| Patent application number | Description | Published |
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| 20100165770 | SEMICONDUCTOR MEMORY DEVICE - A memory includes memory cells, wherein during a first write operation in which first logical data is written in all memory cells connected to a first word line, a source line driver and a word line driver, the source line driver shifts a voltage of a selected source line corresponding to the first word line in a direction away from the voltage of the first word line and the word line driver shifts a voltage of a second word line in a same direction as a transition direction of voltage of a selected source line, and during a second write operation in which second logical data is written in a selected cell connected to the first word line, the source line driver and the word line driver shift voltages of the selected source line and the second word line in a direction approaching the voltage of the first word line. | 07-01-2010 |
| 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 |
| 20100238740 | SEMICONDUCTOR MEMORY DEVICE AND DRIVING METHOD OF THE SAME - A memory includes a first and a second bit lines (BL); a first and a second sense nodes (SN); a first transfer gate between the 1 | 09-23-2010 |
| 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 |
| 20110133792 | BUFFER CIRCUIT - A buffer circuit in accordance with an embodiment comprises output transistors connected between a first fixed voltage terminal and an output terminal, and gate control transistors connected between a second fixed voltage terminal and a gate of one of the output transistors or between two of gates of the output transistors. The output transistors are configured to turn on to change a voltage of the output terminal. The gate control transistors are configured to apply a gate voltage to the gates of the output transistors. A gate of each of the gate control transistors is applied with a certain voltage, such that when a source of each of the gate control transistors changes from a first potential to a second potential, a potential difference between the gate and the source attains a threshold voltage or greater, whereby each of the gate control transistors is turned on. | 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 |
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| 20080202085 | GAS-LIQUID SEPARATION SYSTEM AND FUEL CELL SYSTEM - A gas-liquid separation system includes a housing at which a gas inlet and a gas outlet are provided; a separation pipe contained in the housing; a separation membrane provided in the separation pipe; and a pump configured to inject a gas into the housing through the gas inlet from an outside of the housing to the gas outlet. | 08-28-2008 |
| 20080206620 | GAS-LIQUID SEPARATION SYSTEM AND FUEL CELL SYSTEM - A gas-liquid separation system includes a gas-liquid separator configured to separate a gas-liquid mixed fluid into a gas and a liquid; a fuel tank connected to the gas-liquid separator; a bag disposed in the fuel tank; a pressurization pump configured to apply a pressure into the bag; and a pressure control unit configured to control an inner pressure of the gas-liquid separator by controlling a discharge pressure of the pressurization pump. | 08-28-2008 |
| 20080241622 | ELECTRONIC APPLIANCE AND FUEL CELL UNIT - A fuel cell unit is attachable to a main unit of an electronic appliance having an air-inhaling inlet for inhaling open air for cooling internal components and an area where no air-inhaling inlet is formed, and includes: a fuel cell that generates water upon power generation and supplies power to the electronic appliance; and a vapor exhaust outlet for exhausting vapor containing the generated water at a position lower, in a posture in general use, to the area of the main unit where no air-inhaling inlet is formed. | 10-02-2008 |
| 20090081488 | FUEL CELL - A fuel cell includes: a membrane electrode assembly containing an anode and a cathode which are disposed opposite to one another via an electrolytic membrane; an anode channel plate adjacent to the anode and supplying a prescribed fuel to the anode; and a cathode channel plate adjacent to the cathode, supplying air to the cathode and containing a platy member which is elongated in a direction different from a supplying direction of the air to the cathode. | 03-26-2009 |
| 20100248080 | FUEL COLLECTION DEVICE - A fuel collection device detachably attached a fuel cell, the fuel cell having: a power generation unit generating power by chemically reacting a fuel; a fuel flow path supplying the fuel to the power generation unit; and a circulation pump circulating the fuel in the fuel flow path, the fuel collection device includes: a collection tank connected to the fuel flow path, and collecting the fuel in the fuel flow path by driving the circulation pump; and an air supplier connected to the fuel cell, and supplying an air to the power generation unit. | 09-30-2010 |
