Patent application number | Description | Published |
20080291753 | Semiconductor memory device and latency signal generating method thereof - A latency signal generating method and a corresponding semiconductor memory device, among other things, are disclosed. Such a method includes: receiving a clock signal for the semiconductor memory device; receiving a mode characterization signal; providing the DQS; and adapting the duration of a preamble state of the DQS according to the mode characterization signal to promote conformance of a strobe state of the DQS with the clock signal. | 11-27-2008 |
20090146850 | TRANSMITTING/RECEIVING METHODS AND SYSTEMS FOR DC BALANCE ENCODED DATA INCLUDING SIMULTANEOUS SWITCHING NOISE REDUCING PREAMBLES - DC balance encoded data is transmitted by transmitting a preamble of dummy data that is configured to provide an intermediate number of bits of a given logic value that is at least one bit of the given logic value but less than a maximum number of bits of the given logic value in the DC balance encoded data, to thereby reduce the simultaneous switching noise that is caused by transmission of a first word of DC balance encoded data. The preamble may contain one or more words of fixed and/or variable dummy data. | 06-11-2009 |
20090267813 | Semiconductor devices, a system including semiconductor devices and methods thereof - Semiconductor devices, a system including said semiconductor devices and methods thereof are provided. An example semiconductor device may receive data scheduled for transmission, scramble an order of bits within the received data, the scrambled order arranged in accordance with a given pseudo-random sequence. The received data may be balanced such that a difference between a first number of the bits within the received data equal to a first logic level and a second number of bits within the received data equal to a second logic level is below a threshold. The balanced and scrambled received data may then be transmitted. The example semiconductor device may perform the scrambling and balancing operations in any order. Likewise, on a receiving end, another semiconductor device may decode the original data by unscrambling and unbalancing the transmitted data. The unscrambling and unbalancing operations may be performed in an order based upon the order in which the transmitted data is scrambled and balanced. | 10-29-2009 |
20100008169 | Latency Control Circuit and Method Thereof and an Auto-Precharge Control Circuit and Method Thereof - A latency control circuit and method thereof and auto-precharge control circuit and method thereof are provided. The example latency control circuit may include a master unit activating at least one master signal based on a reference signal and an internal clock signal and a plurality of slave units receiving the at least one master signal, each of the plurality of slave units receiving a plurality of signals and outputting an output signal based at least in part upon one of the received plurality of signals. The example method of latency control may include receiving at least one master signal, the received at least one master signal activated based on a reference signal and an internal clock signal and receiving a plurality of signals and outputting an output signal based at least in part upon one of the received plurality of signals and latency information. The example auto-precharge control circuit may include a precharge command delay unit generating a plurality of first precharge command delay signals in response to an internal clock signal and a write auto-precharge command signal, at least one bank address delay unit outputting a delayed bank address signal and a precharge main signal generator outputting a precharge main signal to banks based on the delayed bank address signal. The method of performing a precharging operation with the auto-precharge control circuit may include delaying a bank address signal based on a minimum time interval between executed memory commands and outputting a precharge main signal to one or more memory banks based on the delayed bank address signal. | 01-14-2010 |
20100080044 | SEMICONDUCTOR MEMORY DEVICE HAVING BALANCING CAPACITORS - According to some of the inventive concepts, a semiconductor memory device may include a plurality of memory cell blocks including a first memory cell block having bit lines, an edge sense amplifier block including edge sense amplifiers coupled to a portion of the bit lines of the first memory cell block, and a balancing capacitor unit coupled to the edge sense amplifiers. | 04-01-2010 |
