Patent application number | Description | Published |
20080263385 | Memory Device with Error Correction Based on Automatic Logic Inversion - A memory device comprises a memory array and error correction circuitry coupled to the memory array. The error correction circuitry is configured to identify, in a data word retrieved from the memory array, at least one bit position corresponding to a predetermined defect location in the memory array, and to generate a corrected data word by automatically inverting a logic value at the identified bit position. This automatic logic inversion approach is particularly well suited for use in correcting output data errors associated with via defects and weak bit defects in high-density ROM devices. | 10-23-2008 |
20080273361 | Memory Cell for Content-Addressable Memory - A memory cell for use in a content-addressable memory comprises a first latch and a second latch. The first latch is operative to store a first bit associated with a first stored word, while the second latch is operative to store a second bit associated with a second stored word. The first and second latches collectively comprise a plurality of latch transistors. Each of the latch transistors comprises a respective channel. The channels of the latch transistors are oriented in substantially the same direction, resulting in a very compact memory cell implementation. | 11-06-2008 |
20090141580 | Reduced Leakage Driver Circuit and Memory Device Employing Same - A row line driver circuit for use in a memory array including multiple memory cells and multiple row lines coupled to the memory cells for selectively accessing the memory cells includes an output stage adapted for connection to a corresponding one of the row lines and a control circuit connected to the output stage. The output stage is operative during an active phase of a given memory cycle to drive the corresponding row line to a potential as a function of at least one address signal received by the driver circuit. The control circuit is operative to generate at least one control signal for disabling the output stage at least during an inactive phase of the memory cycle to thereby substantially eliminate a leakage current path in the driver circuit. | 06-04-2009 |
20100157707 | Sense Amplifier with Redundancy - A sense amplifier includes a first sensing element and a second sensing element redundant to the first sensing element. The sense amplifier further comprises a switch circuit configured to switch between the first and second sensing elements when an offset of the sense amplifier is greater than a prescribed amount. | 06-24-2010 |
20100220534 | Memory Device with Reduced Buffer Current During Power-Down Mode - A memory device comprises a memory array, at least one buffer coupled to the memory array, and test circuitry coupled to the buffer. The buffer comprises switching circuitry configured to multiplex first and second inputs of the buffer to a given output of the buffer based at least in part on a control signal generated by the test circuitry. The control signal is generated as a function of both a test signal indicative of a test mode of operation of the memory device and a power-down signal indicative of a power-down mode of operation of the memory device. The buffer further comprises current reduction circuitry responsive to the control signal for reducing an amount of current consumed by the buffer in the power-down mode of operation. The buffer may comprise an input data buffer or an address buffer of the memory device. | 09-02-2010 |
20100246293 | Tracking Circuit for Reducing Faults in a Memory - A memory circuit includes a plurality of memory cells and a plurality of bit lines and row lines connected to the memory cells for accessing selected memory cells. The memory circuit includes a programmable voltage source adapted for connection to at least one bit line and operative to precharge the bit line to a prescribed voltage level prior to accessing a selected one of the memory cells coupled to the bit line. A control circuit coupled to the bit line is operative to oppose discharge of the bit line during at least a portion of a given memory read cycle. A tracking circuit connected to the control circuit is operative to control a delay in activation of the control circuit and/or a duration of time the control circuit is active as a function of a parameter affecting signal development time of a data signal on the bit line. | 09-30-2010 |
20110055660 | High-Reliability Memory - A memory circuit includes a memory including a plurality of primary memory elements, and an error correction circuit coupled to the memory and operative to detect an error in at least one of the primary memory elements and to provide corrected data corresponding to the primary memory element. The memory circuit further includes at least one spare memory element and a control circuit operative to replace at least one of the primary memory elements with the spare memory element as a function of results generated by the error correction circuit. | 03-03-2011 |
20110157964 | Memory Cell Using Leakage Current Storage Mechanism - A memory cell comprises a storage element including a transistor and an inverter. The inverter has an input coupled to a first source/drain of the transistor at a first node and has an output coupled to a gate of the transistor at a second node. The transistor has a second source/drain coupled to a voltage supply of the memory circuit. The memory cell further includes a switching element coupled to the storage element at the first node and being operative to selectively access the storage element as a function of a control signal supplied to a control input of the switching element. The storage element is operative to store at least first and second data states. The first data state is retained in the storage element by maintaining the first node at a first voltage level by leakage current and by maintaining the second node at a second voltage level by active current. The second data state is retained in the storage element by maintaining the first node at the second voltage level and the second node at the first voltage level by respective active currents. | 06-30-2011 |
20120075946 | Memory Device with Phase Distribution Circuit for Controlling Relative Durations of Precharge and Active Phases - A memory device comprises a memory array and a phase distribution circuit coupled to the memory array. In one aspect, the phase distribution circuit is operative to control respective durations of a precharge phase and an active phase of a memory cycle of the memory array based on relative transistor characteristics of a tracked precharge transistor of a first conductivity type and a tracked memory cell transistor of a second conductivity type different than the first conductivity type. For example, the phase distribution circuit may comprise a first tracking transistor of the first conductivity type for tracking the precharge transistor of the first conductivity type and a second tracking transistor of the second conductivity type for tracking the memory cell transistor of the second conductivity type. The relative transistor characteristics may comprise relative strengths of the tracked precharge and memory cell transistors. | 03-29-2012 |