摘要:
Magneto-resistive memory bit cells in an array have high or low resistance states storing logic values. During read operations, a bias source is coupled to an addressed memory word, coupling a parameter related to cell resistance to a sense amplifier at each bit position. The sense amplifiers determine whether the parameter value is greater or less than a reference value between the high and low resistance states. The reference value is derived by averaging or splitting a difference of resistances of reference cells at high and/or low resistance states. Bias current is conducted over address lines with varying resistance, due to different distances between the sense amplifiers and addressed memory words, which is canceled by inserting into the comparison circuit a resistance from a dummy addressing array, equal to the resistance of the conductor addressing the selected word line and bit position.
摘要:
A magnetoresistive memory has first and second magnetic tunnel junction (MTJ) elements operated differentially, each with a pinned magnetic layer and a free magnetic layer that can have field alignments that are parallel or anti-parallel, producing differential high and low resistance states representing a bit cell value. Writing a high resistance state to an element requires an opposite write current polarity through the pinned and free layers, and differential operation requires that the two MTJ elements be written to different resistance states. One aspect is to arrange or connect the layers in normal and reverse order relative to a current bias source, thereby achieving opposite write current polarities relative to the layers using the same current polarity relative to the current bias source. The differentially operated MTJ elements can supplement or replace single MTJ elements in a nonvolatile memory bit cell array.
摘要:
A magnetoresistive memory stores logic values in high and low resistance states of magnetic tunnel junction elements. Instead of comparing the resistance of elements to a fixed threshold to discern a logic state, the resistances of elements are self-compared before and after imposing a low resistance state. A measure of the resistance of an element in its unknown resistance state is stored, for example by charging a capacitor to a voltage produced when read current bias is applied. Then the element is written into its low resistance state and read current bias is applied again to develop another voltage, representing the low resistance state. A comparison circuit using current summing and an offset providing a minimum difference tolerance determines whether the resistance of the element was changed or remained the same. This determines the logic state of the element.
摘要:
A reference circuit discerns high or low resistance states of a magneto-resistive memory element such as a bit cell. The reference circuit has magnetic tunnel junction (MTJ) elements in complementary high and low resistance states RH and RL, providing a voltage, current or other parameter for comparison against the memory element to discern a resistance state. The parameter represents an intermediate resistance straddled by RH and RL, such as an average or twice-parallel resistance. The reference MTJ elements are biased from the same read current source as the memory element but their magnetic layers are in opposite order, physically or by order along bias current paths. The reference MTJ elements are biased to preclude any read disturb risk. The memory bit cell is coupled to the same bias polarity source along a comparable path, being safe from read disturb risk in one of its two possible logic states.
摘要:
A word line driver of a semiconductor memory includes logic circuitry for coupling a word line to a first node set at a first voltage level when the word line driver is in a first state or to a second node set at a second voltage level when the word line driver is in a second state. A capacitor is configured to be charged to a third voltage level that is greater than the first and second voltage levels. First and second transistors are configured to selectively couple the word line to the capacitor and to a third node set at a fourth voltage level when the word line driver is in a third state. The fourth voltage level is greater than the first voltage level and less than the second voltage level.
摘要:
A resistance-based random access memory circuit includes a first data line, a second data line, a plurality of memory cells, a first driving unit, and a second driving unit. The memory cells are arranged one following another in parallel with the first and second data lines. Each of the memory cells are coupled between the first data line and the second data line. The first driving unit is coupled with first ends of the first and second data lines. The first driving unit is configured to electrically couple one of the first data line and the second data line to a first voltage node. The second driving unit is coupled with second ends of the first and second data lines. The second driving unit is configured to electrically couple the other one of the first data line and the second data line to a second voltage node.
摘要:
A read architecture for reading random access memory (RAM) cells includes a multi-level sense amplifier, the multi-level sense amplifier including a plurality of sense amplifiers, each sense amplifier having a respective sense threshold and a respective sense output, and a storage module coupled to the multi-level sense amplifier for storing the sense outputs of the multi-level sense amplifier. The storage module stores a first set of sense outputs corresponding to a first read of an RAM cell and stores a second set of sense outputs corresponding to a second read of the RAM cell. The architecture also includes a decision module for comparing the first and second set of sense outputs and determining a data state of the RAM cell based on the comparison.
摘要:
A read architecture for reading random access memory (RAM) cells includes a multi-level sense amplifier, the multi-level sense amplifier including a plurality of sense amplifiers, each sense amplifier having a respective sense threshold and a respective sense output, and a storage module coupled to the multi-level sense amplifier for storing the sense outputs of the multi-level sense amplifier. The storage module stores a first set of sense outputs corresponding to a first read of an RAM cell and stores a second set of sense outputs corresponding to a second read of the RAM cell. The architecture also includes a decision module for comparing the first and second set of sense outputs and determining a data state of the RAM cell based on the comparison.
摘要:
A magnetoresistive memory stores logic values in high and low resistance states of magnetic tunnel junction elements. Instead of comparing the resistance of elements to a fixed threshold to discern a logic state, the resistances of elements are self-compared before and after imposing a low resistance state. A measure of the resistance of an element in its unknown resistance state is stored, for example by charging a capacitor to a voltage produced when read current bias is applied. Then the element is written into its low resistance state and read current bias is applied again to develop another voltage, representing the low resistance state. A comparison circuit using current summing and an offset providing a minimum difference tolerance determines whether the resistance of the element was changed or remained the same. This determines the logic state of the element.
摘要:
A memory includes a word line, a charge pump coupled to the word line, and a charge pump control circuit coupled to the charge pump. The charge pump control circuit is configured to turn on the charge pump if the word line voltage is lower than a first threshold voltage and turn off the charge pump if the word line voltage is higher than a second threshold voltage.