Abstract: A method and apparatus for sensing a resistive state of a resistive memory element includes producing a first current related to a resistance of a memory cell. The first current is added to a second current during a first sensing time and subtracted from a third current during a second sensing time. The first, second and third currents are integrated over time using a capacitor, and a resulting voltage signal on the capacitor is timed using a clocked counter. A time average value of a digital output of the clocked counter is then related to the resistance of the memory cell, and hence to the resistive state of the resistive memory element.

Abstract: An integrated charge sensing scheme for sensing the resistance of a resistive memory element is described. The current through a resistive memory cell is used to charge a capacitor coupled to a digit line. The voltage on the capacitor, which corresponds to the voltage on the digit line, is applied to one input of a comparator. When the voltage on the bit line exceeds a predetermined fixed voltage applied to the second input to the comparator less an offset, the comparator switches logic state, charge is drawn off from the capacitor and the capacitor charges again. The process of charging and discharging the capacitor occurs during a predetermined time period and the number of times the capacitor switches during the time period represents the resistance of the memory element.

Abstract: A variable resistance memory sense amplifier has a built-in offset to assist in switching the sense amplifier when a resistive memory cell is in a low resistance state. The built-in offset can be achieved by varying size, threshold voltage, associated capacity or associated resistance of the transistors within the sense amplifier.

Abstract: A programmable conductor memory cell is read by a sense amplifier but without rewriting the contents of the memory cell. If the programmable contact memory cell has an access transistor, the access transistor is switched off to decouple the cell from the bit line after a predetermined amount of time. The predetermined amount of time is sufficiently long enough to permit the logical state of the cell to be transferred to the bit line and also sufficiently short to isolate the cell from the bit line before the sense amplifier operates. For programmable contact memory cells which do not utilize an access transistor, an isolation transistor may be placed in the bit line located between and serially connection the portion of the bit line from the sense amplifier to the isolation transistor and the portion of the bit line from the isolation transistor to the memory cell.

Abstract: An intergrated charge sensing scheme for sensing the resistance of a resistive memory element is described. The current through a resistive memory cell is used to charge a capacitor coupled to a digit line. The voltage on the capacitor, which corresponds to the voltage on the digit line, is applied to one input of a comparator. When the voltage on the bit line exceeds a predetermined fixed voltage applied to the second input to the comparator less an offset, the comparator switches logic state, charge is drawn off from the capacitor and the capacitor charges again. The process of charging and discharging the capacitor occurs during a predetermined time period and the number of times the capacitor switches during the time period represents the resistance of the memory element.

Abstract: An MRAM memory integrated circuit is disclosed. Resistance, and hence logic state, is determined by discharging a first charged capacitor through an unknown cell resistive element to be sensed at a fixed voltage, and a pair of reference capacitors. The rate at which the parallel combination of capacitors discharge is between the discharge rate associated with a binary ‘1’ and ‘0’ value, and thus offers a reference for comparison.

Abstract: Apparatus and method for data sensing circuitry that uses averaging to sense small differences in signal levels representing data states. The apparatus periodically switches the coupling of input terminals and output terminals of an integrator circuit from a first configuration to a second configuration, where the second configuration changes the polarity of the integrator circuit from the first configuration. The output signals of the integrator circuit are periodically compared, and based on the comparison, output signals having a voltage representative of a value are generated. The values of the output signals are then averaged over time to determine the data state.

Abstract: An offset compensated memory element voltage supply including a differential amplifier with a compensation circuit, and a transistor with a gate connected to the output of the differential amplifier. The compensation circuit of the differential amplifier includes a compensation capacitor that stores a compensation voltage during a calibration phase, and applies the stored compensation voltage to a compensation input of the compensation circuit of the amplifier during a measurement phase. Feedback from a source of the transistor controls the output of the differential amplifier to maintain a standard voltage across a resistive memory element connected to the source during measurement of the resistance of the resistive memory element, and the compensation circuit improves the accuracy of the voltage across the resistive memory element by compensating for an offset voltage of the differential amplifier.

Abstract: A method and apparatus for sensing a resistive state of a resistive memory element includes producing a first current related to a resistance of a memory cell. The first current is added to a second current during a first sensing time and subtracted from a third current during a second sensing time. The first, second and third currents are integrated over time using a capacitor, and a resulting voltage signal on the capacitor is timed using a clocked counter. A time average value of a digital output of the clocked counter is then related to the resistance of the memory cell, and hence to the resistive state of the resistive memory element.

Abstract: An integrated charge sensing scheme for sensing the resistance of a resistive memory element is described. The current through a resistive memory cell is used to charge a capacitor coupled to a digit line. The voltage on the capacitor, which corresponds to the voltage on the digit line, is applied to one input of a comparator. When the voltage on the bit line exceeds a predetermined fixed voltage applied to the second input to the comparator less an offset, the comparator switches logic state, charge is drawn off from the capacitor and the capacitor charges again. The process of charging and discharging the capacitor occurs during a predetermined time period and the number of times the capacitor switches during the time period represents the resistance of the memory element.

