Patent application number | Description | Published |
20110018100 | CAPACITOR, SEMICONDUCTOR DEVICE COMPRISING THE SAME, METHOD FOR MANUFACTURING THE CAPACITOR, AND METHOD FOR MANUFACTURING THE SEMICONDUCTOR DEVICE - Provided is a capacitor that realizes a capacitance insulation film having a large relative permittivity and has sufficient capacitance even if an occupied space is small with a reduced amount of leakage current. A capacitor includes: a capacitance insulation film; and an upper electrode and lower electrode each formed on both sides of the capacitance insulation film. The capacitance insulation film is a complex oxide whose main ingredients are Zr, Al and O with the composition ratio of Zr to Al being set at (1−x): x (0.01≦x≦0.15) and is composed of a dielectric substance having a crystal structure. The lower electrode is composed of a conductor whose surface contiguous to at least the dielectric film has an amorphous structure. | 01-27-2011 |
20110038094 | CAPACITOR - A capacitor includes a plurality of laminated thin layers, has a structure in which a lower electrode layer, a dielectric layer and an upper electrode layer are laminated in sequence, a main material of the lower electrode layer is TiN or ZrN, the lower electrode layer contains oxygen, and concentration of the oxygen contained in the lower electrode layer is less than 21 at %. | 02-17-2011 |
20130175645 | MAGNETORESISTIVE EFFECT ELEMENT AND MAGNETIC RANDOM ACCESS MEMORY USING THE SAME - A magnetoresistive effect element of the present invention includes: a domain wall motion layer, a spacer layer and a reference layer. The domain wall motion layer is made of ferromagnetic material with perpendicular magnetic anisotropy. The spacer layer is formed on the domain wall motion layer and made of non-magnetic material. The reference layer is formed on the spacer layer and made of ferromagnetic material, magnetization of the reference layer being fixed. The domain wall motion layer includes at least one domain wall, and stores data corresponding to a position of the domain wall. An anisotropy magnetic field of the domain wall motion layer is larger than a value in which the domain wall motion layer can hold the perpendicular magnetic anisotropy, and smaller than an essential value of an anisotropy magnetic field of the ferromagnetic material of the domain wall motion layer. | 07-11-2013 |
Patent application number | Description | Published |
20100220540 | SEMICONDUCTOR MEMORY DEVICE CAPABLE OF DRIVING NON-SELECTED WORD LINES TO FIRST AND SECOND POTENTIALS - A semiconductor device includes a word line drive circuit for resetting the word line by driving the word line connected to a memory cell and is constituted so as to switch a reset level of the word line drive circuit, which is set at the time of the reset operation of the word line, between a first potential such as a ground potential and a second potential such as a negative potential. Further, a semiconductor device including a memory cell array formed by arranging a plurality of memory cells and a word line reset level generating circuit for generating a negative potential makes it possible to vary the amount of a current supply of the word line reset level generating circuit when non-selected word lines are set to a negative potential by applying the output of the word line reset level generating circuit to the non-selected word lines, and varies the amount of the current supply of the negative potential in accordance with the operation of the memory cell array. Furthermore, in a semiconductor device including a plurality of power source circuits each having an oscillation circuit and a capacitor, for driving the capacitor by the oscillation signal outputted by the oscillation circuit, at least a part of these power source circuits shares in common the oscillation circuit, and different capacitors are driven by the oscillation signal outputted from the common oscillation circuit. | 09-02-2010 |
20100321983 | SEMICONDUCTOR MEMORY DEVICE CAPABLE OF DRIVING NON-SELECTED WORD LINES TO FIRST AND SECOND POTENTIALS - A semiconductor device includes a word line drive circuit for resetting the word line by driving the word line connected to a memory cell and is constituted so as to switch a reset level of the word line drive circuit, which is set at the time of the reset operation of the word line, between a first potential such as a ground potential and a second potential such as a negative potential. Further, a semiconductor device including a memory cell array formed by arranging a plurality of memory cells and a word line reset level generating circuit for generating a negative potential makes it possible to vary the amount of a current supply of the word line reset level generating circuit when non-selected word lines are set to a negative potential by applying the output of the word line reset level generating circuit to the non-selected word lines, and varies the amount of the current supply of the negative potential in accordance with the operation of the memory cell array. Furthermore, in a semiconductor device including a plurality of power source circuits each having an oscillation circuit and a capacitor, for driving the capacitor by the oscillation signal outputted by the oscillation circuit, at least a part of these power source circuits shares in common the oscillation circuit, and different capacitors are driven by the oscillation signal outputted from the common oscillation circuit. | 12-23-2010 |