20100091601 | CIRCUIT AND METHODS FOR ELIMINATING SKEW BETWEEN SIGNALS IN SEMICODUCTOR INTEGRATED CIRCUIT - A circuit for eliminating a skew between data and a clock signal in an interface between a semiconductor memory device and a memory controller includes an edge information storage unit which stores edge information output from the semiconductor memory device, a pseudo data pattern generating unit which outputs pseudo data including a pattern similar to actually transmitted data, a phase detecting unit which receives the edge information from the edge information storage unit and the pseudo data from the pseudo data pattern generating unit to detect a phase difference between the data and the clock signal and generate a corresponding detection result, and a phase control unit which controls a phase of the clock signal according to the corresponding detection result from the phase detecting unit, so as to eliminate a per-data input/output pin skew in a data write and read operation of the semiconductor memory device. | 04-15-2010 |
20100097870 | SEMICONDUCTOR MEMORY DEVICE FOR CONTROLLING OPERATION OF DELAY-LOCKED LOOP CIRCUIT - A semiconductor memory device for controlling an operation of a delay-locked loop (DLL) circuit is provided. The semiconductor memory device includes a DLL circuit that receives an external clock signal and that performs a locking operation on the external clock signal and an internal clock signal, thereby obtaining a locked state. A control unit controls the DLL circuit to constantly maintain the locked state during an updating period of an auto-refresh period of an auto-refresh operation for refreshing memory banks. | 04-22-2010 |
20100128514 | Semiconductor memory devices having bit lines - A semiconductor device includes a bit line connected to a plurality of memory cells in a memory block and a sense amplifier having a first node connected to the bit line and a second node, which is not connected to any bit line. The second node has a capacitive load less than that of the bit line. The sense amplifier amplifies a first data using a voltage difference between the first node and the second node caused by a charge sharing operation, and a second data using a capacitive mismatch between the first node and the second node. | 05-27-2010 |
20100134175 | Antifuse Circuit Having Protection Circuit - An antifuse circuit includes a protection circuit. The antifuse circuit receives a program voltage using a non-connection (NC) pin or ball of a semiconductor device. The protection circuit prevents an unintended voltage lower than the program voltage from being applied to the antifuse circuit. | 06-03-2010 |
20100195414 | LEVEL DETECTOR, INTERNAL VOLTAGE GENERATOR INCLUDING LEVEL DETECTOR, AND SEMICONDUCTOR MEMORY DEVICE INCLUDING INTERNAL VOLTAGE GENERATOR - A level detector, an internal voltage generator including the level detector, and a semiconductor memory device including the internal voltage generator are provided. The internal voltage generator includes a level detector that compares a threshold voltage that varies with temperature with an internal voltage to output a comparative voltage, and an internal voltage driver that adjusts an external supply voltage in response to the comparative voltage and that outputs an internal voltage. | 08-05-2010 |
20100214861 | Semiconductor memory cell array and semiconductor memory device having the same - A semiconductor memory cell array includes a plurality of bit-lines, a plurality of word-lines, a plurality of memory cells, a plurality of dummy memory cells, a plurality of dummy bit-lines, and a plurality of dummy word-lines. The dummy bit-lines are in outer regions of the bit-lines. The dummy word-lines are in outer regions of the word-lines. The dummy bit-lines are maintained in a floating state. The dummy word-lines retain a turn-off voltage | 08-26-2010 |
20100226192 | Semiconductor memory device having improved local input/output line precharge scheme - A data path circuit of a semiconductor memory device includes: a bit line sense amplifier driven by a first power supply voltage; a local input/output line sense amplifier; a column selecting unit operatively connecting a pair of bit lines connected to the bit line sense amplifier and a pair of local input/output lines connected to the local input/output line sense amplifier in response to a column selection signal; and a local input/output line precharge unit precharging the pair of local input/output lines with a second power supply voltage different from the first power supply voltage during a period for which the column selection signal is in an inactive state. | 09-09-2010 |
20100259426 | TRANSMITTING/RECEIVING METHODS AND SYSTEMS WITH SIMULTANEOUS SWITCHING NOISE REDUCING PREAMBLES - DC balance encoded data is transmitted by transmitting a preamble of dummy data that is configured to provide an intermediate number of bits of a given logic value that is at least one bit of the given logic value but less than a maximum number of bits of the given logic value in the DC balance encoded data, to thereby reduce the simultaneous switching noise that is caused by transmission of a first word of DC balance encoded data. The preamble may contain one or more words of fixed and/or variable dummy data. | 10-14-2010 |
