Patent application number | Description | Published |
20080239865 | SEMICONDUCTOR MEMORY DEVICE - The semiconductor memory device according to the invention is provided with a first delay circuit block that generates a timing signal of a circuit block to be operated in column cycle time determined by an external input command cycle and a second delay circuit block the whole delay of which is controlled to be a difference between access time determined by an external clock and the latency and column cycle time. These delay circuit blocks are controlled so that the delay of each delay circuit is a suitable value in accordance with column latency and an operating frequency, and each delay is controlled corresponding to dispersion in a process and operating voltage and a change of operating temperature. | 10-02-2008 |
20090059702 | Sense amplifier for semiconductor memory device - A direct sense amplifier of the present invention incorporates and isolates: an MOS transistor serving as a differential pair and having a gate connected to a bit line; and an MOS transistor controlled by a column select line wired between RLIO lines in a bit-line direction, and further connects a source of the MOS transistor serving as the differential pair to a common source line wired in the word-line direction. Since the direct sense amplifier only in a select map is activated by the column select line and the common source line during an read operation, power consumption is significantly reduced during the read operation. Also, since a parasitic capacitance of the MOS transistor serving as the differential pair is separated from the local IO line, a load capacity of the local IO line is reduced and the read operation is speeded up. In addition, during the read operation, a data pattern dependency of the load capacity of the local IO line is reduced and a post-manufacture test is easily made. | 03-05-2009 |
20090066390 | TIMING CONTROL CIRCUIT AND SEMICONDUCTOR STORAGE DEVICE - Disclosed is a timing control circuit which receives a first clock having a period T | 03-12-2009 |
20090086551 | Semiconductor device - Disclosed is a semiconductor device in which In case a data group output from a first output pin in a first word configuration is output from the first output pin and a second output pin in a second word configuration, and a data group output from a third output pin in a first word configuration is output from the third output pin and a fourth output pin in a second word configuration, the second output pin is arranged adjacent to the first output pin, and the fourth output pin is arranged adjacent to the third output pin. | 04-02-2009 |
20090102524 | TIMING CONTROL CIRCUIT AND SEMICONDUCTOR STORAGE DEVICE - Disclosed is a timing control circuit that receives a first clock having a period T1, a group of second clocks of L different phases spaced apart from each other at substantially equal intervals and selection signals m, n supplied thereto and generates a fine timing signal delayed from the rising edge of the first clock signal by a delay td of approximately td=m·T1+n·(T2/L). The timing control circuit includes a coarse delay circuit and a fine delay circuit. The coarse delay circuit includes a counter for counting a rising edge of the first clock signal after an activate signal is activated and generates a coarse timing signal whose amount of delay from the first clock signal is approximately m·T1. The fine delay circuit comprises L-number of multiphase clock control delay circuits disposed in parallel, delays by n·T2/L the timing of sampling of the coarse timing signal by respective clocks of the group of L-phase second clocks, and takes the OR among the resulting delayed pulses to thereby produce the fine timing signal. | 04-23-2009 |
20090116309 | SEMICONDUCTOR DEVICE - A column circuit that amplifies signals read from a sense amplifier array SAA to local input/output lines LIO in sub-amplifiers SAMP to transfer the amplified signals to main input/output lines MIO is provided. A current control circuit IC that can set one of two kinds of currents according to read enable signals RD | 05-07-2009 |
20090116363 | INFORMATION STORAGE DEVICE AND STORAGE MEDIA - In an information memory apparatus having minute areas for storing information arranged in x, y and z directions three-dimensionally, parallel rays are irradiated to a memory area MA in a direction perpendicular to a z-axis to take projection images of the memory area MA while rotating the memory area MA around the z-axis little by little. The light rays irradiated at this time have a size which covers at least a direction of an x-y plane of the memory area. A computation unit PU finds data and addresses of minute areas distributed three-dimensionally by performing computation based upon the principle of computer tomography on the projection images. As for data writing, a change is given to optical transmissivity or light emission characteristics by irradiating laser light focused by a lens OL placed outside the memory area to a desired minute area and causing heat denaturation within the pertinent minute area. | 05-07-2009 |
20090129136 | SEMICONDUCTOR MEMORY DEVICE - If memory cell blocks are laid out in a conventional manner to create a memory chip with a capacity of an odd power of 2 by using memory cells whose aspect ratio is 1:2, the chip will take a 1:1 shape and become difficult to enclose in a package of a 1:2 shape. In addition, such conventional layout of memory cell blocks to form the 1:2 shape causes the area of a peripheral circuit region to be limited by the memory blocks, pads to be arranged collectively in the central section of the chip, and wiring to become dense during the enclosure of the chip in the package. | 05-21-2009 |
