Abstract: A clock generation circuit includes a delay line, a delay modeling block, a phase detection block, a multi-update signal generation block, and a delay line. The delay line delays an input clock and generates a delayed clock. The delay modeling block delays the delayed clock by a modeled delay value and generates a feedback clock. The phase detection block compares phases of the input clock and the feedback clock and generates phase information, and quantizes a phase difference between the input clock and the feedback clock and generates phase codes. The multi-update signal generation block generates a multi-update signal in response to the phase codes. The delay line control block changes a delay amount of the delay line in response to the multi-update signal and the phase information.

Abstract: A delay circuit includes a clock delay line, a command delay line, a delay line control block, and a shared shift register block. The clock delay line delays an input clock and generates a delayed clock. The command delay line delays a command signal and generates a delayed command signal. The delay line control block generates a control signal according to a result of comparing phases of a feedback clock which is generated as the delayed clock is delayed by a modeled delay value and the input clock. The shared shift register block sets delay amounts of the clock delay line and the command delay line to be substantially the same with each other, in response to the control signal.

Abstract: A reset signal generation apparatus includes a reset signal generation unit and a reset signal expansion unit. The reset signal generation unit enables a reset signal and an enable signal in response to a reset input signal, and disables the reset signal in response to a pulse width extension signal. The reset signal expansion unit generates the pulse width extension signal that is enabled for a predetermined time, in response to the enable signal.

Abstract: A clock generation circuit includes a delay line, which delays an input clock and generates a delayed clock, a delay modeling unit, which delays the delayed clock by a modeled delay value and generates a feedback clock, a phase detection unit, which compares phases of the input clock and the feedback clock and generates a phase detection signal, a filter unit, which receives the phase detection signal and generates phase information, generates an update signal when a difference between the numbers of phase detection signals with a first and a second level generated is greater than or equal to a threshold value, and generates the update signal after a lapse of a predetermined time when the difference is less than the threshold value, and a delay line control unit, which sets a delay value of the delay line in response to the update signal and the phase information.

Abstract: An integrated circuit includes a delay locked loop configured to delay a reference clock signal by a delay time for delay locking and generate a delay locked clock signal, a clock transmission circuit configured to transmit the delay locked clock signal in response to a clock transmission signal, a duty correction circuit configured to perform duty correction operation on an output clock signal of the clock transmission circuit, and a clock transmission signal generation circuit configured to generate the clock transmission signal in response to a command and burst length information.

Abstract: A semiconductor integrated circuit includes: a delay locked loop (DLL) configured to generate a DLL clock signal by delaying a source clock signal by a first delay time for obtaining a lock, wherein an update period of the DLL is controlled in response to an update period control signal after locking is completed; and an update period controller configured to generate the update period control signal based on a second delay time occurring in a loop path of the DLL in response to the source clock signal and a plurality of control signals provided from the DLL.

Abstract: 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.

Abstract: 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.

Abstract: A semiconductor integrated circuit includes: a delay locked loop (DLL) configured to generate a DLL clock signal by delaying a source clock signal by a first delay time for obtaining a lock, wherein an update period of the DLL is controlled in response to an update period control signal after locking is completed; and an update period controller configured to generate the update period control signal based on a second delay time occurring in a loop path of the DLL in response to the source clock signal and a plurality of control signals provided from the DLL.

Abstract: A phase locked loop includes a phase detector configured to compare a phase of an input clock with a phase of a feedback clock to produce a phase comparison result, an initial frequency value provider configured to detect a frequency of the input clock and provide a frequency detection result, a controller configured to generate a frequency control signal based on the phase comparison result and the frequency detection result, and an oscillator configured to generate an output clock in response to the frequency control signal.

Abstract: A system for transmitting data includes a plurality of data lines configured to transmit the data and a transmitting chip configured to output the data to the data lines and perform a crosstalk prevention operation in response to a data pattern of the data to be transmitted through the data lines and array information of the data lines to prevent crosstalk from occurring in the data lines.

Abstract: An on-die termination circuit includes a reference period signal generation circuit that generates a reference period signal according to a level of a reference voltage, a first period signal generation circuit that generates a first period signal according to a voltage level of a pad, a period comparison circuit that compares a period of the first period signal with a period of the reference period signal and count a plurality of driving signals, and a driver circuit that drives the pad in response to the plurality of driving signals.

Abstract: A clock signal duty correction circuit includes: a first transition timing control unit configured to generate a first control signal for controlling a rising timing of a duty correction clock signal by using a clock signal; a second transition timing control unit configured to generate a second control signal for varying a falling timing of the duty correction clock signal by using the clock signal according to a code signal; and a differential buffer unit configured to generate the duty correction clock signal, whose rising time or falling time is adjusted, in response to the first control signal and the second control signal.

Abstract: An internal control signal regulation circuit includes a programming test unit configured to detect an internal control signal in response to an external control signal and generate a selection signal, test codes and a programming enable signal; and a code processing unit configured to receive the test codes or programming codes in response to the selection signal and regulate the internal control signal.

Abstract: 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.

Abstract: A delay locked loop includes a delay unit delaying an input clock to generate an output clock, a replica delay unit delaying the output clock to generate a feedback clock, a phase comparing unit outputting a phase signal having a first or second value according to whether the phase of the feedback clock leads the phase of the input clock, a filtering unit generates a filtering signal in response to the phase signal and updates the filtering signal when a difference of count numbers of the phase signal having the first value and the second value is substantially equal to a filtering depth, a locking unit generates a locking signal in response to the filtering signal, and a control unit adjusts a delay value in response to the filtering signal and maintains the delay value when the locking signal is activated.

Abstract: 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.

Abstract: An on-die termination circuit includes a reference period signal generation circuit that generates a reference period signal according to a level of a reference voltage, a first period signal generation circuit that generates a first period signal according to a voltage level of a pad, a period comparison circuit that compares a period of the first period signal with a period of the reference period signal and count a plurality of driving signals, and a driver circuit that drives the pad in response to the plurality of driving signals.

Abstract: A DLL circuit includes a common delay line configured to generate a delay locked clock by selectively delaying a source clock by one or more unit delays in response to a first delay control code or a second delay control code, a clock cycle detector configured to compare a phase of the source clock with a phase of the delay locked clock in a cycle detection mode and generate the first delay control code corresponding to a delay amount of a cycle of the source clock based on a result of comparing the phases of the source and delay locked clocks, a feedback delay configured to delay the delay locked clock and output a feedback clock, and a delay amount controller configured to compare the phase of the source clock with a phase of the feedback clock in a delay locking mode and change the second delay control code based on a result of comparing the source and feedback clocks.

Abstract: A delay locked loop includes a delay unit delaying an input clock to generate an output clock, a replica delay unit delaying the output clock to generate a feedback clock, a phase comparing unit outputting a phase signal having a first or second value according to whether the phase of the feedback clock leads the phase of the input clock, a filtering unit generates a filtering signal in response to the phase signal and updates the filtering signal when a difference of count numbers of the phase signal having the first value and the second value is substantially equal to a filtering depth, a locking unit generates a locking signal in response to the filtering signal, and a control unit adjusts a delay value in response to the filtering signal and maintains the delay value when the locking signal is activated.