Patent application number | Description | Published |
20090116306 | DELAY LOCKED LOOP CIRCUIT OF SEMICONDUCTOR DEVICE - A semiconductor memory device includes a delay locked loop circuit that can control input/output timing of data according to a system clock of a high frequency. The semiconductor memory device includes a phase comparator configured to detect a phase difference between an internal clock and a reference clock to output a state signal having a pulse width corresponding to the detected phase difference, a phase adjuster configured to generate a digital code for determining a delay time corresponding to the state signal for locking a phase of the internal clock, a digital-to-analog converter configured to convert the digital code to an analog voltage, and a multiphase delay signal generator configured to delay the internal clock according to a bias voltage corresponding to the analog voltage to feed back the delayed internal clock as the internal clock and generate multiphase delay signals. | 05-07-2009 |
20090147883 | DATA TRANSMITTER - Data transmitter includes a first and second output nodes terminated to a first level, a controller configured to generate an off signal that is activated by logically combining first and second data during a low-power mode, a first driver configured to drive the first or second output node to a second level in response to the first data and a second driver configured to drive the first or second output node to the second level with a driving force different from that of the first driver in response to the second data, the second driver being turned off when the off signal is activated. | 06-11-2009 |
20090243667 | OUTPUT DRIVING DEVICE - An output driving device capable of improving a slew rate is provided. The output driving device includes a push-pull type driving unit configured with a pull-up PMOS transistor and a pull-down NMOS transistor, wherein body biases of the pull-up PMOS transistor and the pull-down NMOS transistor are controlled for control of a slew rate of an output signal of the driving unit. | 10-01-2009 |
20090267579 | VOLTAGE REGULATOR - A voltage regulator with an adaptive bandwidth, including a first buffer chain, a voltage generating unit, a trimming capacitor unit, a second buffer chain, and a control unit. The first buffer chain delays a clock signal using an external voltage as a supply voltage. The voltage generating unit generates a regulated voltage on the basis a reference voltage. The trimming capacitor unit controls a load capacitance of the voltage generating unit. The second buffer chain delays the clock signal using the regulated voltage as a supply voltage. The control unit adjusts the load capacitance by detecting a delay difference of clocks output from the first and second buffer chains. | 10-29-2009 |
20090273995 | APPARATUS FOR REMOVING CROSSTALK IN SEMICONDUCTOR MEMORY DEVICE - An apparatus for removing crosstalk in a semiconductor memory device includes pads for receiving externally provided signals, transmission lines for delivering the signals received by each of the pads to corresponding elements in the apparatus, and capacitors, coupled between adjacent ones of the lines, for adjusting the transmission delay of the signals depending on a signal transmission mode between the adjacent lines. | 11-05-2009 |
20090302965 | SEMICONDUCTOR DEVICE - A semiconductor device includes transmission lines for conveying signals and transition detectors, each of which checks whether a transmission signal on each of the plurality of transmission lines is transited. If the signal is transited, its transition shape is detected. A signal mode determining unit determines signal transmission modes between adjacent transmission lines in response to output signals from the plurality of transition detectors. Delay units are coupled to the respective transmission lines for adjusting transmission delays of the transmission signals depending on corresponding output signal from the signal mode determining units. | 12-10-2009 |
20100034033 | RECEIVER OF SEMICONDUCTOR MEMORY APPARATUS - A receiver of a semiconductor memory apparatus includes a first input transistor configured to be turned ON when an input signal is equal to or more than a predetermined level; a second input transistor configured to be turned ON when the input signal is equal to or less than the predetermined level; a first output node voltage control unit configured to increase a voltage level of an output node when the first input transistor is turned ON; a second output node voltage control unit configured to decrease the voltage level of the output node when the second input transistor is turned ON; a third input transistor configured to increase the voltage level of the output node when an inversion signal of the input signal is equal to or less than the predetermined voltage level; and a fourth input transistor configured to decrease the voltage level of the output node when the inversion signal of the input signal is equal to or more than the predetermined voltage level. | 02-11-2010 |
20100039140 | BUFFER CIRCUIT OF SEMICONDUCTOR MEMORY APPARATUS - A buffer circuit of a semiconductor memory apparatus includes a buffering section configured to increase or decrease a voltage level of an output node by comparing a voltage level of an input signal with a voltage level of a reference voltage. A voltage compensation section applies a voltage to the output node in proportion to a variation of the reference voltage when the level of the reference voltage is lower than a target level. | 02-18-2010 |
