Class / Patent application number | Description | Number of patent applications / Date published |
365189030 | Plural use of terminal | 23 |
20080304333 | SEMICONDUCTOR INTEGRATED CIRCUIT AND METHOD OF ALLOCATING CODES - A semiconductor integrated circuit includes a plurality of terminals, a first latch configured to, upon being uniquely specified by a first predetermined number of bits that are part of a plurality of bits entered through the terminals, store a second predetermined number of bits that are at least part of remaining bits left after excluding the first predetermined number of bits from the plurality of bits, and a second latch configured to, upon being uniquely specified by a third predetermined number of bits that are part of the plurality of bits entered through the terminals, store a fourth predetermined number of bits that are at least part of remaining bits left after excluding the third predetermined number of bits from the plurality of bits, wherein the first predetermined number is different from the third predetermined number, and the second predetermined number is different from the fourth predetermined number. | 12-11-2008 |
20090059680 | Integrated Circuit Memory Devices That Support Selective Mode Register Set Commands - A memory module may include a plurality of memory devices coupled to a memory controller over a same command/address bus. Methods of controlling such a memory module may include providing a mode register set command from the memory controller to each of the integrated circuit memory devices over the command/address bus during a mode register set operation. A disable signal may be provided from the memory controller to a first one of the integrated circuit memory devices over a signal line between the memory controller and the first integrated circuit memory device to thereby disable implementation of the mode register set command for the first integrated circuit memory device during the mode register set operation. An enable signal may be provided from the memory controller to a second one of the integrated circuit memory devices over a signal line between the memory controller and the second integrated circuit memory device to thereby enable implementation of the mode register set command for the second integrated circuit memory device during the mode register set operation. Moreover, the disable signal may not be provided to the second integrated circuit memory device during the mode register set operation, and the enable signal may not be provided to the first integrated circuit memory device during the mode register set operation. Related systems, devices and additional methods are also discussed. | 03-05-2009 |
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 |
20100014360 | Semiconductor device and control method thereof - Disclosed is a memory circuit that includes a plurality of columns of bit line pairs, each bit line pair including True and Bar bit lines, between which at least a memory cell is connected; a sense amplifier that has True and Bar terminals and that performs differential amplification; and a switching circuit that selects one of: a straight connection in which the True and Bar bit lines of a selected column bit line pair are connected to the True and Bar terminals of the sense amplifier, respectively; and a cross connection in which the True and Bar bit lines of a selected column bit line pair are connected to the Bar and True terminals of the sense amplifier, respectively. | 01-21-2010 |
20100118617 | MEMORIES WITH IMPROVED WRITE CURRENT - A memory with improved write current is provided, including a bit line, a write switch and a control circuit. The write switch is coupled between a voltage source and the bit line, and has a control terminal. Based on a bit line select signal, the control circuit controls the electric conductance of the write switch and discharges/charges the parasitic capacitors of the write switch. The voltage source is turned on after the control terminal of the write switch reaches a pre-determined voltage level. | 05-13-2010 |
20100254196 | SEMICONDUCTOR DEVICE TESTING MEMORY CELLS AND TEST METHOD - Disclosed are a semiconductor device capable of testing memory cells and a test method. The semiconductor device includes a plurality of terminals, each terminal being configured to receive similar data during a test mode, a plurality of buffers, each buffer being configured to receive data from a corresponding terminal and output either the data or changed data to a corresponding memory cells in response to a control signal, and a control unit configured to generate a plurality of control signals, each control signal being respectively applied to a corresponding buffer. | 10-07-2010 |
20110194359 | SEMICONDUCTOR DEVICE AND SEMICONDUCTOR MODULE - A semiconductor device according to the present invention performs, when a first word structure is designated, control such that input and output of data is performed from a first data input/output terminal and from a second data input/output terminal in response to a first strobe signal and a second strobe signal. The semiconductor device performs, when a second word structure is designated and when a first control signal is supplied, control such that input and output of data is performed from the first data input/output terminal in response to the first strobe signal. The semiconductor device performs, when the second word structure is designated and when a second control signal is supplied, control such that input and output of data is performed from the second data input/output terminal in response to the second strobe signal. | 08-11-2011 |
20110205811 | SEMICONDUCTOR DEVICE AND METHOD OF CONTROLLING THE SAME - A semiconductor device comprises a board, a first semiconductor storage device placed on the board, and a second semiconductor storage device placed on the board. Each of the first and second semiconductor storage devices has a first pad for inputting a chip enable signal, a second pad for inputting a write enable signal, a third pad for inputting an output enable signal, a fourth pad for inputting an address signal, and a fifth pad for inputting data. The first semiconductor storage device has a sixth pad which is electrically connected to the first pad of the second semiconductor device, and the second semiconductor storage device has a seventh pad which is electrically connected to the first pad of the first semiconductor device. | 08-25-2011 |
