Patent application number | Description | Published |
20080237695 | SEMICONDUCTOR MEMORY DEVICE - This disclosure concerns a memory comprising a charge trapping film; a gate insulating film; a back gate on the charge trapping film; a front gate on the gate insulating film; and a body region provided between a drain and a source, wherein the memory includes a first storage state for storing data depending on the number of majority carriers in the body region and a second storage state for storing data depending on the amount of charges in the charge trapping film, and the memory is shifted from the first storage state to the second storage state by converting the number of majority carriers in the body region into the amount of charges in the charge trapping film or from the second storage state to the first storage state by converting the amount of charges in the charge trapping film into the number of majority carriers in the body region. | 10-02-2008 |
20080239789 | SEMICONDUCTOR MEMORY DEVICE - The disclosure concerns a semiconductor memory device comprising a semiconductor layer; a charge trap film in contact with a first surface of the semiconductor layer; a gate insulating film in contact with a second surface of the semiconductor layer, the second surface being opposite to the first surface; a back gate electrode in contact with the charge trap film; a gate electrode in contact with the gate insulating film; a source and a drain formed in the semiconductor layer; and a body region provided between the drain and the source, the body region being in an electrically floating state, wherein a threshold voltage or a drain current of a memory cell including the source, the drain, and the gate electrode is adjusted by changing number of majority carriers accumulated in the body region and a quantity of charges trapped into the charge trap film. | 10-02-2008 |
20080251830 | SEMICONDUCTOR STORAGE DEVICE AND DRIVING METHOD THEREOF - This disclosure concerns a semiconductor storage device comprising a semiconductor layer provided on the insulation layer provided on the semiconductor substrate; a source layer and a drain layer provided in the semiconductor layer; a body provided between the source layer and the drain layer, the body being in an electrically floating state; an emitter layer contacting with the source layer, the emitter layer having an opposite conductive type to the source layer; a word line including the source layer, the drain layer, and the body, the word line being provided to memory cells arrayed in a first direction in a plurality of tow-dimensionally arranged memory cells; a source line connected to the source layers of the memory cells arrayed in the first direction; and a bit line connected to the drain layers of the memory cells arrayed in a second direction intersecting the first direction. | 10-16-2008 |
20090015310 | SEMICONDUCTOR DEVICE - A semiconductor device transfers first data to a circuit block. The semiconductor device is provided with a storage circuit configured to store the first data, a shift register configured to set the first data, a transfer circuit configured to transfer the first data from the shift register to the circuit block, a first input terminal configured to receive a first signal indicating the end of a transfer operation, a resetting signal-generating circuit configured to generate a resetting signal for resetting the shift register based on the first signal, a setting signal-generating circuit configured to generate a setting signal for setting the first data in the shift register again after the shift register is reset, and an output circuit configured to externally output the first data that has been set again. | 01-15-2009 |
20090016134 | SEMICONDUCTOR MEMORY DEVICE - This disclosure concerns a semiconductor memory comprising memory cells; word lines connected to gates of the cells; n bit lines connected to the memory cells; sense amplifiers connected to the bit lines; refresh cells provided to correspond to the word lines, respectively, and provided to correspond to k bit lines, where k is a natural number smaller than n, one of the refresh cells storing therein refresh data indicating whether to perform a refresh operation on k memory cells out of the plural memory cells connected to a corresponding word line out of the plural word lines and connected to the k bit lines, respectively; a refresh sense amplifier reading the refresh data; and a refresh selection part provided to correspond to the refresh sense amplifier, and selecting whether to perform the refresh operation on the k memory cells according to the refresh data read by the refresh sense amplifier. | 01-15-2009 |
20090086559 | SEMICONDUCTOR MEMORY DEVICE AND DRIVING METHOD THEREOF - This disclosure concerns a memory including a memory cell including a drain, a source and a floating body, wherein when a refresh operation is executed, a first current is carried from the drain or the source to the body and a second current is carried from the body to the second gate electrode by applying a first voltage and a second voltage to the first gate electrode and the second gate electrode, the first voltage and the second voltage being opposite in polarity to each other, and a state of the memory cell is covered to an stationary state in which an amount of the electric charges based on the first current flowing in one cycle of the refresh operation is almost equal to an amount of the electric charges based on the second current flowing in one cycle of the refresh operation. | 04-02-2009 |
20090091972 | SEMICONDUCTOR MEMORY DEVICE AND DRIVING METHOD THEREOF - The disclosure concerns a memory including a floating body provided in a semiconductor layer between a source and a drain and storing data; a first gate dielectric provided on a first surface of the body; a first gate electrode provided on the first surface via the first gate dielectric; a second gate dielectric provided on a second surface of the body different from the first surface; a second gate electrode provided on the second surface via the second gate dielectric; a driver driving the first gate electrode and the second gate electrode; and a sense amplifier writing into the memory cells first data showing a sate of a small charge amount in a state that a voltage of the second gate electrode at a data writing time is brought closer to a potential of the source layer than a voltage of the second gate electrode at a data holding time. | 04-09-2009 |