20100039142 | INPUT BUFFER CIRCUIT OF SEMICONDUCTOR APPARATUS - The input buffer circuit of a semiconductor apparatus includes a first buffering unit that that is activated by a voltage level difference between a first voltage terminal and a second voltage terminal, and generates a first compare signal and a second compare signal by comparing the voltage levels of reference voltage and an input signal; a control unit that controls the amount of current flowing between the second voltage terminal and a ground terminal by comparing the voltage levels of the reference voltage and the second compare signal; and a second buffering unit that generates an output signal by comparing the voltage levels of the input signal and the first compare signal. | 02-18-2010 |
20100044872 | SEMICONDUCTOR MEMORY DEVICE HAVING PADS - A semiconductor memory device includes a semiconductor circuit substrate having a chip pad forming region. A pair of data lines are formed on the semiconductor circuit substrate at one side of the chip pad region. The pair of data lines extend along a direction that the chip pad region of the semiconductor circuit substrate extends. The pair of data lines are arranged to be adjacent to each other and receive a pair of differential data signals. A power supply line is formed on the semiconductor circuit substrate at the other side of the chip pad region. The power supply line extends along the direction that the chip pad region of the semiconductor circuit substrate extends, and the power supply line receives power. | 02-25-2010 |
20100117696 | DLL CIRCUIT, UPDATE CONTROL APPARATUS IN DLL CIRCUIT AND UPDATE METHOD OF DLL CIRCUIT - A delay locked loop (DLL) circuit includes a phase detection unit configured to generate a phase detection signal by comparing a phase of a reference clock signal with a phase of a feedback clock signal. An update control apparatus is configured to generate a valid interval signal and an update control signal by determining a difference between the number of first logical values and the number of second logical values of the phase detection signal in response to the reference clock signal. A shift register configured to update a delay value granted to a delay line in response to the update control signal when the valid interval signal is enabled. | 05-13-2010 |
20100148833 | DOMAIN CROSSING CIRCUIT OF A SEMICONDUCTOR MEMORY APPARATUS - The domain crossing circuit of a semiconductor memory apparatus for improving a timing margin includes a sampler that provides a sampling internal signal generated by delaying an internal input signal by a predetermined time in response to a clock and an edge information signal that defines an output timing of the sampling internal signal and an output stage that allows the sampling internal signal to be synchronized with the clock in response to the edge information signal to be output as a final output signal. | 06-17-2010 |
20100164567 | INTERNAL SUPPLY VOLTAGE GENERATING CIRCUIT AND METHOD FOR GENERATING INTERNAL SUPPLY VOLTAGE - An internal supply voltage generating circuit includes a clock comparator configured to compare a first clock signal having clock information corresponding to a level of a reference voltage with a second clock signal having clock information corresponding to a level of an internal supply voltage, a control signal generator configured to generate a driving control voltage having a voltage level corresponding to an output signal of the clock comparator; and a driver configured to drive a terminal of the internal supply voltage in response to the driving control voltage. | 07-01-2010 |
20100164568 | LOW POWER VARIABLE DELAY CIRCUIT - A variable delay circuit includes at least a fixed delay unit, a first selection unit, and variable delay unit. The fixed delay unit receives an input signal and a first delay selection signal indicative of a first delay, and outputs a first delayed signal that is substantially the input signal delayed by the first delay. The first selection unit receives the input signal, the first delayed signal, and a second delay selection signal, and outputs either the input signal or the first delayed signal based on the second delay selection signal to the variable delay unit. The variable delay unit also receives a third delay selection signal indicative of a third delay, and outputs a output signal that is substantially the output signal of the selection unit delayed by a third delay. The first delay is 0 or X multiples of M delay units. The third delay is a delay selected from 0 to N delay units. | 07-01-2010 |
20100164571 | PHASE MIXER AND DELAY LOCKED LOOP INCLUDING THE SAME - A phase mixer includes a phase mixing unit configured to mix a phase of a first input signal and a phase of a second input signal in response to a phase control signal and output a phase mixed signal whose phase is varied by one or more units of a unit phase value, and a phase value adjusting unit configured to control an operation of the phrase mixing unit so that the unit phase value is adjusted in response to a code signal coding at least one of a process, voltage, or temperature (PVT) variation. | 07-01-2010 |
20100250994 | DATA PATTERN DETECTING CIRCUIT AND OUTPUT DRIVER INCLUDING THE SAME - Disclosed is an output driver capable of solving problems that occur when outputting the same data successively by using a data pattern detecting circuit. The data pattern detecting circuit includes a first data storage unit configured to receive data of a first line and store the received data until a next data is inputted through the first line, a second data storage unit configured to receive data of a second line and store the received data until a next data is inputted through the second line, and a detection signal output unit configured to activate a pattern detection signal when data stored in the first data storage unit and data stored in the second data storage unit have the same logic level. | 09-30-2010 |