20110317495 | MEMORY SYSTEM AND CONTROL METHOD THEREFOR - A memory system includes a plurality of memory devices having data terminals that are commonly connected to a memory controller. Each of the memory devices includes a data output circuit that outputs read data that is read from a memory cell array in response to a read command to the data terminal, and an output-timing adjustment circuit that adjusts an output timing of read data that is output from the data output circuit. The memory controller sets an adjustment amount of adjustment performed by an output-timing adjustment circuit such that delay times from when the read command is issued until when the read data is received match in the memory devices, by issuing a setting command to each of the memory devices. | 12-29-2011 |
20120063240 | MEMORY SYSTEM SUPPORTING INPUT/OUTPUT PATH SWAP - A memory system includes a controller having first and second input/output terminals, and first and second memory devices each having first and second input/output terminals. The system includes a path selection mechanism for selectively employing one of the first and second terminals of either the controller or the first memory device for communicating a first input/output signal between the controller and the first memory device, and employing the other one of the first and second terminals for communicating a second input/output signal between the controller and the first memory device. The path selection mechanism selectively employs the first and second terminals in accordance with data indicating which of the first and second terminals of the first memory device is connected to the first terminal of the controller and which of the first and second terminals of the first memory device is connected to the second terminal of the controller. | 03-15-2012 |
20120092937 | Method and System for A Serial Peripheral Interface - A method for dual I/O data read in an integrated circuit which includes a serial peripheral interface memory device. In an embodiment, the memory device includes a clock signal, a plurality of pins, and a configuration register. In an embodiment, the configuration register includes a wait cycle count. The method includes transmitting a read address to the memory device using a first input/output pin and a second input/output pin concurrently. In an embodiment, the read address includes at least a first address bit and a second address bit, the first address bit being transmitted using the first input/output pin, and the second address bit being transmitted using the second input/output pin. The method includes accessing the memory device for data associated with the address and waiting a predetermined number clock cycles associated with the wait cycle count. The method includes transferring the data from the memory device using the first input/output pin and the second input/output pin concurrently. | 04-19-2012 |
20120099384 | SEMICONDUCTOR DEVICE - A semiconductor memory has main bit lines paralleled by fixed potential lines in an alternating arrangement. Each main bit line is switchably connected to two sub-bit lines. The memory cells connected to one of the two sub-bit lines are placed below the main bit line. The memory cells connected to the other one of the two sub-bit lines are placed below an adjacent fixed potential line. The fixed potential lines prevent parasitic capacitive coupling between the main bit lines and thereby speed up read access to the memory cells without taking up extra layout space. | 04-26-2012 |
20120195131 | MEMORY REGISTER ENCODING APPARATUS AND METHODS - Apparatus, systems, and methods are disclosed that operate to encode register bits to generate encoded bits such that, for pairs of addresses, an encoded bit to be coupled to a first address in a memory device may be exchanged with an encoded bit to be coupled to a second address in the memory device. Apparatus, systems, and methods are disclosed that operate to invert encoded bits in logic circuits in the memory device if original bits were inverted. Additional apparatus, systems, and methods are disclosed. | 08-02-2012 |
20120300555 | INTEGRATED CIRCUIT MEMORY DEVICE - A semiconductor memory device includes a plurality of memory regions formed on one chip, each of the memory regions having a plurality of volatile memory cells that are formed with a density or capacity of 2̂K bits, where K is an integer greater than or equal to 0, and a plurality of input/output (I/O) terminals for inputting and outputting data of the volatile memory cells, and at least one peripheral region that controls a write operation for writing data into the memory regions and a read operation for reading data from the memory regions based on a command and an address input from outside. Thus, a total or entire density of the memory regions corresponds to a non-standard (or ‘interim’) density so that the semiconductor memory device may have an interim density. | 11-29-2012 |
20120320686 | SEMICONDUCTOR MEMORY DEVICE, INFORMATION PROCESSING SYSTEM INCLUDING THE SAME, AND CONTROLLER - A system including a controller and a memory chip. The controller includes first and second selection signal terminals supplying first and second selection signals, respectively, multiple first data terminals and multiple second data terminals. The memory chip includes a semiconductor substrate, third and fourth selection signal terminals provided on the semiconductor substrate and electrically coupled to the first and second selection signal terminals of the controller, respectively. Multiple third data terminals are provided on the semiconductor substrate and electrically coupled to the first data terminals of the controller, respectively. Multiple fourth data terminals are provided on the semiconductor substrate and electrically coupled to the second data terminals of the controller, respectively. The first and third data terminals communicate first data in response to the first selection signal. The second and fourth data terminals communicate second data in response to the second selection signal. | 12-20-2012 |