20140346518 | MAGNETIC MEMORY INCLUDING MEMORY CELLS INCORPORATING DATA RECORDING LAYER WITH PERPENDICULAR MAGNETIC ANISOTROPY FILM - A magnetic memory includes a magnetic memory, including a ferromagnetic underlayer including a magnetic material, a non-magnetic intermediate layer disposed on the underlayer, a ferromagnetic data recording layer formed on the intermediate layer and having a perpendicular magnetic anisotropy, a reference layer connected to the data recording layer across a non-magnetic layer, and first and second magnetization fixed layers disposed in contact with a bottom face of the underlayer. The data recording layer includes a magnetization free region having a reversible magnetization and opposed to the reference layer, a first magnetization fixed region coupled to a first border of the magnetization free layer and having a magnetization fixed in a first direction, and a second magnetization fixed region coupled to a second border of the magnetization free layer and having a magnetization fixed in a second direction opposite to the first direction. | 11-27-2014 |
Patent application number | Description | Published |
20080291763 | MEMORY DEVICE - A memory device is provided which has: a memory cell to store data; a word line to select the memory cell; a bit line connectable to the selected memory cell; a precharge power supply to supply a precharge voltage to the bit line; a precharge circuit to connect or disconnect the precharge power supply to or from the bit line; and a current limiting element to control the magnitude of a current flowing between the precharge power supply and the bit line at least by two steps according to an operation status. | 11-27-2008 |
20090040849 | SEMICONDUCTOR MEMORY, TEST METHOD OF SEMICONDUCTOR MEMORY AND SYSTEM - Each program circuit outputs an operating specification signal indicating a first or second operating specification according to a program state. Each specification changing circuit is set by a corresponding block selection signal and outputs an operating specification signal indicating a second operating specification. Each timing control circuit changes an output timing of a precharge control signal for a bit line according to the operating specification signal. By the operating specification signal from the specification changing circuit, a failure can be detected in each memory block before programming a program circuit. Thereafter, the failure can be relieved by the program circuit. The output timing of the precharge control signal can be set for each memory block by a block selection signal without wiring a dedicated signal line for setting each specification changing circuit. Accordingly, increase in chip size can be minimized. | 02-12-2009 |
20090040850 | SEMICONDUCTOR MEMORY, TEST METHOD OF SEMICONDUCTOR MEMORY AND SYSTEM - An address switch circuit receives a row address signal supplied to a first address terminal group and a column address signal supplied to a second address terminal group. Further, the address switch circuit receives the row address signal supplied to the second address terminal group and thereafter receives the column address signal supplied to the second address terminal group and supplies the received row address signal and the received column address signal to the row decoder and the column decoder during a second operation mode. The number of semiconductor memories that are tested at once can be increased by executing an operation test of the semiconductor memories in the second operation mode. In addition, it becomes possible to test a semiconductor memory using test assets for other semiconductor memories. Consequently, the test efficiency can be improved, and the test cost can be reduced. | 02-12-2009 |
20090040851 | SEMICONDUCTOR MEMORY, TEST METHOD OF SEMICONDUCTOR MEMORY AND SYSTEM - Each sub word line is coupled to a gate of a transfer transistor of a memory cell. A first switch of a sub word decoder couples the sub word line to a high level voltage line when a main word line is in an activation level. A second switch couples the sub word line to a low level voltage line when the main word line is in an inactivation level. A third switch couples the sub word line to the low level voltage line when a word reset signal line is in an activation level. A reset control circuit disables the inactivation of the main word line or the activation of the word reset signal line during a test mode. One of the second and third switches is forcibly turned off, and thereby, an operation failure of a sub word decoder can be detected easily. | 02-12-2009 |
