| Patent application number | Description | Published |
|---|
| 20090121701 | BANDGAP REFERENCE GENERATING CIRCUIT - A bandgap reference generating circuit includes an operational amplifier configured to generate a bandgap reference voltage; and a gain controller configured to control a gain of the operational amplifier with different values in a normal mode and a low power mode. | 05-14-2009 |
| 20090128208 | APPARATUS AND METHOD FOR DETECTING DUTY RATIO OF SIGNALS IN SEMICONDUCTOR DEVICE CIRCUIT - Apparatus for detecting duty ratio of signals in semiconductor device circuit includes a circuit for detecting a duty ratio of signals in a semiconductor device includes a comparing unit which compares a duty cycle of first and second input clock signals input differentially and generates a first output signal and a second output signal, a latching unit which stores the first and second output signals and generates a detected signal corresponding to the first and second output signals, and an adjusting unit which receives the first and the second output signals, and transmits the first and the second output signals to the latching unit based on a voltage level difference of the first and second output signals. | 05-21-2009 |
| 20090168944 | LOW PASS FILTER AND LOCK DETECTOR CIRCUIT - A low pass filter includes a driver unit configured to output a voltage proportional to an input pulse width, a charge/discharge unit configured to charge the output voltage of the driver unit, a comparator unit configured to compare an output voltage of the charge/discharge unit with a reference value to output a square wave signal, and a switching unit configured to switch the charge/discharge unit to an operation state, based on a bandwidth expansion signal. | 07-02-2009 |
| 20090175116 | CLOCK SYNCHRONIZATION CIRCUIT AND OPERATION METHOD THEREOF - A semiconductor memory device with a clock synchronization circuit capable of performing a desired phase/frequency locking operation, without the jitter peaking phenomenon and the pattern jitter of an oscillation control voltage signal using injection locking. The device includes a phase-locked loop that detects a phase/frequency difference between a feedback clock signal and a reference clock signal to generate an oscillation control voltage signal corresponding to the detected phase/frequency difference, and generates the feedback clock signal corresponding to the oscillation control voltage signal. An injection locking oscillation unit sets up a free running frequency in response to the oscillation control voltage signal and generates an internal clock signal which is synchronized with the reference clock signal. | 07-09-2009 |
| 20090256610 | Quadrature phase correction circuit - A quadrature phase correction circuit includes an N-bit code counter configured to generate an N-bit code value according to a detected phase difference when a quadrature phase correction is carried out; a storage configured to store N-bit code values according to a plurality of detected phase differences; and a controller configured to share the N-bit code counter, control the generation of the N-bit code values according to the plurality of detected phase differences, and control the storing of the N-bit code values in an allocated space of the storage. | 10-15-2009 |
| 20090278577 | SEMICONDUCTOR DEVICE INCLUDING PHASE DETECTOR - A semiconductor device including an edge synchronizer which outputs a synchronized strobe signal generated by synchronizing a transition time point of a strobe signal with clock edges of a main clock or a sub clock, a detector which outputs a phase determination signal indicating a phase difference between the main clock and the sub clock in response to the synchronized strobe signal, and a duty ratio corrector which adjusts a duty ratio of the main clock and the sub clock in response to the phase determination signal. | 11-12-2009 |
| 20090302891 | OUTPUT DRIVER - There is provided an output driver, which includes a pre-driver configured to generate a main driving control signal in response to a data signal, a main driver configured to drive an output terminal in response to the main driving control signal, an auxiliary driving control signal generator configured to generate an auxiliary driving control signal having an activation interval corresponding to the data signal and an interval control signal, and an auxiliary driver configured to drive the output terminal in response to the auxiliary driving control signal. | 12-10-2009 |
| 20090322394 | RING OSCILLATOR AND MULTI-PHASE CLOCK CORRECTION CIRCUIT USING THE SAME - A ring oscillator including a plurality of buffer units, each of which has a cross-coupled structure, for generating clock signals using a bias voltage having a predetermined voltage level applied thereto, wherein the clock signals have a swing width corresponding to the bias voltage. | 12-31-2009 |
| 20090322399 | CLOCK GENERATING CIRCUIT AND CLOCK GENERATING METHOD THEREOF - A clock generating circuit, including a pulse generating unit to generate a plurality of pulse signals based on a reference clock, the pulse signals each having the same period, a phase difference between the adjacent pulse signals being a first phase difference; and a multi-phase clock generating unit to generate a plurality of multi-phase clocks, a phase difference between the adjacent multi-phase clocks being equal to a second phase difference between pulse signals of a pulse signal pair, based on a plurality of unit-phase clock generating units receiving the pulse signal pairs. | 12-31-2009 |
| 20100007375 | TERMINATION RESISTANCE CIRCUIT - A termination resistance circuit includes a control signal generator for generating a control signal whose logical value changes when a calibration code has a predetermined value, a plurality of parallel resistors which are respectively turned on/off in response to the calibration code, and a resistance value changing unit for changing the total resistance value of the termination resistance circuit in response to the control signal. | 01-14-2010 |
| 20100013535 | LATCH CIRCUIT - A latch circuit includes a data input/output unit configured to form a current path through a first node in response to an input data to output an output data, a holding unit configured to form a current path through a second node in response to the output data to store the output data, and a clock input unit coupled to the first and second nodes in parallel in response to a clock. | 01-21-2010 |
| 20100237922 | CLOCK GENERATING CIRCUIT AND CLOCK GENERATING METHOD THEREOF - A clock generating circuit, including a pulse generating unit to generate a plurality of pulse signals based on a reference clock, the pulse signals each having the same period, a phase difference between the adjacent pulse signals being a first phase difference; and a multi-phase clock generating unit to generate a plurality of multi-phase clocks, a phase difference between the adjacent multi-phase clocks being equal to a second phase difference between pulse signals of a pulse signal pair, based on a plurality of unit-phase clock generating units receiving the pulse signal pairs. | 09-23-2010 |
| 20110121860 | SEMICONDUCTOR DEVICE - A semiconductor device includes a swing level shifting unit configured to use a first power supply voltage as a power supply voltage, receive a CML clock swinging around a first voltage level, and shift a swing reference voltage level of the CML clock to a second voltage level lower than the first voltage level, and a CML clock transfer buffering unit configured to use a second power supply voltage as a power supply voltage and buffer the CML clock, which is transferred from the swing level shifting unit and swings around the second voltage level. | 05-26-2011 |
| 20110140768 | INTERNAL VOLTAGE GENERATOR - An internal voltage generator includes: a detection unit configured to detect a level of an internal voltage in comparison to a reference voltage; a first driving unit configured to discharge an internal voltage terminal, through which the internal voltage is outputted, in response to an output signal of the detection unit; a current detection unit configured to detect a discharge current flowing through the first driving unit; and a second driving unit configured to charge the internal voltage terminal in response to an output signal of the current detection unit. | 06-16-2011 |