20090152610 | SEMICONDUCTOR MEMORY DEVICE - This disclosure concerns a semiconductor memory device including bit lines; word lines; semiconductor layers arranged to correspond to crosspoints of the bit lines and the word lines; bit line contacts connecting between a first surface region and the bit lines, the first surface region being a part of a surface region of the semiconductor layers directed to the word lines and the bit lines; and a word-line insulating film formed on a second surface region adjacent to the first surface region, the second surface region being a part of out of the surface region, the word-line insulating film electrically insulating the semiconductor layer and the word line, wherein the semiconductor layer, the word line and the word-line insulating film form a capacitor, and when a potential difference is given between the word line and the bit line, the word-line insulating film is broken in order to store data. | 06-18-2009 |
20090213672 | LOGIC EMBEDDED MEMORY HAVING REGISTERS COMMONLY USED BY MACROS - A semiconductor integrated circuit device includes a plurality of memory macros, macro-common register block, and memory macro operation setting circuits. The macro-common register block has macro-common registers which are provided outside the plurality of memory macros and supply memory macro operation specifying signals to the plurality of memory macros. The memory macro operation setting circuits are respectively provided in the plurality of memory macros and are each configured to set an operating state of the memory macro in response to the memory macro operation specifying signal supplied from the macro-common register. | 08-27-2009 |
20090251959 | SEMICONDUCTOR MEMORY DEVICE AND DRIVING METHOD THEREOF - A memory includes: memory cells including floating bodies, wherein in a data holding state, a potential of the first gate electrode is set to be higher than one of potentials of the source and drain layer and lower than the other of the potentials of the source and drain layer so that electric charges flow in the body region, and a potential of the second gate electrode is set to be higher as an absolute value than those of potentials of the source layer, drain layer, and first gate electrode so that electric charges flow from the body region, and in the data holding state, the memory cell is kept in a stationary state that a first amount of the electric charges flowing in the body region per unit time is substantially the same as a second amount of the electric charges flowing from the body region per unit time. | 10-08-2009 |
20100067284 | Semiconductor Memory Device - A memory cell array includes a plurality of memory cells arranged at intersections of bit line pairs and word lines. Each memory cell includes a first transistor having one main electrode connected to a first bit line, a second transistor having one main electrode connected to a second bit line, a first node electrode for data-storage connected to the other main electrode of the first transistor, a second node electrode for data-storage connected to the other main electrode of the second transistor, and a shield electrode formed surrounding the first and second node electrodes. The first and second transistors have respective gates both connected to an identical word line, and the first and second bit lines are connected to an identical sense amp. The first and second node electrodes, the first and second bit lines, the word line and the shield electrode are isolated from each other using insulating films. | 03-18-2010 |
20100074042 | SEMICONDUCTOR MEMORY DEVICE - A memory may includes: word lines; bit lines; memory array blocks including memory cells, each memory array block being a unit of a data read operation or a data write operation; a row decoder configured to selectively drive the word lines; sense amplifiers configured to detect data; and an access counter provided for each memory cell block, the access counter counting the number of times of accessing the memory array blocks in order to read data or write data, and activating a refresh request signal when the number of times of access reaches a predetermined number of times, wherein during an activation period of the refresh request signal of the access counter, the row decoder periodically and sequentially activates the word lines of the memory array blocks corresponding to the access counter, and the sense amplifier performs a refresh operation of the memory cells connected to the activated word lines. | 03-25-2010 |
20100177573 | SEMICONDUCTOR MEMORY DEVICE AND SEMICONDUCTOR MEMORY DEVICE DRIVING METHOD - A memory includes a latch circuit latching data from a first and a second bit lines to a first and a second sense nodes; a first data line reading-out the data from the first sense node to an outside; a second data line reading-out the data from the second sense node to the outside; a first write transistor connected between the first bit line and the first or second data line without via the first and second sense node; and a second write transistor connected between the second bit line and the first or second data line without via the first and second sense node, wherein in a write operation, the first write transistor transmits the data from the first or second data line to the first bit line, or the second write transistor transmits the data from the first or second data line to the second bit line. | 07-15-2010 |
20100213991 | DELAY-LOCKED LOOP CIRCUIT AND METHOD FOR SYNCHRONIZATION BY DELAY-LOCKED LOOP - A delay-locked loop circuit has an adjustment period setting module configured to set a rough adjustment period and a fine adjustment period, a delay time adjustment module configured to increase or decrease a delay stage by a first unit or by a second unit based on a delay stages setting value to generate a second signal by delaying a first signal, a delay module configured to generate a third signal by delaying the second signal by a predetermined time, a phase comparator configured to detect a phase difference between the first signal and the third signal, and a delay controller configured to generate the delay stages setting value based on the phase difference in order to increase or decrease the number of delay stages by the first unit when the rough adjustment period is set and to increase or decrease the number of delay stages by the second unit when the fine adjustment period is set. | 08-26-2010 |