20100271886 | Semiconductor memory device and latency signal generating method thereof - A latency signal generating method and a corresponding semiconductor memory device, among other things, are disclosed. Such a method includes: receiving a clock signal for the semiconductor memory device; receiving a mode characterization signal; providing the DQS; and adapting the duration of a preamble state of the DQS according to the mode characterization signal to promote conformance of a strobe state of the DQS with the clock signal. | 10-28-2010 |
20100284231 | Memory system, memory device, and output data strobe signal generating method - An output data strobe signal generating method and a memory system that includes a plurality of semiconductor memory devices, and a memory controller for controlling the semiconductor memory devices, wherein the memory controller provides a command signal and a chip selecting signal to the semiconductor memory devices. One or more of the semiconductor memory devices may detect a read command and a dummy read command in response to the command signal and the chip selecting signal and generate one or more preamble signals based on a calculated preamble cycle number. | 11-11-2010 |
20100302892 | SEMICONDUCTOR MEMORY DEVICE AND METHOD OF DRIVING THE SAME - A semiconductor memory device is provided. The semiconductor memory device supplies to a sense amplifier a first voltage and a second voltage during data sensing, so that data sensing margin and a data sensing speed increase. | 12-02-2010 |
20110002183 | CIRCUIT PRECHARGING DRAM BIT LINE - A bit line pre-charge circuit for a dynamic random access memory (DRAM) uses a charge sharing scheme. The pre-charge circuit includes switching elements disposed between a power voltage node and an output node, capacitors connected between intermediate nodes and ground. The switching elements being operated by successively activated control signals to effectively charge a bit line pair to one half a power voltage using charge sharing between the capacitors. | 01-06-2011 |
20110044121 | SEMICONDUCTOR MEMORY DEVICE HAVING DEVICE FOR CONTROLLING BIT LINE LOADING AND IMPROVING SENSING EFFICIENCY OF BIT LINE SENSE AMPLIFIER - A semiconductor memory device includes a memory cell array block including a plurality of memory cells each connected to one of a plurality of bit lines and one of a plurality of word lines, a sense amplifier connected to a half of the plurality of bit lines, the sense amplifier for sensing and amplifying a voltage between each of the half of the bit lines and a corresponding complementary bit line; and a dummy block connected to the half of the plurality of bit lines of the memory cell array block, the dummy block for controlling a load on the memory cell array block to be different from a load on the dummy block according to a dummy load signal. | 02-24-2011 |
20110044123 | CIRCUIT AND METHODS FOR ELIMINATING SKEW BETWEEN SIGNALS IN SEMICODUCTOR INTEGRATED CIRCUIT - A circuit for eliminating a skew between data and a clock signal in an interface between a semiconductor memory device and a memory controller includes an edge information storage unit which stores edge information output from the semiconductor memory device, a pseudo data pattern generating unit which outputs pseudo data including a pattern similar to actually transmitted data, a phase detecting unit which receives the edge information from the edge information storage unit and the pseudo data from the pseudo data pattern generating unit to detect a phase difference between the data and the clock signal and generate a corresponding detection result, and a phase control unit which controls a phase of the clock signal according to the corresponding detection result from the phase detecting unit, so as to eliminate a per-data input/output pin skew in a data write and read operation of the semiconductor memory device. | 02-24-2011 |
20110122711 | BITLINE PRECHARGE VOLTAGE GENERATOR, SEMICONDUCTOR MEMORY DEVICE COMPRISING SAME, AND METHOD OF TRIMMING BITLINE PRECHARGE VOLTAGE - A bitline precharge voltage generator comprises a leakage trimming unit and a bitline precharge voltage providing unit. The leakage trimming unit applies a leakage current to an output node to place a bitline precharge voltage at an edge of a dead zone. The bitline precharge voltage providing unit provides the bitline precharge voltage to the output node, and sets the bitline precharge voltage to a target level. The bitline precharge voltage generator generates the bitline precharge voltage having a distribution including the dead zone. | 05-26-2011 |
20110128170 | Semiconductor devices, a system including semiconductor devices and methods thereof - Semiconductor devices, a system including said semiconductor devices and methods thereof are provided. An example semiconductor device may receive data scheduled for transmission, scramble an order of bits within the received data, the scrambled order arranged in accordance with a given pseudo-random sequence. The received data may be balanced such that a difference between a first number of the bits within the received data equal to a first logic level and a second number of bits within the received data equal to a second logic level is below a threshold. The balanced and scrambled received data may then be transmitted. The example semiconductor device may perform the scrambling and balancing operations in any order. Likewise, on a receiving end, another semiconductor device may decode the original data by unscrambling and unbalancing the transmitted data. The unscrambling and unbalancing operations may be performed in an order based upon the order in which the transmitted data is scrambled and balanced. | 06-02-2011 |