20090129173 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - The semiconductor integrated circuit device includes: a first latch which can hold an output signal of the X decoder and transfer the signal to the word driver in a post stage subsequent to the X decoder; a second latch which can hold an output signal of the Y decoder and transfer the signal to the column multiplexer in the post stage subsequent to the Y decoder; and a third latch which can hold an output signal of the sense amplifier and transfer the signal to the output buffer in the post stage subsequent to the sense amplifier. The structure makes it possible to pipeline-control a series of processes for reading data stored in the non-volatile semiconductor memory, and enables low-latency access even with access requests from CPUs conflicting. | 05-21-2009 |
20090146716 | Timing control circuit, timing generation system, timing control method and semiconductor memory device - A timing control circuit DLY | 06-11-2009 |
20090175064 | SEMICONDUCTOR MEMORY DEVICE WITH REDUCED COUPLING NOISE - A semiconductor device includes a plurality of word lines, a plurality of bit lines, a plurality of memory cells provided at the intersections of the plurality of word lines and the plurality of bit lines and each of that includes a MIS transistor and a memory element, a decoder circuit for selecting a plurality of word lines, and a sense-amplifier circuit for determining information that is read from any of the plurality of memory cells to any of the plurality of bit lines, wherein a twist connector for switching the wiring order of the plurality of word lines is provided and level-stabilizing circuits, for supplying the potential level of a non-selected state to the plurality of word lines in the non-selected state are arranged in the area below the twist connector. | 07-09-2009 |
20090180343 | SEMICONDUCTOR MEMORY DEVICE - A sense amplifier is constructed to reduce the occurrence of malfunctions in a memory read operation, and thus degraded chip yield, due to increased offset of the sense amplifier with further sealing down. The sense amplifier circuit is constructed with a plurality of pull-down circuits and a pull-up circuit, and a transistor in one of the plurality of pull-down circuits has a constant such as a channel length or a channel width larger than that of a transistor in another pull-down circuit. The pull-down circuit with a larger constant of a transistor is first activated, and then, the other pull-down circuit and the pull-up circuit are activated to perform the read operation. | 07-16-2009 |
20090262568 | SEMICONDUCTOR MEMORY DEVICE - A resistance variable memory reduces the nonuniformity of resistance values after programming, so that a rewrite operation can be performed on a memory cell at high speed. A reference resistor is connected in series with the resistance variable memory cell, and a sensor amplifier detects whether the potential at an intermediate node between the memory cell and the reference resistor exceeds a given threshold voltage, so as to stop the write operation based on a detection result. | 10-22-2009 |
20090262574 | SEMICONDUCTOR DEVICE - A highly reliable large capacity phase change memory module is realized. A semiconductor device according to the present invention includes a memory array having a structure in which a storage layer using a chalcogenide material and a memory cell constituted of a diode are stacked, and an initialization condition and a rewriting condition are changed in accordance with the layer where a selected memory cell is located. A current mirror circuit is selected in accordance with an operation, and at the same time, the initialization condition and the rewriting condition (here, reset condition) are changed in accordance with the operation by a control mechanism of the reset current in a voltage selection circuit and a current mirror circuit. | 10-22-2009 |
20090273961 | SEMICONDUCTOR DEVICE - A technique for increasing rewriting current without increasing a power supply voltage and also reducing location dependency inside a memory array of a resistive state after the rewriting is provided in a resistance change memory in which the resistance value of a memory cell changes between logical values “1” and “0”. In the resistance change memory, bit lines are formed into a layered structure, the bit line select switches for connecting to the global bit line are provided at both ends of the local bit line, and a control method of the bit line select switches is changed in the writing and the reading, thereby realizing the optimum array configurations for each of them. More specifically, in the writing and the reading, two current paths are provided in parallel by turning ON the bit line select switches simultaneously. | 11-05-2009 |
20100109756 | SEMICONDUCTOR DEVICE - A substrate voltage control technique that prevents the operating speed from being decreased and suppresses a leakage current due to a lower threshold voltage with respect to a low voltage use. Since a center value of the threshold voltages is detected by plural replica MOS transistors, and a substrate voltage is controlled to control a center value of the threshold voltages, thereby making it possible to satisfy a lower limit of the operating speed and an upper limit of a leakage current of the entire chip. On the other hand, the substrate voltage is dynamically controlled during the operation of the chip, thereby making it possible to decrease the center value of the threshold voltages when the chip operates to improve the speed, and to increase the center value of the threshold voltages after the operation of the chip to reduce the leakage current of the entire chip. | 05-06-2010 |
