Patent application number | Description | Published |
20080252341 | CLOCK SIGNAL DISTRIBUTION CIRCUIT AND INTERFACE APPARATUS USING THE SAME - A clock signal distribution circuit comprises a voltage control and distribution circuit configured to change a delay of a received clock signal in response to a control voltage and to generate a distributed clock signal, and control voltage generation circuit configured to generate the control voltage using a phase difference between received data and the distributed clock signal. | 10-16-2008 |
20090002040 | DLL CIRCUIT OF SEMICONDUCTOR MEMORY APPARATUS - A DLL circuit for a semiconductor memory apparatus includes a delay line having a coarse delay chain, which has a plurality of coarse delayers connected in series and is inputted with a reference clock signal, and a plurality of fine delayers which receive output clock signals of the respective coarse delayers, and a delay control section for comparing phases of an output clock signal of a final coarse delayer among the coarse delayers with the reference clock signal and generating coarse control signals for controlling the coarse delayers and for comparing phases of an output clock signal of a fine delayer inputted with the output clock signals of the final coarse delayer, as a fine feedback clock signal, with the reference clock signal and generating fine control signals for controlling the fine delayers. | 01-01-2009 |
20090041154 | APPARATUS FOR TRANSMITTING SIGNAL IN SEMICONDUCTOR INTEGRATED CIRCUIT - An apparatus for transmitting a signal in a semiconductor integrated circuit includes a multilevel transmission control block that outputs a plurality of bits of an input signal in serial or parallel according to whether a multilevel transmission operation is performed or not, and a signal processing block that selectively performs the multilevel transmission operation according to a form of the input signal, which are output in serial or parallel from the multilevel transmission control block. | 02-12-2009 |
20090041172 | PHASE DETECTION CIRCUIT - A phase detection circuit includes a phase frequency detector for comparing a first input signal and a second input signal and outputting a first phase comparison signal and a second phase comparison signal, and a sensing circuit for sensing a pulse width difference between the first phase comparison signal and the second phase comparison signal and outputting phase detection signals which have different logic values. | 02-12-2009 |
20090045862 | CLOCK GENERATING CIRCUIT OF SEMICONDUCTOR MEMORY APPARATUS - A clock generating circuit of a semiconductor memory apparatus includes a phase splitter that delays a clock to generate a delayed clock and inverts the clock to generate an inverted clock, and a clock buffer that buffers the delayed clock and the inverted clock and outputs a rising clock and a falling clock. | 02-19-2009 |
20090058476 | RECEIVER CIRCUIT FOR USE IN A SEMICONDUCTOR INTEGRATED CIRCUIT - A receiver circuit for sensing and transmitting input data in sync with a plurality of clock signals having mutually different phase sequentially enabled comprising a sense amplifier configured to receive, as offset voltages, first signals which can be obtained by amplifying the input data in sync with a first clock signal of the plurality of clock signals, being driven in sync with a second clock signal enabled subsequently to the first clock signal, and outputting second signals, and a discharging controller configured to control a discharging speed of the sense amplifier according to the offset voltages to control a driven speed of the sense amplifier. | 03-05-2009 |
20090060083 | RECEIVER CIRCUIT - A receiver circuit includes a voltage controller configured to output an offset voltage varied according to a control code; and a multilevel receiving block configured to be controlled by the offset voltage and to amplify and output input data signal having multilevels. | 03-05-2009 |
20090067278 | DATA OUTPUT CIRCUIT FOR SEMICONDUCTOR MEMORY APPARATUS - A data output circuit for a semiconductor memory apparatus includes a driver control signal generating unit that has a plurality of control signal generating units, each of which generates a driver unit control signal in response to a test signal during a test, and generates the driver unit control signal according to whether or not a fuse is cut after the test is completed, a first driver that has a plurality of driver units, each of which is activated in response to the driver unit control signal to drive a first data signal as an input signal and to output the driven first data signal to an output node, a signal combining unit that generates a first driver control signal in response to the driver unit control signal and an enable signal, and a second driver that has a plurality of driver units, each of which is activated in response to the first driver control signal to drive a second data signal as an input signal and to output the driven second data signal to the output node, and the number of driver units being two or more times as much as the number of driver units in the first driver. A voltage level on the output node is the voltage level of an output signal. | 03-12-2009 |
20090092215 | DATA RELAY APPARATUS AND SEMICONDUCTOR INTEGRATED CIRCUIT HAVING THE SAME - A data relay apparatus according to one embodiment described herein can include a phase detection unit that can detect a phase difference between a clock output from a transmitter and a clock output from a receiver, and generate a plurality of phase detection signals, a data relay control unit that can distinguish a difference in clock timing between the clocks of the transmitter and the receiver in response to the plurality of phase detection signals, and output a relay data selection signal and a relay control clock, and a data relay unit that can transmit data output from the receiver to the transmitter in response to the relay data selection signal and the relay control clock. | 04-09-2009 |
20090097608 | PHASE DETECTING CIRCUIT AND CLOCK GENERATING APPARATUS INCLUDING THE SAME - A phase detecting circuit includes a first node that outputs a pull-up control signal, a second node that outputs a pull-down control signal, an initializing unit that initializes voltage levels of the first and second nodes in response to a pre-charge signal, a data input unit to which receives a receiver data, a phase comparison unit that compares a phase of a receiver clock and a phase of the receiver data input to the data input unit to control the voltage levels of the first and second nodes, and a charging/discharging unit that charges or discharges electric charges that are applied to the first and second nodes. | 04-16-2009 |