20110135030 | Semiconductor device, a parallel interface system and methods thereof - A semiconductor device, a parallel interface system and methods thereof are provided. The example semiconductor device may include a reference clock transmitting block generating a reference clock signal, a plurality of first transceiver blocks, each of the plurality of first transceiver blocks transmitting at least one parallel data bit signal based on one of a plurality of phase-controlled transmitting sampling clock signals and a per-pin deskew block controlling a phase of a transmitting sampling clock signal to generate the phase-controlled sampling clock signals for the respective plurality of transceiver blocks, the per-pin deskew block controlling the phase of each phase-controlled transmitting sampling clock signal based on a phase skew between a given training data bit signal, among a plurality of training data bit signals, corresponding to a given first transceiver block and the reference clock signal in a first operation mode, and based on phase skew information relating to a phase skew between a given parallel data bit signal of the at least one parallel data bit signal and the reference clock signal in a second operation mode. An example method may include reducing skew based on a comparison between a plurality of transmitted training data bit signals and a corresponding plurality of received training data bit signals in a first mode of operation and reducing skew based on received phase skew information relating to a phase skew difference between a reference signal and a parallel data bit signal in a second mode of operation. | 06-09-2011 |
20110199808 | MEMORY DEVICE FROM WHICH DUMMY EDGE MEMORY BLOCK IS REMOVED - A semiconductor memory device having an open bitline memory structure from which an edge dummy memory block is removed, the semiconductor memory device includes a memory block, an edge sense amplification block including a first sense amplifier having a first bitline, a first complementary bitline, and a first amplification circuit comprising a first transistor having a first size, a central sense amplification block including a second sense amplifier having a second bitline, a second complementary bitline, and a second amplification circuit comprising a second transistor having a second size different from the first size, a capacitor block electrically connected to the edge sense amplification block. | 08-18-2011 |
20110205822 | BITLINE SENSE AMPLIFIER, MEMORY CORE INCLUDING THE SAME AND METHOD OF SENSING CHARGE FROM A MEMORY CELL - A bitline sense amplifier includes a pre-sensing unit and an amplification unit. The pre-sensing unit is connected to a first bitline and a second bitline, and is configured to perform a pre-sensing operation by controlling a voltage level of the second bitline based on at least one pre-sensing voltage and variation of a voltage level of the first bitline. The amplification unit is configured to perform a main amplification operation by amplifying a pre-sensed voltage difference based on a first voltage signal and a second voltage signal. The pre-sensed voltage difference indicates a difference between the voltage level of the first bitline and the voltage level of the second bitline after the pre-sensing operation. | 08-25-2011 |
20110208988 | Latency signal generator and method thereof - A latency signal generator and method thereof are provided. The example latency signal generator may include a sampling clock signal generator adjusting a plurality of initial sampling clock signals based on a received clock signal to generate a plurality of adjusted sampling clock signals, a latch enable signal supply unit adjusting a plurality of initial latch enable signals based on a given one of the plurality of initial sampling clock signals to generate a plurality of adjusted latch enable signals and a latch unit including a plurality of latency latches, each of the plurality of latency latches selectively latching a given internal read command based on one of the plurality of adjusted sampling clock signals and one of the plurality of adjusted latch enable signals. | 08-25-2011 |