20100301912 | DELAY LOCKED LOOP AND DELAY LOCKING METHOD HAVING BURST TRACKING SCHEME - A Delay Locked Loop (DLL) includes a replica delay unit configured to delay an output clock to generate a feedback clock; a phase detector configured to measure a phase difference between the feedback clock and an input clock; a quantization unit configured to quantize the phase difference measured by the phase detector; and a delay unit configured to delay the input clock based on a quantization result from the quantization unit to generate the output clock. | 12-02-2010 |
20100309732 | DATA ALIGNMENT CIRCUIT OF SEMICONDUCTOR MEMORY APPARATUS - A data alignment circuit of a semiconductor memory apparatus for receiving and aligning parallel data group includes a first control unit, a second control unit, a first alignment unit and a second alignment unit. The first alignment unit generates a first control signal group in response to an address group, a clock signal, and a latency signal. The second control unit generates a second control signal group in response to the address group, the clock signal, and the latency signal. The first alignment unit aligns the parallel data group as a first serial data group in response to the first control signal group. The second alignment unit aligns the parallel data group as a second serial data group in response to the second control signal group. | 12-09-2010 |
20100315139 | SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device is able to generate an output enable signal in response to a read command and CAS latency information. The semiconductor memory device includes a delay locked loop configured to detect a phase difference of an external clock signal and a feedback clock signal, generate a delay control signal corresponding to the detected phase difference, and generate a DLL clock signal by delaying the external clock signal for a time corresponding to the delay control signal, a delay configured to output an active signal as an output enable reset signal in response to the delay control signal and an output enable signal generator configured to be reset in response to the output enable reset signal and generate an output enable signal in response to a read signal and a CAS latency signal by counting the external clock signal and the DLL clock signal. | 12-16-2010 |
20110001533 | SAMPLING CIRCUIT - A sampling circuit for use in a semiconductor device, includes a first sampling unit configured to sample a data signal in synchronism with a reference clock signal and output a first output signal, a second sampling unit configured to sample a delayed data signal in synchronism with the reference clock signal and output a second output signal, and an output unit configured to combine the first and second output signals and output a sampling data signal. | 01-06-2011 |
20110058433 | LATENCY CONTROL CIRCUIT, SEMICONDUCTOR MEMORY DEVICE INCLUDING THE SAME, AND METHOD FOR CONTROLLING LATENCY - A latency control circuit includes a path calculator configured to calculate a delay value of a path that an input signal is to go through inside a chip and output the delay value as path information, a delay value calculator configured to output delay information representing a delay value for delaying the input signal based on a latency value of the input signal and the path information, and a delayer configured to delay the input signal by a delay corresponding to the delay information. | 03-10-2011 |
20110128043 | OUTPUT DRIVER - An output driver of a semiconductor device includes driving transistors and a body bias providing unit. The driving transistors are coupled in parallel and configured to drive an output terminal. The body bias providing unit is configured to supply the driving transistors with respective body biases of at least two levels. | 06-02-2011 |
20110156772 | INTERFACE APPARATUS FOR SEMICONDUCTOR INTEGRATED CIRCUIT AND INTERFACING METHOD THEREOF - An interface apparatus for a semiconductor integrated circuit and an interfacing method thereof controls the VOX of differential signals to a target level in response to the differential signals being outputted by an output block. The interface apparatus for a semiconductor integrated circuit includes an output block configured to output differential signals output by an internal circuit a detector configured to detect a timing error of the differential signals; and a controller configured to control a timing of the differential signals output by the internal circuit according to a detection result of the detector. | 06-30-2011 |
20120008422 | SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR OPERATING THE SAME - A semiconductor memory device includes a memory bank configured to output stored data in response to a column selection signal, a plurality of data latching units configured to latch the data outputted from the memory bank in response to an input control signal which is generated according to the column selection signal, and output the latched data in response to an output control signal, a time measurement unit configured to measure a time from an activation of the input control signal to an activation of the output control signal and generate a delay control signal, and an activation control unit configured to control an activation time of the column selection signal in response to the delay control signal. | 01-12-2012 |
