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    • 35. 发明授权
    • Nonvolatile programmable switch
    • 非易失性可编程开关
    • US5818316A
    • 1998-10-06
    • US892641
    • 1997-07-15
    • Jun ShenSaied N. TehraniEugene Chen
    • Jun ShenSaied N. TehraniEugene Chen
    • G11C11/50G11C23/00H01H51/22
    • G11C11/50G11C23/00
    • A nonvolatile programmable switch includes first and second magnetizable conductors having first and second ends, respectively, each of which is a north or south pole. The ends are mounted for relative movement between a first position in which they are in contact and a second position in which they are insulated from each other. The first conductor is permanently magnetized and the second conductor is switchable in response to a magnetic field applied thereto. Programming means are associated with the second conductor for switchably magnetizing the second conductor so that the second end is alternatively a north or south pole. The first and second ends are held in the first position by magnetic attraction and in the second position by magnetic repulsion.
    • 非易失性可编程开关包括分别具有第一和第二端的第一和第二可磁化导体,其中每一个是北极或南极。 端部被安装成在它们接触的第一位置和彼此绝缘的第二位置之间进行相对运动。 第一导体被永久磁化,并且第二导体响应于施加到其上的磁场而可切换。 编程装置与第二导体相关联,用于可切换地磁化第二导体,使得第二端可选地是北极或南极。 第一和第二端通过磁吸引力保持在第一位置,并且在第二位置通过磁力排斥保持。
    • 37. 发明授权
    • MRAM with high GMR ratio
    • MRAM具有高GMR比
    • US5828598A
    • 1998-10-27
    • US862738
    • 1997-05-23
    • Eugene ChenSaied N. TehraniDavid W. Cronk
    • Eugene ChenSaied N. TehraniDavid W. Cronk
    • G11C11/15G11C7/00
    • G11C11/15
    • A magnetic memory cell with increased GMR ratio includes first and second layers of magnetic material stacked in parallel, overlying relationship and separated by a layer of non-magnetic material sandwiched between the first and second layers of magnetic material. Each of the first and second layers is switchable between a first and a second magnetic state and is formed to switch states with the application of a substantially equal magnetic field. A third layer of magnetic material is positioned adjacent one of the first and second layers of magnetic material so as to alter the amount of magnetic field required to switch the states of the one of the first and second layers of magnetic material. The third layer of magnetic material can be formed with a width larger than the cell width to increase the magnetic width of the cell and reduce the magnetic field required to switch states.
    • 具有增加的GMR比率的磁存储单元包括平行堆叠的第一和第二层磁性材料,覆盖关系并由夹在第一和第二磁性层之间的非磁性材料层分开。 第一层和第二层中的每一层可在第一和第二磁状态之间切换,并且形成为通过施加基本相等的磁场来切换状态。 磁性材料的第三层位于第一和第二磁性层之一附近,以改变切换第一和第二磁性层之一的状态所需的磁场的量。 可以形成具有大于单元宽度的宽度的第三层磁性材料以增加单元的磁宽度并减小开关状态所需的磁场。
    • 38. 发明授权
    • Magnetic memory cell with increased GMR ratio
    • 具有增加的GMR比的磁记忆体
    • US5774394A
    • 1998-06-30
    • US862090
    • 1997-05-22
    • Eugene ChenSaied N. TehraniSteven A. Voight
    • Eugene ChenSaied N. TehraniSteven A. Voight
    • G11C11/16H01F10/32G11C11/15
    • B82Y25/00G11C11/16H01F10/3268
    • A first layer of non-magnetic material is positioned on a layer of an oxide of a magnetic material (e.g. NiO). First and second layers of magnetic material are stacked in parallel, overlying relationship and separated by a second layer of non-magnetic material sandwiched therebetween to form a magnetic memory cell. The magnetic memory cell is positioned on the first layer of nonmagnetic material so as to sandwich the first nonmagnetic layer between the oxide and the first magnetic layer of the cell. The first layer of non-magnetic material has a thickness (e.g. approximately 7 .ANG.) which prevents the oxide from pinning the first layer of magnetic material and adapts the first layer of magnetic material to the layer of oxide so as to increase the GMR ratio of the magnetic memory cell.
    • 第一层非磁性材料位于磁性材料(例如NiO)的氧化物层上。 第一和第二层磁性材料层叠在一起,叠置关系并被夹在其间的非磁性材料的第二层隔开以形成磁存储单元。 磁存储单元位于非磁性材料的第一层上,以将第一非磁性层夹在电池的氧化物和第一磁性层之间。 第一层非磁性材料具有厚度(例如约7安格姆),其防止氧化物钉住第一层磁性材料并使第一层磁性材料适应于氧化物层,以便增加GMR比值 磁性存储单元。
    • 40. 发明授权
    • MRAM without isolation devices
    • MRAM无隔离设备
    • US06512689B1
    • 2003-01-28
    • US10051646
    • 2002-01-18
    • Peter K. NajiMark A. DurlamSaied N. Tehrani
    • Peter K. NajiMark A. DurlamSaied N. Tehrani
    • G11C1100
    • G11C7/14G11C11/15
    • A magnetoresistive random access memory architecture free of isolation devices includes a plurality of data columns of non-volatile magnetoresistive elements. A reference column includes non-volatile magnetoresistive elements positioned adjacent to the data column. Each column is connected to a current conveyor. A selected data current conveyor and the reference current conveyor are connected to inputs of a differential amplifier for differentially comparing a data voltage to a reference voltage. The current conveyors are connected directly to the ends of the data and reference bitlines. This specific arrangement allows the current conveyors to be clamped to the same voltage which reduces or removes sneak circuits to substantially reduce leakage currents.
    • 没有隔离装置的磁阻随机存取存储器架构包括多个非易失性磁阻元件的数据列。 参考柱包括与数据列相邻定位的非易失性磁阻元件。 每列连接到当前输送机。 选择的数据流传输器和参考电流传输器连接到差分放大器的输入端,用于将数据电压与参考电压进行差分比较。 目前的输送机直接连接到数据和参考位线的末端。 这种特定的布置允许当前输送机被夹紧到相同的电压,这减少或去除潜行电路以显着减少泄漏电流。