technology. The thin portion can be rectangular in shape or triangular in shape. The anti-fuse transistor can be used in a two-transistor memory cell having an access transistor with a gate dielectric substantially identical in thickness to the thick portion of the variable thickness gate dielectric of the anti-fuse transistor. | 12-22-2011 |
20110019491 | REDUNDANCY SYSTEM FOR NON-VOLATILE MEMORY - A redundancy scheme for Non-Volatile Memories (NVM) is described. This redundancy scheme provides means for using defective cells in non-volatile memories to increase yield. The algorithm is based on inverting the program data for data being programmed to a cell grouping when a defective cell is detected in the cell grouping. Defective cells are biased to either “1” or “0” logic states, which are effectively preset to store its biased logic state. A data bit to be stored in a defective cell having a logic state that is complementary to the biased logic state of the cell results in the program data being inverted and programmed. An inversion status bit is programmed to indicate the inverted status of the programmed data. During read out, the inversion status bit causes the stored data to be re-inverted into its original program data states. | 01-27-2011 |
20100259965 | HIGH SPEED OTP SENSING SCHEME - A high speed sensing scheme for a non-volatile memory array is disclosed. The memory array includes non volatile memory cells arranged in a complementary bitline configuration includes precharge circuits for precharging the bitlines to a first voltage level such as VSS, a reference circuits for applying a reference charge on the reference bitlines of the complementary bitline pairs, and bitline sense amplifiers for sensing a voltage differential between the complementary bitline pairs. A voltage on the data bitline being changed when a programmed non-volatile memory cell connected to an activated wordline couples the wordline voltage to the data bitline. | 10-14-2010 |
20100220511 | LOW POWER ANTIFUSE SENSING SCHEME WITH IMPROVED RELIABILITY - Generally, a method and circuit for improving the retention and reliability of unprogrammed anti-fuse memory cells. This is achieved by minimizing the tunneling current through the unprogrammed anti-fuse memory cells which can cause eventual gate oxide breakdown. The amount of time a read voltage is applied to the anti-fuse memory cells is reduced by pulsing a read voltage applied to a wordline connected to the unprogrammed anti-fuse memory cells, thereby reducing the tunneling current. Further tunneling current can be reduced by decoupling the unprogrammed anti-fuse memory cells from a sense amplifier that can drive the corresponding bitline to VSS. | 09-02-2010 |
20100202183 | HIGH RELIABILITY OTP MEMORY - A method and system for improving reliability of OTP memories, and in particular anti-fuse memories, by storing one bit of data in at least two OTP memory cells. Therefore each bit of data is read out by accessing the at least two OTP memory cells at the same time in a multi-cell per bit mode. By storing one bit of data in at least two OTP memory cells, defective cells or weakly programmable cells are compensated for since the additional cell or cells provide inherent redundancy. Program reliability is ensured by programming the data one bit at a time, and verifying all programmed bits in a single-ended read mode, prior to normal operation where the data is read out in the multi-cell per bit mode. Programming and verification is achieved at high speed and with minimal power consumption using a novel program/verify algorithm for anti-fuse memory. In addition to improved reliability, read margin and read speed are improved over single cell per bit memories. | 08-12-2010 |
20100011266 | PROGRAM VERIFY METHOD FOR OTP MEMORIES - A method for executing a program verify operation in a non-volatile memory. A data register having master and slave latching circuits is used for concurrently storing two different words of data. In a program operation, the master latch stores program data which is used for programming selected memory cells. In a program verify operation, the data programmed to the memory cells are read out and stored in the slave latches. In each data register stage, the logic states of both latches are compared to each other, and a status signal corresponding to a program pass condition is generated if opposite logic states are stored in both latches. The master latch in each stage is inverted if programming was successful, in order to prevent re-programming of that bit of data. | 01-14-2010 |
20100002527 | POWER UP DETECTION SYSTEM FOR A MEMORY DEVICE - A power up detection system for a memory device. Two rows of memory cells are mask programmed to include a word of data having an arbitrary size. The word in the second row is a single-bit shifted version of the word in the first row, such that each bit is shifted one bit position in a predetermined direction. The bits of the first word are read from the first row into slave latches of the register stages of a data register, and then shifted into the master latches of the next register stage of the data register. The bits of the second word are read from the second row into the slave latches of the register stages. Data comparison logic compares data stored in the master and slave latches of each register stage, and provides a signal indicating matching data between the first latches and the second latches, thereby indicating successful power up of the memory device. | 01-07-2010 |