20110267915 | ANTI-FUSE, ANTI-FUSE CIRCUIT INCLUDING THE SAME, AND METHOD OF FABRICATING THE ANTI-FUSE - Provided are an anti-fuse, an anti-fuse circuit, and a method of fabricating the anti-fuse. The anti-fuse includes a semiconductor substrate, an isolation region, a channel diffusion region, a gate oxide layer, and a gate electrode. The semiconductor substrate includes a top surface and a bottom portion, the bottom portion of the semiconductor substrate having a first conductivity type. The isolation region is disposed inward from the top surface of the semiconductor substrate to a first depth. The channel diffusion region is disposed inward from the top surface of the semiconductor substrate to a second depth, the second depth located at a depth where the channel diffusion region meets an upper boundary of the bottom portion of the semiconductor substrate. The channel diffusion region is surrounded by the isolation region, the first depth is a greater distance from the top surface of the semiconductor substrate than the second depth, and the channel diffusion region has a second conductivity type opposite to the first conductivity type. The gate oxide layer is disposed on the channel diffusion region, and the gate electrode is disposed on the gate oxide layer to cover a top surface of the gate oxide layer. | 11-03-2011 |
20110292708 | 3D SEMICONDUCTOR DEVICE - A three-dimensional (3D) semiconductor device may include a stack of chips, including a master chip and one or more slave chips. I/O connections of slave chips need not be connected to channels on a motherboard, and only electrode pads of a master chip may be connected to the channels. Only the master chip may provide a load to the channels. A through-substrate via (TSV) boundary may be set on a data input path, a data output path, an address/command path, and/or a clock path of a semiconductor device in which the same type of semiconductor chips are stacked. | 12-01-2011 |
20120039140 | FUSE CIRCUIT AND SEMICONDUCTOR MEMORY DEVICE INCLUDING THE SAME - A fuse circuit includes a program unit, a sensing unit and a control unit. The program unit is programmed in response to a program signal, and outputs a program output signal in response to a sensing enable signal. The sensing unit includes a variable resistor unit that has a resistance that varies based on a control signal, and generates a sensing output signal based on the resistance of the variable resistor unit and the program output signal. The control unit generates the control signal having a value changed depending on operation modes, and performs a verification operation with respect to the program unit based on the sensing output signal to generate a verification result. The program unit may be re-programmed based on the verification result. | 02-16-2012 |
20120120733 | SEMICONDUCTOR DEVICE INCLUDING FUSE ARRAY AND METHOD OF OPERATION THE SAME - Provided are a semiconductor device including a fuse and a method of operating the same. The semiconductor device includes a fuse array, a first register unit, and a second register unit. The fuse array includes a plurality of rows and columns. The first register unit receives at least one row of fuse data from the fuse array. Fuse data of the at least one row of fuse data is received in parallel by the first register unit. The second register unit receives the fuse data at least one bit at a time from the first register unit. | 05-17-2012 |
20120218848 | SEMICONDUCTOR MEMORY DEVICE FOR CONTROLLING OPERATION OF DELAY-LOCKED LOOP CIRCUIT - A semiconductor memory device for controlling an operation of a delay-locked loop (DLL) circuit is provided. The semiconductor memory device includes a DLL circuit that receives an external clock signal and that performs a locking operation on the external clock signal and an internal clock signal, thereby obtaining a locked state. A control unit controls the DLL circuit to constantly maintain the locked state during an updating period of an auto-refresh period of an auto-refresh operation for refreshing memory banks. | 08-30-2012 |
20130002217 | LEVEL DETECTOR, INTERNAL VOLTAGE GENERATOR INCLUDING LEVEL DETECTOR, AND SEMICONDUCTOR MEMORY DEVICE INCLUDING INTERNAL VOLTAGE GENERATOR - A level detector, an internal voltage generator including the level detector, and a semiconductor memory device including the internal voltage generator are provided. The internal voltage generator includes a level detector that compares a threshold voltage that varies with temperature with an internal voltage to output a comparative voltage, and an internal voltage driver that adjusts an external supply voltage in response to the comparative voltage and that outputs an internal voltage. | 01-03-2013 |
20130003477 | SEMICONDUCTOR MEMORY DEVICE INCLUDING SPARE ANTIFUSE ARRAY AND ANTIFUSE REPAIR METHOD OF THE SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device including an antifuse cell array and a spare antifuse cell array are provided. An antifuse cell array includes a first set of antifuse cells arranged in a first direction and each one of the first set of antifuse cells is connected to a corresponding one of first through nth word lines. The spare antifuse cell array includes a first spare set of antifuse cells arranged in the first direction and each one of the first spare set of antifuse cells is connected to a corresponding one of first through kth spare word lines. A first operation control circuit is configured to program antifuses of the antifuse cell array and the spare antifuse cell array, and to read a status of each of the antifuses. The first operation control circuit is commonly connected to the first set of antifuse cells and the first spare set of antifuse cells. | 01-03-2013 |