20120161859 | INTERNAL SUPPLY VOLTAGE GENERATING CIRCUIT AND METHOD FOR GENERATING INTERNAL SUPPLY VOLTAGE - An internal supply voltage generating circuit includes a clock comparator configured to compare a first clock signal having clock information corresponding to a level of a reference voltage with a second clock signal having clock information corresponding to a level of an internal supply voltage, a control signal generator configured to generate a driving control voltage having a voltage level corresponding to an output signal of the clock comparator, and a driver configured to drive a terminal of the internal supply voltage in response to the driving control voltage. | 06-28-2012 |
20130076401 | INPUT BUFFER CIRCUIT OF SEMICONDUCTOR APPARATUS - The input buffer circuit of a semiconductor apparatus includes a first buffering unit that that is activated by a voltage level difference between a first voltage terminal and a second voltage terminal, and generates a first compare signal and a second compare signal by comparing the voltage levels of reference voltage and an input signal; a control unit that controls the amount of current flowing between the second voltage terminal and a ground terminal by comparing the voltage levels of the reference voltage and the second compare signal; and a second buffering unit that generates an output signal by comparing the voltage levels of the input signal and the first compare signal. | 03-28-2013 |
20130099837 | PHASE MIXER AND DELAY LOCKED LOOP INCLUDING THE SAME - A phase mixer includes a first driver configured to drive a first input signal to a mixing node with a driving force determined by a first setting value, a second driver configured to drive a second input signal to the mixing node with a driving force determined by a second setting value, and a slew rate control unit configured to control a slew rate at the mixing node. | 04-25-2013 |
20130235682 | SEMICONDUCTOR APPARATUS - A semiconductor apparatus including an equalizing unit configured to equalize voltages of a bit line and a bit bar line in response to an equalization signal; a precharge circuit unit configured to supply a voltage to the bit line and the bit bar line in response to first and second precharge signals; and a control unit configured to receive the equalization signal, and generate the equalization signal as the first and second precharge signals according to a control signal. | 09-12-2013 |
20130294185 | SENSE AMPLIFIER CIRCUIT AND SEMICONDUCTOR DEVICE USING THE SAME - A sense amplifier circuit includes an enable signal generation unit configured to generate an enable signal when a change in a voltage level of input signals is sensed; a sink unit configured to provide a sense voltage in response to the enable signal; and a sense unit configured to generate an output signal in response to the sense voltage and the input signals. | 11-07-2013 |
20140029359 | SENSE AMPLIFIER CIRCUIT AND MEMORY DEVICE INCLUDING THE SAME - A sense amplifier circuit includes a first pull-up transistor configured to pull-up drive a data bar line in response to a voltage of a data line, a first pull-down transistor configured to pull-down drive the data bar line in response to the voltage of the data line, and to receive the voltage of the data line through a back gate of the first pull-down transistor, a second pull-up transistor configured to pull-up drive the data line in response to a voltage of the data bar line, and a second pull-down transistor configured to pull-down drive the data line in response to the voltage of the data bar line, and to receive the voltage of the data bar line through a back gate of the second pull-down transistor. | 01-30-2014 |
20140312971 | DIFFERENTIAL AMPLIFIER CIRCUIT - A differential amplifier circuit includes a differential amplification unit suitable for amplifying difference between signals of an input terminal and a complementary input terminal, receiving the same voltage level through the input terminal and the complementary input terminal at a measurement period, and receiving an input signal and a complementary input signal through the input terminal and the complementary input terminal, respectively, at an operation period, an offset control unit suitable for generating offset information using an output of the differential amplification unit at the measurement period, and an offset compensation unit suitable for compensating for an offset of the differential amplification unit in response to the offset information. | 10-23-2014 |
20150076614 | SEMICONDUCTOR MEMORY DEVICE HAVING PADS - A semiconductor memory device includes a semiconductor circuit substrate having a chip pad forming region. A pair of data lines are formed on the semiconductor circuit substrate at one side of the chip pad region. The pair of data lines extend along a direction that the chip pad region of the semiconductor circuit substrate extends. The pair of data lines are arranged to be adjacent to each other and receive a pair of differential data signals. A power supply line is formed on the semiconductor circuit substrate at the other side of the chip pad region. The power supply line extends along the direction that the chip pad region of the semiconductor circuit substrate extends, and the power supply line receives power. | 03-19-2015 |
20150076703 | SEMICONDUCTOR MEMORY DEVICE HAVING PADS - A semiconductor memory device includes a semiconductor circuit substrate having a chip pad forming region. A pair of data lines are formed on the semiconductor circuit substrate at one side of the chip pad region. The pair of data lines extend along a direction that the chip pad region of the semiconductor circuit substrate extends. The pair of data lines are arranged to be adjacent to each other and receive a pair of differential data signals. A power supply line is formed on the semiconductor circuit substrate at the other side of the chip pad region. The power supply line extends along the direction that the chip pad region of the semiconductor circuit substrate extends, and the power supply line receives power. | 03-19-2015 |