20090290434 | DUAL FUNCTION DATA REGISTER - A dual function serial and parallel data register with integrated program verify functionality. The master and slave latching circuits of the dual function data register can concurrently store two different words of data. In a program verify operation, the master latch stores program data and the slave latch will receive and store read data. Comparison logic in each register stage will compare the data of both latches, and integrate the comparison result to that of the previous register stage. The final single bit result will indicate the presence of at least one bit that has not been programmed. Automatic program inhibit logic in each stage will prevent successfully programmed bits from being re-programmed in each subsequent reprogram cycle. Either data word can be serially clocked out by selectively starting the shift operations on either the low or high active logic level of a clock signal. | 11-26-2009 |
20090262566 | MASK PROGRAMMABLE ANTI-FUSE ARCHITECTURE - A memory array having both mask programmable and one-time programmable memory cells connected to the wordlines and the bitlines. All memory cells of the memory array are configured as one-time programmable memory cells. Any number of these one-time programmable memory cells are convertible into mask programmable memory cells through mask programming, such as diffusion mask programming or contact/via mask programming. Manufacturing of such a hybrid memory array is simplified because both types of memory cells are constructed of the same materials, therefore only one common set of manufacturing process steps is required. Inadvertent user programming of the mask programmable memory cells is inhibited by a programming lock circuit. | 10-22-2009 |
20090251943 | TEST CIRCUIT FOR AN UNPROGRAMMED OTP MEMORY ARRAY - Circuits for testing unprogrammed OTP memories to ensure that wordline and bitline connections, column decoders, wordline drivers, correctness of decoding, sensing and multiplexing operate properly. The OTP testing system includes one or both of column test circuitry and row test circuitry. The column test circuitry charges all the bitlines to a voltage level similar to that provided by a programmed OTP memory cell during a read operation, in response to activation of a test wordline. The bitline voltages can be sensed, thereby allowing for testing of the column decoding and sense amplifier circuits. The row test circuitry charges a test bitline to a voltage level similar to that provided by a programmed OTP memory cell during a read operation, in response to activation of a wordline of the OTP memory array. This test bitline voltage can be sensed, thereby allowing for testing of the row decoding and driver circuits. | 10-08-2009 |
20090250726 | LOW VT ANTIFUSE DEVICE - A one time programmable memory cell having an anti-fuse device with a low threshold voltage independent of core circuit process manufacturing technology is presented. A two transistor memory cell having a pass transistor and an anti-fuse device, or a single transistor memory cell having a dual thickness gate oxide, are formed in a high voltage well that is formed for high voltage transistors. The threshold voltage of the anti-fuse device differs from the threshold voltages of any transistor in the core circuits of the memory device, but has a gate oxide thickness that is the same as a transistor in the core circuits. The pass transistor has a threshold voltage that differs from the threshold voltages of any transistor in the core circuits, and has a gate oxide thickness that differs from any transistor in the core circuits. The threshold voltage of the anti-fuse device is lowered by omitting some or all of the threshold adjustment implants that is used for high voltage transistors fabricated in the I/O circuits. | 10-08-2009 |
20090154217 | HIGH SPEED OTP SENSING SCHEME - A high speed sensing scheme for a non-volatile memory array is disclosed. The memory array includes non volatile memory cells arranged in a complementary bitline configuration includes precharge circuits for precharging the bitlines to a first voltage level such as VSS, a reference circuits for applying a reference charge on the reference bitlines of the complementary bitline pairs, and bitline sense amplifiers for sensing a voltage differential between the complementary bitline pairs. A voltage on the data bitline being changed when a programmed non-volatile memory cell connected to an activated wordline couples the wordline voltage to the data bitline. | 06-18-2009 |
20080246098 | SPLIT-CHANNEL ANTIFUSE ARRAY ARCHITECTURE - Generally, the present invention provides a variable thickness gate oxide anti-fuse transistor device that can be employed in a non-volatile, one-time-programmable (OTP) memory array application. The anti-fuse transistor can be fabricated with standard CMOS technology, and is configured as a standard transistor element having a source diffusion, gate oxide, polysilicon gate and optional drain diffusion. The variable gate oxide underneath the polysilicon gate consists of a thick gate oxide region and a thin gate oxide region, where the thin gate oxide region acts as a localized breakdown voltage zone. A conductive channel between the polysilicon gate and the channel region can be formed in the localized breakdown voltage zone during a programming operation. In a memory array application, a wordline read current applied to the polysilicon gate can be sensed through a bitline connected to the source diffusion, via the channel of the anti-fuse transistor. More specifically, the present invention provides an effective method for utilizing split channel MOS structures as an anti-fuse cell suitable for OTP memories. | 10-09-2008 |