20130003479 | SEMICONDUCTOR MEMORY CELL ARRAY AND SEMICONDUCTOR MEMORY DEVICE HAVING THE SAME - A semiconductor memory cell array includes a plurality of bit-lines, a plurality of word-lines, a plurality of memory cells, a plurality of dummy memory cells, a plurality of dummy bit-lines, and a plurality of dummy word-lines. The dummy bit-lines are in outer regions of the bit-lines. The dummy word-lines are in outer regions of the word-lines. The dummy bit-lines are maintained in a floating state. The dummy word-lines retain a turn-off voltage | 01-03-2013 |
20130033926 | SEMICONDUCTOR MEMORY DEVICE HAVING BALANCING CAPACITORS - A semiconductor memory device includes a plurality of memory cell blocks including a first memory cell block having bit lines, an edge sense amplifier block including edge sense amplifiers coupled to a portion of the bit lines of the first memory cell block, and a balancing capacitor unit coupled to the edge sense amplifiers. | 02-07-2013 |
20130100998 | SEMICONDUCTOR DEVICE, A PARALLEL INTERFACE SYSTEM AND METHODS THEREOF - A method of communication to a semiconductor device includes: transmitting a sampling clock signal from a first semiconductor device to a second semiconductor device; transmitting a training signal from the first semiconductor device to the second semiconductor device while transmitting of the sampling clock signal, the training signal comprising plural test patterns sent sequentially to the second semiconductor device, phases of at least some of the test patterns being adjusted to be different from each other during transmitting of the training signal; receiving first information from the second semiconductor device over a first signal line, the first signal line separate from a data bus connected between the first semiconductor device and the second semiconductor device; and transmitting a data signal over the data bus while transmitting the sampling clock signal, the data signal sent at a timing with respect to the sampling clock signal responsive to the received first information. | 04-25-2013 |
20130113548 | METHODS AND CIRCUITS FOR GENERATING REFERENCE VOLTAGE - A circuit for generating a reference voltage includes a first reference voltage generating circuit disposed outside a chip and a second reference voltage generating circuit disposed inside the chip. The first and second reference voltage generating circuits output first and second reference voltages to first and second output terminals, respectively. The second reference voltage generating circuit includes at least one pull-up resistor and at least one pull-down resistor. The pull-up resistor is coupled between a first node where an internal power supply voltage is coupled and the second output terminal. The pull-down resistor is coupled between a second node and the second output terminal, wherein a voltage at the second node is relatively lower than a voltage at the first node. A third reference voltage is outputted from a node where the first output terminal is coupled to the second output terminal. | 05-09-2013 |
20130135956 | SEMICONDUCTOR DEVICE, A PARALLEL INTERFACE SYSTEM AND METHODS THEREOF - A memory device includes a clock receiving block, a data transceiver block, a phase detection block, and a phase information transmitter. The clock receiving block is configured to receive a clock signal from a memory controller through a clock signal line and generate a data sampling clock signal and an edge sampling clock signal. The data transceiver block is configured to receive a data signal from the memory controller through a data signal line. The phase detection block is configured to generate phase information in response to the data sampling clock signal, the edge sampling clock signal and the data signal. The phase information transmitter is configured to transmit the phase information to the memory controller through a phase information signal line that is separate from the data signal line. | 05-30-2013 |
20130198587 | MEMORY BUFFER PERFORMING ERROR CORRECTION CODING (ECC) - A memory system includes a semiconductor memory device, a memory controller for controlling the semiconductor memory device, and a memory buffer connected between the semiconductor memory device and the memory controller. The memory buffer is configured to perform error correction coding (ECC) on first data that is received from the memory controller to be stored in the semiconductor memory device and to perform ECC on second data read from the semiconductor memory device. | 08-01-2013 |