20090116596 | LOW POWER, HIGH SPEED RECEIVER CIRCUIT FOR USE IN A SEMICONDUCTOR INTEGRATED CIRCUIT - A receiver circuit according to the invention includes a first phase transmission unit that is synchronized with a first clock, detects input data according to a plurality of detection levels, and transmits a first output signal, a first discharging control unit that controls a second phase transmission unit in response to the first output signal and adjusts the transmission speed of the second phase transmission unit by changing a node potential where an output of the second phase transmission is determined, and the second phase transmission unit that is synchronized with a second clock, detects the input data according to an output of the first discharging control unit, and transmits a second output signal. | 05-07-2009 |
20090121786 | SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated circuit can include a first voltage pad, a second voltage pad, and a voltage stabilizing unit that is connected between the first voltage pad and the second voltage pad. The first voltage pad can be connected to a first internal circuit, and the second voltage pad can be connected to a second internal circuit. | 05-14-2009 |
20090128192 | DATA RECEIVER OF SEMICONDUCTOR INTEGRATED CIRCUIT AND METHOD FOR CONTROLLING THE SAME - A data receiver of a semiconductor integrated circuit includes an amplifier that outputs an amplified signal by detecting and amplifying received data using equalization function according to feedback data, a detecting unit that detects a period when data is not received in the amplifier and outputs a detecting signal, and an equalization function control unit that stops the equalization function of the amplifier in response to the detecting signal. | 05-21-2009 |
20090128200 | RECEIVER CIRCUIT OF SEMICONDUCTOR MEMORY APPARATUS - A receiver circuit capable of controlling setup/hold time includes a first phase transmission unit configured to generate a first output signal by detecting input data according to plural detection levels while being synchronized with a first clock signal, and controlling setup/hold time of the first output signal based on a level of a first offset voltage, a level converter configured to control a voltage level of the first output signal according to a first code, and a second phase transmission unit configured to receive an output signal of the level converter for as a second offset voltage while being synchronized with a second clock signal, to generate a second output signal by detecting the input data according to the detection levels, and to control setup/hold time of the second output signal. | 05-21-2009 |
20090128214 | DATA RECEIVER OF SEMICONDUCTOR INTEGRATED CIRCUIT - A data receiver includes a plurality of amplifiers for receiving data in response to clock signals having a predetermined phase difference, and amplifying the received data by performing an equalization function based on feedback data, thereby outputting amplification signals, and a plurality of latches for latching output of the amplifiers, respectively. One amplifier receives the amplification signal, as feedback data, from another amplifier receiving a clock signal having a phase more advanced than a phase of a clock signal received in the one amplifier. | 05-21-2009 |
20090129459 | DATA RECEIVER OF SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated circuit equipped with an equalizer which has a circuit structure simpler than that of a related equalizer according to an FFE scheme or a DFE scheme and is capable of preventing a noise component from being amplified. The data receiver includes a plurality of receiver units, wherein each receiver unit includes a plurality of level detectors which detect different levels, and an encoder, in which the level detectors receive data according to a clock signal having a predetermined phase difference and perform an amplification operation including an equalization function based on feedback data, thereby outputting an amplification signal, and wherein level detectors of one receiver unit receive an amplification signal, as the feedback data, from level detectors of another receiver unit that receives a first clock signal having a phase more advanced than a phase of a second clock signal received in one receiver unit. | 05-21-2009 |
20090146700 | DUTY RATIO CORRECTION CIRCUIT - A duty ratio correction circuit including a reference clock generation block configured to generate first and second reference clocks that synchronize with rising and falling edges of an external clock and have a primarily corrected duty ratio, and a duty ratio adjustment block for generating first and second internal clocks in response to the first and second reference clocks, and secondarily correcting a duty ratio of the first and second reference clocks by adjusting phases of the first and second reference clocks by means of plural digital control signals generated according to phase difference between the first and second internal clocks. | 06-11-2009 |
20090149142 | RECEIVER CIRCUIT - A receiver circuit is capable of improving its operating characteristics. The receiver circuit includes a variable converter configured to output off-set control voltages in a first output range in a first operation mode and output the off-set control voltages in a second output range in a second operation mode according to a test mode activation signal, and a sense amplifier configured to sense input data based on a sensitivity, wherein the sensitivity is controlled by the off-set control voltages. | 06-11-2009 |
20100090726 | DATA RECEIVER OF SEMICONDUCTOR INTEGRATED CIRCUIT - A data receiver of a semiconductor integrated circuit is configured to detect received data using an equalization function, wherein the data receiver is configured to stop the equalization function during a period in which the data is not received. | 04-15-2010 |
20100277209 | SIGNAL RECEIVER CIRCUIT CAPABLE OF IMPROVING AREA AND POWER EFFICIENCY IN SEMICONDUCTOR INTEGRATED CIRCUITS - A signal receiver circuit includes a first level detector for offset-controlling a first output node in response to a pair of first reference signals. A second level detector offset-controls a second output node in response to a pair of second reference signals. | 11-04-2010 |