20100110818 | SEMICONDUCTOR DEVICE - There is provided a semiconductor device including: a temperature sensor detecting temperature; an inner circuit operating when supplied with a power supply voltage from a power supply line; a switch connected between the power supply line and the inner circuit; and a control circuit performing control in which, in a case where the temperature detected by the temperature sensor is higher than a threshold value, the switch is turned on when the inner circuit is in operation and the switch is turned off when the inner circuit is in non-operation, and in a case where the temperature detected by the temperature sensor is lower than the threshold value, the switch is turned on when the inner circuit is in operation and in non-operation. | 05-06-2010 |
Patent application number | Description | Published |
20110167307 | SEMICONDUCTOR MEMORY AND METHOD FOR TESTING THE SAME - A semiconductor memory in which arbitrary operation mode information is set in a plurality of CRs at test time and by which a test cost is reduced and a method for testing such a semiconductor memory. The plurality of CRs hold operation mode information. When a CR control circuit detects write commands to write to an address for register access or read commands to read from the address for register access in a predetermined order, the CR control circuit updates the operation mode information for each of the plurality of CRs on a time division basis. A command generation section generates the write commands, the read commands, or a test start command by which write operation or read operation does not occur, in response to a control signal from the outside. In addition, the command generation section regenerates the test start command each time the plurality of CRs are updated. A data pad compression circuit changes the operation mode information to be written to the plurality of CRs by using test data inputted to part of data pads, after inverting the test data or in its original condition according to a code, as data for a rest of the data pads, the code represented by part of an address inputted at the time of the test start command being sent. | 07-07-2011 |
20110255347 | SEMICONDUCTOR MEMORY - A semiconductor memory includes a sense amplifier which operates in response to activation of a sense amplifier enable signal and determines logic held in a nonvolatile memory cell according to a voltage of a bit line, the voltage varying with a cell current flowing through a real cell transistor, a replica cell transistor coupled in series between a first node and a ground line, and a timing generation unit. The timing generation unit activates the sense amplifier enable signal when the first node coupled to the ground line via the replica cell transistor changes from a high level to a low level. The replica cell transistor includes a control gate receiving a constant voltage and a floating gate coupled to the control gate. Thus, the activation timing of the sense amplifier can be optimally set in accordance with the electric characteristic of the memory cell. | 10-20-2011 |
20120057420 | SEMICONDUCTOR MEMORY AND METHOD FOR TESTING THE SAME - A semiconductor memory in which arbitrary operation mode information is set in a plurality of CRs at test time. When a CR control circuit detects write commands to write to an address or read commands to read from the address in a predetermined order, the CR control circuit updates the operation mode information for each of the plurality of CRs on a time division basis. A command generation section generates the write commands, the read commands, or a test start command in response to a control signal from the outside. A data pad compression circuit changes the operation mode information to be written to the plurality of CRs by using test data inputted to part of data pads, after inverting the test data or in its original condition according to a code, as data for a rest of the data pads. | 03-08-2012 |
20130135940 | SEMICONDUCTOR MEMORY - A semiconductor memory includes a sense amplifier which operates in response to activation of a sense amplifier enable signal and determines logic held in a nonvolatile memory cell according to a voltage of a bit line, the voltage varying with a cell current flowing through a real cell transistor, a replica cell transistor coupled in series between a first node and a ground line, and a timing generation unit. The timing generation unit activates the sense amplifier enable signal when the first node coupled to the ground line via the replica cell transistor changes from a high level to a low level. The replica cell transistor includes a control gate receiving a constant voltage and a floating gate coupled to the control gate. Thus, the activation timing of the sense amplifier can be optimally set in accordance with the electric characteristic of the memory cell. | 05-30-2013 |