20100155921 | SEMICONDUCTOR APPARATUS - The need for mediation operation is eliminated by adoption of a connection topology in which a circuit for executing one transmission (TR | 06-24-2010 |
20110044092 | SEMICONDUCTOR MEMORY DEVICE - A resistance variable memory reduces the nonuniformity of resistance values after programming, so that a rewrite operation can be performed on a memory cell at high speed. A reference resistor is connected in series with the resistance variable memory cell, and a sensor amplifier detects whether the potential at an intermediate node between the memory cell and the reference resistor exceeds a given threshold voltage, so as to stop the write operation based on a detection result. | 02-24-2011 |
20110079858 | SEMICONDUCTOR MEMORY DEVICE HAVING A SENSE AMPLIFIER CIRCUIT WITH DECREASED OFFSET - A semiconductor memory device having high integration, low power consumption and high operation speed. The memory device includes a sense amplifier circuit having plural pull-down circuits and a pull-up circuit. A transistor constituting one of the plural pull-down circuits has a larger constant than that of a transistor constituting the other pull-down circuits, for example, a channel length and a channel width. The pull-down circuit having the larger constant transistor is activated earlier than the other pull-down circuits and the pull-up circuit, which are activated to conduct reading. The data line and the earlier driven pull-down circuit are connected by an NMOS transistor and the NMOS transistor is activated or inactivated to control the activation or inactivation of the pull-down circuit. | 04-07-2011 |
20110103136 | SEMICONDUCTOR MEMORY DEVICE - A sense amplifier is constructed to reduce the occurrence of malfunctions in a memory read operation, and thus degraded chip yield, due to increased offset of the sense amplifier with further sealing down. The sense amplifier circuit is constructed with a plurality of pull-down circuits and a pull-up circuit, and a transistor in one of the plurality of pull-down circuits has a constant such as a channel length or a channel width larger than that of a transistor in another pull-down circuit. The pull-down circuit with a larger constant of a transistor is first activated, and then, the other pull-down circuit and the pull-up circuit are activated to perform the read operation. | 05-05-2011 |
20110110150 | SEMICONDUCTOR DEVICE - A highly reliable large capacity phase change memory module is realized. A semiconductor device according to the present invention includes a memory array having a structure in which a storage layer using a chalcogenide material and a memory cell constituted of a diode are stacked, and an initialization condition and a rewriting condition are changed in accordance with the layer where a selected memory cell is located. A current mirror circuit is selected in accordance with an operation, and at the same time, the initialization condition and the rewriting condition (here, reset condition) are changed in accordance with the operation by a control mechanism of the reset current in a voltage selection circuit and a current mirror circuit. | 05-12-2011 |
20110292722 | SEMICONDUCTOR DEVICE - A highly reliable large capacity phase change memory module is realized. A semiconductor device according to the present invention includes a memory array having a structure in which a storage layer using a chalcogcnidc material and a memory cell constituted of a diode are stacked, and an initialization condition and a rewriting condition are changed in accordance with the layer where a selected memory cell is located. A current mirror circuit is selected in accordance with an operation, and at the same time, the initialization condition and the rewriting condition (here, reset condition) are changed in accordance with the operation by a control mechanism of the reset current in a voltage selection circuit and a current mirror circuit. | 12-01-2011 |
20120092921 | SEMICONDUCTOR DEVICE - A technique for increasing rewriting current without increasing a power supply voltage and also reducing location dependency inside a memory array of a resistive state after the rewriting is provided in a resistance change memory in which the resistance value of a memory cell changes between logical values “1” and “0”. In the resistance change memory, bit lines are formed into a layered structure, the bit line select switches for connecting to the global bit line are provided at both ends of the local bit line, and a control method of the bit line select switches is changed in the writing and the reading, thereby realizing the optimum array configurations for each of them. More specifically, in the writing and the reading, two current paths are provided in parallel by turning ON the bit line select switches simultaneously. | 04-19-2012 |
20120135548 | SEMICONDUCTOR DEVICE - A highly reliable large capacity phase change memory module is realized. A semiconductor device according to the present invention includes a memory array having a structure in which a storage layer using a chalcogenide material and a memory cell constituted of a diode are stacked, and an initialization condition and a rewriting condition are changed in accordance with the layer where a selected memory cell is located. A current mirror circuit is selected in accordance with an operation, and at the same time, the initialization condition and the rewriting condition (here, reset condition) are changed in accordance with the operation by a control mechanism of the reset current in a voltage selection circuit and a current mirror circuit. | 05-31-2012 |
20120217620 | SEMICONDUCTOR APPARATUS - The need for mediation operation is eliminated by adoption of a connection topology in which a circuit for executing one transmission (TR | 08-30-2012 |