20110128063 | SEMICONDUCTOR INTEGRATED CIRCUIT - According to one embodiment, a semiconductor integrated circuit includes first and second level shift circuits. The first level shifter includes a plurality of transistors and is connected to a power source voltage supply node of a first power source system and to which a first signal of a second power source system and a level inversion signal of the first signal are input. The second level shifter includes a plurality of transistors and is connected to the power source voltage supply node of the first power source system and to which the level inversion signal of the first signal of the second power source system and an output signal of the first level shifter are input. The first and second level shifters have substantially the same circuit configuration and driving abilities of corresponding ones of the transistors in the first and second level shifters are substantially set equal. | 06-02-2011 |
20110128073 | SEMICONDUCTOR INTEGRATED CIRCUIT - According to one embodiment, a semiconductor integrated circuit includes first to six transistors and a constant current source circuit. The first and second transistors form a current mirror circuit connected to a first power source node. The third and fourth transistors form a differential pair circuit. The third and fourth transistors receive first and second external signals at their gates, respectively. The constant current source circuit has one end connected to source terminals of the third and fourth transistors, and the other end connected to a second power source node. The fifth and sixth transistors form a current pathway between a common gate node of the first and second transistors and the constant current source circuit. The gate of fifth transistor is connected to a signal output node. The gate of sixth transistor receives a signal of logic opposite to a signal to be obtained at the signal output node. | 06-02-2011 |
20110133791 | OUTPUT BUFFER CIRCUIT, INPUT BUFFER CIRCUIT, AND INPUT/OUTPUT BUFFER CIRCUIT - An output buffer circuit in accordance with an embodiment comprises a plurality of buffer circuits, each of the buffer circuits including a transistor operative to change an output signal of an output terminal in response to a change in an input signal, the output buffer circuit being configured to enable the plurality of buffer circuits to be driven selectively. Each of the plurality of buffer circuits includes a plurality of output transistors having respective current paths formed in parallel to one another between a fixed voltage terminal supplying a certain fixed voltage and an output terminal, and being selectively rendered in an operable state in accordance with a control signal provided from external. The plurality of output transistors included in each of the plurality of buffer circuits are formed having a certain size ratio. | 06-09-2011 |
20110148211 | SEMICONDUCTOR DEVICE - In a semiconductor device according to the embodiment, a core circuit is an IC. A peripheral circuit includes a driver supplied with voltages from an internal power source and an external power source and outputting data transferred from the core circuit, and a fetch portion transferring the digital data to the driver. A first power source supplies an internal voltage to the driver via a power source line. A second power source includes current driving strings each including a current driving element and a switching element connected in series between the external power source and the power source line. The second power source supplies a current to the power source line separately from the first power source line by driving the current driving strings. A power source controller controls the second power source to drive the current driving strings when a logic transition occurs among consecutive bits of the data. | 06-23-2011 |
20110304377 | SEMICONDUCTOR INTEGRATED CIRCUIT - A constant current source circuit includes one end connected to a second node as sources of third and fourth transistors, and the other end connected to a second power supply node that supplies a second voltage different from a first voltage. The clamp circuit is configured to form a current path between the second node and the second power supply node. It adjusts the potential of the second node to a certain potential when a first external input signal is switched from a first state to a second state. | 12-15-2011 |
20120068256 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE - An dielectric film is formed above the semiconductor substrate. A first conductive layer is formed in the dielectric film and extending in a first direction. The first conductive layer is connected to a first select transistor. A second conductive layer formed in the dielectric film and extending in the first direction. The second conductive layer is connected to a second select transistor. A semiconductor layer is connected to both the first and second conductive layers and functioning as a channel layer of a memory transistor. A gate-insulating film is formed on the semiconductor layer. The gate-insulating film includes a charge accumulation film as a portion thereof. A third conductive layer is surrounded by the gate-insulating film. | 03-22-2012 |
20130194867 | SEMICONDUCTOR MEMORY DEVICE - A volatile memory area includes a plurality of second memory cells, a third select transistor, and a fourth select transistor. The plurality of second memory cells are electrically connected in series, and stacked above the substrate. The third select transistor is connected to one end of the plurality of second memory cells, and connected to a second bit line. The fourth select transistor is connected to the other end of the plurality of second memory cells, and unconnected to a second source line. A controller is configured to supply a first voltage to all gates of the second memory cells. The first voltage is capable of turning on the plurality of second memory cells. | 08-01-2013 |
20140063963 | SEMICONDUCTOR MEMORY DEVICE - According to one embodiment, a semiconductor memory device includes a memory core including a memory cell array, and a peripheral circuit configured to transfer data input to a pad unit to the memory core, and transfer data transferred from the memory core to the pad unit. The peripheral circuit includes a first region including a first data bus having a first wiring resistance, and a second region including a second data bus having a second wiring resistance lower than the first wiring resistance. The first region transfers data parallel at a first operating speed, and the second region serially transfers data at a second operating speed higher than the first operating speed. | 03-06-2014 |
20140070295 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device includes a capacitor. | 03-13-2014 |