20130223171 | Semiconductor Device Capable of Rescuing Defective Characteristics Occurring After Packaging - A memory device capable of rescuing defective characteristics that occur after packaging includes a memory cell array including a plurality of memory cells and an antifuse circuit unit including at least one antifuse. The antifuse circuit unit stores a defective cell address of the memory cell array in the at least one antifuse and reads the defective cell address to an external source. The antifuse circuit unit stores a defective characteristic code in the at least one antifuse, wherein the defective characteristic code is related to at least one of a timing parameter spec., a refresh spec., an input/output (I/O) trigger voltage spec., and a data training spec. of the memory device, and outputs the defective characteristic code to an external source. | 08-29-2013 |
20130258748 | FUSE DATA READING CIRCUIT HAVING MULTIPLE READING MODES AND RELATED DEVICES, SYSTEMS AND METHODS - A fuse data reading circuit is configured to read fuse data in multi-reading modes. The fuse data may be stored in a fuse array that includes a plurality of fuse cells configured to store fuse data. The fuse data reading circuit may include a sensing unit configured to sense the fuse data stored in the fuse cells of the fuse array, and a controller configured to control an operation of reading the fuse data stored in the fuse cells. The controller sets different sensing conditions for sensing the fuse data according to an operation period during the fuse data reading operation to read the fuse data. Methods include operations and use of the fuse data reading circuit. | 10-03-2013 |
20130265815 | METHOD OF READING DATA STORED IN FUSE DEVICE AND APPARATUSES USING THE SAME - A method for reading data stored in a fuse device included in a memory device including a memory cell array is provided. The method comprises reading trimming data of the fuse device, wherein the trimming data is related to trimming a level of voltage or a level of current used for an operation of the memory device; and after the reading the trimming data, reading defective cell address data of the fuse device, wherein the defective cell address data is related to defective cells in the memory cell array. | 10-10-2013 |
20130272047 | MEMORY DEVICE FROM WHICH DUMMY EDGE MEMORY BLOCK IS REMOVED - A semiconductor memory device having an open bitline memory structure from which an edge dummy memory block is removed, the semiconductor memory device includes a memory block, an edge sense amplification block including a first sense amplifier having a first bitline, a first complementary bitline, and a first amplification circuit comprising a first transistor having a first size, a central sense amplification block including a second sense amplifier having a second bitline, a second complementary bitline, and a second amplification circuit comprising a second transistor having a second size different from the first size, a capacitor block electrically connected to the edge sense amplification block. | 10-17-2013 |
20130294140 | ANTI-FUSE CIRCUIT IN WHICH ANTI-FUSE CELL DATA IS MONITORED, AND SEMICONDUCTOR DEVICE INCLUDING THE SAME - An anti-fuse circuit in which anti-fuse program data may be monitored outside of the anti-fuse circuit and a semiconductor device including the anti-fuse circuit are disclosed. The anti-fuse circuit includes an anti-fuse array, a data storage circuit, and a first selecting circuit. The anti-fuse array includes one or more anti-fuse blocks including a first anti-fuse block having a plurality of anti-fuse cells and the anti-fuse array is configured to store anti-fuse program data. The data storage circuit is configured to receive and store the anti-fuse program data from the anti-fuse array through one or more data buses. The first selecting circuit is configured to output anti-fuse program data of a selected anti-fuse block of the one or more anti-fuse blocks in response to a first selection signal. | 11-07-2013 |
20140104966 | DATA LOADING CIRCUIT AND SEMICONDUCTOR MEMORY DEVICE COMPRISING SAME - A data loading circuit comprises a non-volatile memory configured to store non-volatile data and output a serial data signal based on the stored non-volatile data in response to a power-up operation, a deserializer configured to receive the serial data signal and output multiple data bits at intervals of a unit period based on the received serial data signal, a load controller configured to generate multiple loading selection signals that are sequentially activated one-by-one at each interval of the unit period, and a loading memory unit configured to sequentially store the data bits at each interval of the unit period in response to the loading selection signals. | 04-17-2014 |
20140233292 | 3D SEMICONDUCTOR DEVICE - A three-dimensional (3D) semiconductor device may include a stack of chips, including a master chip and one or more slave chips. I/O connections of slave chips need not be connected to channels on a motherboard, and only electrode pads of a master chip may be connected to the channels. Only the master chip may provide a load to the channels. A through-substrate via (TSV) boundary may be set on a data input path, a data output path, an address/command path, and/or a clock path of a semiconductor device in which the same type of semiconductor chips are stacked. | 08-21-2014 |