Patent application number | Description | Published |
20130176776 | Charge Cycling By Equalizing and Regulating the Source, Well, and Bit Line Levels During Write Operations for NAND Flash Memory: Program to Verify Transition - In non-volatile memory devices, a write typically consists of an alternating set of pulse and verify operations. At the end of a pulse, the device must be biased properly for an accurate verify, after which the device is re-biased for the next pulse. The intervals between the pulse and verify phases are considered. For the interval after a pulse, but before establishing the verify conditions, the source, bit line, and, optionally, the well levels can be equalized and then regulated at a desired DC level. After a verify phase, but before applying the biasing the memory for the next pulse, the source and bit line levels can be equalized to a DC level. | 07-11-2013 |
20140043898 | Common Line Current for Program Level Determination in Flash Memory - In a nonvolatile memory array that stores randomized data, the program level—the number of states per cell stored in a population of memory cells—is determined from the total current passing through the population of memory cells under read conditions, as observed on a common line, for example a source line in NAND flash memory. | 02-13-2014 |
20140159682 | LDO/HDO Architecture Using Supplementary Current Source to Improve Effective System Bandwidth - An LDO/HDO circuit adds a supplementary current source to supply the output node. The current boosting section includes a digital comparator with a first input connected to the LDO's feedback loop and a second input connected to a reference level. The comparator then generates a digital output used to control the supplementary current source. This approach also can be used in a far-side implementation, where the local supply level for the load is boosted by the current source based a comparison of this local level and the output of the LDO. Miller capacitive compensation is also considered. Current in shunted to ground from a node in the Miller loop, where the level is controlled by the output of a digital comparator base on a comparison of the circuit's output voltage and a reference level. | 06-12-2014 |
20140159683 | Settling Time and Effective Band Width for Op-Amps Using Miller Capacitance Compensation - An LDO/HDO circuit adds a supplementary current source to supply the output node. The current boosting section includes a digital comparator with a first input connected to the LDO's feedback loop and a second input connected to a reference level. The comparator then generates a digital output used to control the supplementary current source. This approach also can be used in a far-side implementation, where the local supply level for the load is boosted by the current source based a comparison of this local level and the output of the LDO. Miller capacitive compensation is also considered. Current in shunted to ground from a node in the Miller loop, where the level is controlled by the output of a digital comparator base on a comparison of the circuit's output voltage and a reference level. | 06-12-2014 |
20140240005 | Pre-Charge Circuit with Reduced Process Dependence - A pre-charging circuit, such as can be used to pre-charge a data bus, is presented that is largely process independent. A push-pull type of arrangement is used, where the output of the pre-charge circuit is initially connected to a supply level through one transistor, then connect to ground by another transistor. These transistors can be controlled by one or more comparators that have as inputs a reference level and feedback from the output. The reference level is generated by a circuit that tracks the threshold voltage of the other devices in the circuit in order to reduce process dependency of the output level. The circuit can also include a device to provide an extra VDD assist to the output. | 08-28-2014 |
20150023100 | Dynamic Regulation of Memory Array Source Line - To maintain stability of memory array operations, a current source supplies a common source line of a memory. The magnitude of the regulation current from the source is dynamically determined based on the amount of current from the array itself through use of a feedback control signal provided by a current comparator circuit. The current comparison circuit can use either a digital or an analog implementation. | 01-22-2015 |