Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: 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 uni

Abstract: A receiver circuit is described herein, comprising a first data determining unit configured to detect and amplify a voltage level difference between first and second external data and generate first and second sense signals and to generate first internal data in response to the first and second sense signals, a first offset control unit configured to generate first and second offset signals in response to the first and second sense signals, the first and second offset signals swinging between a maximum voltage level and a minimum voltage level determined based on a first code, a second data determining unit configured to detect and amplify the voltage level difference between the first and second external data to generate third and fourth sense signals and to generate second internal data in response to the third and fourth sense signals; and a second offset control unit for generating third and fourth offset signals in response to the third and fourth sense signals, the third and fourth offset signals swingi

Abstract: 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.

Abstract: 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.

Abstract: 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.