Abstract: Apparatus and method for data sensing circuitry that uses averaging to sense small differences in signal levels representing data states. The apparatus periodically switches the coupling of input terminals and output terminals of an integrator circuit from a first configuration to a second configuration, where the second configuration changes the polarity of the integrator circuit from the first configuration. The output signals of the integrator circuit are periodically compared, and based on the comparison, output signals having a voltage representative of a value are generated. The values of the output signals are then averaged over time to determine the data state.

Abstract: A system for determining the logic state of a resistive memory cell element, for example an MRAM resistive cell element. The system includes a controlled voltage supply, an electronic charge reservoir, a current source, and a pulse counter. The controlled voltage supply is connected to the resistive memory cell element to maintain a constant voltage across the resistive element. The charge reservoir is connected to the voltage supply to provide a current through the resistive element. The current source is connected to the charge reservoir repeatedly supply a pulse of current to recharge the reservoir upon depletion of electronic charge from the reservoir, and the pulse counter provides a count of the number of pulses supplied by the current source over a predetermined time. The count represents a logic state of the memory cell element.

Abstract: A phase detector is comprised of two cross-coupled gates which are capable of phase discrimination down to a level of approximately 10 picoseconds. An arbiter circuit, responsive to the cross-coupled gates, generates mutually exclusive UP and DOWN pulse signals. The UP and DOWN pulse signals may be filtered and used to control the delay line of an all digital delay locked or phase locked loop.

Abstract: A variable resistance memory sense amplifier has a built-in offset to assist in switching the sense amplifier when a resistive memory cell is in a low resistance state. The built-in offset can be achieved by varying size, threshold voltage, associated capacity or associated resistance of the transistors within the sense amplifier.

Abstract: A method and system sense the logic state of an unknown initial data bit stored in a selected resistive memory cell. According to one method, a first count representing the logic state of the unknown initial data bit stored in the selected memory cell is generated. A second count is then generated, and represents a data bit having a first known logic state stored in the selected memory cell. A third count is then generated, and represents a data bit having a second known logic state stored in the selected memory cell. The logic state of the initial unknown data bit stored in the selected memory cell is then determined from the first, second, and third counts.

Abstract: A memory device having an array of resistive memory cells with row lines that are maintained at ground potential during quiescent operation of the device. During a read operation, one of the row lines is adapted to be coupled to a non-ground potential. Such coupling configures a memory cell of the array to be sensed in a voltage divider with a column line coupled to a common node of the voltage divider. An amplifier adapted to amplify a voltage detected on the column line is provided and additional circuitry is provided to translate the amplified voltage of the amplifier as a logic state of digital data stored in the device.

Abstract: Apparatus and method for data sensing circuitry that uses averaging to sense small differences in signal levels representing data states. The apparatus periodically switches the coupling of input terminals and output terminals of an integrator circuit from a first configuration to a second configuration, where the second configuration changes the polarity of the integrator circuit from the first configuration. The output signals of the integrator circuit are periodically compared, and based on the comparison, output signals having a voltage representative of a value are generated. The values of the output signals are then averaged over time to determine the data state.

Abstract: Apparatus and methods sense or measure an input current, such as a current indicating a logic state of a memory cell. A sensing circuit includes an amplifier, a capacitor, a current source circuit, a clocked comparator and a clocked counter. The current source circuit operates responsive to an output of the comparator to supply or withdraw current to and from the capacitor during respective charging and discharging intervals. The count in the clocked counter results from periodic comparisons of the capacitor voltage with a reference voltage and is, therefore, related to the logic state of the memory cell. The magnitude of current supplied during charging is less than the magnitude withdrawn during discharging, allowing use of a smaller counter.

Abstract: A method for sensing the resistance value of a resistor-based memory cell. A current is driven through all unused row lines of a memory array while grounding the row line associated with the selected cell, thereby forcing the current through a comparatively low equivalent resistance formed by the parallel coupling of all unselected memory cells and also through a comparatively high resistance of the selected memory cell. The voltage on a column line corresponding to the selected memory cell is then measured to ground. The voltage level corresponds to either one of two resistance values (i.e., signifying either a logic “HIGH” or a logic “LOW”).

Abstract: A phase detector is comprised of two cross-coupled gates which are capable of phase discrimination down to a level of approximately 10 picoseconds. An arbiter circuit, responsive to the cross-coupled gates, generates mutually exclusive UP and DOWN pulse signals. The UP and DOWN pulse signals may be filtered and used to control the delay line of an all digital delay locked or phase locked loop. Methods of operation are also disclosed.