20130088925 | LAYOUT OF MEMORY CELLS - A semiconductor structure includes a first strap cell, a first read port, and a first VSS terminal. The first strap cell has a first strap cell VSS region. The first read port has a first read port VSS region, a first read port read bit line region, and a first read port poly region. The first VSS terminal is configured to electrically couple the first strap cell VSS region and the first read port VSS region. | 04-11-2013 |
20130279270 | MEMORY SYSTEM AND CONTROL METHOD THEREFOR - A memory system includes a plurality of memory devices having data terminals that are commonly connected to a memory controller. Each of the memory devices includes a data output circuit that outputs read data that is read from a memory cell array in response to a read command to the data terminal, and an output-timing adjustment circuit that adjusts an output timing of read data that is output from the data output circuit. The memory controller sets an adjustment amount of adjustment performed by an output-timing adjustment circuit such that delay times from when the read command is issued until when the read data is received match in the memory devices, by issuing a setting command to each of the memory devices. | 10-24-2013 |
20130286750 | MEMORY SYSTEM AND CONTROL METHOD THEREFOR - A memory system includes a plurality of memory devices having data terminals that are commonly connected to a memory controller. Each of the memory devices includes a data output circuit that outputs read data that is read from a memory cell array in response to a read command to the data terminal, and an output-timing adjustment circuit that adjusts an output timing of read data that is output from the data output circuit. The memory controller sets an adjustment amount of adjustment performed by an output-timing adjustment circuit such that delay times from when the read command is issued until when the read data is received match in the memory devices, by issuing a setting command to each of the memory devices. | 10-31-2013 |
20140078834 | SEMICONDUCTOR MEMORY DEVICE AND INFORMATION PROCESSING APPARATUS - A semiconductor memory device includes an address decoder to decode an address specifying pseudo-multiport cells in memory blocks, a first word line driver to output a word line selection signal selecting one of word lines of one of the pseudo-multiport cells based on a row address in the address, and a second word line driver having an output part to output the word line selection signal into one of a pair of the word lines of the pseudo-multiport cell, and a NOR logic part to output NOR of the word line selection signal and a read/write selection signal into the other one of the pair of the word lines, the read/write selection signal selecting writing or reading operations. The second word line driver activates the pair of the word lines for writing data, and activates one of the pair of the word lines for reading data. | 03-20-2014 |
20140126300 | Semiconductor Memory Device, Information Processing System Including the Same, and Controller - To include first and second data input/output terminals allocated to first and second memory circuit units, respectively, and an address terminal allocated in common to these memory circuit units. When a first chip selection signal is activated, the first memory circuit unit performs a read operation or a write operation via the first data input/output terminal based on an address signal regardless of an operation of the second memory circuit unit. When a second chip selection signal is activated, the second memory circuit unit performs a read operation or a write operation via the second data input/output terminal based on the address signal regardless of an operation of the first memory circuit unit. With this configuration, a wasteful data transfer can be prevented, and the effective data transfer rate can be increased. | 05-08-2014 |
20140177345 | SEMICONDUCTOR DEVICE - To provide a semiconductor device that has a novel structure and achieves a higher degree of convenience, the semiconductor device is configured to include a memory cell that stores binary data or multilevel data, and a reading circuit that reads the data stored in the memory cell and transfers the data to the outside. The reading circuit includes a first reading circuit for reading binary data and a second reading circuit for reading multilevel data. | 06-26-2014 |
20140286107 | Memory System and Control Method Therefor - A memory system includes a plurality of memory devices having data terminals that are commonly connected to a memory controller. Each of the memory devices includes a data output circuit that outputs read data that is read from a memory cell array in response to a read command to the data terminal, and an output-timing adjustment circuit that adjusts an output timing of read data that is output from the data output circuit. The memory controller sets an adjustment amount of adjustment performed by an output-timing adjustment circuit such that delay times from when the read command is issued until when the read data is received match in the memory devices, by issuing a setting command to each of the memory devices. | 09-25-2014 |
20140301148 | SEMICONDUCTOR MEMORY APPARATUS AND OPERATION METHOD USING THE SAME - A semiconductor memory apparatus includes a command processing block configured to generate a voltage generation start signal, a first write control signal, a second write control signal, a read signal, and an operation signal in response to a first control signal and a second control signal in a write operation, and a memory control block configured to electrically couple a memory block, which stores data, to a sense amplifier or apply a predetermined voltage to the memory block in response to the voltage generation start signal, the first write control signal, the second write control signal, the read signal, and the operation signal. | 10-09-2014 |